ref: e9e2e37c329dbe98bfeb27a1828ef9a71fa84f88
dir: /lang/usenglish/us_text.c/
/*************************************************************************/ /* */ /* Language Technologies Institute */ /* Carnegie Mellon University */ /* Copyright (c) 2001 */ /* 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. */ /* */ /*************************************************************************/ /* Author: Alan W Black (awb@cs.cmu.edu) */ /* Date: January 2001 */ /*************************************************************************/ /* */ /* US English text analysis functions */ /* */ /*************************************************************************/ #include <ctype.h> #include "flite.h" #include "usenglish.h" #include "us_text.h" #include "cst_regex.h" static int text_splitable(const char *s,int i); static cst_val *state_name(const char *name,cst_item *t); /* compiled us regexes */ #include "us_regexes.h" /* Note you need to also update the wandm regex in make_us_regexes too */ static const char * const wandm_abbrevs[99][2] = { { "LB", "pounds" }, { "LBS", "pounds" }, { "lb", "pounds" }, { "lbs", "pounds" }, { "ft", "feet" }, { "FT", "feet" }, { "kg", "kilograms" }, { "km", "kilometers" }, { "cm", "centimeters" }, { "mm", "millimeters" }, { "ml", "milliliters" }, { "oz", "ounces" }, { "hz", "hertz" }, { "Hz", "hertz" }, { "HZ", "hertz" }, { "KHz", "kilohertz" }, { "MHz", "megahertz" }, { "GHz", "gigahertz" }, { "KB", "kilobytes" }, { "GB", "gigabytes" }, { "MB", "megabytes" }, { "TB", "terabytes" }, { NULL, NULL }, }; static const char * const eedwords[] = { "to", "can", "can't", "cannot", "cant", "could", "couldn't", "couldnt", "will", "shall", NULL}; static int rex_like(const cst_item *t) { /* returns 1 if this is in a king like context */ char *pn = cst_downcase(ffeature_string(t,"p.name")); char *ppn = cst_downcase(ffeature_string(t,"p.p.name")); int v = 0; if (cst_streq(pn,"louis") || cst_streq(pn,"henry") || cst_streq(pn,"charles") || cst_streq(pn,"philip") || cst_streq(pn,"george") || cst_streq(pn,"edward") || cst_streq(pn,"pius") || cst_streq(pn,"william") || cst_streq(pn,"richard") || cst_streq(pn,"ptolemy") || cst_streq(pn,"john") || cst_streq(pn,"paul") || cst_streq(pn,"peter") || cst_streq(pn,"nicholas") || cst_streq(pn,"frederick") || cst_streq(pn,"james") || cst_streq(pn,"alfonso") || cst_streq(pn,"ivan") || cst_streq(pn,"napolean") || cst_streq(pn,"leo") || cst_streq(pn,"gregory") || cst_streq(pn,"catherine") || cst_streq(pn,"alexandria") || cst_streq(pn,"pierre") || cst_streq(pn,"elizabeth") || cst_streq(pn,"mary")) v = 1; else if (cst_streq(ppn,"king") || cst_streq(ppn,"queen") || cst_streq(ppn,"pope") || cst_streq(ppn,"duke") || cst_streq(ppn,"tsar") || cst_streq(ppn,"emperor") || cst_streq(ppn,"shah") || cst_streq(ppn,"ceasar") || cst_streq(ppn,"duchess") || cst_streq(ppn,"tsarina") || cst_streq(ppn,"empress") || cst_streq(ppn,"baron") || cst_streq(ppn,"baroness") || cst_streq(ppn,"sultan") || cst_streq(ppn,"count") || cst_streq(ppn,"countess")) v = 1; cst_free(pn); cst_free(ppn); return v; } static int section_like(const cst_item *t) { /* returns 1 if this is in a king like context */ char *pn = cst_downcase(ffeature_string(t,"p.name")); int v = 0; if (cst_streq(pn,"section") || cst_streq(pn,"chapter") || cst_streq(pn,"part") || cst_streq(pn,"phrase") || cst_streq(pn,"verse") || cst_streq(pn,"scene") || cst_streq(pn,"act") || cst_streq(pn,"book") || cst_streq(pn,"volume") || cst_streq(pn,"chap") || cst_streq(pn,"war") || cst_streq(pn,"apollo") || cst_streq(pn,"trek") || cst_streq(pn,"fortran")) v = 1; cst_free(pn); return v; } cst_utterance *us_textanalysis(cst_utterance *u) { if (!feat_present(u->features, "tokentowords_func")) utt_set_feat(u, "tokentowords_func", itemfunc_val(us_tokentowords)); return default_textanalysis(u); } static cst_val *us_tokentowords_one(cst_item *token, const char *name); cst_val *us_tokentowords(cst_item *token) { return us_tokentowords_one(token, item_feat_string(token, "name")); } static cst_val *add_break(cst_val *l) { /* add feature (break 1) to last item in this list */ const cst_val *i; cst_val *t; cst_features *f; for (i=l; val_cdr(i); i=val_cdr(i)); if (i) /* might be empty list */ { f = new_features(); feat_set_string(f,"break","1"); t = cons_val(val_car(i),features_val(f)); set_car((cst_val *)i,t); } return l; } static int contains_unicode_single_quote(const char *name) { static const char *unicode_single_quote = "’"; int i; for (i=0; name[i]; i++) { /* No check if name is long enough as it'll have NULL before end */ if ((name[i] == unicode_single_quote[0]) && (name[i+1] == unicode_single_quote[1]) && (name[i+2] == unicode_single_quote[2])) return TRUE; } return FALSE; } static char *map_unicode_single_quote(const char *name) { static const char *unicode_single_quote = "’"; int i,j; char *aaa = cst_strdup(name); /* it'll always get shorter */ for (i=0,j=0; name[i]; i++,j++) { if ((name[i] == unicode_single_quote[0]) && (name[i+1] == unicode_single_quote[1]) && (name[i+2] == unicode_single_quote[2])) { aaa[j] = '\''; i+=2; } else aaa[j] = name[i]; } aaa[j] = '\0'; return aaa; } static cst_val *us_tokentowords_one(cst_item *token, const char *name) { /* Return list of words that expand token/name */ const char *p; char *aaa, *bbb, *ccc, *ppp; int i,j,k,l; cst_val *r, *s, *ss; const cst_val *rr; const char *nsw = ""; const char *ssml_alias = ""; const char *token_name = ""; cst_lexicon *lex; cst_utterance *utt; /* printf("token_name %s name %s\n",item_name(token),name); */ /* FIXME: For SAPI and friends, any tokens with explicit pronunciations need to be passed through as-is. This should be done in the interface code rather than here once the tokentowords hook is accessible. AWB: no, they should set the nsw feature and this function should deal with it (doesn't yet though)*/ if (item_feat_present(token,"phones")) return cons_val(string_val(name),NULL); if (item_feat_present(token,"nsw")) nsw = item_feat_string(token,"nsw"); token_name = item_name(token); if ((item_feat_present(token,"ssml_alias")) && (!cst_streq(token_name,name))) /* and we are not recursing */ { /* SSML has given a substitute for this (and more) tokens */ /* NOTE: the alias is not put through text normalization */ ssml_alias = item_feat_string(token,"ssml_alias"); if (cst_streq(ssml_alias,ffeature_string(token,"p.ssml_alias"))) /* The first token gets the substitution */ return NULL; else { return cons_val(string_val(ssml_alias),NULL); } } utt = item_utt(token); lex = val_lexicon(feat_val(utt->features,"lexicon")); if (cst_streq("1",get_param_string(item_feats(token),"ssml_comment","0"))) r = NULL; else if ((cst_streq("a",name) || cst_streq("A",name)) && ((item_next(token) == 0) || (!cst_streq(name,item_name(token))) || (!cst_streq("",ffeature_string(token,"punc"))))) { /* if A is a sub part of a token, then its ey not ah */ r = cons_val(string_val("_a"),0); } else if (cst_strlen(name) == 0) r = NULL; else if (cst_regex_match(dottedabbrevs,name)) { /* X.X.X */ aaa = cst_strdup(name); for (i=j=0; aaa[i]; i++) if (aaa[i] != '.') { aaa[j] = aaa[i]; j++; } aaa[j] = '\0'; r = en_exp_letters(aaa); cst_free(aaa); } else if (cst_regex_match(cst_rx_commaint,name)) { /* 99,999,999 */ aaa = cst_strdup(name); for (j=i=0; i < (signed int)cst_strlen(name); i++) if (name[i] != ',') { aaa[j] = name[i]; j++; } aaa[j] = '\0'; r = en_exp_real(aaa); cst_free(aaa); } else if (cst_regex_match(sevenphonenumber,name)) { /* 234-3434 telephone numbers */ p=strchr(name,'-'); aaa = cst_strdup(name); aaa[cst_strlen(name)-cst_strlen(p)] = '\0'; bbb = cst_strdup(p+1); r = val_append(add_break(en_exp_digits(aaa)), en_exp_digits(bbb)); cst_free(aaa); cst_free(bbb); } else if ((cst_regex_match(threedigits,name) && ((!cst_regex_match(cst_rx_digits,ffeature_string(token,"p.name")) && cst_regex_match(threedigits,ffeature_string(token,"n.name")) && cst_regex_match(fourdigits,ffeature_string(token,"n.n.name"))) || (cst_regex_match(sevenphonenumber,ffeature_string(token,"n.name"))) || (!cst_regex_match(cst_rx_digits,ffeature_string(token,"p.p.name")) && cst_regex_match(threedigits,ffeature_string(token,"p.name")) && cst_regex_match(fourdigits,ffeature_string(token,"n.name"))))) || (cst_regex_match(fourdigits,name) && (!cst_regex_match(cst_rx_digits,ffeature_string(token,"n.name")) && cst_regex_match(threedigits,ffeature_string(token,"p.name")) && cst_regex_match(threedigits,ffeature_string(token,"p.p.name"))))) { /* part of a telephone number */ if (cst_streq("",ffeature_string(token,"punc"))) item_set_string(token,"punc",","); r = add_break(en_exp_digits(name)); } else if (cst_regex_match(numbertime,name)) { p=strchr(name,':'); aaa = cst_strdup(name); aaa[cst_strlen(name)-cst_strlen(p)] = '\0'; bbb = cst_strdup(p+1); r = en_exp_number(aaa); if (!cst_streq("00",bbb)) r = val_append(r,en_exp_id(bbb)); /* r = add_break(r); */ cst_free(aaa); cst_free(bbb); } else if (cst_regex_match(numbertimexm,name)) { p=strchr(name,':'); if (!p) p=strchr(name,'.'); aaa = cst_strdup(name); aaa[cst_strlen(name)-cst_strlen(p)] = '\0'; bbb = cst_strdup(p+1); bbb[2] = '\0'; ccc = cst_strdup(p+3); r = en_exp_number(aaa); if (!cst_streq("00",bbb)) r = val_append(r,en_exp_id(bbb)); /* r = add_break(r); */ r = val_append(r,en_exp_letters(ccc)); cst_free(aaa); cst_free(bbb); cst_free(ccc); } else if (cst_regex_match(digits2dash,name)) { /* 999-999-999 etc */ bbb = cst_strdup(name); for (ss=0,ppp=aaa=bbb; *ppp; ppp++) { if (*ppp == '-') { /* skip however many - there are */ while ((*ppp != '\0') && (*ppp == '-')) { *ppp = '\0'; ppp++; } ss = cons_val(string_val(aaa),ss); aaa = ppp; } } ss = cons_val(string_val(aaa),ss); /* note the order is now reversed */ if ((val_length(ss) == 2) && (atoi(val_string(val_car(val_cdr(ss)))) < atoi(val_string(val_car(ss)))) && /* small