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546 lines
19 KiB
C
546 lines
19 KiB
C
/*____________________________________________________________________________
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FreeAmp - The Free MP3 Player
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MP3 Decoder originally Copyright (C) 1995-1997 Xing Technology
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Corp. http://www.xingtech.com
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Portions Copyright (C) 1998-1999 EMusic.com
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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$Id: cup.c,v 1.3 1999/10/19 07:13:08 elrod Exp $
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____________________________________________________________________________*/
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/**** cup.c ***************************************************
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MPEG audio decoder Layer I/II mpeg1 and mpeg2
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should be portable ANSI C, should be endian independent
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mod 2/21/95 2/21/95 add bit skip, sb limiting
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mods 11/15/95 for Layer I
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******************************************************************/
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/******************************************************************
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MPEG audio software decoder portable ANSI c.
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Decodes all Layer I/II to 16 bit linear pcm.
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Optional stereo to mono conversion. Optional
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output sample rate conversion to half or quarter of
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native mpeg rate. dec8.c adds oupuut conversion features.
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-------------------------------------
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int audio_decode_init(MPEG_HEAD *h, int framebytes_arg,
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int reduction_code, int transform_code, int convert_code,
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int freq_limit)
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initilize decoder:
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return 0 = fail, not 0 = success
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MPEG_HEAD *h input, mpeg header info (returned by call to head_info)
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pMP3Stream->framebytes input, mpeg frame size (returned by call to head_info)
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reduction_code input, sample rate reduction code
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0 = full rate
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1 = half rate
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2 = quarter rate
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transform_code input, ignored
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convert_code input, channel conversion
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convert_code: 0 = two chan output
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1 = convert two chan to mono
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2 = convert two chan to left chan
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3 = convert two chan to right chan
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freq_limit input, limits bandwidth of pcm output to specified
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frequency. Special use. Set to 24000 for normal use.
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---------------------------------
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void audio_decode_info( DEC_INFO *info)
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information return:
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Call after audio_decode_init. See mhead.h for
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information returned in DEC_INFO structure.
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---------------------------------
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IN_OUT audio_decode(unsigned char *bs, void *pcmbuf)
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decode one mpeg audio frame:
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bs input, mpeg bitstream, must start with
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sync word. Caution: may read up to 3 bytes
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beyond end of frame.
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pcmbuf output, pcm samples.
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IN_OUT structure returns:
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Number bytes conceptually removed from mpeg bitstream.
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Returns 0 if sync loss.
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Number bytes of pcm output.
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*******************************************************************/
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#include <stdlib.h>
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#include <stdio.h>
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#include <float.h>
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#include <math.h>
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#include "mhead.h" /* mpeg header structure */
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#ifdef _MSC_VER
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#pragma warning(disable: 4709)
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#endif
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#include "mp3struct.h"
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/*-------------------------------------------------------
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NOTE: Decoder may read up to three bytes beyond end of
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frame. Calling application must ensure that this does
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not cause a memory access violation (protection fault)
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---------------------------------------------------------*/
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/*====================================================================*/
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/*----------------*/
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//@@@@ This next one (decinfo) is ok:
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DEC_INFO decinfo; /* global for Layer III */ // only written into by decode init funcs, then copied to stack struct higher up
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/*----------------*/
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static float look_c_value[18]; /* built by init */ // effectively constant
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/*----------------*/
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////@@@@static int pMP3Stream->outbytes; // !!!!!!!!!!!!!!?
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////@@@@static int pMP3Stream->framebytes; // !!!!!!!!!!!!!!!!
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////@@@@static int pMP3Stream->outvalues; // !!!!!!!!!!!!?
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////@@@@static int pad;
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static const int look_joint[16] =
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{ /* lookup stereo sb's by mode+ext */
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64, 64, 64, 64, /* stereo */
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2 * 4, 2 * 8, 2 * 12, 2 * 16, /* joint */
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64, 64, 64, 64, /* dual */
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32, 32, 32, 32, /* mono */
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};
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/*----------------*/
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////@@@@static int max_sb; // !!!!!!!!! L1, 2 3
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////@@@@static int stereo_sb;
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/*----------------*/
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////@@@@static int pMP3Stream->nsb_limit = 6;
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////@@@@static int bit_skip;
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static const int bat_bit_master[] =
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{
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0, 5, 7, 9, 10, 12, 15, 18, 21, 24, 27, 30, 33, 36, 39, 42, 45, 48};
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/*----------------*/
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////@@@@static int nbat[4] = {3, 8, 12, 7}; // !!!!!!!!!!!!! not constant!!!!
