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rockbox/apps/codecs/mp3_enc.c
Daniel Stenberg 2acc0ac542 Updated our source code header to explicitly mention that we are GPL v2 or 
later. We still need to hunt down snippets used that are not. 1324 modified
files...
http://www.rockbox.org/mail/archive/rockbox-dev-archive-2008-06/0060.shtml


git-svn-id: svn://svn.rockbox.org/rockbox/trunk@17847 a1c6a512-1295-4272-9138-f99709370657
2008-06-28 18:10:04 +00:00

2595 lines
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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2006 Antonius Hellmann
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
// Shine is an MP3 encoder
// Copyright (C) 1999-2000 Gabriel Bouvigne
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Library General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Library General Public License for more details.
#ifndef SIMULATOR
#include <inttypes.h>
#include "codeclib.h"
CODEC_ENC_HEADER
#define ENC_PADDING_FRAMES1 2
#define ENC_PADDING_FRAMES2 4
#define ENC_DELAY_SAMP 576
#define ENC_DELAY_SIZE (ENC_DELAY_SAMP*4)
#define SAMP_PER_FRAME1 1152
#define SAMP_PER_FRAME2 576
#define PCM_CHUNK_SIZE1 (SAMP_PER_FRAME1*4)
#define PCM_CHUNK_SIZE2 (SAMP_PER_FRAME2*4)
#define SAMPL2 576
#define SBLIMIT 32
#define HTN 16
#define memcpy ci->memcpy
#define memset ci->memset
#define putlong(c, s) if(s+sz <= 32) { cc = (cc << s) | c; sz+= s; } \
else { putbits(cc, sz); cc = c; sz = s; }
typedef struct {
int type; /* 0=(MPEG2 - 22.05,24,16kHz) 1=(MPEG1 - 44.1,48,32kHz) */
int mode; /* 0=stereo, 1=jstereo, 2=dual, 3=mono */
int bitrate;
int padding;
int num_bands;
long bitr_id;
int smpl_id;
} mpeg_t;
/* Side information */
typedef struct {
uint32_t part2_3_length;
int count1; /* number of 0-1-quadruples */
uint32_t global_gain;
uint32_t table_select[4];
uint32_t region_0_1;
uint32_t address1;
uint32_t address2;
uint32_t address3;
long quantStep;
long additStep;
uint32_t max_val;
} side_info_t;
typedef struct {
side_info_t cod_info[2][2];
mpeg_t mpg;
long frac_per_frame;
long byte_per_frame;
long slot_lag;
int sideinfo_len;
int mean_bits;
int ResvSize;
int channels;
int granules;
long samplerate;
} config_t;
typedef struct {
int bitpos; /* current bitpos for writing */
uint32_t bbuf[263];
} BF_Data;
struct huffcodetab {
int len; /* max. index */
const uint8_t *table; /* pointer to array[len][len] */
const uint8_t *hlen; /* pointer to array[len][len] */
};
struct huffcodebig {
int len; /* max. index */
int linbits; /* number of linbits */
int linmax; /* max number stored in linbits */
};
#define shft4(x) ((x + 8) >> 4)
#define shft9(x) ((x + 256) >> 9)
#define shft13(x) ((x + 4096) >> 13)
#define shft15(x) ((x + 16384) >> 15)
#define shft16(x) ((x + 32768) >> 16)
#define shft_n(x,n) ((x) >> n)
#define SQRT 724 /* sqrt(2) * 512 */
static short mfbuf [2*(1152+512)] IBSS_ATTR; /* 3328 Bytes */
static int sb_data [2][2][18][SBLIMIT] IBSS_ATTR; /* 13824 Bytes */
static int mdct_freq [SAMPL2] IBSS_ATTR; /* 2304 Bytes */
static char mdct_sign [SAMPL2] IBSS_ATTR; /* 576 Bytes */