to large */ (abs(cst_strlen(val_string(val_car(val_cdr(ss)))) - cst_strlen(val_string(val_car(ss)))) < 2)) /* not too diff */ { /* Should get 22-23 November, or 1998-1999 right */ r = val_append(us_tokentowords_one(token,val_string(val_car(val_cdr(ss)))), cons_val(string_val("to"), us_tokentowords_one(token,val_string(val_car(ss))))); } else { /* Its just a bunch of ids */ r = 0; for (rr=ss; rr; rr=val_cdr(rr)) { r = val_append( add_break(en_exp_digits(val_string(val_car(rr)))),r); } } delete_val(ss); cst_free(bbb); } else if (cst_regex_match(leadingzerodigits,name)) { /* a leading zero and digits */ r = en_exp_digits(name); } else if (cst_regex_match(cst_rx_digits,name)) { /* string of digits (use cart to disambiguate) */ if (cst_streq("nide",nsw)) r = en_exp_id(name); else { const cst_val *tv; const char *ts; char *rname; rname = cst_strdup(item_feat_string(token,"name")); if (cst_streq(name,rname)) tv = cart_interpret(token,&us_nums_cart); else { /* in a recursive call */ item_set_string(token,"name",name); tv = cart_interpret(token,&us_nums_cart); item_set_string(token,"name",rname); } cst_free(rname); ts = val_string(tv); if (cst_streq(ts,"ordinal")) r = en_exp_ordinal(name); else if (cst_streq(ts,"digits")) r = en_exp_digits(name); else if (cst_streq(ts,"year")) r = en_exp_id(name); else r = en_exp_number(name); } } else if (cst_regex_match(romannums,name)) { /* Roman numerals */ if (cst_streq("",ffeature_string(token,"p.punc"))) { /* no preceeding punc */ char n[10]; cst_sprintf(n,"%d",en_exp_roman(name)); if (rex_like(token)) r = cons_val(string_val("the"), en_exp_ordinal(n)); else if (section_like(token)) r = en_exp_number(n); else r = en_exp_letters(name); } else r = en_exp_letters(name); } else if (cst_regex_match(drst,name)) { /* St Andrew's St, Dr King Dr */ const char *street; const char *saint; if ((name[0] == 's') || (name[0] == 'S')) { street = "street"; saint = "saint"; } else { street = "drive"; saint = "doctor"; } if ((item_next(token) == 0) || strchr(item_feat_string(token,"punc"),',')) r = cons_val(string_val(street),NULL); else if (strchr(ffeature_string(token,"punc"),',')) r = cons_val(string_val(saint),NULL); else { const char *pname = ffeature_string(token,"p.name"); const char *nname = ffeature_string(token,"n.name"); if ((pname[0] >= 'A') && (pname[0] <= 'Z') && (nname[0] >= 'a') && (nname[0] <= 'z')) r = cons_val(string_val(street),NULL); else if ((pname[0] >= '0') && (pname[0] <= '9') && (nname[0] >= 'a') && (nname[0] <= 'z')) r = cons_val(string_val(street),NULL); else if ((pname[0] >= 'a') && (pname[0] <= 'z') && (nname[0] >= 'A') && (nname[0] <= 'Z')) r = cons_val(string_val(saint),NULL); else if (cst_streq(ffeature_string(token,"n.whitespace")," ")) r = cons_val(string_val(saint),NULL); else r = cons_val(string_val(street),NULL); } if (cst_streq(item_feat_string(token,"punc"),".")) item_set_string(token,"punc",""); } else if (cst_streq(name,"Mr")) { item_set_string(token,"punc",""); r = cons_val(string_val("mister"),NULL); } else if (cst_streq(name,"Mrs")) { item_set_string(token,"punc",""); r = cons_val(string_val("missus"),NULL); } else if ((cst_streq(name,"read")) || (cst_streq(name,"lead"))) { /* checking WSJ examples, this seems a quick and easy way