/* * 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) */ using System.Text; namespace Iveonik.Stemmers { public class StemmerOperations { // // current string protected StringBuilder current; protected int cursor; protected int limit; protected int limit_backward; protected int bra; protected int ket; protected StemmerOperations() { current = new StringBuilder(); setCurrent(""); } // /** // * Set the current string. // */ protected void setCurrent(string value) { // current.replace(0, current.length(), value); //current=current.Replace(current.ToString(), value); //current = StringBufferReplace(0, current.Length, current, value); //current = StringBufferReplace(0, value.Length, current, value); current.Remove(0, current.Length); current.Append(value); cursor = 0; limit = current.Length; limit_backward = 0; bra = cursor; ket = limit; } // /** // * Get the current string. // */ protected string getCurrent() { string result = current.ToString(); // Make a new StringBuffer. If we reuse the old one, and a user of // the library keeps a reference to the buffer returned (for example, // by converting it to a String in a way which doesn't force a copy), // the buffer size will not decrease, and we will risk wasting a large // amount of memory. // Thanks to Wolfram Esser for spotting this problem. //current = new StringBuilder(); return result; } protected void copy_from(StemmerOperations other) { current = other.current; cursor = other.cursor; limit = other.limit; limit_backward = other.limit_backward; bra = other.bra; ket = other.ket; } protected bool in_grouping(char[] s, int min, int max) { if (cursor >= limit) return false; // char ch = current.charAt(cursor); int ch = current[cursor]; if (ch > max || ch < min) return false; // ch -= min; ch -= min; if ((s[ch >> 3] & (0X1 << (ch & 0X7))) == 0) return false; cursor++; return true; } protected bool in_grouping_b(char[] s, int min, int max) { if (cursor <= limit_backward) return false; // char ch = current.charAt(cursor - 1); int ch = (int)current[cursor - 1]; if (ch > max || ch < min) return false; ch -= min; if ((s[ch >> 3] & (0X1 << (ch & 0X7))) == 0) return false; cursor--; return true; } protected bool out_grouping(char[] s, int min, int max) { if (cursor >= limit) return false; // char ch = current.charAt(cursor); int ch = current[cursor]; if (ch > max || ch < min) { cursor++; return true; } ch -= min; if ((s[ch >> 3] & (0X1 << (ch & 0X7))) == 0) { cursor++; return true; } return false; } protected bool out_grouping_b(char[] s, int min, int max) { if (cursor <= limit_backward) return false; // char ch = current.charAt(cursor - 1); int ch = (int)current[cursor - 1]; if (ch > max || ch < min) { cursor--; return true; } ch -= min; if ((s[ch >> 3] & (0X1 << (ch & 0X7))) == 0) { cursor--; return true; } return false; } protected bool in_range(int min, int max) { if (cursor >= limit) return false; // char ch = current.charAt(cursor); int ch = (int)current[cursor]; if (ch > max || ch < min) return false; cursor++; return true; } protected bool in_range_b(int min, int max) { if (cursor <= limit_backward) return false; // char ch = current.charAt(cursor - 1); int ch = (int)current[cursor - 1]; if (ch > max || ch < min) return false; cursor--; return true; } protected bool out_range(int min, int max) { if (cursor >= limit) return false; // char ch = current.charAt(cursor); int ch = (int)current[cursor]; if (!(ch > max || ch < min)) return false; cursor++; return true; } protected bool out_range_b(int min, int max) { if (cursor <= limit_backward) return false; // char ch = current.charAt(cursor - 1); int ch = (int)current[cursor - 1]; if (!