ref: 4148cdd9f2b07cdc5cf653a7c3637e82cc40c839
dir: /lang/cmu_grapheme_lex/cmu_grapheme_lex.c/
/*************************************************************************/ /* */ /* Language Technologies Institute */ /* Carnegie Mellon University */ /* Copyright (c) 2013 */ /* All Rights Reserved. */ /* */ /* Permission is hereby granted, free of charge, to use and distribute */ /* this software and its documentation without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of this work, and to */ /* permit persons to whom this work is furnished to do so, subject to */ /* the following conditions: */ /* 1. The code must retain the above copyright notice, this list of */ /* conditions and the following disclaimer. */ /* 2. Any modifications must be clearly marked as such. */ /* 3. Original authors' names are not deleted. */ /* 4. The authors' names are not used to endorse or promote products */ /* derived from this software without specific prior written */ /* permission. */ /* */ /* CARNEGIE MELLON UNIVERSITY AND THE CONTRIBUTORS TO THIS WORK */ /* DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING */ /* ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT */ /* SHALL CARNEGIE MELLON UNIVERSITY NOR THE CONTRIBUTORS BE LIABLE */ /* FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES */ /* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN */ /* AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, */ /* ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF */ /* THIS SOFTWARE. */ /* */ /*************************************************************************/ /* */ /* grapheme Lexical function */ /* */ /*************************************************************************/ #include "flite.h" #include "cst_val.h" #include "cst_voice.h" #include "cst_lexicon.h" #include "cst_ffeatures.h" #include "cmu_grapheme_lex.h" static int cst_find_u2sampa(char *ord) { int i; /* Now this is inefficient ... */ for (i=0; i<num_unicode_sampa_mapping; i++) if (cst_streq(ord,unicode_sampa_mapping[i][0])) return i; return -1; } static int cst_utf8_as_hex(const char *in,char *out) { int o; o = cst_utf8_ord_string(in); if ((o > 96) && (o < 123)) { cst_sprintf(out,"let_%c",(unsigned char)o); } else if ((o > 64) && (o < 91)) { /* Map uppercase to lowercase */ cst_sprintf(out,"let_%c",(unsigned char)o+32); } else cst_sprintf(out,"u%04Xp",o); return o; } cst_val *cmu_grapheme_lex_lts_function(const struct lexicon_struct *l, const char *word, const char *pos, const cst_features *feats) { cst_val *phones = 0; cst_val *utflets = 0; const cst_val *v; char ord[10]; int i,phindex; /* string to utf8 chars */ utflets = cst_utf8_explode(word); for (v=utflets; v; v=val_cdr(v)) { /* We will add the found phones in reverse order and reverse then */ /* afterwards */ cst_utf8_as_hex(val_string(val_car(v)),ord); phindex = cst_find_u2sampa(ord); printf("awb_debug lookup sampa %s %s\n",val_string(val_car(v)),ord); #if 0 if (phindex < 0) printf("awb_debug no sampa %s %s\n",val_string(val_car(v)),ord); #endif for (i=4; (phindex>=0) && (i>0); i--) { if (unicode_sampa_mapping[phindex][i]) phones = cons_val(string_val(unicode_sampa_mapping[phindex][i]), phones); } } phones = val_reverse(phones); #if 0 printf("cmu_grapheme_lex.c: word \"%s\" ",word); val_print(stdout,phones); printf("\n"); #endif delete_val(utflets); return phones; } cst_utterance *cmu_grapheme_postlex(cst_utterance *u) { return u; } static int cmu_grapheme_is_vowel(const char *p) { /* This a place holder, we know its sampa, so I should look it up */ /* in the list, not guess from typographical conventions */ if (strchr("aeiouAEIOU",p[0]) == NULL) return FALSE; else return TRUE; } static int cmu_grapheme_contains_vowel(const cst_val *r) { const cst_val *x; for (x=r; x; x=val_cdr(x)) { if (cmu_grapheme_is_vowel(val_string(val_car(x)))) return TRUE; } return FALSE; } static int cmu_grapheme_has_vowel_in_syl(const cst_item *i) { const cst_item *n; for (n=i; n; n=item_prev(n)) if (cmu_grapheme_is_vowel(ffeature_string(n,"name"))) return TRUE; return FALSE; } int cmu_grapheme_syl_boundary(const cst_item *i,const cst_val *rest) { if (!rest) return TRUE; else if (!cmu_grapheme_contains_vowel(rest)) return FALSE; else if (!cmu_grapheme_has_vowel_in_syl(i)) return FALSE; #if 0 else if (rest && val_cdr(rest) && cst_streq("n",val_string(val_car(rest))) && !cmu_grapheme_is_vowel(val_string(val_car(rest)))) return FALSE; else if (rest && val_cdr(rest) && cmu_grapheme_is_vowel(ffeature_string(i,"name")) && !cmu_grapheme_is_vowel(val_string(val_car(rest))) && !cmu_grapheme_is_vowel(val_string(val_car(val_cdr(rest))))) return FALSE; else if (rest && val_cdr(rest) && val_cdr(val_cdr(rest)) && !cmu_grapheme_is_vowel(val_string(val_car(rest))) && !cmu_grapheme_is_vowel(val_string(val_car(val_cdr(rest)))) && !cmu_grapheme_is_vowel(val_string(val_car(val_cdr(val_cdr(rest)))))) return FALSE; else if (rest && val_cdr(rest) && (cst_streq(val_string(val_car(rest)), val_string(val_car(val_cdr(rest)))))) return FALSE; #endif else return TRUE; } cst_lexicon cmu_grapheme_lex; cst_lexicon *cmu_grapheme_lex_init(void) { /* Should it be global const or dynamic */ /* Can make lts_rules just a cart tree like others */ cst_lexicon *l; if (cmu_grapheme_lex.lts_function) return &cmu_grapheme_lex; l = &cmu_grapheme_lex; l->name = cst_strdup("cmu_grapheme_lex"); l->lts_function = cmu_grapheme_lex_lts_function; l->syl_boundary = cmu_grapheme_syl_boundary; l->postlex = cmu_grapheme_postlex; return l; }