static short enc_data [SAMPL2] IBSS_ATTR; /* 1152 Bytes */
static uint32_t scalefac [23] IBSS_ATTR; /* 92 Bytes */
static BF_Data CodedData IBSS_ATTR; /* 1056 Bytes */
static int ca [8] IBSS_ATTR; /* 32 Bytes */
static int cs [8] IBSS_ATTR; /* 32 Bytes */
static int cx [9] IBSS_ATTR; /* 36 Bytes */
static int win [18][4] IBSS_ATTR; /* 288 Bytes */
static short enwindow [15*27+24] IBSS_ATTR; /* 862 Bytes */
static short int2idx [4096] IBSS_ATTR; /* 8192 Bytes */
static uint8_t ht_count [2][2][16] IBSS_ATTR; /* 64 Bytes */
static uint32_t tab01 [ 16] IBSS_ATTR; /* 64 Bytes */
static uint32_t tab23 [ 9] IBSS_ATTR; /* 36 Bytes */
static uint32_t tab56 [ 16] IBSS_ATTR; /* 64 Bytes */
static uint32_t tab1315 [256] IBSS_ATTR; /* 1024 Bytes */
static uint32_t tab1624 [256] IBSS_ATTR; /* 1024 Bytes */
static uint32_t tab789 [ 36] IBSS_ATTR; /* 144 Bytes */
static uint32_t tabABC [ 64] IBSS_ATTR; /* 256 Bytes */
static uint8_t t1HB [ 4] IBSS_ATTR;
static uint8_t t2HB [ 9] IBSS_ATTR;
static uint8_t t3HB [ 9] IBSS_ATTR;
static uint8_t t5HB [ 16] IBSS_ATTR;
static uint8_t t6HB [ 16] IBSS_ATTR;
static uint8_t t7HB [ 36] IBSS_ATTR;
static uint8_t t8HB [ 36] IBSS_ATTR;
static uint8_t t9HB [ 36] IBSS_ATTR;
static uint8_t t10HB [ 64] IBSS_ATTR;
static uint8_t t11HB [ 64] IBSS_ATTR;
static uint8_t t12HB [ 64] IBSS_ATTR;
static uint8_t t13HB [256] IBSS_ATTR;
static uint8_t t15HB [256] IBSS_ATTR;
static uint16_t t16HB [256] IBSS_ATTR;
static uint16_t t24HB [256] IBSS_ATTR;
static uint8_t t1l [ 8] IBSS_ATTR;
static uint8_t t2l [ 9] IBSS_ATTR;
static uint8_t t3l [ 9] IBSS_ATTR;
static uint8_t t5l [ 16] IBSS_ATTR;
static uint8_t t6l [ 16] IBSS_ATTR;
static uint8_t t7l [ 36] IBSS_ATTR;
static uint8_t t8l [ 36] IBSS_ATTR;
static uint8_t t9l [ 36] IBSS_ATTR;
static uint8_t t10l [ 64] IBSS_ATTR;
static uint8_t t11l [ 64] IBSS_ATTR;
static uint8_t t12l [ 64] IBSS_ATTR;
static uint8_t t13l [256] IBSS_ATTR;
static uint8_t t15l [256] IBSS_ATTR;
static uint8_t t16l [256] IBSS_ATTR;
static uint8_t t24l [256] IBSS_ATTR;
static struct huffcodetab ht [HTN] IBSS_ATTR;
static unsigned pcm_chunk_size IBSS_ATTR;
static unsigned samp_per_frame IBSS_ATTR;
static config_t cfg IBSS_ATTR;
static char *res_buffer;
static int32_t err IBSS_ATTR;
static uint8_t band_scale_f[22];
static const uint8_t ht_count_const[2][2][16] =
{ { { 1, 5, 4, 5, 6, 5, 4, 4, 7, 3, 6, 0, 7, 2, 3, 1 }, /* table0 */
{ 1, 5, 5, 7, 5, 8, 7, 9, 5, 7, 7, 9, 7, 9, 9,10 } }, /* hleng0 */
{ {15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0 }, /* table1 */
{ 4, 5, 5, 6, 5, 6, 6, 7, 5, 6, 6, 7, 6, 7, 7, 8 } } }; /* hleng1 */
static const uint8_t t1HB_const[4] = {1,1,1,0};
static const uint8_t t2HB_const[9] = {1,2,1,3,1,1,3,2,0};
static const uint8_t t3HB_const[9] = {3,2,1,1,1,1,3,2,0};
static const uint8_t t5HB_const[16] = {1,2,6,5,3,1,4,4,7,5,7,1,6,1,1,0};
static const uint8_t t6HB_const[16] = {7,3,5,1,6,2,3,2,5,4,4,1,3,3,2,0};
static const uint8_t t7HB_const[36] =
{ 1, 2,10,19,16,10, 3, 3, 7,10, 5, 3,11, 4,13,17, 8, 4,
12,11,18,15,11, 2, 7, 6, 9,14, 3, 1, 6, 4, 5, 3, 2, 0 };
