ref: 397265f5791291defa76487c2388e1898e2e433c
dir: /lang/usenglish/us_f0_model.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 */ /*************************************************************************/ /* */ /* An F0 model */ /* This is derived fromthe f2b model freely distributed in Festival */ /* */ /*************************************************************************/ #include "cst_hrg.h" #include "cst_phoneset.h" #include "us_f0.h" static void apply_lr_model(cst_item *s, const us_f0_lr_term *f0_lr_terms, float *start, float *mid, float *end) { int i; const cst_val *v=0; float fv; /* Interceptors */ *start = f0_lr_terms[0].start; *mid = f0_lr_terms[0].mid; *end = f0_lr_terms[0].end; for (i=1; f0_lr_terms[i].feature; i++) { if (!cst_streq(f0_lr_terms[i].feature,f0_lr_terms[i-1].feature)) v = ffeature(s,f0_lr_terms[i].feature); if (f0_lr_terms[i].type) { if (cst_streq(val_string(v),f0_lr_terms[i].type)) fv = 1.0; else fv = 0.0; } else fv = val_float(v); (*start) += fv*f0_lr_terms[i].start; (*mid) += fv*f0_lr_terms[i].mid; (*end) += fv*f0_lr_terms[i].end; /* printf("f %s start %f mid %f end %f\n", f0_lr_terms[i].feature, *start,*mid,*end); */ } } static void add_target_point(cst_relation *targ,float pos, float f0) { cst_item *t; /* printf("target %f at %f\n",f0,pos); */ t = relation_append(targ,NULL); item_set_float(t,"pos",pos); /* them there can sometimes do silly things, so guard for that */ if (f0 > 500.0) item_set_float(t,"f0",500.0); else if (f0 < 50.0) item_set_float(t,"f0",50.0); else item_set_float(t,"f0",f0); } /* model mean and stddev take from f2b/kal_diphone */ #define model_mean 170.0 #define model_stddev 34 #define map_f0(v,m,s) ((((v-model_mean)/model_stddev)*s)+m) static int post_break(cst_item *syl) { if ((item_prev(syl) == 0) || (cst_streq("pau", ffeature_string(syl, "R:SylStructure.daughter.R:Segment.p.name")))) return TRUE; else return FALSE; } static int pre_break(cst_item *syl) { if ((item_next(syl) == 0) || (cst_streq("pau", ffeature_string(syl, "R:SylStructure.daughtern.R:Segment.n.name")))) return TRUE; else return FALSE; } static float vowel_mid(cst_item *syl) { /* return time point mid way in vowel in this syl */ cst_item *s; cst_item *ts; const cst_phoneset *ps = item_phoneset(syl); ts = item_daughter(item_as(syl,"SylStructure")); for (s=ts; s; s = item_next(s)) { if (cst_streq("+", phone_feature_string(ps,item_feat_string(s,"name"), "vc"))) { return (item_feat_float(s,"end")+ ffeature_float(s,"R:Segment.p.end"))/2.0; } } /* no segments, shouldn't happen */ if (ts == 0) return 0; /* no vowel in syllable, shouldn't happen */ return (item_feat_float(ts,"end")+ ffeature_float(ts,"R:Segment.p.end"))/2.0; } cst_utterance *us_f0_model(cst_utterance *u) { /* F0 target model: Black and Hunt ICSLP96, three points per syl */ cst_item *syl, *t, *nt; cst_relation *targ_rel; float mean, stddev, local_mean, local_stddev; float start, mid, end, lend; float seg_end; if (feat_present(u->features,"no_f0_target_model")) return u; targ_rel = utt_relation_create(u,"Target"); mean = get_param_float(u->features,"int_f0_target_mean", 100.0); mean *= get_param_float(u->features,"f0_shift", 1.0); stddev = get_param_float(u->features,"int_f0_target_stddev", 12.0); lend = 0; for (syl=relation_head(utt_relation(u,"Syllable")); syl; syl = item_next(syl)) { /* printf("word %s, accent %s endtone %s\n", ffeature_string(syl,"R:SylStructure.parent.name"), ffeature_string(syl,"accent"), ffeature_string(syl,"endtone")); */ if (!item_daughter(item_as(syl,"SylStructure"))) continue; /* no segs in syl */ local_mean = ffeature_float(syl,"R:SylStructure.parent.R:Token.parent.local_f0_shift"); if (local_mean) local_mean *= mean; else local_mean = mean; local_stddev = ffeature_float(syl,"R:SylStructure.parent.R:Token.parent.local_f0_range"); if (local_stddev == 0.0) local_stddev = stddev; apply_lr_model(syl,f0_lr_terms,&start,&mid,&end); if (post_break(syl)) lend = map_f0(start,local_mean,local_stddev); add_target_point(targ_rel, ffeature_float(syl, "R:SylStructure.daughter.R:Segment.p.end"), map_f0((start+lend)/2.0,local_mean,local_stddev)); add_target_point(targ_rel, vowel_mid(syl), map_f0(mid,local_mean,local_stddev)); lend = map_f0(end,local_mean,local_stddev); if (pre_break(syl)) add_target_point(targ_rel, ffeature_float(syl,"R:SylStructure.daughtern.end"), map_f0(end,local_mean,local_stddev)); } /* Guarantee targets go from start to end of utterance */ t = relation_head(targ_rel); if (t == 0) add_target_point(targ_rel,0,mean); else if (item_feat_float(t,"pos") > 0) { nt = item_prepend(t,NULL); item_set_float(nt,"pos",0.0); item_set_float(nt,"f0",item_feat_float(t,"f0")); } t = relation_tail(targ_rel); seg_end = item_feat_float(relation_tail(utt_relation(u,"Segment")),"end"); if (item_feat_float(t,"pos") < seg_end) add_target_point(targ_rel,seg_end,item_feat_float(t,"f0")); return u; }