(ch > max || ch < min)) return false; cursor--; return true; } protected bool eq_s(int s_size, string s) { if (limit - cursor < s_size) return false; int i; for (i = 0; i != s_size; i++) { if (current[cursor + i] != s[i]) return false; // if (current[cursor + i] != s[i]) return false; } cursor += s_size; return true; } protected bool eq_s_b(int s_size, string s) { if (cursor - limit_backward < s_size) return false; int i; for (i = 0; i != s_size; i++) { // if (current.charAt(cursor - s_size + i) != s.charAt(i)) return false; if (current[cursor - s_size + i] != s[i]) return false; } cursor -= s_size; return true; } protected bool eq_v(StringBuilder s) { return eq_s(s.Length, s.ToString()); } protected bool eq_v_b(StringBuilder s) { return eq_s_b(s.Length, s.ToString()); } internal int find_among(Among[] v, int v_size) { int i = 0; int j = v_size; int c = cursor; int l = limit; int common_i = 0; int common_j = 0; bool first_key_inspected = false; while (true) { int k = i + ((j - i) >> 1); int diff = 0; int common = common_i < common_j ? common_i : common_j; // smaller Among w = v[k]; int i2; for (i2 = common; i2 < w.s_size; i2++) { if (c + common == l) { diff = -1; break; } diff = current[c + common] - w.s[i2]; if (diff != 0) break; common++; } if (diff < 0) { j = k; common_j = common; } else { i = k; common_i = common; } if (j - i <= 1) { if (i > 0) break; // v->s has been inspected if (j == i) break; // only one item in v // - but now we need to go round once more to get // v->s inspected. This looks messy, but is actually // the optimal approach. if (first_key_inspected) break; first_key_inspected = true; } } while (true) { Among w = v[i]; if (common_i >= w.s_size) { cursor = c + w.s_size; if (w.method == null) return w.result; //bool res; //try //{ // Object resobj = w.method.invoke(w.methodobject,new Object[0]); // res = resobj.toString().equals("true"); //} //catch (InvocationTargetException e) //{ // res = false; // // FIXME - debug message //} //catch (IllegalAccessException e) //{ // res = false; //// FIXME - debug message //} //cursor = c + w.s_size; //if (res) return w.result; } i = w.substring_i; if (i < 0) return 0; } } // // find_among_b is for backwards processing. Same comments apply internal int find_among_b(Among[] v, int v_size) { int i = 0; int j = v_size; int c = cursor; int lb = limit_backward; int common_i = 0; int common_j = 0; bool first_key_inspected = false; while (true) { int k = i + ((j - i) >> 1); int diff = 0; int common = common_i < common_j ? common_i : common_j; Among w = v[k]; int i2; for (i2 = w.s_size - 1 - common; i2 >= 0; i2--) { if (c - common == lb) { diff = -1; break; } // diff = current.charAt(c - 1 - common) - w.s[i2]; diff = current[c - 1 - common] - w.s[i2]; if (diff != 0) break; common++; } if (diff < 0) { j = k; common_j = common; } else { i = k; common_i = common; } if (j - i <= 1) { if (i > 0) break; if (j == i) break; if (first_key_inspected) break; first_key_inspected = true; } } while (true) { Among w = v[i]; if (common_i >= w.s_size) { cursor = c - w.s_size; if (w.method == null) return w.result; //boolean res; //try //{ // Object resobj = w.method.invoke(w.methodobject, // new Object[0]); // res = resobj.toString().equals("true"); // } //catch (InvocationTargetException e) //{ // res = false; // // FIXME - debug message // } //catch (IllegalAccessException e) //{ // res = false; // // FIXME - debug message // } //cursor = c - w.s_size; //if (res) return w.result; } i = w.substring_i; if (i < 0) return 0; } } // /* to replace chars between c_bra and c_ket in current by the // * chars in s. // */ protected int replace_s(int c_bra, int c_ket, string s) { int adjustment = s.Length - (c_ket - c_bra); // current.replace(c_bra, c_ket, s); current = StringBufferReplace(c_bra, c_ket, current, s); limit += adjustment; if (cursor >= c_ket) cursor += adjustment; else if (cursor > c_bra) cursor = c_bra; return adjustment; } private StringBuilder StringBufferReplace(int start, int end, StringBuilder s, string s1) { StringBuilder