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////@@@@static int bat[4][16]; // built as constant, but built according to header type (sigh)
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static int ballo[64]; /* set by unpack_ba */ // scratchpad
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static unsigned int samp_dispatch[66]; /* set by unpack_ba */ // scratchpad?
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static float c_value[64]; /* set by unpack_ba */ // scratchpad
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/*----------------*/
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static unsigned int sf_dispatch[66]; /* set by unpack_ba */ // scratchpad?
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static float sf_table[64]; // effectively constant
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////@@@@ static float cs_factor[3][64];
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/*----------------*/
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////@@@@FINDME - groan.... (I shoved a *2 in just in case it needed it for stereo. This whole thing is crap now
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float sample[2304*2]; /* global for use by Later 3 */ // !!!!!!!!!!!!!!!!!!!!!! // scratchpad?
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static signed char group3_table[32][3]; // effectively constant
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static signed char group5_table[128][3]; // effectively constant
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static signed short group9_table[1024][3]; // effectively constant
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/*----------------*/
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////@@@@typedef void (*SBT_FUNCTION) (float *sample, short *pcm, int n);
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void sbt_mono(float *sample, short *pcm, int n);
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void sbt_dual(float *sample, short *pcm, int n);
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////@@@@static SBT_FUNCTION sbt = sbt_mono;
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typedef IN_OUT(*AUDIO_DECODE_ROUTINE) (unsigned char *bs, signed short *pcm);
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IN_OUT L2audio_decode(unsigned char *bs, signed short *pcm);
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static AUDIO_DECODE_ROUTINE audio_decode_routine = L2audio_decode;
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/*======================================================================*/
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/*======================================================================*/
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/* get bits from bitstream in endian independent way */
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////@@@@ FINDME - this stuff doesn't appear to be used by any of our samples (phew)
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static unsigned char *bs_ptr;
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static unsigned long bitbuf;
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static int bits;
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static long bitval;
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/*------------- initialize bit getter -------------*/
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static void load_init(unsigned char *buf)
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{
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bs_ptr = buf;
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bits = 0;
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bitbuf = 0;
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}
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/*------------- get n bits from bitstream -------------*/
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static long load(int n)
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{
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unsigned long x;
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if (bits < n)
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{ /* refill bit buf if necessary */
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while (bits <= 24)
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{
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bitbuf = (bitbuf << 8) | *bs_ptr++;
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bits += 8;
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}
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}
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bits -= n;
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x = bitbuf >> bits;
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bitbuf -= x << bits;
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return x;
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}
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/*------------- skip over n bits in bitstream -------------*/
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static void skip(int n)
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{
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int k;
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if (bits < n)
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{
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n -= bits;
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k = n >> 3;
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/*--- bytes = n/8 --*/
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bs_ptr += k;
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n -= k << 3;
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bitbuf = *bs_ptr++;
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bits = 8;
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}
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bits -= n;
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bitbuf -= (bitbuf >> bits) << bits;
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}
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/*--------------------------------------------------------------*/
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#define mac_load_check(n) if( bits < (n) ) { \
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while( bits <= 24 ) { \
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bitbuf = (bitbuf << 8) | *bs_ptr++; \
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bits += 8; \
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} \
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}
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/*--------------------------------------------------------------*/
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#define mac_load(n) ( bits -= n, \
