/************************************************************************** * * lovinstem.c -- Stemming code * Copyright (C) 1994 Linh Huynh (linh@kbs.citri.edu.au) * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * **************************************************************************/ #include "sysfuncs.h" /***************************************************************************** * * Transformational Rules used in Recoding Stem Terminations * * Parameter in functions: * ch : the second last character of the old ending * (after removing one of double consonants) * ****************************************************************************/ /************ Conditional rules associated with transformations **************/ /*static int aio (); static int s (); static int pt (); static int m (); static int n ();*/ static int aio (char ch) /* Rule number 9 */ { return ((ch != 'a') && (ch != 'i') && (ch != 'o')); } static int s (char ch) /* Rule Number 24 */ { return (ch != 's'); } static int pt (char ch) /* Rule number 28 */ { return ((ch != 'p') && (ch != 't')); } static int m (char ch) /* Rule number 30 */ { return (ch != 'm'); } static int n (char ch) /* Rule number 32 */ { return (ch != 'n'); } /************************************************************************** * * Context-sensitive rules associated with certain endings. * * The notations of the rules are the same as in Lovins' paper * except that rule A is replaced by a NULL in the data structure. * * Function parameters: * - stem_length: possible stem length * - end : pointer points to the end of the possible stem. * *************************************************************************/ /********* Context-sensitive rule function declarations ******************/ /*static int B (); static int C (); static int D (); static int E (); static int F (); static int G (); static int H (); static int I (); static int J (); static int K (); static int L (); static int M (); static int N (); static int O (); static int P (); static int Q (); static int R (); static int S (); static int T (); static int U (); static int V (); static int W (); static int X (); static int Y (); static int Z (); static int AA (); static int BB (); static int CC (); */ static int B (int stem_length, char *end) { return (stem_length >= 3); } static int C (int stem_length, char *end) { return (stem_length >= 4); } static int D (int stem_length, char *end) { return (stem_length >= 5); } static int E (int stem_length, char *end) { return (*end != 'e'); } static int F (int stem_length, char *end) { return ((stem_length >= 3) && (*end != 'e')); } static int G (int stem_length, char *end) { return ((stem_length >= 3) && (*end == 'f')); } static int H (int stem_length, char *end) { char p1, p2; p1 = *end; p2 = *(end - 1); return ((p1 == 't') || ((p1 == 'l') && (p2 == 'l'))); } static int I (int stem_length, char *end) { char p1; p1 = *end; return ((p1 != 'o') && (p1 != 'e')); } static int J (int stem_length, char *end) { char p1; p1 = *end; return ((p1 != 