static const uint8_t t8HB_const[36] =
{ 3, 4, 6,18,12, 5, 5, 1, 2,16, 9, 3, 7, 3, 5,14, 7, 3,
19,17,15,13,10, 4,13, 5, 8,11, 5, 1,12, 4, 4, 1, 1, 0 };
static const uint8_t t9HB_const[36] =
{ 7, 5, 9,14,15, 7, 6, 4, 5, 5, 6, 7, 7, 6, 8, 8, 8, 5,
15, 6, 9,10, 5, 1,11, 7, 9, 6, 4, 1,14, 4, 6, 2, 6, 0 };
static const uint8_t t10HB_const[64] =
{1,2,10,23,35,30,12,17,3,3,8,12,18,21,12,7,11,9,15,21,32,
40,19,6,14,13,22,34,46,23,18,7,20,19,33,47,27,22,9,3,31,22,
41,26,21,20,5,3,14,13,10,11,16,6,5,1,9,8,7,8,4,4,2,0 };
static const uint8_t t11HB_const[64] =
{3,4,10,24,34,33,21,15,5,3,4,10,32,17,11,10,11,7,13,18,30,
31,20,5,25,11,19,59,27,18,12,5,35,33,31,58,30,16,7,5,28,26,
32,19,17,15,8,14,14,12,9,13,14,9,4,1,11,4,6,6,6,3,2,0 };
static const uint8_t t12HB_const[64] =
{9,6,16,33,41,39,38,26,7,5,6,9,23,16,26,11,17,7,11,14,21,
30,10,7,17,10,15,12,18,28,14,5,32,13,22,19,18,16,9,5,40,17,
31,29,17,13,4,2,27,12,11,15,10,7,4,1,27,12,8,12,6,3,1,0 };
static const uint8_t t13HB_const[256] =
{1,5,14,21,34,51,46,71,42,52,68,52,67,44,43,19,3,4,12,19,31,26,44,33,31,24,32,
24,31,35,22,14,15,13,23,36,59,49,77,65,29,40,30,40,27,33,42,16,22,20,37,61,56,
79,73,64,43,76,56,37,26,31,25,14,35,16,60,57,97,75,114,91,54,73,55,41,48,53,
23,24,58,27,50,96,76,70,93,84,77,58,79,29,74,49,41,17,47,45,78,74,115,94,90,
79,69,83,71,50,59,38,36,15,72,34,56,95,92,85,91,90,86,73,77,65,51,44,43,42,43,
20,30,44,55,78,72,87,78,61,46,54,37,30,20,16,53,25,41,37,44,59,54,81,66,76,57,
54,37,18,39,11,35,33,31,57,42,82,72,80,47,58,55,21,22,26,38,22,53,25,23,38,70,
60,51,36,55,26,34,23,27,14,9,7,34,32,28,39,49,75,30,52,48,40,52,28,18,17,9,5,
45,21,34,64,56,50,49,45,31,19,12,15,10,7,6,3,48,23,20,39,36,35,53,21,16,23,13,
10,6,1,4,2,16,15,17,27,25,20,29,11,17,12,16,8,1,1,0,1 };
static const uint8_t t15HB_const[256] =
{7,12,18,53,47,76,124,108,89,123,108,119,107,81,122,63,13,5,16,27,46,36,61,51,
42,70,52,83,65,41,59,36,19,17,15,24,41,34,59,48,40,64,50,78,62,80,56,33,29,28,
25,43,39,63,55,93,76,59,93,72,54,75,50,29,52,22,42,40,67,57,95,79,72,57,89,69,
49,66,46,27,77,37,35,66,58,52,91,74,62,48,79,63,90,62,40,38,125,32,60,56,50,
92,78,65,55,87,71,51,73,51,70,30,109,53,49,94,88,75,66,122,91,73,56,42,64,44,
21,25,90,43,41,77,73,63,56,92,77,66,47,67,48,53,36,20,71,34,67,60,58,49,88,76,
67,106,71,54,38,39,23,15,109,53,51,47,90,82,58,57,48,72,57,41,23,27,62,9,86,
42,40,37,70,64,52,43,70,55,42,25,29,18,11,11,118,68,30,55,50,46,74,65,49,39,
24,16,22,13,14,7,91,44,39,38,34,63,52,45,31,52,28,19,14,8,9,3,123,60,58,53,47,
43,32,22,37,24,17,12,15,10,2,1,71,37,34,30,28,20,17,26,21,16,10,6,8,6,2,0};
static const uint16_t t16HB_const[256] =
{1,5,14,44,74,63,110,93,172,149,138,242,225,195,376,17,3,4,12,20,35,62,53,47,
83,75,68,119,201,107,207,9,15,13,23,38,67,58,103,90,161,72,127,117,110,209,
206,16,45,21,39,69,64,114,99,87,158,140,252,212,199,387,365,26,75,36,68,65,
115,101,179,164,155,264,246,226,395,382,362,9,66,30,59,56,102,185,173,265,142,
253,232,400,388,378,445,16,111,54,52,100,184,178,160,133,257,244,228,217,385,
