int flite_init() { cst_regex_init(); return 0; }
int main(int argc, char *argv[]) { char *s,*fn; cst_voice *voice; // synthesis voice cst_utterance *utt; // current utterance cst_wave *cstwave; // synthesised wave Wave w; // HTK wave short *p; HTime sampPeriod = 625.0; int n; MemHeap mem; AudioOut a; try { if (InitHTK(argc,argv,version)<SUCCESS){ ReportErrors("Main",0); exit(-1); } if (NumArgs() !=2) { printf("SFliteTest synthstring file\n"); exit(0); } CreateHeap(&mem,"heap",MSTAK,1,0.0,10000,100000); s = GetStrArg(); fn = GetStrArg(); printf("Synth: %s -> %s\n",s,fn); // initialise Edinburgh cst lib cst_regex_init(); // setup the voice voice = register_cmu_us_kal16(NULL); // convert text to waveform utt = flite_synth_text(s,voice); if (utt==NULL) { HRError(12001,"SFliteTest: cant synthesise %s\n",s); throw ATK_Error(12001); } cstwave = utt_wave(utt); p = cstwave->samples; n = cstwave->num_samples; w = OpenWaveOutput(&mem,&sampPeriod,n); printf("%d samples created\n",n); PutWaveSample(w,n,p); if (CloseWaveOutput(w,WAV,fn)<SUCCESS){ ReportErrors("Main",0); exit(-1); } // explore structure const cst_item *it, *itlast = NULL; float x,y; int i; string lastword="0"; x = 0; for (i=1,it = relation_head(utt_relation(utt, "Segment")); it!=NULL; it = item_next(it),i++) { printf("Segment %d\n",i); y = item_feat_float(it,"end"); string ph = string(ffeature_string(it,"p.name")); string wd = string(ffeature_string(it,"R:SylStructure.parent.parent.name")); //printf("end = %f ph=%s wd=%s\n",y,ph.c_str(),wd.c_str()); if (wd != lastword){ printf("**** end of %s = %f\n",lastword.c_str(),x); lastword=wd; } x = y; } //if (itlast!=NULL) { // word = string(ffeature_string(itlast,"R:SylStructure.parent.parent.name")); // idx = text.find(word); //} return 0; } catch (ATK_Error e){ ReportErrors("ATK",e.i); } catch (HTK_Error e){ ReportErrors("HTK",e.i); } return 0; }