vrshoot: libs/vorbis/floor1.c annotate

vrshoot

annotate libs/vorbis/floor1.c @ 0:b2f14e535253

initial commit

author	John Tsiombikas <nuclear@member.fsf.org>
date	Sat, 01 Feb 2014 19:58:19 +0200
parents
children

rev	line source
nuclear@0	1 /********************************************************************
nuclear@0	2 * *
nuclear@0	3 * THIS FILE IS PART OF THE OggVorbis SOFTWARE CODEC SOURCE CODE. *
nuclear@0	4 * USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS *
nuclear@0	5 * GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE *
nuclear@0	6 * IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. *
nuclear@0	7 * *
nuclear@0	8 * THE OggVorbis SOURCE CODE IS (C) COPYRIGHT 1994-2009 *
nuclear@0	9 * by the Xiph.Org Foundation http://www.xiph.org/ *
nuclear@0	10 * *
nuclear@0	11 ********************************************************************
nuclear@0	12
nuclear@0	13 function: floor backend 1 implementation
nuclear@0	14 last mod: $Id: floor1.c 18151 2012-01-20 07:35:26Z xiphmont $
nuclear@0	15
nuclear@0	16 ********************************************************************/
nuclear@0	17
nuclear@0	18 #include <stdlib.h>
nuclear@0	19 #include <string.h>
nuclear@0	20 #include <math.h>
nuclear@0	21 #include <ogg/ogg.h>
nuclear@0	22 #include "vorbis/codec.h"
nuclear@0	23 #include "codec_internal.h"
nuclear@0	24 #include "registry.h"
nuclear@0	25 #include "codebook.h"
nuclear@0	26 #include "misc.h"
nuclear@0	27 #include "scales.h"
nuclear@0	28
nuclear@0	29 #include <stdio.h>
nuclear@0	30
nuclear@0	31 #define floor1_rangedB 140 /* floor 1 fixed at -140dB to 0dB range */
nuclear@0	32
nuclear@0	33 typedef struct lsfit_acc{
nuclear@0	34 int x0;
nuclear@0	35 int x1;
nuclear@0	36
nuclear@0	37 int xa;
nuclear@0	38 int ya;
nuclear@0	39 int x2a;
nuclear@0	40 int y2a;
nuclear@0	41 int xya;
nuclear@0	42 int an;
nuclear@0	43
nuclear@0	44 int xb;
nuclear@0	45 int yb;
nuclear@0	46 int x2b;
nuclear@0	47 int y2b;
nuclear@0	48 int xyb;
nuclear@0	49 int bn;
nuclear@0	50 } lsfit_acc;
nuclear@0	51
nuclear@0	52 /***********************************************/
nuclear@0	53
nuclear@0	54 static void floor1_free_info(vorbis_info_floor *i){
nuclear@0	55 vorbis_info_floor1 info=(vorbis_info_floor1 )i;
nuclear@0	56 if(info){
nuclear@0	57 memset(info,0,sizeof(*info));
nuclear@0	58 _ogg_free(info);
nuclear@0	59 }
nuclear@0	60 }
nuclear@0	61
nuclear@0	62 static void floor1_free_look(vorbis_look_floor *i){
nuclear@0	63 vorbis_look_floor1 look=(vorbis_look_floor1 )i;
nuclear@0	64 if(look){
nuclear@0	65 /*fprintf(stderr,"floor 1 bit usage %f:%f (%f total)\n",
nuclear@0	66 (float)look->phrasebits/look->frames,
nuclear@0	67 (float)look->postbits/look->frames,
nuclear@0	68 (float)(look->postbits+look->phrasebits)/look->frames);*/
nuclear@0	69
nuclear@0	70 memset(look,0,sizeof(*look));
nuclear@0	71 _ogg_free(look);
nuclear@0	72 }
nuclear@0	73 }
nuclear@0	74
nuclear@0	75 static int ilog(unsigned int v){
nuclear@0	76 int ret=0;
nuclear@0	77 while(v){
nuclear@0	78 ret++;
nuclear@0	79 v>>=1;
nuclear@0	80 }
nuclear@0	81 return(ret);
nuclear@0	82 }
nuclear@0	83
nuclear@0	84 static int ilog2(unsigned int v){
nuclear@0	85 int ret=0;
nuclear@0	86 if(v)--v;
nuclear@0	87 while(v){
nuclear@0	88 ret++;
nuclear@0	89 v>>=1;
nuclear@0	90 }
nuclear@0	91 return(ret);
nuclear@0	92 }
nuclear@0	93
nuclear@0	94 static void floor1_pack (vorbis_info_floor i,oggpack_buffer opb){
nuclear@0	95 vorbis_info_floor1 info=(vorbis_info_floor1 )i;
nuclear@0	96 int j,k;
nuclear@0	97 int count=0;
nuclear@0	98 int rangebits;
nuclear@0	99 int maxposit=info->postlist[1];
nuclear@0	100 int maxclass=-1;
nuclear@0	101
nuclear@0	102 /* save out partitions */
nuclear@0	103 oggpack_write(opb,info->partitions,5); /* only 0 to 31 legal */
nuclear@0	104 for(j=0;j<info->partitions;j++){
nuclear@0	105 oggpack_write(opb,info->partitionclass[j],4); /* only 0 to 15 legal */
nuclear@0	106 if(maxclass<info->partitionclass[j])maxclass=info->partitionclass[j];
nuclear@0	107 }
nuclear@0	108
nuclear@0	109 /* save out partition classes */
nuclear@0	110 for(j=0;j<maxclass+1;j++){
nuclear@0	111 oggpack_write(opb,info->class_dim[j]-1,3); /* 1 to 8 */
nuclear@0	112 oggpack_write(opb,info->class_subs[j],2); /* 0 to 3 */
nuclear@0	113 if(info->class_subs[j])oggpack_write(opb,info->class_book[j],8);
nuclear@0	114 for(k=0;k<(1<<info->class_subs[j]);k++)
nuclear@0	115 oggpack_write(opb,info->class_subbook[j][k]+1,8);
nuclear@0	116 }
nuclear@0	117
nuclear@0	118 /* save out the post list */
nuclear@0	119 oggpack_write(opb,info->mult-1,2); /* only 1,2,3,4 legal now */
nuclear@0	120 oggpack_write(opb,ilog2(maxposit),4);
nuclear@0	121 rangebits=ilog2(maxposit);
nuclear@0	122
nuclear@0	123 for(j=0,k=0;j<info->partitions;j++){
nuclear@0	124 count+=info->class_dim[info->partitionclass[j]];
nuclear@0	125 for(;k<count;k++)
nuclear@0	126 oggpack_write(opb,info->postlist[k+2],rangebits);
nuclear@0	127 }
nuclear@0	128 }
nuclear@0	129
nuclear@0	130 static int icomp(const void a,const void b){
nuclear@0	131 return((int )a-(int )b);
nuclear@0	132 }
nuclear@0	133
nuclear@0	134 static vorbis_info_floor floor1_unpack (vorbis_info vi,oggpack_buffer *opb){
nuclear@0	135 codec_setup_info *ci=vi->codec_setup;