sb = new StringBuilder(); for (int i = 0; i < start; i++) { sb.Insert(sb.Length, s[i]); } // for (int i = 1; i < end - start + 1; i++) // { sb.Insert(sb.Length, s1); // } for (int i = end; i < s.Length; i++) { sb.Insert(sb.Length, s[i]); } return sb; //string temp = s.ToString(); //temp = temp.Substring(start - 1, end - start + 1); //s = s.Replace(temp, s1, start - 1, end - start + 1); //return s; } protected void slice_check() { if (bra < 0 || bra > ket || ket > limit || limit > current.Length) // this line could be removed { //System.err.println("faulty slice operation"); // FIXME: report error somehow. /* fprintf(stderr, "faulty slice operation:\n"); debug(z, -1, 0); exit(1); */ } } protected void slice_from(string s) { slice_check(); replace_s(bra, ket, s); } protected void slice_from(StringBuilder s) { slice_from(s.ToString()); } protected void slice_del() { slice_from(""); } protected void insert(int c_bra, int c_ket, string s) { int adjustment = replace_s(c_bra, c_ket, s); if (c_bra <= bra) bra += adjustment; if (c_bra <= ket) ket += adjustment; } protected void insert(int c_bra, int c_ket, StringBuilder s) { insert(c_bra, c_ket, s.ToString()); } // /* Copy the slice into the supplied StringBuffer */ protected StringBuilder slice_to(StringBuilder s) { slice_check(); int len = ket - bra; // s.replace(0, s.length(), current.substring(bra, ket)); // int lengh = string.IsNullOrEmpty(s.ToString())!= true ? s.Length : 0; // if (ket == current.Length) ket--; //string ss = current.ToString().Substring(bra, len); //StringBufferReplace(0, s.Length, s, ss); //return s; return StringBufferReplace(0, s.Length, s, current.ToString().Substring(bra, len)); // return StringBufferReplace(0, lengh, s, current.ToString().Substring(bra, ket)); // return s; } // /* Copy the slice into the supplied StringBuilder */ //protected StringBuilder slice_to(StringBuilder s) //{ // slice_check(); // int len = ket - bra; // s.replace(0, s.length(), current.substring(bra, ket)); // return s; //} protected StringBuilder assign_to(StringBuilder s) { //s.replace(0, s.length(), current.substring(0, limit)); //return s; return StringBufferReplace(0, s.Length, s, current.ToString().Substring(0, limit)); } // protected StringBuilder assign_to(StringBuilder s) // { // s.replace(0, s.length(), current.substring(0, limit)); // return s; // } ///* //extern void debug(struct SN_env * z, int number, int line_count) //{ int i; // int limit = SIZE(z->p); // //if (number >= 0) printf("%3d (line %4d): '", number, line_count); // if (number >= 0) printf("%3d (line %4d): [%d]'", number, line_count,limit); // for (i = 0; i <= limit; i++) // { if (z->lb == i) printf("{"); // if (z->bra == i) printf("["); // if (z->c == i) printf("|"); // if (z->ket == i) printf("]"); // if (z->l == i) printf("}"); // if (i < limit) // { int ch = z->p[i]; // if (ch == 0) ch = '#'; // printf("%c", ch); // } // } // printf("'\n"); //} //*/ //}; ///////////////////////////// METHODS FOR CZECH STEMMER AGRESSIVE ////////////////////////////////// protected void removeDerivational() { int len = current.Length; if ((len > 8) && current.ToString().Substring(len - 6, 6).Equals("obinec")) { current = current.Remove(len - 6, 6); return; }//len >8 if (len > 7) { if (current.ToString().Substring(len - 5, 5).Equals("ion\u00e1\u0159")) { // -ionář current = current.Remove(len - 4, 4); palatalise(); return; } if (current.ToString().Substring(len - 5, 5).Equals("ovisk") || current.ToString().Substring(len - 5, 5).Equals("ovstv") || current.ToString().Substring(len - 5, 5).Equals("ovi\u0161t") || //-ovišt current.ToString().Substring(len - 5, 5).Equals("ovn\u00edk")) { //-ovník current = current.Remove(len - 5, 5); return; } }//len>7 if (len > 6) { if (current.ToString().Substring(len - 4, 4).Equals("\u00e1sek") || // -ásek current.ToString().Substring(len - 4, 4).Equals("loun") || current.ToString().Substring(len - 4, 4).Equals("nost") || current.ToString().Substring(len - 4, 4).Equals("teln") || current.ToString().Substring(len - 4, 4).Equals("ovec") || current.ToString().Substring(len - 5, 5).Equals("ov\u00edk") || //-ovík current.ToString().Substring(len - 4, 4).Equals("ovtv") || current.ToString().Substring(len - 4, 4).Equals("ovin") || current.ToString().Substring(len - 4, 4).Equals("\u0161tin")) { //-štin current = current.Remove(len - 4, 4); return; } if (current.ToString().Substring(len - 4, 4).Equals("enic") || current.ToString().Substring(len - 4, 4).Equals("inec") || current.ToString().Substring(len - 4, 4).Equals("itel")) { current = current.Remove(len - 3, 3); palatalise(); return; } }//len>6 if (len > 5) { if (current.ToString().Substring(len - 3, 3).Equals("\u00e1rn")) { //-árn current = current.Remove(len - 3, 3); return; } if (current.ToString().Substring(len - 3, 3).Equals("\u011bnk")) { //-ěnk current = current.Remove(len - 2, 2); palatalise(); return; } if (current.ToString().Substring(len - 3, 3).Equals("i\u00e1n") || //-ián current.ToString().Substring(len - 3, 3).Equals("ist") || current.ToString().Substring(len - 3, 3).Equals("isk") || current.ToString().Substring(len - 3, 3).Equals("i\u0161t") || //-išt current.ToString().Substring(len - 3, 3).Equals("itb") || current.ToString().Substring(len - 3, 3).Equals("\u00edrn")) { //-írn current = current.Remove(len - 2, 2); palatalise(); return; } if (current.ToString().Substring(len - 3, 3).Equals("och") || current.ToString().Substring(len - 3, 3).Equals("ost") || current.ToString().Substring(len - 3, 3).Equals("ovn") || current.ToString().Substring(len - 3, 3).Equals("oun") || current.ToString().Substring(len - 3, 3).Equals("out") || current.ToString().Substring(len - 3, 3).Equals("ou\u0161")) { //-ouš current = current.Remove(len - 3, 3); return; } if (current.ToString().Substring(len - 3, 3).Equals("u\u0161k")) { //-ušk current = current.Remove(len - 3, 3); return; } if (current.ToString().Substring(len - 3, 3).Equals("kyn") || current.ToString().Substring(len - 3, 3).Equals("\u010dan") || //-čan current.ToString().Substring(len - 3, 3).Equals("k\u00e1\u0159") || //kář current.ToString().Substring(len - 3, 3).Equals("n\u00e9\u0159") || //néř current.ToString().Substring(len - 3, 3).Equals("n\u00edk") || //-ník current.ToString().Substring(len - 3, 3).Equals("ctv") || current.ToString().Substring(len - 3, 3).Equals("stv")) { current = current.Remove(len - 3, 3); return; } }//len>5 if (len > 4) { if (current.ToString().Substring(len - 2, 2).Equals("\u00e1\u010d") || // -áč current.ToString().Substring(len - 2, 2).Equals("a\u010d") || //-ač current.ToString().Substring(len - 2, 2).Equals("\u00e1n") || //-án current.ToString().Substring(len - 2, 2).Equals("an") || current.ToString().Substring(len - 2, 2).Equals("\u00e1\u0159") || //-ář current.ToString().Substring(len - 2, 2).Equals("as")) { current = current.Remove(len - 2, 2); return; } if (current.ToString().Substring(len - 2, 2).Equals("ec") || current.ToString().Substring(len - 2, 2).Equals("en") || current.ToString().Substring(len - 2, 2).Equals("\u011bn") || //-ěn current.ToString().Substring(len - 2, 2).Equals("\u00e9\u0159")) { //-éř current = current.Remove(len - 1, 1); palatalise(); return; } if (current.ToString().Substring(len - 2, 2).Equals("\u00ed\u0159") || //-íř current.ToString().Substring(len - 2, 2).Equals("ic") || current.ToString().Substring(len - 2, 2).Equals("in") || current.ToString().Substring(len - 2, 2).Equals("\u00edn") || //-ín current.ToString().Substring(len - 2, 2).Equals("it") || current.ToString().Substring(len - 2, 2).Equals("iv")) { current = current.Remove(len - 1, 1); palatalise(); return; } if (current.ToString().Substring(len - 2, 2).Equals("ob") || current.ToString().Substring(len - 2, 2).Equals("ot") || current.ToString().Substring(len - 2, 2).Equals("ov") || current.ToString().Substring(len - 2, 2).Equals("o\u0148")) { //-oň current = current.Remove(len - 2, 2); return; } if (current.ToString().Substring(len - 2, 2).Equals("ul")) { current = current.Remove(len - 2, 2); return; } if (current.ToString().Substring(len - 2, 2).Equals("yn")) { current = current.Remove(len - 2, 2); return; } if (current.ToString().Substring(len - 2, 2).Equals("\u010dk") || //-čk current.ToString().Substring(len - 2, 2).Equals("\u010dn") || //-čn current.ToString().Substring(len - 2, 2).Equals("dl") || current.ToString().Substring(len - 2, 2).Equals("nk") || current.ToString().Substring(len - 2, 2).Equals("tv") || current.ToString().Substring(len - 2, 2).Equals("tk") || current.ToString().Substring(len - 2, 2).Equals("vk")) { current = current.Remove(len - 2, 2); return; } }//len>4 if (len > 3) { if (current.ToString()[current.Length - 1] == 'c' || current.ToString()[current.Length - 1] == '\u010d' || //-č current.ToString()[current.Length - 1] == 'k' || current.ToString()[current.Length - 1] == 'l' || current.ToString()[current.Length - 1] == 'n' || current.ToString()[current.Length - 1] == 't') { current = current.Remove(len - 1, 1); return; } }//len>3 }//removeDerivational protected void removeAugmentative() { int len = current.Length; // if ((len > 6) && current.ToString().Substring(len - 4, 4).Equals("ajzn")) { current = current.Remove(len - 4, 4); return; } if ((len > 5) && (current.ToString().Substring(len - 3, 3).Equals("izn") || current.ToString().Substring(len - 3, 3).Equals("isk"))) { current = current.Remove(len - 2, 2); palatalise(); return; } if ((len > 4) && current.ToString().Substring(len - 2, 2).Equals("\00e1k")) { //-ák current = current.Remove(len - 2, 2); return; } } protected void removeDiminutive() { int len = current.Length; // if ((len > 7) && current.ToString().Substring(len - 5, 5).Equals("ou\u0161ek")) { //-oušek current = current.Remove(len - 5, 5); return; } if (len > 6) { if (current.ToString().Substring(len - 4, 4).Equals("e\u010dek") || //-eček current.ToString().Substring(len - 4, 4).Equals("\u00e9\u010dek") || //-éček current.ToString().Substring(len - 4, 4).Equals("i\u010dek") || //-iček current.ToString().Substring(len - 4, 4).Equals("\u00ed\u010dek") || //íček current.ToString().Substring(len - 4, 4).Equals("enek") || current.ToString().Substring(len - 4, 4).Equals("\u00e9nek") || //-ének current.ToString().Substring(len - 4, 4).Equals("inek") || current.ToString().Substring(len - 4, 4).Equals("\u00ednek")) { //-ínek current = current.Remove(len - 3, 3); palatalise(); return; } if (current.ToString().Substring(len - 4, 4).Equals("\u00e1\u010dek") || //áček current.ToString().Substring(len - 4, 4).Equals("a\u010dek") || //aček current.ToString().Substring(len - 4, 4).Equals("o\u010dek") || //oček current.ToString().Substring(len - 4, 4).Equals("u\u010dek") || //uček current.ToString().Substring(len - 4, 4).Equals("anek") || current.ToString().Substring(len - 4, 4).Equals("onek") || current.ToString().Substring(len - 4, 4).Equals("unek") || current.ToString().Substring(len - 4, 4).Equals("\u00e1nek")) { //-ánek current = current.Remove(len - 4, 4); return; } }//len>6 if (len > 5) { if (current.ToString().Substring(len - 3, 3).Equals("e\u010dk") || //-ečk current.ToString().Substring(len - 3, 3).Equals("\u00e9\u010dk") || //-éčk current.ToString().Substring(len - 3, 3).Equals("i\u010dk") || //-ičk current.ToString().Substring(len - 3, 3).Equals("\u00ed\u010dk") || //-íčk current.ToString().Substring(len - 3, 3).Equals("enk") || //-enk current.ToString().Substring(len - 3, 3).Equals("\u00e9nk") || //-énk current.ToString().Substring(len - 3, 3).Equals("ink") || //-ink current.ToString().Substring(len - 3, 3).Equals("\u00ednk")) { //-ínk