'a') && (p1 != 'e')); } static int K (int stem_length, char *end) { char p1; p1 = *end; return ((stem_length >= 3) && ((p1 == 'l') || (p1 == 'i') || ((p1 == 'e') && (*(end - 2) == 'u')))); } static int L (int stem_length, char *end) { char p1, p2; p1 = *end; p2 = *(end - 1); if (p1 == 's') return (p2 == 'o'); else return ((p1 != 'u') && (p1 != 'x')); } static int M (int stem_length, char *end) { char p1; p1 = *end; return ((p1 != 'a') && (p1 != 'c') && (p1 != 'e') && (p1 != 'm')); } static int N (int stem_length, char *end) { if (stem_length >= 3) { if (*(end - 2) == 's') return (stem_length >= 4); else return 1; } else return 0; } static int O (int stem_length, char *end) { char p1; p1 = *end; return ((p1 == 'l') || (p1 == 'i')); } static int P (int stem_length, char *end) { return (*end != 'c'); } static int Q (int stem_length, char *end) { char p1; p1 = *end; return ((stem_length >= 3) && (p1 != 'l') && (p1 != 'n')); } static int R (int stem_length, char *end) { char p1; p1 = *end; return ((p1 == 'n') || (p1 == 'r')); } static int S (int stem_length, char *end) { char p1, p2; p1 = *end; p2 = *(end - 1); if (p1 == 't') return (p2 != 't'); else return ((p1 == 'r') && (p2 == 'd')); } static int T (int stem_length, char *end) { char p1, p2; p1 = *end; p2 = *(end - 1); if (p1 == 't') return (p2 != 'o'); else return (p1 == 's'); } static int U (int stem_length, char *end) { char p1; p1 = *end; return ((p1 == 'l') || (p1 == 'm') || (p1 == 'n') || (p1 == 'r')); } static int V (int stem_length, char *end) { return (*end == 'c'); } static int W (int stem_length, char *end) { char p1; p1 = *end; return ((p1 != 's') && (p1 != 'u')); } static int X (int stem_length, char *end) { char p1; p1 = *end; if (p1 == 'e') return ((stem_length >= 3) && (*(end - 2) == 'u')); else return ((p1 == 'l') || (p1 == 'i')); } static int Y (int stem_length, char *end) { return ((*end == 'n') && (*(end - 1) == 'i')); } static int Z (int stem_length, char *end) { return (*end != 'f'); } static int AA (int stem_length, char *end) { char p1, p2; p1 = *end; p2 = *(end - 1); if (p1 == 'h') return ((p2 == 'p') || (p2 == 't')); else if (p1 == 'r') return ((p2 == 'e') || (p2 == 'o')); else if (p1 == 's') return (p2 == 'e'); else return ((p1 == 'd') || (p1 == 'f') || (p1 == 'l') || (p1 == 't')); } static int BB (int stem_length, char *end) { if (stem_length >= 3) { if (stem_length >= 4) return (strncmp (end - 3, "ryst", 4) != 0); else return (strncmp (end - 2, "met", 3) != 0); } else return 0; } static int CC (int stem_length, char *end) { return (*end == 'l'); } /**************************************************************************/ #define MIN_STEM_LENGTH 2 #define MAX_ENDING_SIZE 11 #define PREDEFINED_SIZE (MAX_ENDING_SIZE + MIN_STEM_LENGTH) #define EOS '\0' /* [RPAP - Jan 97: Stem Index Change] */ #define MAX_STEM_LENGTH 255 static char *remove_ending (char *word, int w_len); static void recode_stem (char *stem_end); /* ========================================================================= * Function: stem * Description: * Implemetation of the Lovins' stemming algorithm described in * J.B. Lovins, "Development of a Stemming Algorithm", * Mechanical Translation and Computational Linguistics, Vol 11,1968. * Input: a word string with the length in the first byte * Output: the stemmed word * ========================================================================= */ void lovinstem (u_char * word) { char *word_start; /* points to first letter of word */ char *stem_end; /* points to last character of stem portion */ int old_length; /* length of word */ int new_length; /* length after stemming */ /* [RPAP - Jan 97: Stem Index Change] */ u_char copy[MAX_STEM_LENGTH + 2]; memcpy (copy, word, *word + 1); old_length = *copy; /* [RPAP - Jan 97: Stem Index Change] */ /* The word must be at least MIN_STEM_LENGTH characters long. */ if (old_length <= MIN_STEM_LENGTH) return; word_start = (char *) copy + 1; /* jump over length byte */ /* [RPAP - Jan 97: Stem Index Change] */ copy[old_length + 1] = '\0'; /* null terminate string */ /* [RPAP - Jan 97: Stem Index Change] */ stem_end = remove_ending (word_start, old_length); recode_stem (stem_end); /* fix up new length */ /* have to use strlen because have no other way of telling length */ new_length = strlen (word_start); *copy = new_length; /* [RPAP - Jan 97: Stem Index Change] */ /* [RPAP - Jan 97: Stem Index Change] */ memcpy (word, copy, *copy + 1); } /*stem_complex */ /* ========================================================================= * Data structure for recoding and the method for recoding the stem. * * ========================================================================= */ typedef struct { char *old_end; /* old ending */ char *new_end; /* new ending */ char old_offset; /* length of the old ending - 1 */ int (*cond) (char); /* condition rule */ char end_group; /* signal the end of the group */ } Recode_Rules; /* Stem terminations are divided into groups having the same last character */ static Recode_Rules Rules[] = { {(char*)"uad", (char*)"uas", 2, NULL, 0}, {(char*)"vad", (char*)"vas", 2, NULL, 0}, {(char*)"cid", (char*)"cis", 2, NULL, 0}, {(char*)"lid", (char*)"lis", 2, NULL, 0}, {(char*)"erid", (char*)"eris", 3, NULL, 0}, {(char*)"pand", (char*)"pans", 3, NULL, 0}, {(char*)"end", (char*)"ens", 2, s, 0}, {(char*)"end", (char*)"ens", 2, m, 0}, {(char*)"ond", (char*)"ons", 2, NULL, 0}, {(char*)"lud", (char*)"lus", 2, NULL, 0}, {(char*)"rud", (char*)"rus", 2, NULL, 1}, {(char*)"ul", (char*)"l", 1, aio, 1}, {(char*)"istr", (char*)"ister", 3, NULL, 0}, {(char*)"metr", (char*)"meter", 3, NULL, 0}, {(char*)"her", (char*)"hes", 2, pt, 1}, {(char*)"urs", (char*)"ur", 2, NULL, 1}, {(char*)"uct", (char*)"uc", 2, NULL, 0}, {(char*)"umpt", (char*)"um", 3, NULL, 0}, {(char*)"rpt", (char*)"rb", 2, NULL, 0}, {(char*)"mit", (char*)"mis", 2, NULL, 0}, {(char*)"ert", (char*)"ers", 2, NULL, 0}, {(char*)"et", (char*)"es", 1, n, 0}, {(char*)"yt", (char*)"ys", 1, NULL, 1}, {(char*)"iev", (char*)"ief", 2, NULL, 0}, {(char*)"olv", (char*)"olut", 2, NULL, 1}, {(char*)"bex", (char*)"bic", 