/******************************************************************** * * * THIS FILE IS PART OF THE OggVorbis SOFTWARE CODEC SOURCE CODE. * * USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS * * GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE * * IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. * * * * THE OggVorbis SOURCE CODE IS (C) COPYRIGHT 1994-2007 * * by the Xiph.Org Foundation http://www.xiph.org/ * * * ******************************************************************** function: simple utility that runs audio through the psychoacoustics without encoding ********************************************************************/ /* NB: this is dead code, retained purely for doc and reference value don't try to compile it */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <math.h> #include "vorbis/codec.h" #include "codec_internal.h" #include "os.h" #include "misc.h" #include "psy.h" #include "mdct.h" #include "smallft.h" #include "window.h" #include "scales.h" #include "lpc.h" #include "lsp.h" #include "masking.h" #include "registry.h" static vorbis_info_psy_global _psy_set0G={ 0, /* decaydBpms */ 8, /* lines per eighth octave */ /* thresh sample period, preecho clamp trigger threshhold, range, minenergy */ 256, {26.f,26.f,26.f,30.f}, {-90.f,-90.f,-90.f,-90.f}, -90.f, -6.f, 0, 0., 0., }; static vp_part _vp_part0[]={ { 1,9e10f, 9e10f, 1.f,9999.f}, { 9999, .75f, 9e10f, .5f,9999.f}, /*{ 9999, 1.5f, 9e10f, .5f,9999.f},*/ { 18,9e10f, 9e10f, .5f, 30.f}, { 9999,9e10f, 9e10f, .5f, 30.f} }; static vp_couple _vp_couple0[]={ { 1, {9e10f,9e10f,0}, { 0.f, 0.f,0}, { 0.f, 0.f,0}, {0.f,0.f,0}}, { 18, {9e10f,9e10f,0}, { 0.f, 0.f,0}, { 0.f, 0.f,0}, {0.f,0.f,0}}, { 9999, {9e10f,9e10f,0}, { 0.f, 9e10f,0}, { 0.f,22.f,1}, {0.f,0.f,0}} }; static vorbis_info_psy _psy_set0={ ATH_Bark_dB_lineaggressive, -100.f, -140.f, 6.f, /* floor master att */ /* 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 */ /* x: 63 88 125 175 250 350 500 700 1k 1.4k 2k 2.8k 4k 5.6k 8k 11.5k 16k Hz */ /* y: 0 10 20 30 40 50 60 70 80 90 100 dB */ 1, /* tonemaskp */ 0.f, /* tone master att */ /* 0 10 20 30 40 50 60 70 80 90 100 */ { {-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f}, /*63*/ {-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f}, /*88*/ {-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f,-999.f}, /*125*/ {-30.f,-30.f,-35.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*175*/ {-30.f,-30.f,-35.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*250*/ {-30.f,-30.f,-35.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*350*/ {-30.f,-30.f,-35.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*500*/ {-30.f,-30.f,-35.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*700*/ {-30.f,-30.f,-35.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*1000*/ {-30.f,-30.f,-35.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*1400*/ {-40.f,-40.f,-40.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*2000*/ {-40.f,-40.f,-40.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*2800*/ {-40.f,-40.f,-40.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*4000*/ {-30.f,-35.f,-35.f,-40.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*5600*/ {-30.f,-30.f,-33.f,-35.f,-40.f,-50.f,-60.f,-70.f,-80.f,-90.f,-100.f}, /*8000*/ {-30.f,-30.f,-33.f,-35.f,-40.f,-45.f,-50.f,-60.f,-70.f,-85.f,-100.f}, /*11500*/ {-24.f,-24.f,-26.f,-32.f,-32.f,-42.f,-50.f,-60.f,-70.f,-85.f,-100.f}, /*16000*/ }, 1,/* peakattp */ {{-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*63*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*88*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*125*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*175*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*250*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*350*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*500*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*700*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*1000*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*1400*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*2000*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*2800*/ {-14.f,-20.f,-20.f,-20.f,-26.f,-32.f,-40.f,-40.f,-40.f,-40.f,-40.f},/*4000*/ {-10.f,-12.f,-14.f,-16.f,-16.f,-20.f,-24.f,-30.f,-32.f,-40.f,-40.f},/*5600*/ {-10.f,-12.f,-14.f,-16.f,-16.f,-20.f,-24.f,-30.f,-32.f,-40.f,-40.f},/*8000*/ {-10.f,-10.f,-10.f,-12.f,-14.f,-18.f,-22.f,-28.f,-32.f,-40.f,-40.f},/*11500*/ {-10.f,-10.f,-10.f,-12.f,-14.f,-18.f,-22.f,-28.f,-32.f,-40.f,-40.f},/*16000*/ }, 1,/*noisemaskp */ -10.f, /* suppress any noise curve over maxspec+n */ .5f, /* low window */ .5f, /* high window */ 10, 10, 25, {.000f, 0.f, /*63*/ .000f, 0.f, /*88*/ .000f, 0.f, /*125*/ .000f, 0.f, /*175*/ .000f, 0.f, /*250*/ .000f, 0.f, /*350*/ .000f, 0.f, /*500*/ .000f, 0.f, /*700*/ .000f, 0.f, /*1000*/ .300f, 0.f, /*1400*/ .300f, 0.f, /*2000*/ .300f, 0.f, /*2800*/ .500f, 0.f, /*4000*/ .700f, 0.f, /*5600*/ .850f, 0.f, /*8000*/ .900f, 0.f, /*11500*/ .900f, 1.f, /*16000*/ }, 95.f, /* even decade + 5 is important; saves an rint() later in a tight loop) */ -44., 32, _vp_part0,_vp_couple0 }; static vorbis_info_floor1 _floor_set0={1, {0}, {32}, {0}, {0}, {{-1}}, 2, {0,1024, 88,31,243, 14,54,143,460, 6,3,10, 22,18,26, 41,36,47, 69,61,78, 112,99,126, 185,162,211, 329,282,387, 672,553,825 }, 60,30,400, 20,8,1,18., 20,600, 960}; static vorbis_info_mapping0 mapping_info={1,{0,1},{0},{0},{0},0, 1, {0},{1}}; static codec_setup_info codec_setup0={ {0,0}, 1,1,1,1,1,0,1, {NULL}, {0},{&mapping_info}, {0},{NULL}, {1},{&_floor_set0}, {2},{NULL}, {NULL}, {&_psy_set0}, &_psy_set0G}; static int noisy=0; void analysis(char *base,int i,float *v,int n,int bark,int dB){ if(noisy){ int j; FILE *of; char buffer[80]; sprintf(buffer,"%s_%d.m",base,i); of=fopen(buffer,"w"); for(j=0;j<n;j++){ if(dB && v[j]==0) fprintf(of,"\n\n"); else{ if(bark) fprintf(of,"%g ",toBARK(22050.f*j/n)); else fprintf(of,"%g ",(float)j); if(dB){ fprintf(of,"%g\n",todB(v+j)); }else{ fprintf(of,"%g\n",v[j]); } } } fclose(of); } } long frameno=0; /****************************************************************/ int main(int argc,char *argv[]){ int eos=0; float nonz=0.f; float acc=0.f; float tot=0.f; float ampmax=-9999,newmax; float local_ampmax[2]; int framesize=2048; float ampmax_att_per_sec=-6.; float *pcm[2],*out[2],*window,*flr[2],*mask[2],*work[2]; signed char *buffer,*buffer2; mdct_lookup m_look; drft_lookup f_look; vorbis_look_psy p_look; vorbis_look_psy_global *pg_look; vorbis_look_floor *floor_look; vorbis_info vi; long i,j,k; int ath=0; int decayp=0; argv++; while(*argv){ if(*argv[0]=='-'){ /* option */ if(argv[0][1]=='v'){ noisy=0; } }else if(*argv[0]=='+'){ /* option */ if(argv[0][1]=='v'){ noisy=1; } }else framesize=atoi(argv[0]); argv++; } vi.channels=2; vi.codec_setup=&codec_setup0; pcm[0]=_ogg_malloc(framesize*sizeof(float)); pcm[1]=_ogg_malloc(framesize*sizeof(float)); out[0]=_ogg_calloc(framesize/2,sizeof(float)); out[1]=_ogg_calloc(framesize/2,sizeof(float)); work[0]=_ogg_calloc(framesize,sizeof(float)); work[1]=_ogg_calloc(framesize,sizeof(float)); flr[0]=_ogg_calloc(framesize/2,sizeof(float)); flr[1]=_ogg_calloc(framesize/2,sizeof(float)); buffer=_ogg_malloc(framesize*4); buffer2=buffer+framesize*2; window=_vorbis_window_create(0,framesize,framesize/2,framesize/2); mdct_init(&m_look,framesize); drft_init(&f_look,framesize); _vp_psy_init(&p_look,&_psy_set0,&_psy_set0G,framesize/2,44100); pg_look=_vp_global_look(&vi); floor_look=_floor_P[1]->look(NULL,NULL,&_floor_set0); /* we cheat on the WAV header; we just bypass 44 bytes and never verify that it matches 16bit/stereo/44.1kHz. */ fread(buffer,1,44,stdin); fwrite(buffer,1,44,stdout); memset(buffer,0,framesize*2); analysis("window",0,window,framesize,0,0); fprintf(stderr,"Processing for frame size %d...