366,715,10,98,48,91,88,165,157,148,261,248,407,397,372,380,889,884,8,85,84,81,
159,156,143,260,249,427,401,392,383,727,713,708,7,154,76,73,141,131,256,245,
426,406,394,384,735,359,710,352,11,139,129,67,125,247,233,229,219,393,743,737,
720,885,882,439,4,243,120,118,115,227,223,396,746,742,736,721,712,706,223,436,
6,202,224,222,218,216,389,386,381,364,888,443,707,440,437,1728,4,747,211,210,
208,370,379,734,723,714,1735,883,877,876,3459,865,2,377,369,102,187,726,722,
358,711,709,866,1734,871,3458,870,434,0,12,10,7,11,10,17,11,9,13,12,10,7,5,3,
1,3};
static const uint16_t t24HB_const[256] =
{15,13,46,80,146,262,248,434,426,669,653,649,621,517,1032,88,14,12,21,38,71,
130,122,216,209,198,327,345,319,297,279,42,47,22,41,74,68,128,120,221,207,194,
182,340,315,295,541,18,81,39,75,70,134,125,116,220,204,190,178,325,311,293,
271,16,147,72,69,135,127,118,112,210,200,188,352,323,306,285,540,14,263,66,
129,126,119,114,214,202,192,180,341,317,301,281,262,12,249,123,121,117,113,
215,206,195,185,347,330,308,291,272,520,10,435,115,111,109,211,203,196,187,
353,332,313,298,283,531,381,17,427,212,208,205,201,193,186,177,169,320,303,
286,268,514,377,16,335,199,197,191,189,181,174,333,321,305,289,275,521,379,
371,11,668,184,183,179,175,344,331,314,304,290,277,530,383,373,366,10,652,346,
171,168,164,318,309,299,287,276,263,513,375,368,362,6,648,322,316,312,307,302,
292,284,269,261,512,376,370,364,359,4,620,300,296,294,288,282,273,266,515,380,
374,369,365,361,357,2,1033,280,278,274,267,264,259,382,378,372,367,363,360,
358,356,0,43,20,19,17,15,13,11,9,7,6,4,7,5,3,1,3};
static const uint32_t tab1315_const[256] =
{ 0x010003,0x050005,0x070006,0x080008,0x090008,0x0a0009,0x0a000a,0x0b000a,
0x0a000a,0x0b000b,0x0c000b,0x0c000c,0x0d000c,0x0d000c,0x0e000d,0x0e000e,
0x040005,0x060005,0x080007,0x090008,0x0a0009,0x0a0009,0x0b000a,0x0b000a,
0x0b000a,0x0b000b,0x0c000b,0x0c000c,0x0d000c,0x0e000c,0x0e000d,0x0e000d,
0x070006,0x080007,0x090007,0x0a0008,0x0b0009,0x0b0009,0x0c000a,0x0c000a,
0x0b000a,0x0c000b,0x0c000b,0x0d000c,0x0d000c,0x0e000d,0x0f000d,0x0f000d,
0x080007,0x090008,0x0a0008,0x0b0009,0x0b0009,0x0c000a,0x0c000a,0x0c000b,
0x0c000b,0x0d000b,0x0d000c,0x0d000c,0x0d000c,0x0e000d,0x0f000d,0x0f000d,
0x090008,0x090008,0x0b0009,0x0b0009,0x0c000a,0x0c000a,0x0d000b,0x0d000b,
0x0c000b,0x0d000b,0x0d000c,0x0e000c,0x0e000c,0x0f000d,0x0f000d,0x10000d,
0x0a0009,0x0a0009,0x0b0009,0x0c000a,0x0c000a,0x0c000a,0x0d000b,0x0d000b,
0x0d000b,0x0d000b,0x0e000c,0x0d000c,0x0f000d,0x0f000d,0x10000d,0x10000e,
0x0a000a,0x0b0009,0x0c000a,0x0c000a,0x0d000a,0x0d000b,0x0d000b,0x0d000b,
0x0d000b,0x0e000c,0x0e000c,0x0e000c,0x0f000d,0x0f000d,0x10000e,0x10000e,
0x0b000a,0x0b000a,0x0c000a,0x0d000b,0x0d000b,0x0d000b,0x0e000b,0x0e000c,
0x0e000c,0x0e000c,0x0f000c,0x0f000c,0x0f000d,0x10000d,0x12000d,0x12000e,
0x0a000a,0x0a000a,0x0b000a,0x0c000b,0x0c000b,0x0d000b,0x0d000b,0x0e000c,
0x0e000c,0x0e000c,0x0e000c,0x0f000d,0x0f000d,0x10000e,0x11000e,0x11000e,
0x0b000a,0x0b000a,0x0c000b,0x0c000b,0x0d000b,0x0d000b,0x0d000c,0x0f000c,
0x0e000c,0x0f000d,0x0f000d,0x10000d,0x10000d,0x10000e,0x12000e,0x11000e,
