/* * 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 ZeroLevel.Services.Semantic; namespace Iveonik.Stemmers { public class SpanishStemmer : StemmerOperations, ILexer { private readonly static SpanishStemmer methodObject = new SpanishStemmer(); private readonly static Among[] a_0 = { new Among ( "", -1, 6, null ), new Among ( "\u00E1", 0, 1, null ), new Among ( "\u00E9", 0, 2, null ), new Among ( "\u00ED", 0, 3, null ), new Among ( "\u00F3", 0, 4, null ), new Among ( "\u00FA", 0, 5, null ) }; private readonly static Among[] a_1 = { new Among ( "la", -1, -1, null ), new Among ( "sela", 0, -1, null ), new Among ( "le", -1, -1, null ), new Among ( "me", -1, -1, null ), new Among ( "se", -1, -1, null ), new Among ( "lo", -1, -1, null ), new Among ( "selo", 5, -1, null ), new Among ( "las", -1, -1, null ), new Among ( "selas", 7, -1, null ), new Among ( "les", -1, -1, null ), new Among ( "los", -1, -1, null ), new Among ( "selos", 10, -1, null ), new Among ( "nos", -1, -1, null ) }; private readonly static Among[] a_2 = { new Among ( "ando", -1, 6, null ), new Among ( "iendo", -1, 6, null ), new Among ( "yendo", -1, 7, null ), new Among ( "\u00E1ndo", -1, 2, null ), new Among ( "i\u00E9ndo", -1, 1, null ), new Among ( "ar", -1, 6, null ), new Among ( "er", -1, 6, null ), new Among ( "ir", -1, 6, null ), new Among ( "\u00E1r", -1, 3, null ), new Among ( "\u00E9r", -1, 4, null ), new Among ( "\u00EDr", -1, 5, null ) }; private readonly static Among[] a_3 = { new Among ( "ic", -1, -1, null ), new Among ( "ad", -1, -1, null ), new Among ( "os", -1, -1, null ), new Among ( "iv", -1, 1, null ) }; private readonly static Among[] a_4 = { new Among ( "able", -1, 1, null ), new Among ( "ible", -1, 1, null ), new Among ( "ante", -1, 1, null ) }; private readonly static Among[] a_5 = { new Among ( "ic", -1, 1, null ), new Among ( "abil", -1, 1, null ), new Among ( "iv", -1, 1, null ) }; private readonly static Among[] a_6 = { new Among ( "ica", -1, 1, null ), new Among ( "ancia", -1, 2, null ), new Among ( "encia", -1, 5, null ), new Among ( "adora", -1, 2, null ), new Among ( "osa", -1, 1, null ), new Among ( "ista", -1, 1, null ), new Among ( "iva", -1, 9, null ), new Among ( "anza", -1, 1, null ), new Among ( "log\u00EDa", -1, 3, null ), new Among ( "idad", -1, 8, null ), new Among ( "able", -1, 1, null ), new Among ( "ible", -1, 1, null ), new Among ( "ante", -1, 2, null ), new Among ( "mente", -1, 7, null ), new Among ( "amente", 13, 6, null ), new Among ( "aci\u00F3n", -1, 2, null ), new Among ( "uci\u00F3n", -1, 4, null ), new Among ( "ico", -1, 1, null ), new Among ( "ismo", -1, 1, null ), new Among ( "oso", -1, 1, null ), new Among ( "amiento", -1, 1, null ), new Among ( "imiento", -1, 1, null ), new Among ( "ivo", -1, 9, null ), new Among ( "ador", -1, 2, null ), new Among ( "icas", -1, 1, null ), new Among ( "ancias", -1, 2, null ), new Among ( "encias", -1, 5, null ), new Among ( "adoras", -1, 2, null ), new Among ( "osas", -1, 1, null ), new Among ( "istas", -1, 1, null ), new Among ( "ivas", -1, 9, null ), new Among ( "anzas", -1, 1, null ), new Among ( "log\u00EDas", -1, 3, null ), new Among ( "idades", -1, 8, null ), new Among ( "ables", -1, 1, null ), new Among ( "ibles", -1, 1, null ), new Among ( "aciones", -1, 2, null ), new Among ( "uciones", -1, 4, null ), new Among ( "adores", -1, 2, null ), new Among ( "antes", -1, 2, null ), new Among ( "icos", -1, 1, null ), new Among ( "ismos", -1, 1, null ), new Among ( "osos", -1, 1, null ), new Among ( "amientos", -1, 1, null ), new Among ( "imientos", -1, 1, null ), new