int main (int argc, char *argv[]) { short *samps; int i, j, buflen, endutt, blksize, nhypwds, nsamp; char *argsfile, *ctlfile, *indir; char filename[512], cepfile[512]; partialhyp_t *parthyp; FILE *fp, *sfp; fprintf(stderr,"At the beginning\n"); if (argc != 4) { argsfile = NULL; parse_args_file(argsfile); E_FATAL("\nUSAGE: %s <ctlfile> <inrawdir> <argsfile>\n",argv[0]); } ctlfile = argv[1]; indir = argv[2]; argsfile = argv[3]; fprintf(stderr,"before calloc\n"); samps = (short *) calloc(MAXSAMPLES,sizeof(short)); blksize = 2000; fprintf(stderr,"after calloc\n"); if ((fp = fopen(ctlfile,"r")) == NULL) E_FATAL("Unable to read %s\n",ctlfile); live_initialize_decoder(argsfile); fprintf(stderr,"after initialize decode\n"); #ifdef VTUNE VTResume(); #endif while (fscanf(fp,"%s",filename) != EOF){ sprintf(cepfile,"%s/%s.raw",indir,filename); if ((sfp = fopen(cepfile,"rb")) == NULL) E_FATAL("Unable to read %s\n",cepfile); nsamp = fread(samps, sizeof(short), MAXSAMPLES, sfp); fprintf(stdout,"%d samples in file %s.\nWill be decoded in blocks of %d\n",nsamp,cepfile,blksize); fflush(stdout); fclose(sfp); for (i=0;i<nsamp;i+=blksize){ buflen = i+blksize < nsamp ? blksize : nsamp-i; endutt = i+blksize <= nsamp-1 ? 0 : 1; nhypwds = live_utt_decode_block(samps+i,buflen,endutt,&parthyp); E_INFO("PARTIAL HYP:"); if (nhypwds > 0) for (j=0; j < nhypwds; j++) fprintf(stderr," %s",parthyp[j].word); fprintf(stderr,"\n"); } } return 0; }
//----------------------------------------------------------------------------- // The application main loop //----------------------------------------------------------------------------- int CIHVTestApp::Main() { SpewOutputFunc( IHVTestSpewFunc ); if ( !SetupStudioRender() ) { return 0; } if ( !InitMaterialSystem( m_hWnd ) ) { return 0; } #if !defined( _X360 ) // X360TBD: extern void Sys_InitFloatTime( void ); //garymcthack Sys_InitFloatTime(); #endif LoadModels(); #if USE_VTUNE VTResume(); #endif #ifdef USE_VPROF g_VProfCurrentProfile.Start(); #endif bool m_bExitMainLoop = false; while (!m_bExitMainLoop && !g_BenchFinished) { AppPumpMessages(); RenderFrame(); } #ifdef USE_VPROF g_VProfCurrentProfile.Stop(); #endif g_IHVTestFP = fopen( "ihvtest_vprof.txt", "w" ); #ifdef USE_VPROF SpewOutputFunc( IHVTestVProfSpewFunc ); g_VProfCurrentProfile.OutputReport( VPRT_SUMMARY ); g_VProfCurrentProfile.OutputReport( VPRT_HIERARCHY_TIME_PER_FRAME_AND_COUNT_ONLY ); fclose( g_IHVTestFP ); SpewOutputFunc( IHVTestSpewFunc ); #endif #if USE_VTUNE VTPause(); #endif return 0; }
/** Resumes profiling. */ virtual void ProfilerResumeFunction() override { VTResume(); }