0x0b000b,0x0c000b,0x0c000b,0x0d000b,0x0d000c,0x0e000c,0x0e000c,0x0f000c,
0x0e000c,0x0f000d,0x10000d,0x0f000d,0x10000d,0x11000e,0x12000f,0x13000e,
0x0c000b,0x0c000b,0x0c000b,0x0d000b,0x0e000c,0x0e000c,0x0e000c,0x0e000c,
0x0f000d,0x0f000d,0x0f000d,0x10000d,0x11000e,0x11000e,0x11000e,0x12000f,
0x0c000c,0x0d000c,0x0d000b,0x0e000c,0x0e000c,0x0f000c,0x0e000d,0x0f000d,
0x10000d,0x10000d,0x11000d,0x11000d,0x11000e,0x12000e,0x12000f,0x12000f,
0x0d000c,0x0d000c,0x0e000c,0x0f000c,0x0f000c,0x0f000d,0x10000d,0x10000d,
0x10000d,0x10000e,0x10000e,0x11000e,0x12000e,0x11000e,0x12000f,0x12000f,
0x0e000d,0x0e000d,0x0e000d,0x0f000d,0x0f000d,0x0f000d,0x11000d,0x10000d,
0x10000e,0x13000e,0x11000e,0x11000e,0x11000f,0x13000f,0x12000e,0x12000f,
0x0d000d,0x0e000d,0x0f000d,0x10000d,0x10000d,0x10000d,0x11000d,0x10000e,
0x11000e,0x11000e,0x12000e,0x12000e,0x15000f,0x14000f,0x15000f,0x12000f };
static const uint32_t tab01_const[16] =
{ 0x10004,0x50005,0x50005,0x70006,0x50005,0x80006,0x70006,0x90007,
0x50005,0x70006,0x70006,0x90007,0x70006,0x90007,0x90007,0xa0008 };
static const uint32_t tab23_const[ 9] =
{ 0x10002,0x40003,0x70007,0x40004,0x50004,0x70007,0x60006,0x70007,0x80008 };
static const uint32_t tab56_const[16] =
{ 0x10003,0x40004,0x70006,0x80008,0x40004,0x50004,0x80006,0x90007,
0x70005,0x80006,0x90007,0xa0008,0x80007,0x80007,0x90008,0xa0009 };
static const uint32_t tab789_const[36] =
{0x00100803,0x00401004,0x00701c06,0x00902407,0x00902409,0x00a0280a,0x00401004,
0x00601005,0x00801806,0x00902807,0x00902808,0x00a0280a,0x00701c05,0x00701806,
0x00902007,0x00a02808,0x00a02809,0x00b02c0a,0x00802407,0x00902807,0x00a02808,
0x00b02c09,0x00b02c09,0x00b0300a,0x00802408,0x00902408,0x00a02809,0x00b02c09,
0x00b0300a,0x00c0300b,0x00902809,0x00a02809,0x00b02c0a,0x00c02c0a,0x00c0340b,
0x00c0340b};
static const uint32_t tabABC_const[64] =
{0x00100804,0x00401004,0x00701806,0x00902008,0x00a02409,0x00a0280a,0x00a0240a,
0x00b0280a,0x00401004,0x00601405,0x00801806,0x00902007,0x00a02809,0x00b02809,
0x00a0240a,0x00a0280a,0x00701806,0x00801c06,0x00902007,0x00a02408,0x00b02809,
0x00c02c0a,0x00b02809,0x00b0280a,0x00802007,0x00902007,0x00a02408,0x00b02c08,
0x00c02809,0x00c0300a,0x00b0280a,0x00c02c0a,0x00902408,0x00a02808,0x00b02809,
0x00c02c09,0x00c02c0a,0x00c0300a,0x00c02c0a,0x00c0300b,0x00a02409,0x00b02809,
0x00c02c0a,0x00c0300a,0x00d0300a,0x00d0340b,0x00c0300a,0x00d0340b,0x00902409,
0x00a02409,0x00b02409,0x00c0280a,0x00c02c0a,0x00c0300b,0x00d0300b,0x00d0300c,
0x00a0240a,0x00a0240a,0x00b0280a,0x00c02c0b,0x00c0300b,0x00d0300b,0x00d0300b,
0x00d0300c};
static const uint32_t tab1624_const[256] =
{0x00010004,0x00050005,0x00070007,0x00090008,0x000a0009,0x000a000a,0x000b000a,
0x000b000b,0x000c000b,0x000c000c,0x000c000c,0x000d000c,0x000d000c,0x000d000c,
0x000e000d,0x000a000a,0x00040005,0x00060006,0x00080007,0x00090008,0x000a0009,
0x000b000a,0x000b000a,0x000b000b,0x000c000b,0x000c000b,0x000c000c,0x000d000c,
0x000e000c,0x000d000c,0x000e000c,0x000a000a,0x00070007,0x00080007,0x00090008,
0x000a0009,0x000b0009,0x000b000a,0x000c000a,0x000c000b,0x000d000b,0x000c000b,
