mirror of
https://github.com/KolibriOS/kolibrios.git
synced 2024-12-20 22:02:34 +03:00
a316fa7c9d
git-svn-id: svn://kolibrios.org@1905 a494cfbc-eb01-0410-851d-a64ba20cac60
370 lines
9.4 KiB
C
370 lines
9.4 KiB
C
/*
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layer2.c: the layer 2 decoder, root of mpg123
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copyright 1994-2008 by the mpg123 project - free software under the terms of the LGPL 2.1
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see COPYING and AUTHORS files in distribution or http://mpg123.org
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initially written by Michael Hipp
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mpg123 started as mp2 decoder a long time ago...
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part of this file is required for layer 1, too.
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*/
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#include "mpg123lib_intern.h"
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#ifndef NO_LAYER2
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#include "l2tables.h"
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#endif
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#include "getbits.h"
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#ifndef NO_LAYER12 /* Stuff needed for layer I and II. */
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static int grp_3tab[32 * 3] = { 0, }; /* used: 27 */
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static int grp_5tab[128 * 3] = { 0, }; /* used: 125 */
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static int grp_9tab[1024 * 3] = { 0, }; /* used: 729 */
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#if defined(REAL_IS_FIXED) && defined(PRECALC_TABLES)
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#include "l12_integer_tables.h"
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#else
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static const double mulmul[27] =
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{
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0.0 , -2.0/3.0 , 2.0/3.0 ,
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2.0/7.0 , 2.0/15.0 , 2.0/31.0, 2.0/63.0 , 2.0/127.0 , 2.0/255.0 ,
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2.0/511.0 , 2.0/1023.0 , 2.0/2047.0 , 2.0/4095.0 , 2.0/8191.0 ,
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2.0/16383.0 , 2.0/32767.0 , 2.0/65535.0 ,
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-4.0/5.0 , -2.0/5.0 , 2.0/5.0, 4.0/5.0 ,
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-8.0/9.0 , -4.0/9.0 , -2.0/9.0 , 2.0/9.0 , 4.0/9.0 , 8.0/9.0
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};
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#endif
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void init_layer12(void)
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{
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const int base[3][9] =
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{
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{ 1 , 0, 2 , } ,
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{ 17, 18, 0 , 19, 20 , } ,
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{ 21, 1, 22, 23, 0, 24, 25, 2, 26 }
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};
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int i,j,k,l,len;
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const int tablen[3] = { 3 , 5 , 9 };
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int *itable;
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int *tables[3] = { grp_3tab , grp_5tab , grp_9tab };
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for(i=0;i<3;i++)
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{
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itable = tables[i];
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len = tablen[i];
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for(j=0;j<len;j++)
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for(k=0;k<len;k++)
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for(l=0;l<len;l++)
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{
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*itable++ = base[i][l];
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*itable++ = base[i][k];
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*itable++ = base[i][j];
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}
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}
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}
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void init_layer12_stuff(mpg123_handle *fr, real* (*init_table)(mpg123_handle *fr, real *table, int m))
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{
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int k;
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real *table;
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for(k=0;k<27;k++)
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{
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table = init_table(fr, fr->muls[k], k);
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*table++ = 0.0;
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}
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}
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real* init_layer12_table(mpg123_handle *fr, real *table, int m)
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{
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#if defined(REAL_IS_FIXED) && defined(PRECALC_TABLES)
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int i;
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for(i=0;i<63;i++)
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*table++ = layer12_table[m][i];
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#else
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int i,j;
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for(j=3,i=0;i<63;i++,j--)
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*table++ = DOUBLE_TO_REAL_SCALE_LAYER12(mulmul[m] * pow(2.0,(double) j / 3.0));
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#endif
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return table;
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}
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#ifdef OPT_MMXORSSE
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real* init_layer12_table_mmx(mpg123_handle *fr, real *table, int m)
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{
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int i,j;
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if(!fr->p.down_sample)
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{
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for(j=3,i=0;i<63;i++,j--)
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*table++ = DOUBLE_TO_REAL(16384 * mulmul[m] * pow(2.0,(double) j / 3.0));
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}
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else
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{
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for(j=3,i=0;i<63;i++,j--)
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*table++ = DOUBLE_TO_REAL(mulmul[m] * pow(2.0,(double) j / 3.0));
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}
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return table;
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}
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#endif
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#endif /* NO_LAYER12 */
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/* The rest is the actual decoding of layer II data. */
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#ifndef NO_LAYER2
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void II_step_one(unsigned int *bit_alloc,int *scale,mpg123_handle *fr)
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{
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int stereo = fr->stereo-1;
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int sblimit = fr->II_sblimit;
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int jsbound = fr->jsbound;
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int sblimit2 = fr->II_sblimit<<stereo;
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const struct al_table *alloc1 = fr->alloc;
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int i;
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unsigned int scfsi_buf[64];
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unsigned int *scfsi,*bita;
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int sc,step;
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bita = bit_alloc;
