/******************************************************************** * * * THIS FILE IS PART OF THE OggVorbis 'TREMOR' 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 'TREMOR' SOURCE CODE IS (C) COPYRIGHT 1994-2002 * * BY THE Xiph.Org FOUNDATION http://www.xiph.org/ * * * ******************************************************************** function: floor backend 1 implementation ********************************************************************/ #include "config-tremor.h" #include #include #include "ogg.h" #include "ivorbiscodec.h" #include "codec_internal.h" #include "registry.h" #include "codebook.h" #include "misc.h" #define floor1_rangedB 140 /* floor 1 fixed at -140dB to 0dB range */ typedef struct { int forward_index[VIF_POSIT+2]; int hineighbor[VIF_POSIT]; int loneighbor[VIF_POSIT]; int posts; int n; int quant_q; vorbis_info_floor1 *vi; } vorbis_look_floor1; /***********************************************/ static void floor1_free_info(vorbis_info_floor *i){ vorbis_info_floor1 *info=(vorbis_info_floor1 *)i; if(info){ //memset(info,0,sizeof(*info)); _ogg_free(info); } } static void floor1_free_look(vorbis_look_floor *i){ vorbis_look_floor1 *look=(vorbis_look_floor1 *)i; if(look){ //memset(look,0,sizeof(*look)); _ogg_free(look); } } static inline int ilog(register unsigned int v){ register int ret=0; while(v){ ret++; v>>=1; } return(ret); } static vorbis_info_floor *floor1_unpack (vorbis_info *vi,oggpack_buffer *opb){ codec_setup_info *ci=(codec_setup_info *)vi->codec_setup; int j,k,count=0,maxclass=-1,rangebits; vorbis_info_floor1 *info=(vorbis_info_floor1 *)_ogg_calloc(1,sizeof(*info)); /* read partitions */ info->partitions=oggpack_read(opb,5); /* only 0 to 31 legal */ for(j=0;jpartitions;j++){ info->partitionclass[j]=oggpack_read(opb,4); /* only 0 to 15 legal */ if(maxclasspartitionclass[j])maxclass=info->partitionclass[j]; } /* read partition classes */ for(j=0;jclass_dim[j]=oggpack_read(opb,3)+1; /* 1 to 8 */ info->class_subs[j]=oggpack_read(opb,2); /* 0,1,2,3 bits */ if(info->class_subs[j]<0) goto err_out; if(info->class_subs[j])info->class_book[j]=oggpack_read(opb,8); if(info->class_book[j]<0 || info->class_book[j]>=ci->books) goto err_out; for(k=0;k<(1<class_subs[j]);k++){ info->class_subbook[j][k]=oggpack_read(opb,8)-1; if(info->class_subbook[j][k]<-1 || info->class_subbook[j][k]>=ci->books) goto err_out; } } /* read the post list */ info->mult=oggpack_read(opb,2)+1; /* only 1,2,3,4 legal now */ rangebits=oggpack_read(opb,4); for(j=0,k=0;jpartitions;j++){ count+=info->class_dim[info->partitionclass[j]]; for(;kpostlist[k+2]=oggpack_read(opb,rangebits); if(t<0 || t>=(1<postlist[0]=0; info->postlist[1]=1<vi=info; look->n=info->postlist[1]; /* we drop each position value in-between already decoded values, and use linear interpolation to predict each new value past the