nuclear@0	136 int j,k,count=0,maxclass=-1,rangebits;
nuclear@0	137
nuclear@0	138 vorbis_info_floor1 info=_ogg_calloc(1,sizeof(info));
nuclear@0	139 /* read partitions */
nuclear@0	140 info->partitions=oggpack_read(opb,5); /* only 0 to 31 legal */
nuclear@0	141 for(j=0;j<info->partitions;j++){
nuclear@0	142 info->partitionclass[j]=oggpack_read(opb,4); /* only 0 to 15 legal */
nuclear@0	143 if(info->partitionclass[j]<0)goto err_out;
nuclear@0	144 if(maxclass<info->partitionclass[j])maxclass=info->partitionclass[j];
nuclear@0	145 }
nuclear@0	146
nuclear@0	147 /* read partition classes */
nuclear@0	148 for(j=0;j<maxclass+1;j++){
nuclear@0	149 info->class_dim[j]=oggpack_read(opb,3)+1; /* 1 to 8 */
nuclear@0	150 info->class_subs[j]=oggpack_read(opb,2); /* 0,1,2,3 bits */
nuclear@0	151 if(info->class_subs[j]<0)
nuclear@0	152 goto err_out;
nuclear@0	153 if(info->class_subs[j])info->class_book[j]=oggpack_read(opb,8);
nuclear@0	154 if(info->class_book[j]<0 \|\| info->class_book[j]>=ci->books)
nuclear@0	155 goto err_out;
nuclear@0	156 for(k=0;k<(1<<info->class_subs[j]);k++){
nuclear@0	157 info->class_subbook[j][k]=oggpack_read(opb,8)-1;
nuclear@0	158 if(info->class_subbook[j][k]<-1 \|\| info->class_subbook[j][k]>=ci->books)
nuclear@0	159 goto err_out;
nuclear@0	160 }
nuclear@0	161 }
nuclear@0	162
nuclear@0	163 /* read the post list */
nuclear@0	164 info->mult=oggpack_read(opb,2)+1; /* only 1,2,3,4 legal now */
nuclear@0	165 rangebits=oggpack_read(opb,4);
nuclear@0	166 if(rangebits<0)goto err_out;
nuclear@0	167
nuclear@0	168 for(j=0,k=0;j<info->partitions;j++){
nuclear@0	169 count+=info->class_dim[info->partitionclass[j]];
nuclear@0	170 if(count>VIF_POSIT) goto err_out;
nuclear@0	171 for(;k<count;k++){
nuclear@0	172 int t=info->postlist[k+2]=oggpack_read(opb,rangebits);
nuclear@0	173 if(t<0 \|\| t>=(1<<rangebits))
nuclear@0	174 goto err_out;
nuclear@0	175 }
nuclear@0	176 }
nuclear@0	177 info->postlist[0]=0;
nuclear@0	178 info->postlist[1]=1<<rangebits;
nuclear@0	179
nuclear@0	180 /* don't allow repeated values in post list as they'd result in
nuclear@0	181 zero-length segments */
nuclear@0	182 {
nuclear@0	183 int *sortpointer[VIF_POSIT+2];
nuclear@0	184 for(j=0;j<count+2;j++)sortpointer[j]=info->postlist+j;
nuclear@0	185 qsort(sortpointer,count+2,sizeof(*sortpointer),icomp);
nuclear@0	186
nuclear@0	187 for(j=1;j<count+2;j++)
nuclear@0	188 if(sortpointer[j-1]==sortpointer[j])goto err_out;
nuclear@0	189 }
nuclear@0	190
nuclear@0	191 return(info);
nuclear@0	192
nuclear@0	193 err_out:
nuclear@0	194 floor1_free_info(info);
nuclear@0	195 return(NULL);
nuclear@0	196 }
nuclear@0	197
nuclear@0	198 static vorbis_look_floor floor1_look(vorbis_dsp_state vd,
nuclear@0	199 vorbis_info_floor *in){
nuclear@0	200
nuclear@0	201 int *sortpointer[VIF_POSIT+2];
nuclear@0	202 vorbis_info_floor1 info=(vorbis_info_floor1 )in;
nuclear@0	203 vorbis_look_floor1 look=_ogg_calloc(1,sizeof(look));
nuclear@0	204 int i,j,n=0;
nuclear@0	205
nuclear@0	206 look->vi=info;
nuclear@0	207 look->n=info->postlist[1];
nuclear@0	208
nuclear@0	209 /* we drop each position value in-between already decoded values,
nuclear@0	210 and use linear interpolation to predict each new value past the
nuclear@0	211 edges. The positions are read in the order of the position
nuclear@0	212 list... we precompute the bounding positions in the lookup. Of
nuclear@0	213 course, the neighbors can change (if a position is declined), but
nuclear@0	214 this is an initial mapping */
nuclear@0	215
nuclear@0	216 for(i=0;i<info->partitions;i++)n+=info->class_dim[info->partitionclass[i]];
nuclear@0	217 n+=2;
nuclear@0	218 look->posts=n;
nuclear@0	219
nuclear@0	220 /* also store a sorted position index */
nuclear@0	221 for(i=0;i<n;i++)sortpointer[i]=info->postlist+i;
nuclear@0	222 qsort(sortpointer,n,sizeof(*sortpointer),icomp);
nuclear@0	223
nuclear@0	224 /* points from sort order back to range number */
nuclear@0	225 for(i=0;i<n;i++)look->forward_index[i]=sortpointer[i]-info->postlist;
nuclear@0	226 /* points from range order to sorted position */
nuclear@0	227 for(i=0;i<n;i++)look->reverse_index[look->forward_index[i]]=i;
nuclear@0	228 /* we actually need the post values too */
nuclear@0	229 for(i=0;i<n;i++)look->sorted_index[i]=info->postlist[look->forward_index[i]];
nuclear@0	230
nuclear@0	231 /* quantize values to multiplier spec */
nuclear@0	232 switch(info->mult){
nuclear@0	233 case 1: /* 1024 -> 256 */
nuclear@0	234 look->quant_q=256;
nuclear@0	235 break;
nuclear@0	236 case 2: /* 1024 -> 128 */
nuclear@0	237 look->quant_q=128;
nuclear@0	238 break;
nuclear@0	239 case 3: /* 1024 -> 86 */
nuclear@0	240 look->quant_q=86;
nuclear@0	241 break;
nuclear@0	242 case 4: /* 1024 -> 64 */
nuclear@0	243 look->quant_q=64;
nuclear@0	244 break;
nuclear@0	245 }
nuclear@0	246
nuclear@0	247 /* discover our neighbors for decode where we don't use fit flags
nuclear@0	248 (that would push the neighbors outward) */
nuclear@0	249 for(i=0;i<n-2;i++){
nuclear@0	250 int lo=0;
nuclear@0	251 int hi=1;
nuclear@0	252 int lx=0;
nuclear@0	253 int hx=look->n;
nuclear@0	254 int currentx=info->postlist[i+2];
nuclear@0	255 for(j=0;j<i+2;j++){
nuclear@0	256 int x=info->postlist[j];
nuclear@0	257 if(x>lx && x<currentx){
nuclear@0	258 lo=j;