current = current.Remove(len - 3, 3); palatalise(); return; } if (current.ToString().Substring(len - 3, 3).Equals("\u00e1\u010dk") || //-áčk current.ToString().Substring(len - 3, 3).Equals("au010dk") || //-ačk current.ToString().Substring(len - 3, 3).Equals("o\u010dk") || //-očk current.ToString().Substring(len - 3, 3).Equals("u\u010dk") || //-učk current.ToString().Substring(len - 3, 3).Equals("ank") || current.ToString().Substring(len - 3, 3).Equals("onk") || current.ToString().Substring(len - 3, 3).Equals("unk")) { current = current.Remove(len - 3, 3); return; } if (current.ToString().Substring(len - 3, 3).Equals("\u00e1tk") || //-átk current.ToString().Substring(len - 3, 3).Equals("\u00e1nk") || //-ánk current.ToString().Substring(len - 3, 3).Equals("u\u0161k")) { //-ušk current = current.Remove(len - 3, 3); return; } }//len>5 if (len > 4) { if (current.ToString().Substring(len - 2, 2).Equals("ek") || current.ToString().Substring(len - 2, 2).Equals("\u00e9k") || //-ék current.ToString().Substring(len - 2, 2).Equals("\u00edk") || //-ík current.ToString().Substring(len - 2, 2).Equals("ik")) { current = current.Remove(len - 1, 1); palatalise(); return; } if (current.ToString().Substring(len - 2, 2).Equals("\u00e1k") || //-ák current.ToString().Substring(len - 2, 2).Equals("ak") || current.ToString().Substring(len - 2, 2).Equals("ok") || current.ToString().Substring(len - 2, 2).Equals("uk")) { current = current.Remove(len - 1, 1); return; } } if ((len > 3) && current.ToString().Substring(len - 1, 1).Equals("k")) { current = current.Remove(len - 1, 1); return; } }//removeDiminutives protected void removeComparative() { int len = current.Length; // if ((len > 5) && (current.ToString().Substring(len - 3, 3).Equals("ej\u0161") || //-ejš current.ToString().Substring(len - 3, 3).Equals("\u011bj\u0161"))) { //-ějš current = current.Remove(len - 2, 2); palatalise(); return; } } private void palatalise() { int len = current.Length; if (current.ToString().Substring(len - 2, 2).Equals("ci") || current.ToString().Substring(len - 2, 2).Equals("ce") || current.ToString().Substring(len - 2, 2).Equals("\u010di") || //-či current.ToString().Substring(len - 2, 2).Equals("\u010de")) { //-če current = StringBufferReplace(len - 2, len, current, "k"); return; } if (current.ToString().Substring(len - 2, 2).Equals("zi") || current.ToString().Substring(len - 2, 2).Equals("ze") || current.ToString().Substring(len - 2, 2).Equals("\u017ei") || //-ži current.ToString().Substring(len - 2, 2).Equals("\u017ee")) { //-že current = StringBufferReplace(len - 2, len, current, "h"); return; } if (current.ToString().Substring(len - 3, 3).Equals("\u010dt\u011b") || //-čtě current.ToString().Substring(len - 3, 3).Equals("\u010dti") || //-čti current.ToString().Substring(len - 3, 3).Equals("\u010dt\u00ed")) { //-čtí current = StringBufferReplace(len - 3, len, current, "ck"); return; } if (current.ToString().Substring(len - 2, 2).Equals("\u0161t\u011b") || //-ště current.ToString().Substring(len - 2, 2).Equals("\u0161ti") || //-šti current.ToString().Substring(len - 2, 2).Equals("\u0161t\u00ed")) { //-ští current = StringBufferReplace(len - 2, len, current, "sk"); return; } current = current.Remove(len - 1, 1); return; }//palatalise protected void removePossessives() { int len = current.Length; if (len > 5) { if (current.ToString().Substring(len - 2, 2).Equals("ov")) { current = current.Remove(len - 2, 2); return; } if (current.ToString().Substring(len - 2, 2).Equals("\u016fv")) { //-ův current = current.Remove(len - 2, 2); return; } if (current.ToString().Substring(len - 2, 2).Equals("in")) { current = current.Remove(len - 1, 1); palatalise(); return; } } }//removePossessives protected void removeCase() { int len = current.Length; // if ((len > 7) && current.ToString().Substring(len - 5, 