\n",framesize); while(!eos){ long bytes=fread(buffer2,1,framesize*2,stdin); if(bytes<framesize*2) memset(buffer2+bytes,0,framesize*2-bytes); if(bytes!=0){ int nonzero[2]; /* uninterleave samples */ for(i=0;i<framesize;i++){ pcm[0][i]=((buffer[i*4+1]<<8)| (0x00ff&(int)buffer[i*4]))/32768.f; pcm[1][i]=((buffer[i*4+3]<<8)| (0x00ff&(int)buffer[i*4+2]))/32768.f; } { float secs=framesize/44100.; ampmax+=secs*ampmax_att_per_sec; if(ampmax<-9999)ampmax=-9999; } for(i=0;i<2;i++){ float scale=4.f/framesize; float *fft=work[i]; float *mdct=pcm[i]; float *logmdct=mdct+framesize/2; analysis("pre",frameno+i,pcm[i],framesize,0,0); /* fft and mdct transforms */ for(j=0;j<framesize;j++) fft[j]=pcm[i][j]*=window[j]; drft_forward(&f_look,fft); local_ampmax[i]=-9999.f; fft[0]*=scale; fft[0]=todB(fft); for(j=1;j<framesize-1;j+=2){ float temp=scale*FAST_HYPOT(fft[j],fft[j+1]); temp=fft[(j+1)>>1]=todB(&temp); if(temp>local_ampmax[i])local_ampmax[i]=temp; } if(local_ampmax[i]>ampmax)ampmax=local_ampmax[i]; mdct_forward(&m_look,pcm[i],mdct); for(j=0;j<framesize/2;j++) logmdct[j]=todB(mdct+j); analysis("mdct",frameno+i,logmdct,framesize/2,1,0); analysis("fft",frameno+i,fft,framesize/2,1,0); } for(i=0;i<2;i++){ float amp; float *fft=work[i]; float *logmax=fft; float *mdct=pcm[i]; float *logmdct=mdct+framesize/2; float *mask=fft+framesize/2; /* floor psychoacoustics */ _vp_compute_mask(&p_look, pg_look, i, fft, logmdct, mask, ampmax, local_ampmax[i], framesize/2); analysis("mask",frameno+i,mask,framesize/2,1,0); { vorbis_block vb; vorbis_dsp_state vd; memset(&vd,0,sizeof(vd)); vd.vi=&vi; vb.vd=&vd; vb.pcmend=framesize; /* floor quantization/application */ nonzero[i]=_floor_P[1]->forward(&vb,floor_look, mdct, logmdct, mask, logmax, flr[i]); } _vp_remove_floor(&p_look, pg_look, logmdct, mdct, flr[i], pcm[i], local_ampmax[i]); for(j=0;j<framesize/2;j++) if(fabs(pcm[i][j])>1500) fprintf(stderr,"%ld ",frameno+i); analysis("res",frameno+i,pcm[i],framesize/2,1,0); analysis("codedflr",frameno+i,flr[i],framesize/2,1,1); } /* residue prequantization */ _vp_partition_prequant(&p_look, &vi, pcm, nonzero); for(i=0;i<2;i++) analysis("quant",frameno+i,pcm[i],framesize/2,1,0); /* channel coupling / stereo quantization */ _vp_couple(&p_look, &mapping_info, pcm, nonzero); for(i=0;i<2;i++) analysis("coupled",frameno+i,pcm[i],framesize/2,1,0); /* decoupling */ for(i=mapping_info.coupling_steps-1;i>=0;i--){ float *pcmM=pcm[mapping_info.coupling_mag[i]]; float *pcmA=pcm[mapping_info.coupling_ang[i]]; for(j=0;j<framesize/2;j++){ float mag=pcmM[j]; float ang=pcmA[j]; if(mag>0) if(ang>0){ pcmM[j]=mag; pcmA[j]=mag-ang; }else{ pcmA[j]=mag; pcmM[j]=mag+ang; } else if(ang>0){ pcmM[j]=mag; pcmA[j]=mag+ang; }else{ pcmA[j]=mag; pcmM[j]=mag-ang; } } } for(i=0;i<2;i++) analysis("decoupled",frameno+i,pcm[i],framesize/2,1,0); for(i=0;i<2;i++){ float amp; for(j=0;j<framesize/2;j++) pcm[i][j]*=flr[i][j]; analysis("final",frameno+i,pcm[i],framesize/2,1,1); /* take it back to time */ mdct_backward(&m_look,pcm[i],pcm[i]); for(j=0;j<framesize/2;j++) out[i][j]+=pcm[i][j]*window[j]; analysis("out",frameno+i,out[i],framesize/2,0,0); } /* write data. Use the part of buffer we're about to shift out */ for(i=0;i<2;i++){ char *ptr=buffer+i*2; float *mono=out[i]; int flag=0; for(j=0;j<framesize/2;j++){ int val=mono[j]*32767.; /* might as well guard against clipping */ if(val>32767){ if(!flag)fprintf(stderr,"clipping in frame %ld ",frameno+i); flag=1; val=32767; } if(val<-32768){ if(!flag)fprintf(stderr,"clipping in frame %ld ",frameno+i); flag=1; val=-32768; } ptr[0]=val&0xff; ptr[1]=(val>>8)&0xff; ptr+=4; } } fprintf(stderr,"*"); fwrite(buffer,1,framesize*2,stdout); memmove(buffer,buffer2,framesize*2); for(i=0;i<2;i++){ for(j=0,k=framesize/2;j<framesize/2;j++,k++) out[i][j]=pcm[i][k]*window[k]; } frameno+=2; }else eos=1; } fprintf(stderr,"average raw bits of entropy: %.03g/sample\n",acc/tot); fprintf(stderr,"average nonzero samples: %.03g/%d\n",nonz/tot*framesize/2, framesize/2); fprintf(stderr,"Done\n\n"); return 0; }