nuclear@0	259 lx=x;
nuclear@0	260 }
nuclear@0	261 if(x<hx && x>currentx){
nuclear@0	262 hi=j;
nuclear@0	263 hx=x;
nuclear@0	264 }
nuclear@0	265 }
nuclear@0	266 look->loneighbor[i]=lo;
nuclear@0	267 look->hineighbor[i]=hi;
nuclear@0	268 }
nuclear@0	269
nuclear@0	270 return(look);
nuclear@0	271 }
nuclear@0	272
nuclear@0	273 static int render_point(int x0,int x1,int y0,int y1,int x){
nuclear@0	274 y0&=0x7fff; /* mask off flag */
nuclear@0	275 y1&=0x7fff;
nuclear@0	276
nuclear@0	277 {
nuclear@0	278 int dy=y1-y0;
nuclear@0	279 int adx=x1-x0;
nuclear@0	280 int ady=abs(dy);
nuclear@0	281 int err=ady*(x-x0);
nuclear@0	282
nuclear@0	283 int off=err/adx;
nuclear@0	284 if(dy<0)return(y0-off);
nuclear@0	285 return(y0+off);
nuclear@0	286 }
nuclear@0	287 }
nuclear@0	288
nuclear@0	289 static int vorbis_dBquant(const float *x){
nuclear@0	290 int i= x7.3142857f+1023.5f;
nuclear@0	291 if(i>1023)return(1023);
nuclear@0	292 if(i<0)return(0);
nuclear@0	293 return i;
nuclear@0	294 }
nuclear@0	295
nuclear@0	296 static const float FLOOR1_fromdB_LOOKUP[256]={
nuclear@0	297 1.0649863e-07F, 1.1341951e-07F, 1.2079015e-07F, 1.2863978e-07F,
nuclear@0	298 1.3699951e-07F, 1.4590251e-07F, 1.5538408e-07F, 1.6548181e-07F,
nuclear@0	299 1.7623575e-07F, 1.8768855e-07F, 1.9988561e-07F, 2.128753e-07F,
nuclear@0	300 2.2670913e-07F, 2.4144197e-07F, 2.5713223e-07F, 2.7384213e-07F,
nuclear@0	301 2.9163793e-07F, 3.1059021e-07F, 3.3077411e-07F, 3.5226968e-07F,
nuclear@0	302 3.7516214e-07F, 3.9954229e-07F, 4.2550680e-07F, 4.5315863e-07F,
nuclear@0	303 4.8260743e-07F, 5.1396998e-07F, 5.4737065e-07F, 5.8294187e-07F,
nuclear@0	304 6.2082472e-07F, 6.6116941e-07F, 7.0413592e-07F, 7.4989464e-07F,
nuclear@0	305 7.9862701e-07F, 8.5052630e-07F, 9.0579828e-07F, 9.6466216e-07F,
nuclear@0	306 1.0273513e-06F, 1.0941144e-06F, 1.1652161e-06F, 1.2409384e-06F,
nuclear@0	307 1.3215816e-06F, 1.4074654e-06F, 1.4989305e-06F, 1.5963394e-06F,
nuclear@0	308 1.7000785e-06F, 1.8105592e-06F, 1.9282195e-06F, 2.0535261e-06F,
nuclear@0	309 2.1869758e-06F, 2.3290978e-06F, 2.4804557e-06F, 2.6416497e-06F,
nuclear@0	310 2.8133190e-06F, 2.9961443e-06F, 3.1908506e-06F, 3.3982101e-06F,
nuclear@0	311 3.6190449e-06F, 3.8542308e-06F, 4.1047004e-06F, 4.3714470e-06F,
nuclear@0	312 4.6555282e-06F, 4.9580707e-06F, 5.2802740e-06F, 5.6234160e-06F,
nuclear@0	313 5.9888572e-06F, 6.3780469e-06F, 6.7925283e-06F, 7.2339451e-06F,
nuclear@0	314 7.7040476e-06F, 8.2047000e-06F, 8.7378876e-06F, 9.3057248e-06F,
nuclear@0	315 9.9104632e-06F, 1.0554501e-05F, 1.1240392e-05F, 1.1970856e-05F,
nuclear@0	316 1.2748789e-05F, 1.3577278e-05F, 1.4459606e-05F, 1.5399272e-05F,
nuclear@0	317 1.6400004e-05F, 1.7465768e-05F, 1.8600792e-05F, 1.9809576e-05F,
nuclear@0	318 2.1096914e-05F, 2.2467911e-05F, 2.3928002e-05F, 2.5482978e-05F,
nuclear@0	319 2.7139006e-05F, 2.8902651e-05F, 3.0780908e-05F, 3.2781225e-05F,
nuclear@0	320 3.4911534e-05F, 3.7180282e-05F, 3.9596466e-05F, 4.2169667e-05F,
nuclear@0	321 4.4910090e-05F, 4.7828601e-05F, 5.0936773e-05F, 5.4246931e-05F,
nuclear@0	322 5.7772202e-05F, 6.1526565e-05F, 6.5524908e-05F, 6.9783085e-05F,
nuclear@0	323 7.4317983e-05F, 7.9147585e-05F, 8.4291040e-05F, 8.9768747e-05F,
nuclear@0	324 9.5602426e-05F, 0.00010181521F, 0.00010843174F, 0.00011547824F,
nuclear@0	325 0.00012298267F, 0.00013097477F, 0.00013948625F, 0.00014855085F,
nuclear@0	326 0.00015820453F, 0.00016848555F, 0.00017943469F, 0.00019109536F,
nuclear@0	327 0.00020351382F, 0.00021673929F, 0.00023082423F, 0.00024582449F,
nuclear@0	328 0.00026179955F, 0.00027881276F, 0.00029693158F, 0.00031622787F,
nuclear@0	329 0.00033677814F, 0.00035866388F, 0.00038197188F, 0.00040679456F,
nuclear@0	330 0.00043323036F, 0.00046138411F, 0.00049136745F, 0.00052329927F,
nuclear@0	331 0.00055730621F, 0.00059352311F, 0.00063209358F, 0.00067317058F,
nuclear@0	332 0.00071691700F, 0.00076350630F, 0.00081312324F, 0.00086596457F,
nuclear@0	333 0.00092223983F, 0.00098217216F, 0.0010459992F, 0.0011139742F,
nuclear@0	334 0.0011863665F, 0.0012634633F, 0.0013455702F, 0.0014330129F,
nuclear@0	335 0.0015261382F, 0.0016253153F, 0.0017309374F, 0.0018434235F,
nuclear@0	336 0.0019632195F, 0.0020908006F, 0.0022266726F, 0.0023713743F,
nuclear@0	337 0.0025254795F, 0.0026895994F, 0.0028643847F, 0.0030505286F,
nuclear@0	338 0.0032487691F, 0.0034598925F, 0.0036847358F, 0.0039241906F,
nuclear@0	339 0.0041792066F, 0.0044507950F, 0.0047400328F, 0.0050480668F,
nuclear@0	340 0.0053761186F, 0.0057254891F, 0.0060975636F, 0.0064938176F,
nuclear@0	341 0.0069158225F, 0.0073652516F, 0.0078438871F, 0.0083536271F,
nuclear@0	342 0.0088964928F, 0.009474637F, 0.010090352F, 0.010746080F,
nuclear@0	343 0.011444421F, 0.012188144F, 0.012980198F, 0.013823725F,
nuclear@0	344 0.014722068F, 0.015678791F, 0.016697687F, 0.017782797F,
nuclear@0	345 0.018938423F, 0.020169149F, 0.021479854F, 0.022875735F,
nuclear@0	346 0.024362330F, 0.025945531F, 0.027631618F, 0.029427276F,
nuclear@0	347 0.031339626F, 0.033376252F, 0.035545228F, 0.037855157F,
nuclear@0	348 0.040315199F, 0.042935108F, 0.045725273F, 0.048696758F,
nuclear@0	349 0.051861348F, 0.055231591F, 0.058820850F, 0.062643361F,
nuclear@0	350 0.066714279F, 0.071049749F, 0.075666962F, 0.080584227F,
nuclear@0	351 0.085821044F, 0.091398179F, 0.097337747F, 0.10366330F,