Among ( "ivos", -1, 9, null ) }; private readonly static Among[] a_7 = { new Among ( "ya", -1, 1, null ), new Among ( "ye", -1, 1, null ), new Among ( "yan", -1, 1, null ), new Among ( "yen", -1, 1, null ), new Among ( "yeron", -1, 1, null ), new Among ( "yendo", -1, 1, null ), new Among ( "yo", -1, 1, null ), new Among ( "yas", -1, 1, null ), new Among ( "yes", -1, 1, null ), new Among ( "yais", -1, 1, null ), new Among ( "yamos", -1, 1, null ), new Among ( "y\u00F3", -1, 1, null ) }; private readonly static Among[] a_8 = { new Among ( "aba", -1, 2, null ), new Among ( "ada", -1, 2, null ), new Among ( "ida", -1, 2, null ), new Among ( "ara", -1, 2, null ), new Among ( "iera", -1, 2, null ), new Among ( "\u00EDa", -1, 2, null ), new Among ( "ar\u00EDa", 5, 2, null ), new Among ( "er\u00EDa", 5, 2, null ), new Among ( "ir\u00EDa", 5, 2, null ), new Among ( "ad", -1, 2, null ), new Among ( "ed", -1, 2, null ), new Among ( "id", -1, 2, null ), new Among ( "ase", -1, 2, null ), new Among ( "iese", -1, 2, null ), new Among ( "aste", -1, 2, null ), new Among ( "iste", -1, 2, null ), new Among ( "an", -1, 2, null ), new Among ( "aban", 16, 2, null ), new Among ( "aran", 16, 2, null ), new Among ( "ieran", 16, 2, null ), new Among ( "\u00EDan", 16, 2, null ), new Among ( "ar\u00EDan", 20, 2, null ), new Among ( "er\u00EDan", 20, 2, null ), new Among ( "ir\u00EDan", 20, 2, null ), new Among ( "en", -1, 1, null ), new Among ( "asen", 24, 2, null ), new Among ( "iesen", 24, 2, null ), new Among ( "aron", -1, 2, null ), new Among ( "ieron", -1, 2, null ), new Among ( "ar\u00E1n", -1, 2, null ), new Among ( "er\u00E1n", -1, 2, null ), new Among ( "ir\u00E1n", -1, 2, null ), new Among ( "ado", -1, 2, null ), new Among ( "ido", -1, 2, null ), new Among ( "ando", -1, 2, null ), new Among ( "iendo", -1, 2, null ), new Among ( "ar", -1, 2, null ), new Among ( "er", -1, 2, null ), new Among ( "ir", -1, 2, null ), new Among ( "as", -1, 2, null ), new Among ( "abas", 39, 2, null ), new Among ( "adas", 39, 2, null ), new Among ( "idas", 39, 2, null ), new Among ( "aras", 39, 2, null ), new Among ( "ieras", 39, 2, null ), new Among ( "\u00EDas", 39, 2, null ), new Among ( "ar\u00EDas", 45, 2, null ), new Among ( "er\u00EDas", 45, 2, null ), new Among ( "ir\u00EDas", 45, 2, null ), new Among ( "es", -1, 1, null ), new Among ( "ases", 49, 2, null ), new Among ( "ieses", 49, 2, null ), new Among ( "abais", -1, 2, null ), new Among ( "arais", -1, 2, null ), new Among ( "ierais", -1, 2, null ), new Among ( "\u00EDais", -1, 2, null ), new Among ( "ar\u00EDais", 55, 2, null ), new Among ( "er\u00EDais", 55, 2, null ), new Among ( "ir\u00EDais", 55, 2, null ), new Among ( "aseis", -1, 2, null ), new Among ( "ieseis", -1, 2, null ), new Among ( "asteis", -1, 2, null ), new Among ( "isteis", -1, 2, null ), new Among ( "\u00E1is", -1, 2, null ), new Among ( "\u00E9is", -1, 1, null ), new Among ( "ar\u00E9is", 64, 2, null ), new Among ( "er\u00E9is", 64, 2, null ), new Among ( "ir\u00E9is", 64, 2, null ), new Among ( "ados", -1, 2, null ), new Among ( "idos", -1, 2, null ), new Among ( "amos", -1, 2, null ), new Among ( "\u00E1bamos", 70, 2, null ), new Among ( "\u00E1ramos", 70, 2, null ), new Among ( "i\u00E9ramos", 70, 2, null ), new Among ( "\u00EDamos", 70, 2, null ), new Among ( "ar\u00EDamos", 74, 2, null ), new Among ( "er\u00EDamos", 74, 2, null ), new Among ( "ir\u00EDamos", 74, 2, null ), new Among ( "emos", -1, 1, null ), new Among ( "aremos", 78, 2, null ), new Among ( "eremos", 78, 2, null ), new Among ( "iremos", 78, 2, null ), new Among ( "\u00E1semos", 78, 2, null ), new Among ( "i\u00E9semos", 78, 2, null ), new Among ( "imos", -1, 2, null ), new Among ( "ar\u00E1s", -1, 2, null ), new Among ( "er\u00E1s", -1, 2, null ), new Among ( "ir\u00E1s", -1, 2, null ), new Among ( "\u00EDs", -1, 2, null ), new Among ( "ar\u00E1", -1, 2, null ), new Among ( "er\u00E1", -1, 2, null ), new Among ( "ir\u00E1", -1, 2, null ), new Among ( "ar\u00E9", -1, 2, null ), new Among ( "er\u00E9", -1, 2, null ), new Among ( "ir\u00E9", -1, 2, null ), new Among ( "i\u00F3", -1, 2, null ) }; private readonly static Among[] a_9 = { new Among ( "a", -1, 1, null ), new Among ( "e", -1, 2, null ), new Among ( "o", -1, 1, null ), new Among ( "os", -1, 1, null ), new Among ( "\u00E1", -1, 1, null ), new Among ( "\u00E9", -1, 2, null ), new Among ( "\u00ED", -1, 1, null ), new Among ( "\u00F3", -1, 1, null ) }; private static readonly char[] g_v = { (char)17, (char)65, (char)16, (char)0, (char)0, (char)0, (char)0, (char)0, (char)0, (char)0, (char)0, (char)0, (char)0, (char)0, (char)0,(char)0, (char)1, (char)17, (char)4, (char)10 }; private int I_p2; private int I_p1; private int I_pV; private void copy_from(SpanishStemmer other) { I_p2 = other.I_p2; I_p1 = other.I_p1; I_pV = other.I_pV; base.copy_from(other); } private bool r_mark_regions() { bool subroot = false; int v_1; int v_2; int v_3; int v_6; int v_8; // (, line 31 I_pV = limit; I_p1 = limit; I_p2 = limit; // do, line 37 v_1 = cursor; do { // (, line 37 // or, line 39 do { v_2 = cursor; do { // (, line 38 if (!(in_grouping(g_v, 97, 252))) { break; } // or, line 38 do { v_3 = cursor; do { // (, line 38 if (!(out_grouping(g_v, 97, 252))) { break; } // gopast, line 38 while (true) { do { if (!(in_grouping(g_v, 97, 252))) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } if (cursor >= limit) { subroot = true; break; } cursor++; } if (subroot) { subroot = false; break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } cursor = v_3; // (, line 38 if (!(in_grouping(g_v, 97, 252))) { subroot = true; goto breaklab2; } // gopast, line 38 while (true) { do { if (!(out_grouping(g_v, 97, 252))) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } if (cursor >= limit) { subroot = true; goto breaklab2; } cursor++; } } while (false); breaklab2: if (subroot) { subroot = false; break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } cursor = v_2; // (, line 40 if (!(out_grouping(g_v, 97, 252))) { subroot = true; goto breaklab0; } // or, line 40 do { v_6 = cursor; do { // (, line 40 if (!(out_grouping(g_v, 97, 252))) { break; } // gopast, line 40 while (true) { do { if (!(in_grouping(g_v, 97, 252))) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } if (cursor >= limit) { subroot = true; break; } cursor++; } if (subroot) { subroot = false; break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } cursor = v_6; // (, line 40 if (!(in_grouping(g_v, 97, 252))) { subroot = true; goto breaklab0; } // next, line 40 if (cursor >= limit) { subroot = true; goto breaklab0; } cursor++; } while (false); } while (false); breaklab0: if (subroot) { subroot = false; break; } // setmark pV, line 41 I_pV = cursor; } while (false); cursor = v_1; // do, line 43 v_8 = cursor; do { // (, line 43 // gopast, line 44 while (true) { do { if (!(in_grouping(g_v, 97, 252))) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } if (cursor >= limit) { subroot = true; break; } cursor++; } if (subroot) { subroot = false; break; } // gopast, line 44 while (true) { do { if (!