0x000d000b,0x000d000c,0x000d000c,0x000e000c,0x000e000d,0x000b0009,0x00090008,
0x00090008,0x000a0009,0x000b0009,0x000b000a,0x000c000a,0x000c000a,0x000c000b,
0x000d000b,0x000d000b,0x000e000b,0x000e000c,0x000e000c,0x000f000c,0x000f000c,
0x000c0009,0x000a0009,0x000a0009,0x000b0009,0x000b000a,0x000c000a,0x000c000a,
0x000d000a,0x000d000b,0x000d000b,0x000e000b,0x000e000c,0x000e000c,0x000f000c,
0x000f000c,0x000f000d,0x000b0009,0x000a000a,0x000a0009,0x000b000a,0x000b000a,
0x000c000a,0x000d000a,0x000d000b,0x000e000b,0x000d000b,0x000e000b,0x000e000c,
0x000f000c,0x000f000c,0x000f000c,0x0010000c,0x000c0009,0x000b000a,0x000b000a,
0x000b000a,0x000c000a,0x000d000a,0x000d000b,0x000d000b,0x000d000b,0x000e000b,
0x000e000c,0x000e000c,0x000e000c,0x000f000c,0x000f000c,0x0010000d,0x000c0009,
0x000b000b,0x000b000a,0x000c000a,0x000c000a,0x000d000b,0x000d000b,0x000d000b,
0x000e000b,0x000e000c,0x000f000c,0x000f000c,0x000f000c,0x000f000c,0x0011000d,
0x0011000d,0x000c000a,0x000b000b,0x000c000b,0x000c000b,0x000d000b,0x000d000b,
0x000d000b,0x000e000b,0x000e000b,0x000f000b,0x000f000c,0x000f000c,0x000f000c,
0x0010000c,0x0010000d,0x0010000d,0x000c000a,0x000c000b,0x000c000b,0x000c000b,
0x000d000b,0x000d000b,0x000e000b,0x000e000b,0x000f000c,0x000f000c,0x000f000c,
0x000f000c,0x0010000c,0x000f000d,0x0010000d,0x000f000d,0x000d000a,0x000c000c,
0x000d000b,0x000c000b,0x000d000b,0x000e000b,0x000e000c,0x000e000c,0x000e000c,
0x000f000c,0x0010000c,0x0010000c,0x0010000d,0x0011000d,0x0011000d,0x0010000d,
0x000c000a,0x000d000c,0x000d000c,0x000d000b,0x000d000b,0x000e000b,0x000e000c,
0x000f000c,0x0010000c,0x0010000c,0x0010000c,0x0010000c,0x0010000d,0x0010000d,
0x000f000d,0x0010000d,0x000d000a,0x000d000c,0x000e000c,0x000e000c,0x000e000c,
0x000e000c,0x000f000c,0x000f000c,0x000f000c,0x000f000c,0x0011000c,0x0010000d,
0x0010000d,0x0010000d,0x0010000d,0x0012000d,0x000d000a,0x000f000c,0x000e000c,
0x000e000c,0x000e000c,0x000f000c,0x000f000c,0x0010000c,0x0010000c,0x0010000d,
0x0012000d,0x0011000d,0x0011000d,0x0011000d,0x0013000d,0x0011000d,0x000d000a,
0x000e000d,0x000f000c,0x000d000c,0x000e000c,0x0010000c,0x0010000c,0x000f000c,
0x0010000d,0x0010000d,0x0011000d,0x0012000d,0x0011000d,0x0013000d,0x0011000d,
0x0010000d,0x000d000a,0x000a0009,0x000a0009,0x000a0009,0x000b0009,0x000b0009,
0x000c0009,0x000c0009,0x000c0009,0x000d0009,0x000d0009,0x000d0009,0x000d000a,
0x000d000a,0x000d000a,0x000d000a,0x000a0006};
static const uint8_t t1l_const[8] = {1,3,2,3,1,4,3,5};
static const uint8_t t2l_const[9] = {1,3,6,3,3,5,5,5,6};
static const uint8_t t3l_const[9] = {2,2,6,3,2,5,5,5,6};
static const uint8_t t5l_const[16] = {1,3,6,7,3,3,6,7,6,6,7,8,7,6,7,8};
static const uint8_t t6l_const[16] = {3,3,5,7,3,2,4,5,4,4,5,6,6,5,6,7};
static const uint8_t t7l_const[36] =
{1,3,6,8,8,9,3,4,6,7,7,8,6,5,7,8,8,9,7,7,8,9,9,9,7,7,8,9,9,10,8,8,9,10,10,10};
static const uint8_t t8l_const[36] =
{2,3,6,8,8,9,3,2,4,8,8,8,6,4,6,8,8,9,8,8,8,9,9,10,8,7,8,9,10,10,9,8,9,9,11,11};
static const uint8_t t9l_const[36] =
{3,3,5,6,8,9,3,3,4,5,6,8,4,4,5,6,7,8,6,5,6,7,7,8,7,6,7,7,8,9,8,7,8,8,9,9};
static const uint8_t t10l_const[64] =