nuclear@0	352 0.11039993F, 0.11757434F, 0.12521498F, 0.13335215F,
nuclear@0	353 0.14201813F, 0.15124727F, 0.16107617F, 0.17154380F,
nuclear@0	354 0.18269168F, 0.19456402F, 0.20720788F, 0.22067342F,
nuclear@0	355 0.23501402F, 0.25028656F, 0.26655159F, 0.28387361F,
nuclear@0	356 0.30232132F, 0.32196786F, 0.34289114F, 0.36517414F,
nuclear@0	357 0.38890521F, 0.41417847F, 0.44109412F, 0.46975890F,
nuclear@0	358 0.50028648F, 0.53279791F, 0.56742212F, 0.60429640F,
nuclear@0	359 0.64356699F, 0.68538959F, 0.72993007F, 0.77736504F,
nuclear@0	360 0.82788260F, 0.88168307F, 0.9389798F, 1.F,
nuclear@0	361 };
nuclear@0	362
nuclear@0	363 static void render_line(int n, int x0,int x1,int y0,int y1,float *d){
nuclear@0	364 int dy=y1-y0;
nuclear@0	365 int adx=x1-x0;
nuclear@0	366 int ady=abs(dy);
nuclear@0	367 int base=dy/adx;
nuclear@0	368 int sy=(dy<0?base-1:base+1);
nuclear@0	369 int x=x0;
nuclear@0	370 int y=y0;
nuclear@0	371 int err=0;
nuclear@0	372
nuclear@0	373 ady-=abs(base*adx);
nuclear@0	374
nuclear@0	375 if(n>x1)n=x1;
nuclear@0	376
nuclear@0	377 if(x<n)
nuclear@0	378 d[x]*=FLOOR1_fromdB_LOOKUP[y];
nuclear@0	379
nuclear@0	380 while(++x<n){
nuclear@0	381 err=err+ady;
nuclear@0	382 if(err>=adx){
nuclear@0	383 err-=adx;
nuclear@0	384 y+=sy;
nuclear@0	385 }else{
nuclear@0	386 y+=base;
nuclear@0	387 }
nuclear@0	388 d[x]*=FLOOR1_fromdB_LOOKUP[y];
nuclear@0	389 }
nuclear@0	390 }
nuclear@0	391
nuclear@0	392 static void render_line0(int n, int x0,int x1,int y0,int y1,int *d){
nuclear@0	393 int dy=y1-y0;
nuclear@0	394 int adx=x1-x0;
nuclear@0	395 int ady=abs(dy);
nuclear@0	396 int base=dy/adx;
nuclear@0	397 int sy=(dy<0?base-1:base+1);
nuclear@0	398 int x=x0;
nuclear@0	399 int y=y0;
nuclear@0	400 int err=0;
nuclear@0	401
nuclear@0	402 ady-=abs(base*adx);
nuclear@0	403
nuclear@0	404 if(n>x1)n=x1;
nuclear@0	405
nuclear@0	406 if(x<n)
nuclear@0	407 d[x]=y;
nuclear@0	408
nuclear@0	409 while(++x<n){
nuclear@0	410 err=err+ady;
nuclear@0	411 if(err>=adx){
nuclear@0	412 err-=adx;
nuclear@0	413 y+=sy;
nuclear@0	414 }else{
nuclear@0	415 y+=base;
nuclear@0	416 }
nuclear@0	417 d[x]=y;
nuclear@0	418 }
nuclear@0	419 }
nuclear@0	420
nuclear@0	421 /* the floor has already been filtered to only include relevant sections */
nuclear@0	422 static int accumulate_fit(const float flr,const float mdct,
nuclear@0	423 int x0, int x1,lsfit_acc *a,
nuclear@0	424 int n,vorbis_info_floor1 *info){
nuclear@0	425 long i;
nuclear@0	426
nuclear@0	427 int xa=0,ya=0,x2a=0,y2a=0,xya=0,na=0, xb=0,yb=0,x2b=0,y2b=0,xyb=0,nb=0;
nuclear@0	428
nuclear@0	429 memset(a,0,sizeof(*a));
nuclear@0	430 a->x0=x0;
nuclear@0	431 a->x1=x1;
nuclear@0	432 if(x1>=n)x1=n-1;
nuclear@0	433
nuclear@0	434 for(i=x0;i<=x1;i++){
nuclear@0	435 int quantized=vorbis_dBquant(flr+i);
nuclear@0	436 if(quantized){
nuclear@0	437 if(mdct[i]+info->twofitatten>=flr[i]){
nuclear@0	438 xa += i;
nuclear@0	439 ya += quantized;
nuclear@0	440 x2a += i*i;
nuclear@0	441 y2a += quantized*quantized;
nuclear@0	442 xya += i*quantized;
nuclear@0	443 na++;
nuclear@0	444 }else{
nuclear@0	445 xb += i;
nuclear@0	446 yb += quantized;
nuclear@0	447 x2b += i*i;
nuclear@0	448 y2b += quantized*quantized;
nuclear@0	449 xyb += i*quantized;
nuclear@0	450 nb++;
nuclear@0	451 }
nuclear@0	452 }
nuclear@0	453 }
nuclear@0	454
nuclear@0	455 a->xa=xa;
nuclear@0	456 a->ya=ya;
nuclear@0	457 a->x2a=x2a;
nuclear@0	458 a->y2a=y2a;
nuclear@0	459 a->xya=xya;
nuclear@0	460 a->an=na;
nuclear@0	461
nuclear@0	462 a->xb=xb;
nuclear@0	463 a->yb=yb;
nuclear@0	464 a->x2b=x2b;
nuclear@0	465 a->y2b=y2b;
nuclear@0	466 a->xyb=xyb;
nuclear@0	467 a->bn=nb;
nuclear@0	468
nuclear@0	469 return(na);
nuclear@0	470 }
nuclear@0	471
nuclear@0	472 static int fit_line(lsfit_acc a,int fits,int y0,int *y1,
nuclear@0	473 vorbis_info_floor1 *info){
nuclear@0	474 double xb=0,yb=0,x2b=0,y2b=0,xyb=0,bn=0;
nuclear@0	475 int i;
nuclear@0	476 int x0=a[0].x0;
nuclear@0	477 int x1=a[fits-1].x1;
nuclear@0	478
nuclear@0	479 for(i=0;i<fits;i++){
nuclear@0	480 double weight = (a[i].bn+a[i].an)*info->twofitweight/(a[i].an+1)+1.;
nuclear@0	481
nuclear@0	482 xb+=a[i].xb + a[i].xa * weight;
nuclear@0	483 yb+=a[i].yb + a[i].ya * weight;
nuclear@0	484 x2b+=a[i].x2b + a[i].x2a * weight;
nuclear@0	485 y2b+=a[i].y2b + a[i].y2a * weight;
nuclear@0	486 xyb+=a[i].xyb + a[i].xya * weight;
nuclear@0	487 bn+=a[i].bn + a[i].an * weight;
nuclear@0	488 }
nuclear@0	489
nuclear@0	490 if(*y0>=0){
nuclear@0	491 xb+= x0;
nuclear@0	492 yb+= *y0;
nuclear@0	493 x2b+= x0 * x0;
nuclear@0	494 y2b+= y0 *y0;
nuclear@0	495 xyb+= y0 x0;
nuclear@0	496 bn++;
nuclear@0	497 }
nuclear@0	498
nuclear@0	499 if(*y1>=0){
nuclear@0	500 xb+= x1;
nuclear@0	501 yb+= *y1;
nuclear@0	502 x2b+= x1 * x1;
nuclear@0	503 y2b+= y1 *y1;
nuclear@0	504 xyb+= y1 x1;
nuclear@0	505 bn++;
nuclear@0	506 }
nuclear@0	507
nuclear@0	508 {
nuclear@0	509 double denom=(bnx2b-xbxb);
nuclear@0	510
nuclear@0	511 if(denom>0.){
nuclear@0	512 double a=(ybx2b-xybxb)/denom;
nuclear@0	513 double b=(bnxyb-xbyb)/denom;
nuclear@0	514 y0=rint(a+bx0);
nuclear@0	515 y1=rint(a+bx1);
nuclear@0	516
nuclear@0	517 /* limit to our range! */
nuclear@0	518 if(y0>1023)y0=1023;
nuclear@0	519 if(y1>1023)y1=1023;
nuclear@0	520 if(y0<0)y0=0;
nuclear@0	521 if(y1<0)y1=0;