2, NULL, 0}, {(char*)"dex", (char*)"dic", 2, NULL, 0}, {(char*)"pex", (char*)"pic", 2, NULL, 0}, {(char*)"tex", (char*)"tic", 2, NULL, 0}, {(char*)"ax", (char*)"ac", 1, NULL, 0}, {(char*)"ex", (char*)"ec", 1, NULL, 0}, {(char*)"ix", (char*)"ic", 1, NULL, 0}, {(char*)"lux", (char*)"luc", 2, NULL, 1}, {(char*)"yz", (char*)"ys", 1, NULL, 1} }; typedef struct last { char c; /* The last character */ struct last *left; /* used in balanced */ struct last *right; /* binary tree */ Recode_Rules *pt; /* location of approriate group */ } Last_Char_Node; /*------------ s / \ l x / \ / \ d r t z \ v ---------------*/ static Last_Char_Node pr[] = { {'d', NULL, NULL, Rules}, {'l', pr, pr + 2, Rules + 11}, {'r', NULL, NULL, Rules + 12}, {'s', pr + 1, pr + 6, Rules + 15}, {'t', NULL, pr + 5, Rules + 16}, {'v', NULL, NULL, Rules + 23}, {'x', pr + 4, pr + 7, Rules + 25}, {'z', NULL, NULL, Rules + 33}, }; /***************************************************************************** * * Recode the stem according to the transformation rules. * *****************************************************************************/ static void recode_stem (char *stem_end) { static Last_Char_Node *root = pr + 3; Last_Char_Node *p_last = root; Recode_Rules *rule; /* points to the transformation list */ char *h, /* points to start of possible ending */ ch, /* last character of the old ending */ ch2; h = stem_end - 1; ch = *stem_end; if (*h == ch) /* Check for double consonant */ { if (strchr ("bdglmnprst", ch) != NULL) { *stem_end = EOS; stem_end = h; } } do /* Check for the last character */ { ch2 = p_last->c; if (ch == ch2) break; else if (ch > ch2) p_last = p_last->right; else p_last = p_last->left; } while (p_last != NULL); if (p_last != NULL) /* Check for the rest of suffix list */ { rule = p_last->pt; for (;;) { h = stem_end - rule->old_offset; if (strcmp (h, rule->old_end) == 0) { if (!rule->cond || (*rule->cond) (*(h - 1))) { (void) strcpy (h, rule->new_end); break; } } if (rule->end_group) break; ++rule; } } } /* ====================================================================== * List of endings and the method to remove the ending * * ======================================================================*/ /************ Data structures for list of endings ********************/ typedef struct { char *ending; /* old ending */ int (*cond) (int length, char *end); /* conditional rule */ signed char left_offset; /* used to find the siblings */ signed char right_offset; /* in balanced binary tree */ } Ending_List; /* The original list of endings is re-organised into groups having the same length and the same first character. */ static Ending_List List[] = { {(char*)"a", NULL, 0, 0}, {(char*)"ae", NULL, 0, 0}, {(char*)"al", BB, -1, 2}, {(char*)"ar", X, 0, 0}, {(char*)"as", B, -1, 0}, {(char*)"acy", NULL, 0, 1}, {(char*)"age", B, 0, 0}, {(char*)"aic", NULL, -2, 1}, {(char*)"als", BB, 0, 0}, {(char*)"ant", B, -2, 2}, {(char*)"ars", O, 0, 0}, {(char*)"ary", F, -1, 2}, {(char*)"ata", NULL, 0, 0}, {(char*)"ate", NULL, -1, 