5).Equals("atech")) { current = current.Remove(len - 5, 5); return; }//len>7 if (len > 6) { if (current.ToString().Substring(len - 4, 4).Equals("\u011btem")) { //-ětem current = current.Remove(len - 3, 3); palatalise(); return; } if (current.ToString().Substring(len - 4, 4).Equals("at\u016fm")) { //-atům current = current.Remove(len - 4, 4); return; } } if (len > 5) { if (current.ToString().Substring(len - 3, 3).Equals("ech") || current.ToString().Substring(len - 3, 3).Equals("ich") || current.ToString().Substring(len - 3, 3).Equals("\u00edch")) { //-ích current = current.Remove(len - 2, 2); palatalise(); return; } if (current.ToString().Substring(len - 3, 3).Equals("\u00e9ho") || //-ého current.ToString().Substring(len - 3, 3).Equals("\u011bmi") || //-ěmu current.ToString().Substring(len - 3, 3).Equals("emi") || current.ToString().Substring(len - 3, 3).Equals("\u00e9mu") || // -ému current.substring( len-3,len).equals("ete")|| current.ToString().Substring(len - 3, 3).Equals("eti") || current.ToString().Substring(len - 3, 3).Equals("iho") || current.ToString().Substring(len - 3, 3).Equals("\u00edho") || //-ího current.ToString().Substring(len - 3, 3).Equals("\u00edmi") || //-ími current.ToString().Substring(len - 3, 3).Equals("imu")) { current = current.Remove(len - 2, 2); palatalise(); return; } if (current.ToString().Substring(len - 3, 3).Equals("\u00e1ch") || //-ách current.ToString().Substring(len - 3, 3).Equals("ata") || current.ToString().Substring(len - 3, 3).Equals("aty") || current.ToString().Substring(len - 3, 3).Equals("\u00fdch") || //-ých current.ToString().Substring(len - 3, 3).Equals("ama") || current.ToString().Substring(len - 3, 3).Equals("ami") || current.ToString().Substring(len - 3, 3).Equals("ov\u00e9") || //-ové current.ToString().Substring(len - 3, 3).Equals("ovi") || current.ToString().Substring(len - 3, 3).Equals("\u00fdmi")) { //-ými current = current.Remove(len - 3, 3); return; } } if (len > 4) { if (current.ToString().Substring(len - 2, 2).Equals("em")) { current = current.Remove(len - 1, 1); palatalise(); return; } if (current.ToString().Substring(len - 2, 2).Equals("es") || current.ToString().Substring(len - 2, 2).Equals("\u00e9m") || //-ém current.ToString().Substring(len - 2, 2).Equals("\u00edm")) { //-ím current = current.Remove(len - 2, 2); palatalise(); return; } if (current.ToString().Substring(len - 2, 2).Equals("\u016fm")) { current = current.Remove(len - 2, 2); return; } if (current.ToString().Substring(len - 2, 2).Equals("at") || current.ToString().Substring(len - 2, 2).Equals("\u00e1m") || //-ám current.ToString().Substring(len - 2, 2).Equals("os") || current.ToString().Substring(len - 2, 2).Equals("us") || current.ToString().Substring(len - 2, 2).Equals("\u00fdm") || //-ým current.ToString().Substring(len - 2, 2).Equals("mi") || current.ToString().Substring(len - 2, 2).Equals("ou")) { current = current.Remove(len - 2, 2); return; } }//len>4 if (len > 3) { if (current.ToString().Substring(len - 1, 1).Equals("e") || current.ToString().Substring(len - 1, 1).Equals("i")) { palatalise(); return; } if (current.ToString().Substring(len - 1, 1).Equals("\u00ed") || //-é current.ToString().Substring(len - 1, 1).Equals("\u011b")) { //-ě palatalise(); return; } if (current.ToString().Substring(len - 1, 1).Equals("u") || current.ToString().Substring(len - 1, 1).Equals("y") || current.ToString().Substring(len - 1, 1).Equals("\u016f")) { //-ů current = current.Remove(len - 1, 1); return; } if (current.ToString().Substring(len - 1, 1).Equals("a") || current.ToString().Substring(len - 1, 1).Equals("o") || current.ToString().Substring(len - 1, 1).Equals("\u00e1") || // -á current.ToString().Substring(len - 1, 1).Equals("\u00e9") || //-é current.ToString().Substring(len - 1, 1).Equals("\u00fd")) { //-ý current = current.Remove(len - 1, 1); return; } }//len>3 } } }