edges. The positions are read in the order of the position list... we precompute the bounding positions in the lookup. Of course, the neighbors can change (if a position is declined), but this is an initial mapping */ for(i=0;ipartitions;i++)n+=info->class_dim[info->partitionclass[i]]; n+=2; look->posts=n; /* also store a sorted position index */ for(i=0;ipostlist+i; qsort(sortpointer,n,sizeof(*sortpointer),icomp); /* points from sort order back to range number */ for(i=0;iforward_index[i]=sortpointer[i]-info->postlist; /* quantize values to multiplier spec */ switch(info->mult){ case 1: /* 1024 -> 256 */ look->quant_q=256; break; case 2: /* 1024 -> 128 */ look->quant_q=128; break; case 3: /* 1024 -> 86 */ look->quant_q=86; break; case 4: /* 1024 -> 64 */ look->quant_q=64; break; } /* discover our neighbors for decode where we don't use fit flags (that would push the neighbors outward) */ for(i=0;in; int currentx=info->postlist[i+2]; for(j=0;jpostlist[j]; if(x>lx && xcurrentx){ hi=j; hx=x; } } look->loneighbor[i]=lo; look->hineighbor[i]=hi; } return(look); } static int render_point(int x0,int x1,int y0,int y1,int x){ y0&=0x7fff; /* mask off flag */ y1&=0x7fff; { int dy=y1-y0; int adx=x1-x0; int ady=abs(dy); int err=ady*(x-x0); int off=err/adx; if(dy<0)return(y0-off); return(y0+off); } } #ifdef _LOW_ACCURACY_ # define XdB(n) ((((n)>>8)+1)>>1) #else # define XdB(n) (n) #endif static ogg_int32_t FLOOR_fromdB_LOOKUP[256] ={ XdB(0x000000e5), XdB(0x000000f4), XdB(0x00000103), XdB(0x00000114), XdB(0x00000126), XdB(0x00000139), XdB(0x0000014e), XdB(0x00000163), XdB(0x0000017a), XdB(0x00000193), XdB(0x000001ad), XdB(0x000001c9), XdB(0x000001e7), XdB(0x00000206), XdB(0x00000228), XdB(0x0000024c), XdB(0x00000272), XdB(0x0000029b), XdB(0x000002c6), XdB(0x000002f4), XdB(0x00000326), XdB(0x0000035a), XdB(0x00000392), XdB(0x000003cd), XdB(0x0000040c), XdB(0x00000450), XdB(0x00000497), XdB(0x000004e4), XdB(0x00000535), XdB(0x0000058c), XdB(0x000005e8), XdB(0x0000064a), XdB(0x000006b3), XdB(0x00000722), XdB(0x00000799), XdB(0x00000818), XdB(0x0000089e), XdB(0x0000092e), XdB(0x000009c6), XdB(0x00000a69), XdB(0x00000b16), XdB(0x00000bcf), XdB(0x00000c93), XdB(0x00000d64), XdB(0x00000e43), XdB(0x00000f30), XdB(0x0000102d), XdB(0x0000113a), XdB(0x00001258), XdB(0x0000138a), XdB(0x000014cf), XdB(0x00001629), XdB(0x0000179a), XdB(0x00001922), XdB(0x00001ac4), XdB(0x00001c82), XdB(0x00001e5c), XdB(0x00002055), XdB(0x0000226f), XdB(0x000024ac), XdB(0x0000270e), XdB(0x00002997), XdB(0x00002c4b), XdB(0x00002f2c), XdB(0x0000323d), XdB(0x00003581), XdB(0x000038fb), XdB(0x00003caf), XdB(0x000040a0), XdB(0x000044d3), XdB(0x0000494c), XdB(0x00004e10), XdB(0x00005323), XdB(0x0000588a), XdB(0x00005e4b), XdB(0x0000646b), XdB(0x00006af2), XdB(0x000071e5), XdB(0x0000794c), XdB(0x0000812e), XdB(0x00008993), XdB(0x00009283), XdB(0x00009