0}, {(char*)"able", NULL, 0, 1}, {(char*)"ably", NULL, 0, 0}, {(char*)"ages", B, -2, 2}, {(char*)"ally", B, 0, 0}, {(char*)"ance", B, -1, 1}, {(char*)"ancy", B, 0, 0}, {(char*)"ants", B, -4, 4}, {(char*)"aric", NULL, 0, 0}, {(char*)"arly", K, -1, 1}, {(char*)"ated", I, 0, 0}, {(char*)"ates", NULL, -2, 2}, {(char*)"atic", B, 0, 0}, {(char*)"ator", NULL, -1, 0}, {(char*)"acies", NULL, 0, 0}, {(char*)"acity", NULL, -1, 1}, {(char*)"aging", B, 0, 0}, {(char*)"aical", NULL, -2, 2}, {(char*)"alist", NULL, 0, 0}, {(char*)"alism", B, -1, 0}, {(char*)"ality", NULL, -3, 3}, {(char*)"alize", NULL, 0, 1}, {(char*)"allic", BB, 0, 0}, {(char*)"anced", B, -2, 2}, {(char*)"ances", B, 0, 0}, {(char*)"antic", C, -1, 0}, {(char*)"arial", NULL, -6, 6}, {(char*)"aries", NULL, 0, 1}, {(char*)"arily", NULL, 0, 0}, {(char*)"arity", B, -2, 2}, {(char*)"arize", NULL, 0, 0}, {(char*)"aroid", NULL, -1, 0}, {(char*)"ately", NULL, -3, 3}, {(char*)"ating", I, 0, 1}, {(char*)"ation", B, 0, 0}, {(char*)"ative", NULL, -2, 2}, {(char*)"ators", NULL, 0, 0}, {(char*)"atory", NULL, -1, 1}, {(char*)"ature", E, 0, 0}, {(char*)"aceous", NULL, 0, 1}, {(char*)"acious", B, 0, 0}, {(char*)"action", G, -2, 2}, {(char*)"alness", NULL, 0, 0}, {(char*)"ancial", NULL, -1, 1}, {(char*)"ancies", NULL, 0, 0}, {(char*)"ancing", B, -4, 4}, {(char*)"ariser", NULL, 0, 0}, {(char*)"arized", NULL, -1, 1}, {(char*)"arizer", NULL, 0, 0}, {(char*)"atable", NULL, -2, 2}, {(char*)"ations", B, 0, 0}, {(char*)"atives", NULL, -1, 0}, {(char*)"ability", NULL, 0, 1}, {(char*)"aically", NULL, 0, 0}, {(char*)"alistic", B, -2, 2}, {(char*)"alities", NULL, 0, 0}, {(char*)"ariness", E, -1, 0}, {(char*)"aristic", NULL, -3, 3}, {(char*)"arizing", NULL, 0, 1}, {(char*)"ateness", NULL, 0, 0}, {(char*)"atingly", NULL, -2, 2}, {(char*)"ational", B, 0, 0}, {(char*)"atively", NULL, -1, 1}, {(char*)"ativism", NULL, 0, 0}, {(char*)"ableness", NULL, 0, 1}, {(char*)"arizable", NULL, 0, 0}, {(char*)"allically", C, 0, 0}, {(char*)"antaneous", NULL, -1, 1}, {(char*)"antiality", NULL, 0, 0}, {(char*)"arisation", NULL, -2, 2}, {(char*)"arization", NULL, 0, 0}, {(char*)"ationally", B, -1, 1}, {(char*)"ativeness", NULL, 0, 0}, {(char*)"antialness", NULL, 0, 0}, {(char*)"arisations", NULL, -1, 1}, {(char*)"arizations", NULL, 0, 0}, {(char*)"alistically", B, 0, 1}, {(char*)"arizability", NULL, 0, 0}, {(char*)"e", NULL, 0, 0}, {(char*)"ed", E, 0, 0}, {(char*)"en", F, -1, 1}, {(char*)"es", E, 0, 0}, {(char*)"eal", Y, 0, 0}, {(char*)"ear", Y, -1, 1}, {(char*)"ely", E, 0, 0}, {(char*)"ene", E, -2, 2}, {(char*)"ent", C, 0, 0}, {(char*)"ery", E, -1, 1}, {(char*)"ese", NULL, 0, 0}, {(char*)"ealy", Y, 0, 1}, {(char*)"edly", E, 0, 0}, {(char*)"eful", NULL, -2, 1}, {(char*)"eity", NULL, 0, 0}, {(char*)"ence", NULL, -2, 2}, {(char*)"ency", NULL, 0, 0}, {(char*)"ened", E, -1, 2}, {(char*)"enly", E, 0, 0}, {(char*)"eous", NULL, -1, 0}, {(char*)"early", Y, 0, 1}, {(char*)"ehood", NULL, 0, 0}, {(char*)"eless", NULL, -2, 2}, {(char*)"elity", NULL, 0, 0}, {(char*)"ement", NULL, -1, 0}, {(char*)"enced", NULL, -3, 