(out_grouping(g_v, 97, 252))) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } if (cursor >= limit) { subroot = true; break; } cursor++; } if (subroot) { subroot = false; break; } // setmark p1, line 44 I_p1 = cursor; // gopast, line 45 while (true) { do { if (!(in_grouping(g_v, 97, 252))) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } if (cursor >= limit) { subroot = true; break; } cursor++; } if (subroot) { subroot = false; break; } // gopast, line 45 while (true) { do { if (!(out_grouping(g_v, 97, 252))) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } if (cursor >= limit) { subroot = true; break; } cursor++; } if (subroot) { subroot = false; break; } // setmark p2, line 45 I_p2 = cursor; } while (false); cursor = v_8; return true; } private bool r_postlude() { bool subroot = false; int among_var; int v_1; // repeat, line 49 replab0: while (true) { v_1 = cursor; do { // (, line 49 // [, line 50 bra = cursor; // substring, line 50 among_var = find_among(a_0, 6); if (among_var == 0) { break; } // ], line 50 ket = cursor; switch (among_var) { case 0: subroot = true; break; case 1: // (, line 51 // <-, line 51 slice_from("a"); break; case 2: // (, line 52 // <-, line 52 slice_from("e"); break; case 3: // (, line 53 // <-, line 53 slice_from("i"); break; case 4: // (, line 54 // <-, line 54 slice_from("o"); break; case 5: // (, line 55 // <-, line 55 slice_from("u"); break; case 6: // (, line 57 // next, line 57 if (cursor >= limit) { subroot = true; break; } cursor++; break; } if (subroot) { subroot = false; break; } else if (!subroot) { goto replab0; } } while (false); cursor = v_1; break; } return true; } private bool r_RV() { if (!(I_pV <= cursor)) { return false; } return true; } private bool r_R1() { if (!(I_p1 <= cursor)) { return false; } return true; } private bool r_R2() { if (!(I_p2 <= cursor)) { return false; } return true; } private bool r_attached_pronoun() { int among_var; // (, line 67 // [, line 68 ket = cursor; // substring, line 68 if (find_among_b(a_1, 13) == 0) { return false; } // ], line 68 bra = cursor; // substring, line 72 among_var = find_among_b(a_2, 11); if (among_var == 0) { return false; } // call RV, line 72 if (!r_RV()) { return false; } switch (among_var) { case 0: return false; case 1: // (, line 73 // ], line 73 bra = cursor; // <-, line 73 slice_from("iendo"); break; case 2: // (, line 74 // ], line 74 bra = cursor; // <-, line 74 slice_from("ando"); break; case 3: // (, line 75 // ], line 75 bra = cursor; // <-, line 75 slice_from("ar"); break; case 4: // (, line 76 // ], line 76 bra = cursor; // <-, line 76 slice_from("er"); break; case 5: // (, line 77 // ], line 77 bra = cursor; // <-, line 77 slice_from("ir"); break; case 6: // (, line 81 // delete, line 81 slice_del(); break; case 7: // (, line 82 // literal, line 82 if (!(eq_s_b(1, "u"))) { return false; } // delete, line 82 slice_del(); break; } return true; } private bool r_standard_suffix() { bool subroot = false; int among_var; int v_1; int v_2; int v_3; int v_4; int v_5; // (, line 86 // [, line 87 ket = cursor; // substring, line 87 among_var = find_among_b(a_6, 46); if (among_var == 0) { return false; } // ], line 87 bra = cursor; switch (among_var) { case 0: return false; case 1: // (, line 98 // call R2, line 99 if (!r_R2()) { return false; } // delete, line 99 slice_del(); break; case 2: // (, line 104 // call R2, line 105 if (!r_R2()) { return false; } // delete, line 105 slice_del(); // try, line 106 v_1 = limit - cursor; do { // (, line 106 // [, line 106 ket = cursor; // literal, line 106 if (!