c09), XdB(0x0000a62d), XdB(0x0000b0f9), XdB(0x0000bc79), XdB(0x0000c8b9), XdB(0x0000d5c4), XdB(0x0000e3a9), XdB(0x0000f274), XdB(0x00010235), XdB(0x000112fd), XdB(0x000124dc), XdB(0x000137e4), XdB(0x00014c29), XdB(0x000161bf), XdB(0x000178bc), XdB(0x00019137), XdB(0x0001ab4a), XdB(0x0001c70e), XdB(0x0001e4a1), XdB(0x0002041f), XdB(0x000225aa), XdB(0x00024962), XdB(0x00026f6d), XdB(0x000297f0), XdB(0x0002c316), XdB(0x0002f109), XdB(0x000321f9), XdB(0x00035616), XdB(0x00038d97), XdB(0x0003c8b4), XdB(0x000407a7), XdB(0x00044ab2), XdB(0x00049218), XdB(0x0004de23), XdB(0x00052f1e), XdB(0x0005855c), XdB(0x0005e135), XdB(0x00064306), XdB(0x0006ab33), XdB(0x00071a24), XdB(0x0007904b), XdB(0x00080e20), XdB(0x00089422), XdB(0x000922da), XdB(0x0009bad8), XdB(0x000a5cb6), XdB(0x000b091a), XdB(0x000bc0b1), XdB(0x000c8436), XdB(0x000d5471), XdB(0x000e3233), XdB(0x000f1e5f), XdB(0x001019e4), XdB(0x001125c1), XdB(0x00124306), XdB(0x001372d5), XdB(0x0014b663), XdB(0x00160ef7), XdB(0x00177df0), XdB(0x001904c1), XdB(0x001aa4f9), XdB(0x001c603d), XdB(0x001e384f), XdB(0x00202f0f), XdB(0x0022467a), XdB(0x002480b1), XdB(0x0026dff7), XdB(0x002966b3), XdB(0x002c1776), XdB(0x002ef4fc), XdB(0x0032022d), XdB(0x00354222), XdB(0x0038b828), XdB(0x003c67c2), XdB(0x004054ae), XdB(0x004482e8), XdB(0x0048f6af), XdB(0x004db488), XdB(0x0052c142), XdB(0x005821ff), XdB(0x005ddc33), XdB(0x0063f5b0), XdB(0x006a74a7), XdB(0x00715faf), XdB(0x0078bdce), XdB(0x0080967f), XdB(0x0088f1ba), XdB(0x0091d7f9), XdB(0x009b5247), XdB(0x00a56a41), XdB(0x00b02a27), XdB(0x00bb9ce2), XdB(0x00c7ce12), XdB(0x00d4ca17), XdB(0x00e29e20), XdB(0x00f15835), XdB(0x0101074b), XdB(0x0111bb4e), XdB(0x01238531), XdB(0x01367704), XdB(0x014aa402), XdB(0x016020a7), XdB(0x017702c3), XdB(0x018f6190), XdB(0x01a955cb), XdB(0x01c4f9cf), XdB(0x01e269a8), XdB(0x0201c33b), XdB(0x0223265a), XdB(0x0246b4ea), XdB(0x026c9302), XdB(0x0294e716), XdB(0x02bfda13), XdB(0x02ed9793), XdB(0x031e4e09), XdB(0x03522ee4), XdB(0x03896ed0), XdB(0x03c445e2), XdB(0x0402efd6), XdB(0x0445ac4b), XdB(0x048cbefc), XdB(0x04d87013), XdB(0x05290c67), XdB(0x057ee5ca), XdB(0x05da5364), XdB(0x063bb204), XdB(0x06a36485), XdB(0x0711d42b), XdB(0x0787710e), XdB(0x0804b299), XdB(0x088a17ef), XdB(0x0918287e), XdB(0x09af747c), XdB(0x0a50957e), XdB(0x0afc2f19), XdB(0x0bb2ef7f), XdB(0x0c759034), XdB(0x0d44d6ca), XdB(0x0e2195bc), XdB(0x0f0cad0d), XdB(0x10070b62), XdB(0x1111aeea), XdB(0x122da66c), XdB(0x135c120f), XdB(0x149e24d9), XdB(0x15f525b1), XdB(0x176270e3), XdB(0x18e7794b), XdB(0x1a85c9ae), XdB(0x1c3f06d1), XdB(0x1e14f07d), XdB(0x200963d7), XdB(0x221e5ccd), XdB(0x2455f870), XdB(0x26b2770b), XdB(0x29363e2b), XdB(0x2be3db5c), XdB(0x2ebe06b6), XdB(0x31c7a55b), XdB(0x3503ccd4), XdB(0x3875c5aa), XdB(0x3c210f44), XdB(0x4009632b), XdB(0x4432b8cf), XdB(0x48a149bc), XdB(0x4d59959e), XdB(0x52606733), XdB(0x57bad899), XdB(0x5d6e593a), XdB(0x6380b298), XdB(0x69f80e9a), XdB(0x70dafda8), XdB(0x78307d76), XdB(0x7fffffff), }; static