to */ /* get many of these correct */ const char *pname = ffeature_string(token,"p.name"); for (i=0; eedwords[i]; i++) if (cst_streq(pname,eedwords[i])) break; if (eedwords[i]) { /* reed or leed */ if (name[0] == 'r') r = cons_val(string_val("reed"),NULL); else r = cons_val(string_val("leed"),NULL); } else /* red or led */ { if (name[0] == 'r') r = cons_val(string_val("red"),NULL); else r = cons_val(string_val("led"),NULL); } } else if (cst_streq(name,"am") || cst_streq(name,"AM")) { if (!cst_streq(name,item_name(token))) r = en_exp_letters(name); else if (item_prev(token) && (cst_regex_match(numbertime,ffeature_string(token,"p.name")) || cst_regex_match(cst_rx_digits,ffeature_string(token,"p.name")))) r = en_exp_letters(name); else r = cons_val(string_val(name),NULL); } else if ((cst_strlen(name) == 1) && (name[0] >= 'A') && (name[0] <= 'Z') && (cst_streq(" ",ffeature_string(token,"n.whitespace"))) && (ffeature_string(token,"n.name")[0] >= 'A') && (ffeature_string(token,"n.name")[0] <= 'Z')) { item_set_string(token,"punc",""); aaa = cst_downcase(name); if (cst_streq(aaa,"a")) r = cons_val(string_val("_a"),0); else r = cons_val(string_val(aaa),0); cst_free(aaa); } else if (cst_regex_match(cst_rx_double,name)) { /* real numbers */ r = en_exp_real(name); } else if (cst_regex_match(ordinal_number,name)) { /* explicit ordinals */ aaa = cst_strdup(name); aaa[cst_strlen(name)-2] = '\0'; r = en_exp_ordinal(aaa); cst_free(aaa); } else if ((cst_regex_match(illion,name)) && (cst_regex_match(usmoney,ffeature_string(token,"p.name")))) { r = cons_val(string_val(name), cons_val(string_val("dollars"),NULL)); } else if (cst_regex_match(usmoney,name)) { /* US money */ /* printf("money, money, money %s\n", name); */ p = strchr(name,'.'); if (cst_regex_match(illion,ffeature_string(token,"n.name"))) { /* carl sagan's billions and billions */ r = en_exp_real(&name[1]); } else if (!p) { aaa = cst_strdup(&name[1]); if (cst_streq("1",aaa)) r = cons_val(string_val("dollar"),NULL); else r = cons_val(string_val("dollars"),NULL); r = val_append(us_tokentowords_one(token,aaa),r); cst_free(aaa); } else if ((cst_strlen(p) == 1) || (cst_strlen(p) > 3)) { /* simply read as mumble point mumble */ r = val_append(en_exp_real(&name[1]), cons_val(string_val("dollars"),NULL)); } else { aaa = cst_strdup(name); aaa[cst_strlen(name)-cst_strlen(p)] = '\0'; for (i=j=0; aaa[i] != '\0'; i++) { if (aaa[i] != ',') { aaa[j] = aaa[i]; j++; } } aaa[j] = '\0'; if (cst_streq("00",p+1)) r = 0; else if (cst_streq("01",p+1)) r = val_append(en_exp_number(p+1), cons_val(string_val("cent"),NULL)); else r = val_append(en_exp_number(p+1), cons_val(string_val("cents"),NULL)); if (cst_streq("1",aaa+1)) r = cons_val(string_val("dollar"),r); else r = cons_val(string_val("dollars"),r); r = val_append(en_exp_number(aaa+1),r); cst_free(aaa); } } else if (name[cst_strlen(name)-1] == '%') { aaa = cst_strdup(name); aaa[cst_strlen(aaa)-1] = '\0'; r = val_append(us_tokentowords_one(token,aaa), cons_val(string_val("per"), cons_val(string_val("cent"),NULL))); cst_free(aaa); } else if (cst_regex_match(numess,name)) { /* 60s and 7s and 9s */ aaa = cst_strdup(name); aaa[cst_strlen(name)-1] = '\0'; r = val_append(us_tokentowords_one(token,aaa), cons_val(string_val("'s"),0)); cst_free(aaa); } else