nuclear@0	522
nuclear@0	523 return 0;
nuclear@0	524 }else{
nuclear@0	525 *y0=0;
nuclear@0	526 *y1=0;
nuclear@0	527 return 1;
nuclear@0	528 }
nuclear@0	529 }
nuclear@0	530 }
nuclear@0	531
nuclear@0	532 static int inspect_error(int x0,int x1,int y0,int y1,const float *mask,
nuclear@0	533 const float *mdct,
nuclear@0	534 vorbis_info_floor1 *info){
nuclear@0	535 int dy=y1-y0;
nuclear@0	536 int adx=x1-x0;
nuclear@0	537 int ady=abs(dy);
nuclear@0	538 int base=dy/adx;
nuclear@0	539 int sy=(dy<0?base-1:base+1);
nuclear@0	540 int x=x0;
nuclear@0	541 int y=y0;
nuclear@0	542 int err=0;
nuclear@0	543 int val=vorbis_dBquant(mask+x);
nuclear@0	544 int mse=0;
nuclear@0	545 int n=0;
nuclear@0	546
nuclear@0	547 ady-=abs(base*adx);
nuclear@0	548
nuclear@0	549 mse=(y-val);
nuclear@0	550 mse*=mse;
nuclear@0	551 n++;
nuclear@0	552 if(mdct[x]+info->twofitatten>=mask[x]){
nuclear@0	553 if(y+info->maxover<val)return(1);
nuclear@0	554 if(y-info->maxunder>val)return(1);
nuclear@0	555 }
nuclear@0	556
nuclear@0	557 while(++x<x1){
nuclear@0	558 err=err+ady;
nuclear@0	559 if(err>=adx){
nuclear@0	560 err-=adx;
nuclear@0	561 y+=sy;
nuclear@0	562 }else{
nuclear@0	563 y+=base;
nuclear@0	564 }
nuclear@0	565
nuclear@0	566 val=vorbis_dBquant(mask+x);
nuclear@0	567 mse+=((y-val)*(y-val));
nuclear@0	568 n++;
nuclear@0	569 if(mdct[x]+info->twofitatten>=mask[x]){
nuclear@0	570 if(val){
nuclear@0	571 if(y+info->maxover<val)return(1);
nuclear@0	572 if(y-info->maxunder>val)return(1);
nuclear@0	573 }
nuclear@0	574 }
nuclear@0	575 }
nuclear@0	576
nuclear@0	577 if(info->maxover*info->maxover/n>info->maxerr)return(0);
nuclear@0	578 if(info->maxunder*info->maxunder/n>info->maxerr)return(0);
nuclear@0	579 if(mse/n>info->maxerr)return(1);
nuclear@0	580 return(0);
nuclear@0	581 }
nuclear@0	582
nuclear@0	583 static int post_Y(int A,int B,int pos){
nuclear@0	584 if(A[pos]<0)
nuclear@0	585 return B[pos];
nuclear@0	586 if(B[pos]<0)
nuclear@0	587 return A[pos];
nuclear@0	588
nuclear@0	589 return (A[pos]+B[pos])>>1;
nuclear@0	590 }
nuclear@0	591
nuclear@0	592 int floor1_fit(vorbis_block vb,vorbis_look_floor1 *look,
nuclear@0	593 const float logmdct, / in */
nuclear@0	594 const float *logmask){
nuclear@0	595 long i,j;
nuclear@0	596 vorbis_info_floor1 *info=look->vi;
nuclear@0	597 long n=look->n;
nuclear@0	598 long posts=look->posts;
nuclear@0	599 long nonzero=0;
nuclear@0	600 lsfit_acc fits[VIF_POSIT+1];
nuclear@0	601 int fit_valueA[VIF_POSIT+2]; /* index by range list position */
nuclear@0	602 int fit_valueB[VIF_POSIT+2]; /* index by range list position */
nuclear@0	603
nuclear@0	604 int loneighbor[VIF_POSIT+2]; /* sorted index of range list position (+2) */
nuclear@0	605 int hineighbor[VIF_POSIT+2];
nuclear@0	606 int *output=NULL;
nuclear@0	607 int memo[VIF_POSIT+2];
nuclear@0	608
nuclear@0	609 for(i=0;i<posts;i++)fit_valueA[i]=-200; /* mark all unused */
nuclear@0	610 for(i=0;i<posts;i++)fit_valueB[i]=-200; /* mark all unused */
nuclear@0	611 for(i=0;i<posts;i++)loneighbor[i]=0; /* 0 for the implicit 0 post */
nuclear@0	612 for(i=0;i<posts;i++)hineighbor[i]=1; /* 1 for the implicit post at n */
nuclear@0	613 for(i=0;i<posts;i++)memo[i]=-1; /* no neighbor yet */
nuclear@0	614
nuclear@0	615 /* quantize the relevant floor points and collect them into line fit
nuclear@0	616 structures (one per minimal division) at the same time */
nuclear@0	617 if(posts==0){
nuclear@0	618 nonzero+=accumulate_fit(logmask,logmdct,0,n,fits,n,info);
nuclear@0	619 }else{
nuclear@0	620 for(i=0;i<posts-1;i++)
nuclear@0	621 nonzero+=accumulate_fit(logmask,logmdct,look->sorted_index[i],
nuclear@0	622 look->sorted_index[i+1],fits+i,
nuclear@0	623 n,info);
nuclear@0	624 }
nuclear@0	625
nuclear@0	626 if(nonzero){
nuclear@0	627 /* start by fitting the implicit base case.... */
nuclear@0	628 int y0=-200;
nuclear@0	629 int y1=-200;
nuclear@0	630 fit_line(fits,posts-1,&y0,&y1,info);
nuclear@0	631
nuclear@0	632 fit_valueA[0]=y0;
nuclear@0	633 fit_valueB[0]=y0;
nuclear@0	634 fit_valueB[1]=y1;
nuclear@0	635 fit_valueA[1]=y1;
nuclear@0	636
nuclear@0	637 /* Non degenerate case */
nuclear@0	638 /* start progressive splitting. This is a greedy, non-optimal
nuclear@0	639 algorithm, but simple and close enough to the best
nuclear@0	640 answer. */
nuclear@0	641 for(i=2;i<posts;i++){
nuclear@0	642 int sortpos=look->reverse_index[i];
nuclear@0	643 int ln=loneighbor[sortpos];
nuclear@0	644 int hn=hineighbor[sortpos];
nuclear@0	645
nuclear@0	646 /* eliminate repeat searches of a particular range with a memo */
nuclear@0	647 if(memo[ln]!=hn){
nuclear@0	648 /* haven't performed this error search yet */
nuclear@0	649 int lsortpos=look->reverse_index[ln];
nuclear@0	650 int hsortpos=look->reverse_index[hn];
nuclear@0	651 memo[ln]=hn;
nuclear@0	652
nuclear@0	653 {
nuclear@0	654 /* A note: we want to bound/minimize local, not global, error */
nuclear@0	655 int lx=info->postlist[ln];
nuclear@0	656 int hx=info->postlist[hn];
nuclear@0	657 int ly=post_Y(fit_valueA,fit_valueB,ln);
nuclear@0	658 int hy=post_Y(fit_valueA,fit_valueB,hn);
nuclear@0	659
nuclear@0	660 if(ly==-1 \|\| hy==-1){
nuclear@0	661 exit(1);
nuclear@0	662 }
nuclear@0	663
nuclear@0	664 if(inspect_error(lx,hx,ly,hy,logmask,logmdct,info)){