{1,3,6,8,9,9,9,10,3,4,6,7,8,9,8,8,6,6,7,8,9,10,9,9,7,7,8,9,10,10,9,10,8,8,9,10,
10,10,10,10,9,9,10,10,11,11,10,11,8,8,9,10,10,10,11,11,9,8,9,10,10,11,11,11};
static const uint8_t t11l_const[64] =
{2,3,5,7,8,9,8,9,3,3,4,6,8,8,7,8,5,5,6,7,8,9,8,8,7,6,7,9,8,10,8,9,8,8,8,9,9,10,
9,10,8,8,9,10,10,11,10,11,8,7,7,8,9,10,10,10,8,7,8,9,10,10,10,10};
static const uint8_t t12l_const[64] =
{4,3,5,7,8,9,9,9,3,3,4,5,7,7,8,8,5,4,5,6,7,8,7,8,6,5,6,6,7,8,8,8,7,6,7,7,8,
8,8,9,8,7,8,8,8,9,8,9,8,7,7,8,8,9,9,10,9,8,8,9,9,9,9,10};
static const uint8_t t13l_const[256] =
{1,4,6,7,8,9,9,10,9,10,11,11,12,12,13,13,3,4,6,7,8,8,9,9,9,9,10,10,11,12,12,12,
6,6,7,8,9,9,10,10,9,10,10,11,11,12,13,13,7,7,8,9,9,10,10,10,10,11,11,11,11,12,
13,13,8,7,9,9,10,10,11,11,10,11,11,12,12,13,13,14,9,8,9,10,10,10,11,11,11,11,
12,11,13,13,14,14,9,9,10,10,11,11,11,11,11,12,12,12,13,13,14,14,10,9,10,11,11,
11,12,12,12,12,13,13,13,14,16,16,9,8,9,10,10,11,11,12,12,12,12,13,13,14,15,15,
10,9,10,10,11,11,11,13,12,13,13,14,14,14,16,15,10,10,10,11,11,12,12,13,12,13,
14,13,14,15,16,17,11,10,10,11,12,12,12,12,13,13,13,14,15,15,15,16,11,11,11,12,
12,13,12,13,14,14,15,15,15,16,16,16,12,11,12,13,13,13,14,14,14,14,14,15,16,15,
16,16,13,12,12,13,13,13,15,14,14,17,15,15,15,17,16,16,12,12,13,14,14,14,15,14,
15,15,16,16,19,18,19,16};
static const uint8_t t15l_const[256] =
{3,4,5,7,7,8,9,9,9,10,10,11,11,11,12,13,4,3,5,6,7,7,8,8,8,9,9,10,10,10,11,11,5,
5,5,6,7,7,8,8,8,9,9,10,10,11,11,11,6,6,6,7,7,8,8,9,9,9,10,10,10,11,11,11,7,6,
7,7,8,8,9,9,9,9,10,10,10,11,11,11,8,7,7,8,8,8,9,9,9,9,10,10,11,11,11,12,9,7,8,
8,8,9,9,9,9,10,10,10,11,11,12,12,9,8,8,9,9,9,9,10,10,10,10,10,11,11,11,12,9,8,
8,9,9,9,9,10,10,10,10,11,11,12,12,12,9,8,9,9,9,9,10,10,10,11,11,11,11,12,12,
12,10,9,9,9,10,10,10,10,10,11,11,11,11,12,13,12,10,9,9,9,10,10,10,10,11,11,11,
11,12,12,12,13,11,10,9,10,10,10,11,11,11,11,11,11,12,12,13,13,11,10,10,10,10,
11,11,11,11,12,12,12,12,12,13,13,12,11,11,11,11,11,11,11,12,12,12,12,13,13,12,
13,12,11,11,11,11,11,11,12,12,12,12,12,13,13,13,13};
static const uint8_t t16l_const[256] =
{1,4,6,8,9,9,10,10,11,11,11,12,12,12,13,9,3,4,6,7,8,9,9,9,10,10,10,11,12,11,12,
8,6,6,7,8,9,9,10,10,11,10,11,11,11,12,12,9,8,7,8,9,9,10,10,10,11,11,12,12,12,
13,13,10,9,8,9,9,10,10,11,11,11,12,12,12,13,13,13,9,9,8,9,9,10,11,11,12,11,12,
12,13,13,13,14,10,10,9,9,10,11,11,11,11,12,12,12,12,13,13,14,10,10,9,10,10,11,
11,11,12,12,13,13,13,13,15,15,10,10,10,10,11,11,11,12,12,13,13,13,13,14,14,14,
10,11,10,10,11,11,12,12,13,13,13,13,14,13,14,13,11,11,11,10,11,12,12,12,12,13,
14,14,14,15,15,14,10,12,11,11,11,12,12,13,14,14,14,14,14,14,13,14,11,12,12,12,
12,12,13,13,13,13,15,14,14,14,14,16,11,14,12,12,12,13,13,14,14,14,16,15,15,15,
17,15,11,13,13,11,12,14,14,13,14,14,15,16,15,17,15,14,11,9,8,8,9,9,10,10,10,
11,11,11,11,11,11,11,8};
static const uint8_t t24l_const[256] =
{4,4,6,7,8,9,9,10,10,11,11,11,11,11,12,9,4,4,5,6,7,8,8,9,9,9,10,10,10,10,10,8,
6,5,6,7,7,8,8,9,9,9,9,10,10,10,11,7,7,6,7,7,8,8,8,9,9,9,9,10,10,10,10,7,8,7,7,
8,8,8,8,9,9,9,10,10,10,10,11,7,9,7,8,8,8,8,9,9,9,9,10,10,10,10,10,7,9,8,8,8,8,