if (contains_unicode_single_quote(name)) { /* A single quote is sometimes rendered as unicode "’" */ /* so we map it back to an ascii single quote ' */ aaa = map_unicode_single_quote(name); r = us_tokentowords_one(token, aaa); cst_free(aaa); return r; } else if ((p=(cst_strrchr(name,'\'')))) { static const char * const pc[] = { "'s", "'ll", "'ve", "'d", NULL }; bbb = cst_downcase(p); if (cst_member_string(bbb, pc)) { aaa = cst_strdup(name); aaa[cst_strlen(name)-cst_strlen(p)] = '\0'; r = val_append(us_tokentowords_one(token,aaa), cons_val(string_val(bbb),0)); cst_free(aaa); } else if (cst_streq(p,"'tve")) /* admittedly rare and weird */ { aaa = cst_strdup(name); aaa[cst_strlen(name)-cst_strlen(p)+2] = '\0'; r = val_append(us_tokentowords_one(token,aaa), cons_val(string_val("'ve"),0)); cst_free(aaa); } else { aaa = cst_strdup(name); strcpy(&aaa[cst_strlen(name)-cst_strlen(p)],p+1); r = us_tokentowords_one(token,aaa); cst_free(aaa); } cst_free(bbb); } else if ((cst_regex_match(digitsslashdigits,name)) && (cst_streq(name,item_name(token)))) { /* might be fraction, or not */ p=strchr(name,'/'); aaa = cst_strdup(name); aaa[cst_strlen(name)-cst_strlen(p)] = '\0'; bbb = cst_strdup(p+1); if ((cst_streq("1",aaa)) && (cst_streq("2",bbb))) r = cons_val(string_val("a"), cons_val(string_val("half"),0)); else if (atoi(aaa) < (atoi(bbb))) { r = val_append(en_exp_number(aaa), en_exp_ordinal(bbb)); if (atoi(aaa) > 1) r = val_append(r,cons_val(string_val("'s"),0)); } else r = val_append(en_exp_number(aaa), cons_val(string_val("slash"), en_exp_number(bbb))); if ((cst_regex_match(cst_rx_digits,ffeature_string(token,"p.name"))) && (item_prev(token))) /* don't mistake "0" as a number */ r = cons_val(string_val("and"),r); cst_free(aaa); cst_free(bbb); } else if ((p=(strchr(name,'-')))) { /* aaa-bbb */ aaa = cst_strdup(name); aaa[cst_strlen(name)-cst_strlen(p)] = '\0'; bbb = cst_strdup(p+1); if (cst_regex_match(cst_rx_digits,aaa) && cst_regex_match(cst_rx_digits,bbb)) { ccc = cst_strdup(name); item_set_string(token,"name",bbb); r = us_tokentowords_one(token,bbb); item_set_string(token,"name",aaa); r = val_append(us_tokentowords_one(token,aaa), cons_val(string_val("to"),r)); item_set_string(token,"name",ccc); cst_free(ccc); } else r = val_append(us_tokentowords_one(token,aaa), us_tokentowords_one(token,bbb)); cst_free(aaa); cst_free(bbb); } else if (cst_regex_match(wandm,name)) { /* weights and measures */ for (j=cst_strlen(name)-1; j > 0; j--) if (cst_strchr("0123456789",name[j])) break; j += 1; for (i=0; wandm_abbrevs[i][0]; i++) if (cst_streq(name+j,wandm_abbrevs[i][0])) break; aaa = cst_strdup(name); aaa[j] = '\0'; /* remove any commas */ for (k=0,l=0; aaa[l]; k++,l++) { if (aaa[l] == ',') l++; aaa[k] = aaa[l]; } aaa[k] = '\0'; if (!wandm_abbrevs[i][0]) /* didn't find an expansion */ r = val_append(en_exp_number(aaa), us_tokentowords_one(token,name+j)); else r = val_append(en_exp_number(aaa), cons_val(string_val(wandm_abbrevs[i][1]),NULL)); cst_free(aaa); } else if ((cst_strlen(name) > 1) && (!cst_regex_match(cst_rx_alpha,name))) { /* its not just alphas */ for (i=0; name[i] != '\0'; i++) if (text_splitable(name,i)) break; aaa = cst_strdup(name); aaa[i+1] = '\0'; bbb = cst_strdup(&name[i+1]); item_set_string(token,"nsw","nide"); r = val_append(us_tokentowords_one(token,aaa), us_tokentowords_one(token,bbb)); cst_free(aaa); cst_free(bbb); } else if ((s = state_name(name,token))) { r = s; } else if ((cst_strlen(name) > 1) && (cst_regex_match(cst_rx_alpha,name)) && /* AUP: Added 4th argument (voice feats) as NULL, needs to be revisited later. */ (!in_lex(lex,name,NULL,NULL)) && (!us_aswd(name))) /* Still not quiet right, if there is a user_lex we need to check */ /* it too -- but user_lex isn't user setable yet */ /* Need common exception list */ /* unpronouncable list of alphas */ r = en_exp_letters(name); /* buckets of other stuff missing */ else /* just a word */ { aaa = cst_downcase(name); r = cons_val(string_val(aaa),0); cst_free(aaa); } return r; } static int text_splitable(const char *s,int i) { /* should token be split after this */ if (strchr("abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ",s[i]) && strchr("abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ",s[i+1])) return FALSE; else if (strchr("0123456789",s[i]) && strchr("0123456789",s[i+1])) return FALSE; else return TRUE; } static const char * const states[99][5] = { { "AL", "ambiguous", "alabama" , NULL, NULL }, { "Al", "ambiguous", "alabama" , NULL, NULL }, { "Ala", "", "alabama" , NULL, NULL }, { "AK", "", "alaska" , NULL, NULL }, { "Ak", "", "alaska" , NULL, NULL }, { "AZ", "", "arizona" , NULL, NULL }, { "Az", "", "arizona" , NULL, NULL }, { "CA", "", "california" , NULL, NULL }, { "Ca", "", "california" , NULL, NULL }, { "Cal", "ambiguous", "california" , NULL, NULL }, { "Calif", "", "california" , NULL, NULL }, { "CO", "ambiguous", "colorado" , NULL, NULL }, { "Co", "ambiguous", "colorado" , NULL, NULL }, { "Colo", "", "colorado" , NULL, NULL }, { "DC", "", "d" , "c", NULL }, { "DE", "", "delaware" , NULL, NULL }, { "De", "ambiguous", "delaware" , NULL, NULL }, { "Del", "ambiguous", "delaware" , NULL, NULL }, { "FL", "", "florida" , NULL, NULL }, { "Fl", "ambiguous", "florida" , NULL, NULL }, { "Fla", "", "florida" , NULL, NULL }, { "GA", "", "georgia" , NULL, NULL }, { "Ga", "", "georgia" , NULL, NULL }, { "HI", "", "hawaii" , NULL, NULL }, { "Hi", "ambiguous", "hawaii" , NULL, NULL }, { "IA", "", "iowa" , NULL, NULL }, { "Ia", "ambiguous", "iowa" , NULL, NULL }, { "Ind", "ambiguous", "indiana" , NULL, NULL }, { "ID", "ambiguous", "idaho" , NULL, NULL }, { "IL", "ambiguous", "illinois" , NULL, NULL }, { "Il", "ambiguous", "illinois" , NULL, NULL }, { "ILL", "ambiguous", "illinois" , NULL, NULL }, { "KS", "", "kansas" , NULL, NULL }, { "Ks", "", "kansas" , NULL, NULL }, { "Kans", "", "kansas" , NULL, NULL }, { "KY", "ambiguous", "kentucky" , NULL, NULL }, { "Ky", "ambiguous", "kentucky" , NULL, NULL }, { "LA", "ambiguous", "louisiana" , NULL, NULL }, { "La", "ambiguous", "louisiana" , NULL, NULL }, { "Lou", "ambiguous", "louisiana" , NULL, NULL }, { "Lous", "ambiguous", "louisiana" , NULL, NULL }, { "MA", "ambiguous", "massachusetts" , NULL, NULL }, { "Mass", "ambiguous", "massachusetts" , NULL, NULL }, { "Ma", "ambiguous", "massachusetts" , NULL, NULL }, { "MD", "ambiguous", "maryland" , NULL, NULL }, { "Md", "ambiguous", "maryland" , NULL, NULL }, { "ME", "ambiguous", "maine" , NULL, NULL }, { "Me", "ambiguous", "maine" , NULL, NULL }, { "MI", "", "michigan" , NULL, NULL }, { "Mi", "ambiguous", "michigan" , NULL, NULL }, { "Mich", "ambiguous", "michigan" , NULL, NULL }, { "MN", "ambiguous", "minnestota" , NULL, NULL }, { "Minn", "ambiguous", "minnestota" , NULL, NULL }, { "MS", "ambiguous", "mississippi" , NULL, NULL }, { "Miss", "ambiguous", "mississippi" , NULL, NULL }, { "MT", "ambiguous", "montanna" , NULL, NULL }, { "Mt", "ambiguous", "montanna" , NULL, NULL }, { "MO", "ambiguous", "missouri" , NULL, NULL }, { "Mo", "ambiguous", "missouri" , NULL, NULL }, { "NC", "ambiguous", "north" , "carolina", NULL }, { "ND", "ambiguous", "north" , "dakota", NULL }, { "NE", "ambiguous", "nebraska" , NULL, NULL }, { "Ne", "ambiguous", "nebraska" , NULL, NULL }, { "Neb", "ambiguous", "nebraska" , NULL, NULL }, { "NH", "ambiguous", "new" , "hampshire", NULL }, { "NV", "", "nevada" , NULL, NULL }, { "Nev", "", "nevada" , NULL, NULL }, { "NY", "", "new" , "york", NULL }, { "OH", "ambiguous", "ohio" , NULL, NULL }, { "OK", "ambiguous", "oklahoma" , NULL, NULL }, { "Okla", "", "oklahoma" , NULL, NULL }, { "OR", "ambiguous", "oregon" , NULL, NULL }, { "Or", "ambiguous", "oregon" , NULL, NULL }, { "Ore", "ambiguous", "oregon" , NULL, NULL }, { "PA", "ambiguous", "pennsylvania" , NULL, NULL }, { "Pa", "ambiguous", "pennsylvania" , NULL, NULL }, { "Penn", "ambiguous", "pennsylvania" , NULL, NULL }, { "RI", "ambiguous", "rhode" , "island", NULL }, { "SC", "ambiguous", "south" , "carlolina", NULL }, { "SD", "ambiguous", "south" , "dakota", NULL }, { "TN", "ambiguous", "tennesee" , NULL, NULL }, { "Tn", "ambiguous", "tennesee" , NULL, NULL }, { "Tenn", "ambiguous", "tennesee" , NULL, NULL }, { "TX", "ambiguous", "texas" , NULL, NULL }, { "Tx", "ambiguous", "texas" , NULL, NULL }, { "Tex", "ambiguous", "texas" , NULL, NULL }, { "UT", "ambiguous", "utah" , NULL, NULL }, { "VA", "ambiguous", "virginia" , NULL, NULL }, { "WA", "ambiguous", "washington" , NULL, NULL }, { "Wa", "ambiguous", "washington" , NULL, NULL }, { "Wash", "ambiguous", "washington" , NULL, NULL }, { "WI", "ambiguous", "wisconsin" , NULL, NULL }, { "Wi", "ambiguous", "wisconsin" , NULL, NULL }, { "WV", "ambiguous", "west" , "virginia", NULL }, { "WY", "ambiguous", "wyoming" , NULL, NULL }, { "Wy", "ambiguous", "wyoming" , NULL, NULL }, { "Wyo", "", "wyoming" , NULL, NULL }, { "PR", "ambiguous", "puerto" , "rico", NULL }, { NULL, NULL, "puerto" , "rico", NULL } }; static cst_val *state_name(const char *name,cst_item *t) { int s,j; int do_it = 0; cst_val *r = 0; for (s=0; states[s][0]; s++) { if (cst_streq(states[s][0],name)) { if (cst_streq(states[s][1],"ambiguous")) { const char *pname = ffeature_string(t,"p.name"); const char *nname = ffeature_string(t,"n.name"); /* previous name is capitalized */ if (((strchr("ABCDEFGHIJKLMNOPQRSTUVWXYZ",pname[0])) && (cst_strlen(pname) > 2) && (cst_regex_match(cst_rx_alpha,pname))) && ((strchr("abcdefghijklmnopqrstuvwxyz",nname[0])) || (item_next(t) == 0) || (cst_streq(".",item_feat_string(t,"punc"))) || (((cst_strlen(nname) == 5 || (cst_strlen(nname) == 10)) && cst_regex_match(cst_rx_digits,nname))))) do_it = 1; else do_it = 0; } else do_it = 1; if (do_it) { for (j=2; states[s][j]; j++) r = cons_val(string_val(states[s][j]),r); return val_reverse(r); } } } return r; }