nuclear@0	665 /* outside error bounds/begin search area. Split it. */
nuclear@0	666 int ly0=-200;
nuclear@0	667 int ly1=-200;
nuclear@0	668 int hy0=-200;
nuclear@0	669 int hy1=-200;
nuclear@0	670 int ret0=fit_line(fits+lsortpos,sortpos-lsortpos,&ly0,&ly1,info);
nuclear@0	671 int ret1=fit_line(fits+sortpos,hsortpos-sortpos,&hy0,&hy1,info);
nuclear@0	672
nuclear@0	673 if(ret0){
nuclear@0	674 ly0=ly;
nuclear@0	675 ly1=hy0;
nuclear@0	676 }
nuclear@0	677 if(ret1){
nuclear@0	678 hy0=ly1;
nuclear@0	679 hy1=hy;
nuclear@0	680 }
nuclear@0	681
nuclear@0	682 if(ret0 && ret1){
nuclear@0	683 fit_valueA[i]=-200;
nuclear@0	684 fit_valueB[i]=-200;
nuclear@0	685 }else{
nuclear@0	686 /* store new edge values */
nuclear@0	687 fit_valueB[ln]=ly0;
nuclear@0	688 if(ln==0)fit_valueA[ln]=ly0;
nuclear@0	689 fit_valueA[i]=ly1;
nuclear@0	690 fit_valueB[i]=hy0;
nuclear@0	691 fit_valueA[hn]=hy1;
nuclear@0	692 if(hn==1)fit_valueB[hn]=hy1;
nuclear@0	693
nuclear@0	694 if(ly1>=0 \|\| hy0>=0){
nuclear@0	695 /* store new neighbor values */
nuclear@0	696 for(j=sortpos-1;j>=0;j--)
nuclear@0	697 if(hineighbor[j]==hn)
nuclear@0	698 hineighbor[j]=i;
nuclear@0	699 else
nuclear@0	700 break;
nuclear@0	701 for(j=sortpos+1;j<posts;j++)
nuclear@0	702 if(loneighbor[j]==ln)
nuclear@0	703 loneighbor[j]=i;
nuclear@0	704 else
nuclear@0	705 break;
nuclear@0	706 }
nuclear@0	707 }
nuclear@0	708 }else{
nuclear@0	709 fit_valueA[i]=-200;
nuclear@0	710 fit_valueB[i]=-200;
nuclear@0	711 }
nuclear@0	712 }
nuclear@0	713 }
nuclear@0	714 }
nuclear@0	715
nuclear@0	716 output=_vorbis_block_alloc(vb,sizeof(output)posts);
nuclear@0	717
nuclear@0	718 output[0]=post_Y(fit_valueA,fit_valueB,0);
nuclear@0	719 output[1]=post_Y(fit_valueA,fit_valueB,1);
nuclear@0	720
nuclear@0	721 /* fill in posts marked as not using a fit; we will zero
nuclear@0	722 back out to 'unused' when encoding them so long as curve
nuclear@0	723 interpolation doesn't force them into use */
nuclear@0	724 for(i=2;i<posts;i++){
nuclear@0	725 int ln=look->loneighbor[i-2];
nuclear@0	726 int hn=look->hineighbor[i-2];
nuclear@0	727 int x0=info->postlist[ln];
nuclear@0	728 int x1=info->postlist[hn];
nuclear@0	729 int y0=output[ln];
nuclear@0	730 int y1=output[hn];
nuclear@0	731
nuclear@0	732 int predicted=render_point(x0,x1,y0,y1,info->postlist[i]);
nuclear@0	733 int vx=post_Y(fit_valueA,fit_valueB,i);
nuclear@0	734
nuclear@0	735 if(vx>=0 && predicted!=vx){
nuclear@0	736 output[i]=vx;
nuclear@0	737 }else{
nuclear@0	738 output[i]= predicted\|0x8000;
nuclear@0	739 }
nuclear@0	740 }
nuclear@0	741 }
nuclear@0	742
nuclear@0	743 return(output);
nuclear@0	744
nuclear@0	745 }
nuclear@0	746
nuclear@0	747 int floor1_interpolate_fit(vorbis_block vb,vorbis_look_floor1 *look,
nuclear@0	748 int A,int B,
nuclear@0	749 int del){
nuclear@0	750
nuclear@0	751 long i;
nuclear@0	752 long posts=look->posts;
nuclear@0	753 int *output=NULL;
nuclear@0	754
nuclear@0	755 if(A && B){
nuclear@0	756 output=_vorbis_block_alloc(vb,sizeof(output)posts);
nuclear@0	757
nuclear@0	758 /* overly simpleminded--- look again post 1.2 */
nuclear@0	759 for(i=0;i<posts;i++){
nuclear@0	760 output[i]=((65536-del)(A[i]&0x7fff)+del(B[i]&0x7fff)+32768)>>16;
nuclear@0	761 if(A[i]&0x8000 && B[i]&0x8000)output[i]\|=0x8000;
nuclear@0	762 }
nuclear@0	763 }
nuclear@0	764
nuclear@0	765 return(output);
nuclear@0	766 }
nuclear@0	767
nuclear@0	768
nuclear@0	769 int floor1_encode(oggpack_buffer opb,vorbis_block vb,
nuclear@0	770 vorbis_look_floor1 *look,
nuclear@0	771 int post,int ilogmask){
nuclear@0	772
nuclear@0	773 long i,j;
nuclear@0	774 vorbis_info_floor1 *info=look->vi;
nuclear@0	775 long posts=look->posts;
nuclear@0	776 codec_setup_info *ci=vb->vd->vi->codec_setup;
nuclear@0	777 int out[VIF_POSIT+2];
nuclear@0	778 static_codebook **sbooks=ci->book_param;
nuclear@0	779 codebook *books=ci->fullbooks;
nuclear@0	780
nuclear@0	781 /* quantize values to multiplier spec */
nuclear@0	782 if(post){
nuclear@0	783 for(i=0;i<posts;i++){
nuclear@0	784 int val=post[i]&0x7fff;
nuclear@0	785 switch(info->mult){
nuclear@0	786 case 1: /* 1024 -> 256 */
nuclear@0	787 val>>=2;
nuclear@0	788 break;
nuclear@0	789 case 2: /* 1024 -> 128 */
nuclear@0	790 val>>=3;
nuclear@0	791 break;
nuclear@0	792 case 3: /* 1024 -> 86 */
nuclear@0	793 val/=12;
nuclear@0	794 break;
nuclear@0	795 case 4: /* 1024 -> 64 */
nuclear@0	796 val>>=4;
nuclear@0	797 break;
nuclear@0	798 }
nuclear@0	799 post[i]=val \| (post[i]&0x8000);
nuclear@0	800 }
nuclear@0	801
nuclear@0	802 out[0]=post[0];
nuclear@0	803 out[1]=post[1];
nuclear@0	804
nuclear@0	805 /* find prediction values for each post and subtract them */
nuclear@0	806 for(i=2;i<posts;i++){
nuclear@0	807 int ln=look->loneighbor[i-2];
nuclear@0	808 int hn=look->hineighbor[i-2];
nuclear@0	809 int x0=info->postlist[ln];
nuclear@0	810 int x1=info->postlist[hn];
nuclear@0	811 int y0=post[ln];
nuclear@0	812 int y1=post[hn];
nuclear@0	813
nuclear@0	814 int predicted=render_point(x0,x1,y0,y1,info->postlist[i]);
nuclear@0	815
nuclear@0	816 if((post[i]&0x8000) \|\| (predicted==post[i])){
nuclear@0	817 post[i]=predicted\|0x8000; /* in case there was roundoff jitter
nuclear@0	818 in interpolation */
nuclear@0	819 out[i]=0;
nuclear@0	820 }else{
nuclear@0	821 int headroom=(look->quant_q-predicted<predicted?