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bitval = bitbuf >> bits, \
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bitbuf -= bitval << bits, \
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bitval )
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/*======================================================================*/
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static void unpack_ba()
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{
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int i, j, k;
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static int nbit[4] =
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{4, 4, 3, 2};
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int nstereo;
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pMP3Stream->bit_skip = 0;
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nstereo = pMP3Stream->stereo_sb;
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k = 0;
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for (i = 0; i < 4; i++)
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{
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for (j = 0; j < pMP3Stream->nbat[i]; j++, k++)
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{
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mac_load_check(4);
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ballo[k] = samp_dispatch[k] = pMP3Stream->bat[i][mac_load(nbit[i])];
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if (k >= pMP3Stream->nsb_limit)
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pMP3Stream->bit_skip += bat_bit_master[samp_dispatch[k]];
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c_value[k] = look_c_value[samp_dispatch[k]];
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if (--nstereo < 0)
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{
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ballo[k + 1] = ballo[k];
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samp_dispatch[k] += 18; /* flag as joint */
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samp_dispatch[k + 1] = samp_dispatch[k]; /* flag for sf */
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c_value[k + 1] = c_value[k];
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k++;
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j++;
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}
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}
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}
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samp_dispatch[pMP3Stream->nsb_limit] = 37; /* terminate the dispatcher with skip */
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samp_dispatch[k] = 36; /* terminate the dispatcher */
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}
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/*-------------------------------------------------------------------------*/
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static void unpack_sfs() /* unpack scale factor selectors */
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{
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int i;
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for (i = 0; i < pMP3Stream->max_sb; i++)
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{
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mac_load_check(2);
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if (ballo[i])
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sf_dispatch[i] = mac_load(2);
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else
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sf_dispatch[i] = 4; /* no allo */
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}
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sf_dispatch[i] = 5; /* terminate dispatcher */
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}
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/*-------------------------------------------------------------------------*/
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static void unpack_sf() /* unpack scale factor */
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{ /* combine dequant and scale factors */
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int i;
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i = -1;
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dispatch:switch (sf_dispatch[++i])
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{
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case 0: /* 3 factors 012 */
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mac_load_check(18);
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pMP3Stream->cs_factor[0][i] = c_value[i] * sf_table[mac_load(6)];
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pMP3Stream->cs_factor[1][i] = c_value[i] * sf_table[mac_load(6)];
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pMP3Stream->cs_factor[2][i] = c_value[i] * sf_table[mac_load(6)];
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goto dispatch;
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case 1: /* 2 factors 002 */
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mac_load_check(12);
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pMP3Stream->cs_factor[1][i] = pMP3Stream->cs_factor[0][i] = c_value[i] * sf_table[mac_load(6)];
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pMP3Stream->cs_factor[2][i] = c_value[i] * sf_table[mac_load(6)];
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goto dispatch;
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case 2: /* 1 factor 000 */
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mac_load_check(6);
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pMP3Stream->cs_factor[2][i] = pMP3Stream->cs_factor[1][i] = pMP3Stream->cs_factor[0][i] =
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c_value[i] * sf_table[mac_load(6)];
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goto dispatch;
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case 3: /* 2 factors 022 */
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mac_load_check(12);
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pMP3Stream->cs_factor[0][i] = c_value[i] * sf_table[mac_load(6)];
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pMP3Stream->cs_factor[2][i] = pMP3Stream->cs_factor[1][i] = c_value[i] * sf_table[mac_load(6)];
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goto dispatch;
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case 4: /* no allo */
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/*-- pMP3Stream->cs_factor[2][i] = pMP3Stream->cs_factor[1][i] = pMP3Stream->cs_factor[0][i] = 0.0; --*/
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goto dispatch;
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case 5: /* all done */
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;