(eq_s_b(2, "ic"))) { cursor = limit - v_1; break; } // ], line 106 bra = cursor; // call R2, line 106 if (!r_R2()) { cursor = limit - v_1; break; } // delete, line 106 slice_del(); } while (false); break; case 3: // (, line 110 // call R2, line 111 if (!r_R2()) { return false; } // <-, line 111 slice_from("log"); break; case 4: // (, line 114 // call R2, line 115 if (!r_R2()) { return false; } // <-, line 115 slice_from("u"); break; case 5: // (, line 118 // call R2, line 119 if (!r_R2()) { return false; } // <-, line 119 slice_from("ente"); break; case 6: // (, line 122 // call R1, line 123 if (!r_R1()) { return false; } // delete, line 123 slice_del(); // try, line 124 v_2 = limit - cursor; do { // (, line 124 // [, line 125 ket = cursor; // substring, line 125 among_var = find_among_b(a_3, 4); if (among_var == 0) { cursor = limit - v_2; break; } // ], line 125 bra = cursor; // call R2, line 125 if (!r_R2()) { cursor = limit - v_2; break; } // delete, line 125 slice_del(); switch (among_var) { case 0: cursor = limit - v_2; subroot = true; break; case 1: // (, line 126 // [, line 126 ket = cursor; // literal, line 126 if (!(eq_s_b(2, "at"))) { cursor = limit - v_2; subroot = true; break; } // ], line 126 bra = cursor; // call R2, line 126 if (!r_R2()) { cursor = limit - v_2; subroot = true; break; } // delete, line 126 slice_del(); break; } if (subroot) { subroot = false; break; } } while (false); break; case 7: // (, line 134 // call R2, line 135 if (!r_R2()) { return false; } // delete, line 135 slice_del(); // try, line 136 v_3 = limit - cursor; do { // (, line 136 // [, line 137 ket = cursor; // substring, line 137 among_var = find_among_b(a_4, 3); if (among_var == 0) { cursor = limit - v_3; break; } // ], line 137 bra = cursor; switch (among_var) { case 0: cursor = limit - v_3; subroot = true; break; case 1: // (, line 140 // call R2, line 140 if (!r_R2()) { cursor = limit - v_3; subroot = true; break; } // delete, line 140 slice_del(); break; } if (subroot) { subroot = false; break; } } while (false); break; case 8: // (, line 146 // call R2, line 147 if (!r_R2()) { return false; } // delete, line 147 slice_del(); // try, line 148 v_4 = limit - cursor; do { // (, line 148 // [, line 149 ket = cursor; // substring, line 149 among_var = find_among_b(a_5, 3); if (among_var == 0) { cursor = limit - v_4; break; } // ], line 149 bra = cursor; switch (among_var) { case 0: cursor = limit - v_4; subroot = true; break; case 1: // (, line 152 // call R2, line 152 if (!r_R2()) { cursor = limit - v_4; subroot = true; break; } // delete, line 152 slice_del(); break; } if (subroot) { subroot = false; break; } } while (false); break; case 9: // (, line 158 // call R2, line 159 if (!r_R2()) { return false; } // delete, line 159 slice_del(); // try, line 160 v_5 = limit - cursor; do { // (, line 160 // [, line 161 ket = cursor; // literal, line 161 if (!(eq_s_b(2, "at"))) { cursor = limit - v_5; break; } // ], line 161 bra = cursor; // call R2, line 161 if (!r_R2()) { cursor = limit - v_5; break; } // delete, line 161 slice_del(); } while (false); break; } return true; } private bool r_y_verb_suffix() { int among_var; int v_1; int v_2; // (, line 167 // setlimit, line 168 v_1 = limit - cursor; // tomark, line 168 if (cursor < I_pV) { return false; } cursor = I_pV; v_2 = limit_backward; limit_backward = cursor; cursor = limit - v_1; // (, line 168 // [, line 168 ket = cursor; // substring, line 168 among_var = find_among_b(a_7, 12); if (among_var == 0) { limit_backward = v_2; return false; } // ], line 168 bra = cursor; limit_backward = v_2; switch (among_var) { case 0: return false; case 1: // (, line 171 // literal, line 171 if (!