nuclear@0	822 look->quant_q-predicted:predicted);
nuclear@0	823
nuclear@0	824 int val=post[i]-predicted;
nuclear@0	825
nuclear@0	826 /* at this point the 'deviation' value is in the range +/- max
nuclear@0	827 range, but the real, unique range can always be mapped to
nuclear@0	828 only [0-maxrange). So we want to wrap the deviation into
nuclear@0	829 this limited range, but do it in the way that least screws
nuclear@0	830 an essentially gaussian probability distribution. */
nuclear@0	831
nuclear@0	832 if(val<0)
nuclear@0	833 if(val<-headroom)
nuclear@0	834 val=headroom-val-1;
nuclear@0	835 else
nuclear@0	836 val=-1-(val<<1);
nuclear@0	837 else
nuclear@0	838 if(val>=headroom)
nuclear@0	839 val= val+headroom;
nuclear@0	840 else
nuclear@0	841 val<<=1;
nuclear@0	842
nuclear@0	843 out[i]=val;
nuclear@0	844 post[ln]&=0x7fff;
nuclear@0	845 post[hn]&=0x7fff;
nuclear@0	846 }
nuclear@0	847 }
nuclear@0	848
nuclear@0	849 /* we have everything we need. pack it out */
nuclear@0	850 /* mark nontrivial floor */
nuclear@0	851 oggpack_write(opb,1,1);
nuclear@0	852
nuclear@0	853 /* beginning/end post */
nuclear@0	854 look->frames++;
nuclear@0	855 look->postbits+=ilog(look->quant_q-1)*2;
nuclear@0	856 oggpack_write(opb,out[0],ilog(look->quant_q-1));
nuclear@0	857 oggpack_write(opb,out[1],ilog(look->quant_q-1));
nuclear@0	858
nuclear@0	859
nuclear@0	860 /* partition by partition */
nuclear@0	861 for(i=0,j=2;i<info->partitions;i++){
nuclear@0	862 int class=info->partitionclass[i];
nuclear@0	863 int cdim=info->class_dim[class];
nuclear@0	864 int csubbits=info->class_subs[class];
nuclear@0	865 int csub=1<<csubbits;
nuclear@0	866 int bookas[8]={0,0,0,0,0,0,0,0};
nuclear@0	867 int cval=0;
nuclear@0	868 int cshift=0;
nuclear@0	869 int k,l;
nuclear@0	870
nuclear@0	871 /* generate the partition's first stage cascade value */
nuclear@0	872 if(csubbits){
nuclear@0	873 int maxval[8];
nuclear@0	874 for(k=0;k<csub;k++){
nuclear@0	875 int booknum=info->class_subbook[class][k];
nuclear@0	876 if(booknum<0){
nuclear@0	877 maxval[k]=1;
nuclear@0	878 }else{
nuclear@0	879 maxval[k]=sbooks[info->class_subbook[class][k]]->entries;
nuclear@0	880 }
nuclear@0	881 }
nuclear@0	882 for(k=0;k<cdim;k++){
nuclear@0	883 for(l=0;l<csub;l++){
nuclear@0	884 int val=out[j+k];
nuclear@0	885 if(val<maxval[l]){
nuclear@0	886 bookas[k]=l;
nuclear@0	887 break;
nuclear@0	888 }
nuclear@0	889 }
nuclear@0	890 cval\|= bookas[k]<<cshift;
nuclear@0	891 cshift+=csubbits;
nuclear@0	892 }
nuclear@0	893 /* write it */
nuclear@0	894 look->phrasebits+=
nuclear@0	895 vorbis_book_encode(books+info->class_book[class],cval,opb);
nuclear@0	896
nuclear@0	897 #ifdef TRAIN_FLOOR1
nuclear@0	898 {
nuclear@0	899 FILE *of;
nuclear@0	900 char buffer[80];
nuclear@0	901 sprintf(buffer,"line_%dx%ld_class%d.vqd",
nuclear@0	902 vb->pcmend/2,posts-2,class);
nuclear@0	903 of=fopen(buffer,"a");
nuclear@0	904 fprintf(of,"%d\n",cval);
nuclear@0	905 fclose(of);
nuclear@0	906 }
nuclear@0	907 #endif
nuclear@0	908 }
nuclear@0	909
nuclear@0	910 /* write post values */
nuclear@0	911 for(k=0;k<cdim;k++){
nuclear@0	912 int book=info->class_subbook[class][bookas[k]];
nuclear@0	913 if(book>=0){
nuclear@0	914 /* hack to allow training with 'bad' books */
nuclear@0	915 if(out[j+k]<(books+book)->entries)
nuclear@0	916 look->postbits+=vorbis_book_encode(books+book,
nuclear@0	917 out[j+k],opb);
nuclear@0	918 /*else
nuclear@0	919 fprintf(stderr,"+!");*/
nuclear@0	920
nuclear@0	921 #ifdef TRAIN_FLOOR1
nuclear@0	922 {
nuclear@0	923 FILE *of;
nuclear@0	924 char buffer[80];
nuclear@0	925 sprintf(buffer,"line_%dx%ld_%dsub%d.vqd",
nuclear@0	926 vb->pcmend/2,posts-2,class,bookas[k]);
nuclear@0	927 of=fopen(buffer,"a");
nuclear@0	928 fprintf(of,"%d\n",out[j+k]);
nuclear@0	929 fclose(of);
nuclear@0	930 }
nuclear@0	931 #endif
nuclear@0	932 }
nuclear@0	933 }
nuclear@0	934 j+=cdim;
nuclear@0	935 }
nuclear@0	936
nuclear@0	937 {
nuclear@0	938 /* generate quantized floor equivalent to what we'd unpack in decode */
nuclear@0	939 /* render the lines */
nuclear@0	940 int hx=0;
nuclear@0	941 int lx=0;
nuclear@0	942 int ly=post[0]*info->mult;
nuclear@0	943 int n=ci->blocksizes[vb->W]/2;
nuclear@0	944
nuclear@0	945 for(j=1;j<look->posts;j++){
nuclear@0	946 int current=look->forward_index[j];
nuclear@0	947 int hy=post[current]&0x7fff;
nuclear@0	948 if(hy==post[current]){
nuclear@0	949
nuclear@0	950 hy*=info->mult;
nuclear@0	951 hx=info->postlist[current];
nuclear@0	952
nuclear@0	953 render_line0(n,lx,hx,ly,hy,ilogmask);
nuclear@0	954
nuclear@0	955 lx=hx;
nuclear@0	956 ly=hy;
nuclear@0	957 }
nuclear@0	958 }
nuclear@0	959 for(j=hx;j<vb->pcmend/2;j++)ilogmask[j]=ly; /* be certain */
nuclear@0	960 return(1);
nuclear@0	961 }
nuclear@0	962 }else{
nuclear@0	963 oggpack_write(opb,0,1);
nuclear@0	964 memset(ilogmask,0,vb->pcmend/2sizeof(ilogmask));
nuclear@0	965 return(0);
nuclear@0	966 }
nuclear@0	967 }