3}, {(char*)"ences", NULL, 0, 1}, {(char*)"eness", E, 0, 0}, {(char*)"ening", E, -2, 2}, {(char*)"ental", NULL, 0, 0}, {(char*)"ented", C, -1, 1}, {(char*)"ently", NULL, 0, 0}, {(char*)"eature", Z, 0, 0}, {(char*)"efully", NULL, -1, 1}, {(char*)"encies", NULL, 0, 0}, {(char*)"encing", NULL, -2, 2}, {(char*)"ential", NULL, 0, 0}, {(char*)"enting", C, -1, 1}, {(char*)"entist", NULL, 0, 1}, {(char*)"eously", NULL, 0, 0}, {(char*)"elihood", E, 0, 1}, {(char*)"encible", NULL, 0, 0}, {(char*)"entally", NULL, -2, 2}, {(char*)"entials", NULL, 0, 0}, {(char*)"entiate", NULL, -1, 1}, {(char*)"entness", NULL, 0, 0}, {(char*)"entation", NULL, 0, 0}, {(char*)"entially", NULL, -1, 1}, {(char*)"eousness", NULL, 0, 0}, {(char*)"eableness", E, 0, 1}, {(char*)"entations", NULL, 0, 0}, {(char*)"entiality", NULL, -2, 2}, {(char*)"entialize", NULL, 0, 0}, {(char*)"entiation", NULL, -1, 0}, {(char*)"entialness", NULL, 0, 0}, {(char*)"ful", NULL, 0, 0}, {(char*)"fully", NULL, 0, 0}, {(char*)"fulness", NULL, 0, 0}, {(char*)"hood", NULL, 0, 0}, {(char*)"i", NULL, 0, 0}, {(char*)"ia", NULL, 0, 0}, {(char*)"ic", NULL, -1, 1}, {(char*)"is", NULL, 0, 0}, {(char*)"ial", NULL, 0, 0}, {(char*)"ian", NULL, -1, 1}, {(char*)"ics", NULL, 0, 1}, {(char*)"ide", L, 0, 0}, {(char*)"ied", NULL, -3, 3}, {(char*)"ier", NULL, 0, 0}, {(char*)"ies", P, -1, 0}, {(char*)"ily", NULL, -1, 1}, {(char*)"ine", M, 0, 0}, {(char*)"ing", N, -5, 5}, {(char*)"ion", Q, 0, 0}, {(char*)"ish", C, -1, 1}, {(char*)"ism", B, 0, 1}, {(char*)"ist", NULL, 0, 0}, {(char*)"ite", AA, -3, 3}, {(char*)"ity", NULL, 0, 0}, {(char*)"ium", NULL, -1, 0}, {(char*)"ive", NULL, -1, 1}, {(char*)"ize", F, 0, 0}, {(char*)"ials", NULL, 0, 0}, {(char*)"ians", NULL, -1, 0}, {(char*)"ible", NULL, -1, 1}, {(char*)"ibly", NULL, 0, 0}, {(char*)"ical", NULL, -2, 2}, {(char*)"ides", L, 0, 0}, {(char*)"iers", NULL, -1, 1}, {(char*)"iful", NULL, 0, 0}, {(char*)"ines", M, -4, 4}, {(char*)"ings", N, 0, 0}, {(char*)"ions", B, -1, 1}, {(char*)"ious", NULL, 0, 0}, {(char*)"isms", B, -2, 2}, {(char*)"ists", NULL, 0, 0}, {(char*)"itic", H, -1, 1}, {(char*)"ized", F, 0, 1}, {(char*)"izer", F, 0, 0}, {(char*)"ially", NULL, 0, 0}, {(char*)"icant", NULL, -1, 1}, {(char*)"ician", NULL, 0, 0}, {(char*)"icide", NULL, -2, 2}, {(char*)"icism", NULL, 0, 0}, {(char*)"icist", NULL, -1, 0}, {(char*)"icity", NULL, -3, 3}, {(char*)"idine", I, 0, 1}, {(char*)"iedly", NULL, 0, 0}, {(char*)"ihood", NULL, -2, 2}, {(char*)"inate", NULL, 0, 0}, {(char*)"iness", NULL, -1, 0}, {(char*)"ingly", B, -6, 6}, {(char*)"inism", J, 0, 1}, {(char*)"inity", CC, 0, 0}, {(char*)"ional", NULL, -2, 2}, {(char*)"ioned", NULL, 0, 0}, {(char*)"ished", NULL, -1, 0}, {(char*)"istic", NULL, -3, 3}, {(char*)"ities", NULL, 0, 1}, {(char*)"itous", NULL, 0, 0}, {(char*)"ively", NULL, -2, 2}, {(char*)"ivity", NULL, 0, 0}, {(char*)"izers", F, -1, 1}, {(char*)"izing", F, 0, 0}, {(char*)"ialist", NULL, 0, 0}, {(char*)"iality", NULL, -1, 1}, {(char*)"ialize", NULL, 0, 0}, {(char*)"ically", NULL, -2, 2}, {(char*)"icance", NULL, 0, 