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} /* end switch */
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}
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/*-------------------------------------------------------------------------*/
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#define UNPACK_N(n) s[k] = pMP3Stream->cs_factor[i][k]*(load(n)-((1 << (n-1)) -1)); \
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s[k+64] = pMP3Stream->cs_factor[i][k]*(load(n)-((1 << (n-1)) -1)); \
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s[k+128] = pMP3Stream->cs_factor[i][k]*(load(n)-((1 << (n-1)) -1)); \
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goto dispatch;
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#define UNPACK_N2(n) mac_load_check(3*n); \
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s[k] = pMP3Stream->cs_factor[i][k]*(mac_load(n)-((1 << (n-1)) -1)); \
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s[k+64] = pMP3Stream->cs_factor[i][k]*(mac_load(n)-((1 << (n-1)) -1)); \
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s[k+128] = pMP3Stream->cs_factor[i][k]*(mac_load(n)-((1 << (n-1)) -1)); \
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goto dispatch;
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#define UNPACK_N3(n) mac_load_check(2*n); \
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s[k] = pMP3Stream->cs_factor[i][k]*(mac_load(n)-((1 << (n-1)) -1)); \
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s[k+64] = pMP3Stream->cs_factor[i][k]*(mac_load(n)-((1 << (n-1)) -1)); \
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mac_load_check(n); \
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s[k+128] = pMP3Stream->cs_factor[i][k]*(mac_load(n)-((1 << (n-1)) -1)); \
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goto dispatch;
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#define UNPACKJ_N(n) tmp = (load(n)-((1 << (n-1)) -1)); \
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s[k] = pMP3Stream->cs_factor[i][k]*tmp; \
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s[k+1] = pMP3Stream->cs_factor[i][k+1]*tmp; \
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tmp = (load(n)-((1 << (n-1)) -1)); \
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s[k+64] = pMP3Stream->cs_factor[i][k]*tmp; \
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s[k+64+1] = pMP3Stream->cs_factor[i][k+1]*tmp; \
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tmp = (load(n)-((1 << (n-1)) -1)); \
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s[k+128] = pMP3Stream->cs_factor[i][k]*tmp; \
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s[k+128+1] = pMP3Stream->cs_factor[i][k+1]*tmp; \
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k++; /* skip right chan dispatch */ \
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goto dispatch;
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/*-------------------------------------------------------------------------*/
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static void unpack_samp() /* unpack samples */
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{
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int i, j, k;
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float *s;
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int n;
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long tmp;
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s = sample;
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for (i = 0; i < 3; i++)
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{ /* 3 groups of scale factors */
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for (j = 0; j < 4; j++)
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{
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k = -1;
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dispatch:switch (samp_dispatch[++k])
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{
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case 0:
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s[k + 128] = s[k + 64] = s[k] = 0.0F;
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goto dispatch;
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case 1: /* 3 levels grouped 5 bits */
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mac_load_check(5);
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n = mac_load(5);
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s[k] = pMP3Stream->cs_factor[i][k] * group3_table[n][0];
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s[k + 64] = pMP3Stream->cs_factor[i][k] * group3_table[n][1];
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s[k + 128] = pMP3Stream->cs_factor[i][k] * group3_table[n][2];
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goto dispatch;
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case 2: /* 5 levels grouped 7 bits */
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mac_load_check(7);
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n = mac_load(7);
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s[k] = pMP3Stream->cs_factor[i][k] * group5_table[n][0];
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s[k + 64] = pMP3Stream->cs_factor[i][k] * group5_table[n][1];
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s[k + 128] = pMP3Stream->cs_factor[i][k] * group5_table[n][2];
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goto dispatch;
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case 3:
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UNPACK_N2(3) /* 7 levels */
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case 4: /* 9 levels grouped 10 bits */
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mac_load_check(10);
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n = mac_load(10);
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s[k] = pMP3Stream->cs_factor[i][k] * group9_table[n][0];
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s[k + 64] = pMP3Stream->cs_factor[i][k] * group9_table[n][1];
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s[k + 128] = pMP3Stream->cs_factor[i][k] * group9_table[n][2];
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goto dispatch;
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case 5:
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UNPACK_N2(4) /* 15 levels */
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case 6:
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UNPACK_N2(5) /* 31 levels */
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case 7:
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UNPACK_N2(6) /* 63 levels */
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case 8:
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UNPACK_N2(7) /* 127 levels */
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case 9:
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UNPACK_N2(8) /* 255 levels */
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case 10:
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UNPACK_N3(9) /* 511 levels */
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case 11:
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UNPACK_N3(10) /* 1023 levels */
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case 12:
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UNPACK_N3(11) /* 2047 levels */
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case 13:
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UNPACK_N3(12) /* 4095 levels */
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case 14:
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UNPACK_N(13) /* 8191 levels */
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case 15:
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UNPACK_N(14) /* 16383 levels */
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case 16:
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UNPACK_N(15) /* 32767 levels */
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case 17:
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UNPACK_N(16) /* 65535 levels */
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/* -- joint ---- */
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case 18 + 0:
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s[k + 128 + 1] = s[k + 128] = s[k + 64 + 1] = s[k + 64] = s[k + 1] = s[k] = 0.0F;
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k++; /* skip right chan dispatch */
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goto dispatch;
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case 18 + 1: /* 3 levels grouped 5 bits */
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n = load(5);
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s[k] = pMP3Stream->cs_factor[i][k] * group3_table[n][0];
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s[k + 1] = pMP3Stream->cs_factor[i][k + 1] * group3_table[n][0];
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s[k + 64] = pMP3Stream->cs_factor[i][k] * group3_table[n][1];
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s[k + 64 + 1] = pMP3Stream->cs_factor[i][k + 1] * group3_table[n][1];
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s[k + 128] = pMP3Stream->cs_factor[i][k] * group3_table[n][2];
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s[k + 128 + 1] = pMP3Stream->cs_factor[i][k + 1] * group3_table[n][2];
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k++; /* skip right chan dispatch */
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goto dispatch;
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case 18 + 2: /* 5 levels grouped 7 bits */
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n = load(7);
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s[k] = pMP3Stream->cs_factor[i][k] * group5_table[n][0];
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s[k + 1] = pMP3Stream->cs_factor[i][k + 1] * group5_table[n][0];
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s[k + 64] = pMP3Stream->cs_factor[i][k] * group5_table[n][1];
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s[k + 64 + 1] = pMP3Stream->cs_factor[i][k + 1] * group5_table[n][1];
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s[k + 128] = pMP3Stream->cs_factor[i][k] * group5_table[n][2];
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s[k + 128 + 1] = pMP3Stream->cs_factor[i][k + 1] * group5_table[n][2];
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k++; /* skip right chan dispatch */
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goto dispatch;
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case 18 + 3:
|
|
UNPACKJ_N(3) /* 7 levels */
|
|
case 18 + 4: /* 9 levels grouped 10 bits */
|
|
n = load(10);
|
|
s[k] = pMP3Stream->cs_factor[i][k] * group9_table[n][0];
|
|
s[k + 1] = pMP3Stream->cs_factor[i][k + 1] * group9_table[n][0];
|
|
s[k + 64] = pMP3Stream->cs_factor[i][k] * group9_table[n][1];
|
|
s[k + 64 + 1] = pMP3Stream->cs_factor[i][k + 1] * group9_table[n][1];
|
|
s[k + 128] = pMP3Stream->cs_factor[i][k] * group9_table[n][2];
|
|
s[k + 128 + 1] = pMP3Stream->cs_factor[i][k + 1] * group9_table[n][2];
|
|
k++; /* skip right chan dispatch */
|
|
goto dispatch;
|
|
case 18 + 5:
|
|
UNPACKJ_N(4) /* 15 levels */
|
|
case 18 + 6:
|
|
UNPACKJ_N(5) /* 31 levels */
|
|
case 18 + 7:
|
|
UNPACKJ_N(6) /* 63 levels */
|
|
case 18 + 8:
|
|
UNPACKJ_N(7) /* 127 levels */
|
|
case 18 + 9:
|
|
UNPACKJ_N(8) /* 255 levels */
|
|
case 18 + 10:
|
|
UNPACKJ_N(9) /* 511 levels */
|
|
case 18 + 11:
|
|
UNPACKJ_N(10) /* 1023 levels */
|
|
case 18 + 12:
|
|
UNPACKJ_N(11) /* 2047 levels */
|
|
case 18 + 13:
|
|
UNPACKJ_N(12) /* 4095 levels */
|
|
case 18 + 14:
|
|
UNPACKJ_N(13) /* 8191 levels */
|
|
case 18 + 15:
|
|
UNPACKJ_N(14) /* 16383 levels */
|
|
case 18 + 16:
|
|
UNPACKJ_N(15) /* 32767 levels */
|
|
case 18 + 17:
|
|
UNPACKJ_N(16) /* 65535 levels */
|
|
/* -- end of dispatch -- */
|
|
case 37:
|
|
skip(pMP3Stream->bit_skip);
|
|
case 36:
|
|
s += 3 * 64;
|
|
} /* end switch */
|
|
} /* end j loop */
|
|
} /* end i loop */
|
|
|
|
|
|
}
|
|
/*-------------------------------------------------------------------------*/
|
|
unsigned char *gpNextByteAfterData = NULL;
|
|
IN_OUT audio_decode(unsigned char *bs, signed short *pcm, unsigned char *pNextByteAfterData)
|
|
{
|
|
gpNextByteAfterData = pNextByteAfterData; // sigh....
|
|
return audio_decode_routine(bs, pcm);
|
|
}
|
|
/*-------------------------------------------------------------------------*/
|
|
IN_OUT L2audio_decode(unsigned char *bs, signed short *pcm)
|
|
{
|
|
int sync, prot;
|
|
IN_OUT in_out;
|
|
|
|
load_init(bs); /* initialize bit getter */
|
|
/* test sync */
|
|
in_out.in_bytes = 0; /* assume fail */
|
|
in_out.out_bytes = 0;
|
|
sync = load(12);
|
|
if (sync != 0xFFF)
|
|
return in_out; /* sync fail */
|
|
|
|
load(3); /* skip id and option (checked by init) */
|
|
prot = load(1); /* load prot bit */
|
|
load(6); /* skip to pad */
|
|
pMP3Stream->pad = load(1);
|
|
load(1); /* skip to mode */
|
|
pMP3Stream->stereo_sb = look_joint[load(4)];
|
|
if (prot)
|
|
load(4); /* skip to data */
|
|
else
|
|
load(20); /* skip crc */
|
|
|
|
unpack_ba(); /* unpack bit allocation */
|
|
unpack_sfs(); /* unpack scale factor selectors */
|
|
unpack_sf(); /* unpack scale factor */
|
|
unpack_samp(); /* unpack samples */
|
|
|
|
pMP3Stream->sbt(sample, pcm, 36);
|
|
/*-----------*/
|
|
in_out.in_bytes = pMP3Stream->framebytes + pMP3Stream->pad;
|
|
in_out.out_bytes = pMP3Stream->outbytes;
|
|
|
|
return in_out;
|
|
}
|
|
/*-------------------------------------------------------------------------*/
|
|
#define COMPILE_ME
|
|
#include "cupini.c" /* initialization */
|
|
#include "cupL1.c" /* Layer I */
|
|
/*-------------------------------------------------------------------------*/
|