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if(stereo)
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{
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for(i=jsbound;i;i--,alloc1+=(1<<step))
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{
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step=alloc1->bits;
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*bita++ = (char) getbits(fr, step);
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*bita++ = (char) getbits(fr, step);
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}
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for(i=sblimit-jsbound;i;i--,alloc1+=(1<<step))
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{
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step=alloc1->bits;
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bita[0] = (char) getbits(fr, step);
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bita[1] = bita[0];
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bita+=2;
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}
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bita = bit_alloc;
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scfsi=scfsi_buf;
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for(i=sblimit2;i;i--)
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if(*bita++) *scfsi++ = (char) getbits_fast(fr, 2);
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}
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else /* mono */
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{
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for(i=sblimit;i;i--,alloc1+=(1<<step))
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{
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step=alloc1->bits;
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*bita++ = (char) getbits(fr, step);
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}
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bita = bit_alloc;
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scfsi=scfsi_buf;
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for(i=sblimit;i;i--)
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if(*bita++) *scfsi++ = (char) getbits_fast(fr, 2);
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}
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bita = bit_alloc;
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scfsi=scfsi_buf;
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for(i=sblimit2;i;i--)
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if(*bita++)
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switch(*scfsi++)
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{
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case 0:
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*scale++ = getbits_fast(fr, 6);
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*scale++ = getbits_fast(fr, 6);
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*scale++ = getbits_fast(fr, 6);
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break;
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case 1 :
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*scale++ = sc = getbits_fast(fr, 6);
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*scale++ = sc;
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*scale++ = getbits_fast(fr, 6);
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break;
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case 2:
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*scale++ = sc = getbits_fast(fr, 6);
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*scale++ = sc;
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*scale++ = sc;
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break;
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default: /* case 3 */
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*scale++ = getbits_fast(fr, 6);
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*scale++ = sc = getbits_fast(fr, 6);
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*scale++ = sc;
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break;
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}
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}
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void II_step_two(unsigned int *bit_alloc,real fraction[2][4][SBLIMIT],int *scale,mpg123_handle *fr,int x1)
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{
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int i,j,k,ba;
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int stereo = fr->stereo;
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int sblimit = fr->II_sblimit;
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int jsbound = fr->jsbound;
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const struct al_table *alloc2,*alloc1 = fr->alloc;
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unsigned int *bita=bit_alloc;
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int d1,step;
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for(i=0;i<jsbound;i++,alloc1+=(1<<step))
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{
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step = alloc1->bits;
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for(j=0;j<stereo;j++)
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{
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if( (ba=*bita++) )
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{
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k=(alloc2 = alloc1+ba)->bits;
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if( (d1=alloc2->d) < 0)
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{
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real cm=fr->muls[k][scale[x1]];
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fraction[j][0][i] = REAL_MUL_SCALE_LAYER12(DOUBLE_TO_REAL_15((int)getbits(fr, k) + d1), cm);
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fraction[j][1][i] = REAL_MUL_SCALE_LAYER12(DOUBLE_TO_REAL_15((int)getbits(fr, k) + d1), cm);
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fraction[j][2][i] = REAL_MUL_SCALE_LAYER12(DOUBLE_TO_REAL_15((int)getbits(fr, k) + d1), cm);
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}
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else
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{
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const int *table[] = { 0,0,0,grp_3tab,0,grp_5tab,0,0,0,grp_9tab };
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unsigned int idx,*tab,m=scale[x1];
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idx = (unsigned int) getbits(fr, k);
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tab = (unsigned int *) (table[d1] + idx + idx + idx);
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fraction[j][0][i] = REAL_SCALE_LAYER12(fr->muls[*tab++][m]);
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fraction[j][1][i] = REAL_SCALE_LAYER12(fr->muls[*tab++][m]);
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fraction[j][2][i] = REAL_SCALE_LAYER12(fr->muls[*tab][m]);
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}
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scale+=3;
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}
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else
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fraction[j][0][i] = fraction[j][1][i] = fraction[j][2][i] = DOUBLE_TO_REAL(0.0);
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}
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}
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for(i=jsbound;i<sblimit;i++,alloc1+=(1<<step))
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{
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step = alloc1->bits;
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bita++; /* channel 1 and channel 2 bitalloc are the same */
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if( (ba=*bita++) )
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{
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k=(alloc2 = alloc1+ba)->bits;
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if( (d1=alloc2->d) < 0)
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{
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real cm;
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cm=fr->muls[k][scale[x1+3]];
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fraction[0][0][i] = DOUBLE_TO_REAL_15((int)getbits(fr, k) + d1);
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fraction[0][1][i] = DOUBLE_TO_REAL_15((int)getbits(fr, k) + d1);
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fraction[0][2][i] = DOUBLE_TO_REAL_15((int)getbits(fr, k) + d1);