0}, {(char*)"icians", NULL, -1, 1}, {(char*)"icists", NULL, 0, 0}, {(char*)"ifully", NULL, -4, 4}, {(char*)"ionals", NULL, 0, 0}, {(char*)"ionate", D, -1, 1}, {(char*)"ioning", NULL, 0, 0}, {(char*)"ionist", NULL, -2, 2}, {(char*)"iously", NULL, 0, 0}, {(char*)"istics", NULL, -1, 1}, {(char*)"izable", E, 0, 0}, {(char*)"ibility", NULL, 0, 0}, {(char*)"icalism", NULL, -1, 1}, {(char*)"icalist", NULL, 0, 1}, {(char*)"icality", NULL, 0, 0}, {(char*)"icalize", NULL, -3, 3}, {(char*)"ication", G, 0, 0}, {(char*)"icianry", NULL, -1, 0}, {(char*)"ination", NULL, -1, 1}, {(char*)"ingness", NULL, 0, 0}, {(char*)"ionally", NULL, -5, 5}, {(char*)"isation", NULL, 0, 0}, {(char*)"ishness", NULL, -1, 1}, {(char*)"istical", NULL, 0, 1}, {(char*)"iteness", NULL, 0, 0}, {(char*)"iveness", NULL, -3, 3}, {(char*)"ivistic", NULL, 0, 0}, {(char*)"ivities", NULL, -1, 0}, {(char*)"ization", F, -1, 1}, {(char*)"izement", NULL, 0, 0}, {(char*)"ibleness", NULL, 0, 0}, {(char*)"icalness", NULL, -1, 1}, {(char*)"ionalism", NULL, 0, 0}, {(char*)"ionality", NULL, -2, 2}, {(char*)"ionalize", NULL, 0, 0}, {(char*)"iousness", NULL, -1, 1}, {(char*)"izations", NULL, 0, 0}, {(char*)"ionalness", NULL, 0, 1}, {(char*)"istically", NULL, 0, 0}, {(char*)"itousness", NULL, -2, 2}, {(char*)"izability", NULL, 0, 0}, {(char*)"izational", NULL, -1, 0}, {(char*)"izationally", B, 0, 0}, {(char*)"ly", B, 0, 0}, {(char*)"less", NULL, 0, 1}, {(char*)"lily", NULL, 0, 0}, {(char*)"lessly", NULL, 0, 0}, {(char*)"lessness", NULL, 0, 0}, {(char*)"ness", NULL, 0, 0}, {(char*)"nesses", NULL, 0, 0}, {(char*)"o", NULL, 0, 0}, {(char*)"on", S, 0, 1}, {(char*)"or", T, 0, 0}, {(char*)"oid", NULL, 0, 0}, {(char*)"one", R, -1, 1}, {(char*)"ous", NULL, 0, 0}, {(char*)"ogen", NULL, 0, 0}, {(char*)"oidal", NULL, 0, 0}, {(char*)"oides", NULL, -1, 2}, {(char*)"otide", NULL, 0, 0}, {(char*)"ously", NULL, -1, 0}, {(char*)"oidism", NULL, 0, 0}, {(char*)"oidally", NULL, 0, 1}, {(char*)"ousness", NULL, 0, 0}, {(char*)"s", W, 0, 0}, {(char*)"s'", NULL, 0, 0}, {(char*)"um", U, 0, 1}, {(char*)"us", V, 0, 0}, {(char*)"ward", NULL, 0, 1}, {(char*)"wise", NULL, 0, 0}, {(char*)"y", B, 0, 0}, {(char*)"yl", R, 0, 0}, {(char*)"ying", B, 0, 1}, {(char*)"yish", NULL, 0, 0}, {(char*)"'s", NULL, 0, 0}, }; typedef struct node { char c; /* First character */ struct node *left; /* used in balanced */ struct node *right; /* binary tree */ Ending_List *ptr[11]; /* the approriate location */ } First_Char_Node; static First_Char_Node First[] = { {'\'', NULL, NULL, {NULL, List + 293, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL}}, {'a', First, NULL, {List, List + 2, List + 9, List + 20, List + 39, List + 58, List + 70, List + 77, List + 82, List + 87, List + 89}}, {'e', First + 1, First + 4, {List + 91, List + 93, List + 98, List + 106, List + 116, List + 126, List + 133, List + 138, List + 142, List + 145, NULL}}, {'f', NULL, NULL, {NULL, NULL, List + 146, NULL, List + 147, NULL, List + 148, NULL, NULL, NULL, NULL}}, {'h', First + 3, First + 5, {NULL, NULL, NULL, List + 