void render_line(int x0,register int x1,int y0,int y1,ogg_int32_t *d){ int dy=y1-y0; register int x=x0; register int y=y0; register int adx=x1-x0; register int ady=abs(dy); register int base=dy/adx; register int sy=(dy<0?base-1:base+1); int err=0; ady-=abs(base*adx); d[x]= MULT31_SHIFT15(d[x],FLOOR_fromdB_LOOKUP[y]); while(++x=adx){ err-=adx; y+=sy; }else{ y+=base; } d[x]= MULT31_SHIFT15(d[x],FLOOR_fromdB_LOOKUP[y]); } } static void *floor1_inverse1(vorbis_block *vb,vorbis_look_floor *in){ vorbis_look_floor1 *look=(vorbis_look_floor1 *)in; vorbis_info_floor1 *info=look->vi; codec_setup_info *ci=(codec_setup_info *)vb->vd->vi->codec_setup; int i,j,k; codebook *books=ci->fullbooks; /* unpack wrapped/predicted values from stream */ if(oggpack_read(&vb->opb,1)==1){ int *fit_value=(int *)_vorbis_block_alloc(vb,(look->posts)*sizeof(*fit_value)); int ilg = ilog(look->quant_q-1); fit_value[0]=oggpack_read(&vb->opb,ilg); fit_value[1]=oggpack_read(&vb->opb,ilg); /* partition by partition */ /* partition by partition */ for(i=0,j=2;ipartitions;i++){ int classv=info->partitionclass[i]; int cdim=info->class_dim[classv]; int csubbits=info->class_subs[classv]; int csub=1<class_book[classv],&vb->opb); if(cval==-1)goto eop; } for(k=0;kclass_subbook[classv][cval&(csub-1)]; cval>>=csubbits; if(book>=0){ if((fit_value[j+k]=vorbis_book_decode(books+book,&vb->opb))==-1) goto eop; }else{ fit_value[j+k]=0; } } j+=cdim; } /* unwrap positive values and reconsitute via linear interpolation */ for(i=2;iposts;i++){ int predicted=render_point(info->postlist[look->loneighbor[i-2]], info->postlist[look->hineighbor[i-2]], fit_value[look->loneighbor[i-2]], fit_value[look->hineighbor[i-2]], info->postlist[i]); int hiroom=look->quant_q-predicted; int loroom=predicted; int room=(hiroom=room){ if(hiroom>loroom){ val = val-loroom; }else{ val = -1-(val-hiroom); } }else{ if(val&1){ val= -((val+1)>>1); }else{ val>>=1; } } fit_value[i]=val+predicted; fit_value[look->loneighbor[i-2]]&=0x7fff; fit_value[look->hineighbor[i-2]]&=0x7fff; }else{ fit_value[i]=predicted|0x8000; } } return(fit_value); } eop: return(NULL); } static int floor1_inverse2(vorbis_block *vb,vorbis_look_floor *in,void *memo, ogg_int32_t *out){ vorbis_look_floor1 *look=(vorbis_look_floor1 *)in; vorbis_info_floor1 *info=look->vi; codec_setup_info *ci=(codec_setup_info *)vb->vd->vi->codec_setup; int n=ci->blocksizes[vb->W]/2; int j; if(memo){ /* render the lines */ int *fit_value=(int *)memo; int hx=0; int lx=0; int ly=fit_value[0]*info->mult; for(j=1;jposts;j++){ int current=look->forward_index[j]; int hy=fit_value[current]&0x7fff; if(hy==fit_value[current]){ hy*=info->mult; hx=info->postlist[current]; render_line(lx,hx,ly,hy,out); lx=hx; ly=hy; } } for(j=hx;j