(eq_s_b(1, "u"))) { return false; } // delete, line 171 slice_del(); break; } return true; } private bool r_verb_suffix() { int among_var; int v_1; int v_2; int v_3; int v_4; // (, line 175 // setlimit, line 176 v_1 = limit - cursor; // tomark, line 176 if (cursor < I_pV) { return false; } cursor = I_pV; v_2 = limit_backward; limit_backward = cursor; cursor = limit - v_1; // (, line 176 // [, line 176 ket = cursor; // substring, line 176 among_var = find_among_b(a_8, 96); if (among_var == 0) { limit_backward = v_2; return false; } // ], line 176 bra = cursor; limit_backward = v_2; switch (among_var) { case 0: return false; case 1: // (, line 179 // try, line 179 v_3 = limit - cursor; do { // (, line 179 // literal, line 179 if (!(eq_s_b(1, "u"))) { cursor = limit - v_3; break; } // test, line 179 v_4 = limit - cursor; // literal, line 179 if (!(eq_s_b(1, "g"))) { cursor = limit - v_3; break; } cursor = limit - v_4; } while (false); // ], line 179 bra = cursor; // delete, line 179 slice_del(); break; case 2: // (, line 200 // delete, line 200 slice_del(); break; } return true; } private bool r_residual_suffix() { int among_var; int v_1; int v_2; // (, line 204 // [, line 205 ket = cursor; // substring, line 205 among_var = find_among_b(a_9, 8); if (among_var == 0) { return false; } // ], line 205 bra = cursor; switch (among_var) { case 0: return false; case 1: // (, line 208 // call RV, line 208 if (!r_RV()) { return false; } // delete, line 208 slice_del(); break; case 2: // (, line 210 // call RV, line 210 if (!r_RV()) { return false; } // delete, line 210 slice_del(); // try, line 210 v_1 = limit - cursor; do { // (, line 210 // [, line 210 ket = cursor; // literal, line 210 if (!(eq_s_b(1, "u"))) { cursor = limit - v_1; break; } // ], line 210 bra = cursor; // test, line 210 v_2 = limit - cursor; // literal, line 210 if (!(eq_s_b(1, "g"))) { cursor = limit - v_1; break; } cursor = limit - v_2; // call RV, line 210 if (!r_RV()) { cursor = limit - v_1; break; } // delete, line 210 slice_del(); } while (false); break; } return true; } private bool CanStem() { bool subroot = false; int v_1; int v_2; int v_3; int v_4; int v_5; int v_6; // (, line 215 // do, line 216 v_1 = cursor; do { // call mark_regions, line 216 if (!r_mark_regions()) { break; } } while (false); cursor = v_1; // backwards, line 217 limit_backward = cursor; cursor = limit; // (, line 217 // do, line 218 v_2 = limit - cursor; do { // call attached_pronoun, line 218 if (!r_attached_pronoun()) { break; } } while (false); cursor = limit - v_2; // do, line 219 v_3 = limit - cursor; do { // (, line 219 // or, line 219 do { v_4 = limit - cursor; do { // call standard_suffix, line 219 if (!r_standard_suffix()) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } cursor = limit - v_4; do { // call y_verb_suffix, line 220 if (!r_y_verb_suffix()) { break; } subroot = true; if (subroot) break; } while (false); if (subroot) { subroot = false; break; } cursor = limit - v_4; // call verb_suffix, line 221 if (!r_verb_suffix()) { subroot = true; break; } } while (false); if (subroot) { subroot = false; break; } } while (false); cursor = limit - v_3; // do, line 223 v_5 = limit - cursor; do { // call residual_suffix, line 223 if (!r_residual_suffix()) { break; } } while (false); cursor = limit - v_5; cursor = limit_backward; // do, line 225 v_6 = cursor; do { // call postlude, line 225 if (!r_postlude()) { break; } } while (false); cursor = v_6; return true; } public string Lex(string s) { this.setCurrent(s.ToLowerInvariant()); this.CanStem(); return this.getCurrent(); } } }