nuclear@0	968
nuclear@0	969 static void floor1_inverse1(vorbis_block vb,vorbis_look_floor *in){
nuclear@0	970 vorbis_look_floor1 look=(vorbis_look_floor1 )in;
nuclear@0	971 vorbis_info_floor1 *info=look->vi;
nuclear@0	972 codec_setup_info *ci=vb->vd->vi->codec_setup;
nuclear@0	973
nuclear@0	974 int i,j,k;
nuclear@0	975 codebook *books=ci->fullbooks;
nuclear@0	976
nuclear@0	977 /* unpack wrapped/predicted values from stream */
nuclear@0	978 if(oggpack_read(&vb->opb,1)==1){
nuclear@0	979 int fit_value=_vorbis_block_alloc(vb,(look->posts)sizeof(*fit_value));
nuclear@0	980
nuclear@0	981 fit_value[0]=oggpack_read(&vb->opb,ilog(look->quant_q-1));
nuclear@0	982 fit_value[1]=oggpack_read(&vb->opb,ilog(look->quant_q-1));
nuclear@0	983
nuclear@0	984 /* partition by partition */
nuclear@0	985 for(i=0,j=2;i<info->partitions;i++){
nuclear@0	986 int class=info->partitionclass[i];
nuclear@0	987 int cdim=info->class_dim[class];
nuclear@0	988 int csubbits=info->class_subs[class];
nuclear@0	989 int csub=1<<csubbits;
nuclear@0	990 int cval=0;
nuclear@0	991
nuclear@0	992 /* decode the partition's first stage cascade value */
nuclear@0	993 if(csubbits){
nuclear@0	994 cval=vorbis_book_decode(books+info->class_book[class],&vb->opb);
nuclear@0	995
nuclear@0	996 if(cval==-1)goto eop;
nuclear@0	997 }
nuclear@0	998
nuclear@0	999 for(k=0;k<cdim;k++){
nuclear@0	1000 int book=info->class_subbook[class][cval&(csub-1)];
nuclear@0	1001 cval>>=csubbits;
nuclear@0	1002 if(book>=0){
nuclear@0	1003 if((fit_value[j+k]=vorbis_book_decode(books+book,&vb->opb))==-1)
nuclear@0	1004 goto eop;
nuclear@0	1005 }else{
nuclear@0	1006 fit_value[j+k]=0;
nuclear@0	1007 }
nuclear@0	1008 }
nuclear@0	1009 j+=cdim;
nuclear@0	1010 }
nuclear@0	1011
nuclear@0	1012 /* unwrap positive values and reconsitute via linear interpolation */
nuclear@0	1013 for(i=2;i<look->posts;i++){
nuclear@0	1014 int predicted=render_point(info->postlist[look->loneighbor[i-2]],
nuclear@0	1015 info->postlist[look->hineighbor[i-2]],
nuclear@0	1016 fit_value[look->loneighbor[i-2]],
nuclear@0	1017 fit_value[look->hineighbor[i-2]],
nuclear@0	1018 info->postlist[i]);
nuclear@0	1019 int hiroom=look->quant_q-predicted;
nuclear@0	1020 int loroom=predicted;
nuclear@0	1021 int room=(hiroom<loroom?hiroom:loroom)<<1;
nuclear@0	1022 int val=fit_value[i];
nuclear@0	1023
nuclear@0	1024 if(val){
nuclear@0	1025 if(val>=room){
nuclear@0	1026 if(hiroom>loroom){
nuclear@0	1027 val = val-loroom;
nuclear@0	1028 }else{
nuclear@0	1029 val = -1-(val-hiroom);
nuclear@0	1030 }
nuclear@0	1031 }else{
nuclear@0	1032 if(val&1){
nuclear@0	1033 val= -((val+1)>>1);
nuclear@0	1034 }else{
nuclear@0	1035 val>>=1;
nuclear@0	1036 }
nuclear@0	1037 }
nuclear@0	1038
nuclear@0	1039 fit_value[i]=(val+predicted)&0x7fff;
nuclear@0	1040 fit_value[look->loneighbor[i-2]]&=0x7fff;
nuclear@0	1041 fit_value[look->hineighbor[i-2]]&=0x7fff;
nuclear@0	1042
nuclear@0	1043 }else{
nuclear@0	1044 fit_value[i]=predicted\|0x8000;
nuclear@0	1045 }
nuclear@0	1046
nuclear@0	1047 }
nuclear@0	1048
nuclear@0	1049 return(fit_value);
nuclear@0	1050 }
nuclear@0	1051 eop:
nuclear@0	1052 return(NULL);
nuclear@0	1053 }
nuclear@0	1054
nuclear@0	1055 static int floor1_inverse2(vorbis_block vb,vorbis_look_floor in,void *memo,
nuclear@0	1056 float *out){
nuclear@0	1057 vorbis_look_floor1 look=(vorbis_look_floor1 )in;
nuclear@0	1058 vorbis_info_floor1 *info=look->vi;
nuclear@0	1059
nuclear@0	1060 codec_setup_info *ci=vb->vd->vi->codec_setup;
nuclear@0	1061 int n=ci->blocksizes[vb->W]/2;
nuclear@0	1062 int j;
nuclear@0	1063
nuclear@0	1064 if(memo){
nuclear@0	1065 /* render the lines */
nuclear@0	1066 int fit_value=(int )memo;
nuclear@0	1067 int hx=0;
nuclear@0	1068 int lx=0;
nuclear@0	1069 int ly=fit_value[0]*info->mult;
nuclear@0	1070 /* guard lookup against out-of-range values */
nuclear@0	1071 ly=(ly<0?0:ly>255?255:ly);
nuclear@0	1072
nuclear@0	1073 for(j=1;j<look->posts;j++){
nuclear@0	1074 int current=look->forward_index[j];
nuclear@0	1075 int hy=fit_value[current]&0x7fff;
nuclear@0	1076 if(hy==fit_value[current]){
nuclear@0	1077
nuclear@0	1078 hx=info->postlist[current];
nuclear@0	1079 hy*=info->mult;
nuclear@0	1080 /* guard lookup against out-of-range values */
nuclear@0	1081 hy=(hy<0?0:hy>255?255:hy);
nuclear@0	1082
nuclear@0	1083 render_line(n,lx,hx,ly,hy,out);
nuclear@0	1084
nuclear@0	1085 lx=hx;
nuclear@0	1086 ly=hy;
nuclear@0	1087 }
nuclear@0	1088 }
nuclear@0	1089 for(j=hx;j<n;j++)out[j]=FLOOR1_fromdB_LOOKUP[ly]; / be certain */
nuclear@0	1090 return(1);
nuclear@0	1091 }
nuclear@0	1092 memset(out,0,sizeof(out)n);
nuclear@0	1093 return(0);
nuclear@0	1094 }
nuclear@0	1095
nuclear@0	1096 /* export hooks */
nuclear@0	1097 const vorbis_func_floor floor1_exportbundle={
nuclear@0	1098 &floor1_pack,&floor1_unpack,&floor1_look,&floor1_free_info,
nuclear@0	1099 &floor1_free_look,&floor1_inverse1,&floor1_inverse2
nuclear@0	1100 };