149, NULL, NULL, NULL, NULL, NULL, NULL, NULL}}, {'i', NULL, NULL, {List + 150, List + 152, List + 163, List + 181, List + 202, List + 222, List + 239, List + 252, List + 258, NULL, List + 261}}, {'l', First + 2, First + 10, {NULL, List + 262, NULL, List + 263, NULL, List + 265, NULL, List + 266, NULL, NULL, NULL}}, {'n', NULL, NULL, {NULL, NULL, NULL, List + 267, NULL, List + 268, NULL, NULL, NULL, NULL, NULL}}, {'o', First + 7, First + 9, {List + 269, List + 270, List + 273, List + 275, List + 277, List + 280, List + 281, NULL, NULL, NULL, NULL}}, {'s', NULL, NULL, {List + 283, List + 284, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL}}, {'u', First + 8, First + 12, {NULL, List + 285, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL}}, {'w', NULL, NULL, {NULL, NULL, NULL, List + 287, NULL, NULL, NULL, NULL, NULL, NULL, NULL}}, {'y', First + 11, NULL, {List + 289, List + 290, NULL, List + 291, NULL, NULL, NULL, NULL, NULL, NULL, NULL}}, }; /****************************************************************************** * * Look for a match in the suffix list. * Return the pointer to the end of the new stem if there is a match. * Otherwise, return the pointer to the end of the original word. * * Method: * * Search for the first character in the suffix list. * * If there is match, search for the rest of the suffix list. * *****************************************************************************/ static char * remove_ending (char *word, int w_len) { static First_Char_Node *root = First + 6; /* the root of binary tree is 'l' */ First_Char_Node *p_first; /* Points to the first character */ /* of the possible suffix */ Ending_List *p_list; /* Points to the List of Endings */ char *suffix_start, /* Points to start of possible suffix */ *stem_end, /* Points to the end of possible stem */ ch1, ch2; int s_len, /* Possible stem length */ e_offset, /* Offset from the end to the start of */ /* possible suffix */ not_done = 1, cmp; stem_end = word + w_len - 1; if (w_len > PREDEFINED_SIZE) /* find the start of suffix */ suffix_start = word + w_len - MAX_ENDING_SIZE; else suffix_start = word + MIN_STEM_LENGTH; ch1 = *suffix_start; do /* Search for the first character */ { p_first = root; do { ch2 = p_first->c; if (ch1 == ch2) break; else if (ch1 > ch2) p_first = p_first->right; else p_first = p_first->left; } while (p_first != NULL); if (p_first != NULL) /* Search for the rest */ { e_offset = stem_end - suffix_start; if ((p_list = p_first->ptr[e_offset]) != NULL) { for (;;) /* no need to compare the first char */ { cmp = strcmp (suffix_start + 1, p_list->ending + 1); if (cmp > 0) if (p_list->right_offset) p_list += p_list->right_offset; else break; else if (cmp < 0) if (p_list->left_offset) p_list += p_list->left_offset; else break; else { s_len = suffix_start - word; if (!p_list->cond || (*p_list->cond) (s_len, suffix_start - 1)) { *suffix_start = EOS; stem_end = suffix_start - 1; not_done = 0; } break; } } } } ++suffix_start; } while (not_done && ((ch1 = *suffix_start) != EOS)); return (stem_end); }