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fraction[1][0][i] = REAL_MUL_SCALE_LAYER12(fraction[0][0][i], cm);
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fraction[1][1][i] = REAL_MUL_SCALE_LAYER12(fraction[0][1][i], cm);
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fraction[1][2][i] = REAL_MUL_SCALE_LAYER12(fraction[0][2][i], cm);
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cm=fr->muls[k][scale[x1]];
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fraction[0][0][i] = REAL_MUL_SCALE_LAYER12(fraction[0][0][i], cm);
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fraction[0][1][i] = REAL_MUL_SCALE_LAYER12(fraction[0][1][i], cm);
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fraction[0][2][i] = REAL_MUL_SCALE_LAYER12(fraction[0][2][i], cm);
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}
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else
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{
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const int *table[] = { 0,0,0,grp_3tab,0,grp_5tab,0,0,0,grp_9tab };
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unsigned int idx,*tab,m1,m2;
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m1 = scale[x1]; m2 = scale[x1+3];
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idx = (unsigned int) getbits(fr, k);
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tab = (unsigned int *) (table[d1] + idx + idx + idx);
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fraction[0][0][i] = REAL_SCALE_LAYER12(fr->muls[*tab][m1]); fraction[1][0][i] = REAL_SCALE_LAYER12(fr->muls[*tab++][m2]);
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fraction[0][1][i] = REAL_SCALE_LAYER12(fr->muls[*tab][m1]); fraction[1][1][i] = REAL_SCALE_LAYER12(fr->muls[*tab++][m2]);
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fraction[0][2][i] = REAL_SCALE_LAYER12(fr->muls[*tab][m1]); fraction[1][2][i] = REAL_SCALE_LAYER12(fr->muls[*tab][m2]);
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}
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scale+=6;
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}
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else
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{
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fraction[0][0][i] = fraction[0][1][i] = fraction[0][2][i] =
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fraction[1][0][i] = fraction[1][1][i] = fraction[1][2][i] = DOUBLE_TO_REAL(0.0);
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}
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/*
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Historic comment...
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should we use individual scalefac for channel 2 or
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is the current way the right one , where we just copy channel 1 to
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channel 2 ??
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The current 'strange' thing is, that we throw away the scalefac
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values for the second channel ...!!
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-> changed .. now we use the scalefac values of channel one !!
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*/
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}
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if(sblimit > (fr->down_sample_sblimit) )
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sblimit = fr->down_sample_sblimit;
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for(i=sblimit;i<SBLIMIT;i++)
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for (j=0;j<stereo;j++)
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fraction[j][0][i] = fraction[j][1][i] = fraction[j][2][i] = DOUBLE_TO_REAL(0.0);
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}
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static void II_select_table(mpg123_handle *fr)
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{
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const int translate[3][2][16] =
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{
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{
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{ 0,2,2,2,2,2,2,0,0,0,1,1,1,1,1,0 },
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{ 0,2,2,0,0,0,1,1,1,1,1,1,1,1,1,0 }
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},
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{
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{ 0,2,2,2,2,2,2,0,0,0,0,0,0,0,0,0 },
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{ 0,2,2,0,0,0,0,0,0,0,0,0,0,0,0,0 }
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},
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{
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{ 0,3,3,3,3,3,3,0,0,0,1,1,1,1,1,0 },
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{ 0,3,3,0,0,0,1,1,1,1,1,1,1,1,1,0 }
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}
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};
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int table,sblim;
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const struct al_table *tables[5] = { alloc_0, alloc_1, alloc_2, alloc_3 , alloc_4 };
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const int sblims[5] = { 27 , 30 , 8, 12 , 30 };
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if(fr->sampling_frequency >= 3) /* Or equivalent: (fr->lsf == 1) */
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table = 4;
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else
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table = translate[fr->sampling_frequency][2-fr->stereo][fr->bitrate_index];
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sblim = sblims[table];
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fr->alloc = tables[table];
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fr->II_sblimit = sblim;
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}
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int do_layer2(mpg123_handle *fr)
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{
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int clip=0;
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int i,j;
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int stereo = fr->stereo;
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ALIGNED(16) real fraction[2][4][SBLIMIT]; /* pick_table clears unused subbands */
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unsigned int bit_alloc[64];
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int scale[192];
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int single = fr->single;
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II_select_table(fr);
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fr->jsbound = (fr->mode == MPG_MD_JOINT_STEREO) ? (fr->mode_ext<<2)+4 : fr->II_sblimit;
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if(fr->jsbound > fr->II_sblimit)
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{
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// fprintf(stderr, "Truncating stereo boundary to sideband limit.\n");
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fr->jsbound=fr->II_sblimit;
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}
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/* TODO: What happens with mono mixing, actually? */
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if(stereo == 1 || single == SINGLE_MIX) /* also, mix not really handled */
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single = SINGLE_LEFT;
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II_step_one(bit_alloc, scale, fr);
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for(i=0;i<SCALE_BLOCK;i++)
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{
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II_step_two(bit_alloc,fraction,scale,fr,i>>2);
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for(j=0;j<3;j++)
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{
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if(single != SINGLE_STEREO)
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clip += (fr->synth_mono)(fraction[single][j], fr);
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else
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clip += (fr->synth_stereo)(fraction[0][j], fraction[1][j], fr);
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}
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}
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return clip;
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}
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#endif /* NO_LAYER2 */
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