9,9,9,9,10,10,10,10,10,11,7,10,8,8,8,9,9,9,9,10,10,10,10,10,11,11,8,10,9,9,9,
9,9,9,9,9,10,10,10,10,11,11,8,10,9,9,9,9,9,9,10,10,10,10,10,11,11,11,8,11,9,9,
9,9,10,10,10,10,10,10,11,11,11,11,8,11,10,9,9,9,10,10,10,10,10,10,11,11,11,11,
8,11,10,10,10,10,10,10,10,10,10,11,11,11,11,11,8,11,10,10,10,10,10,10,10,11,
11,11,11,11,11,11,8,12,10,10,10,10,10,10,11,11,11,11,11,11,11,11,8,8,7,7,7,7,
7,7,7,7,7,7,8,8,8,8,4};
static const struct huffcodetab ht_const[HTN] =
{ { 0, NULL, NULL}, /* Apparently not used */
{ 2, t1HB, t1l},
{ 3, t2HB, t2l},
{ 3, t3HB, t3l},
{ 0, NULL, NULL}, /* Apparently not used */
{ 4, t5HB, t5l},
{ 4, t6HB, t6l},
{ 6, t7HB, t7l},
{ 6, t8HB, t8l},
{ 6, t9HB, t9l},
{ 8, t10HB, t10l},
{ 8, t11HB, t11l},
{ 8, t12HB, t12l},
{16, t13HB, t13l},
{ 0, NULL, NULL}, /* Apparently not used */
{16, t15HB, t15l} };
static const struct huffcodebig ht_big[HTN] =
{ { 16, 1, 1 },
{ 16, 2, 3 },
{ 16, 3, 7 },
{ 16, 4, 15 },
{ 16, 6, 63 },
{ 16, 8, 255 },
{ 16, 10, 1023 },
{ 16, 13, 8191 },
{ 16, 4, 15 },
{ 16, 5, 31 },
{ 16, 6, 63 },
{ 16, 7, 127 },
{ 16, 8, 255 },
{ 16, 9, 511 },
{ 16, 11, 2047 },
{ 16, 13, 8191 } };
static const struct
{
uint32_t region0_cnt;
uint32_t region1_cnt;
} subdv_table[23] =
{ {0, 0}, /* 0 bands */
{0, 0}, /* 1 bands */
{0, 0}, /* 2 bands */
{0, 0}, /* 3 bands */
{0, 0}, /* 4 bands */
{0, 1}, /* 5 bands */
{1, 1}, /* 6 bands */
{1, 1}, /* 7 bands */
{1, 2}, /* 8 bands */
{2, 2}, /* 9 bands */
{2, 3}, /* 10 bands */
{2, 3}, /* 11 bands */
{3, 4}, /* 12 bands */
{3, 4}, /* 13 bands */
{3, 4}, /* 14 bands */
{4, 5}, /* 15 bands */
{4, 5}, /* 16 bands */
{4, 6}, /* 17 bands */
{5, 6}, /* 18 bands */
{5, 6}, /* 19 bands */
{5, 7}, /* 20 bands */
{6, 7}, /* 21 bands */
{6, 7}, /* 22 bands */
};
static const uint32_t sfBand[6][23] =
{
/* Table B.2.b: 22.05 kHz */
{0,6,12,18,24,30,36,44,54,66,80,96,116,140,168,200,238,284,336,396,464,522,576},
/* Table B.2.c: 24 kHz */
{0,6,12,18,24,30,36,44,54,66,80,96,114,136,162,194,232,278,330,394,464,540,576},
/* Table B.2.a: 16 kHz */
{0,6,12,18,24,30,36,44,45,66,80,96,116,140,168,200,238,248,336,396,464,522,576},
/* Table B.8.b: 44.1 kHz */
{0,4, 8,12,16,20,24,30,36,44,52,62, 74, 90,110,134,162,196,238,288,342,418,576},
/* Table B.8.c: 48 kHz */
{0,4, 8,12,16,20,24,30,36,42,50,60, 72, 88,106,128,156,190,230,276,330,384,576},
/* Table B.8.a: 32 kHz */
{0,4, 8,12,16,20,24,30,36,44,54,66, 82,102,126,156,194,240,296,364,448,550,576} };
static const short int2idx_const[4096] = /* int2idx[i] = sqrt(i*sqrt(i)); */
{
0, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 6, 7, 7, 8, 8, 8, 9, 9,
9, 10, 10, 11, 11, 11, 12, 12, 12, 12, 13, 13, 13, 14, 14, 14, 15, 15, 15, 16,
16, 16, 16, 17, 17, 17, 18, 18, 18, 19, 19, 19, 19, 20, 20, 20, 20, 21, 21, 21,
22, 22, 22, 22, 23, 23, 23, 23, 24, 24, 24, 24, 25, 25, 25, 25, 26, 26, 26, 26,
27, 27, 27, 27, 28, 28, 28, 28, 29, 29, 29, 29, 30, 30, 30, 30, 31, 31, 31, 31,
32, 32, 32, 32, 33, 33, 33, 33, 34, 34, 34, 34, 34, 35, 35, 35, 35, 36, 36, 36,
36, 36, 37, 37, 37, 37, 38, 38, 38, 38, 38, 39, 39, 39, 39, 40, 40, 40, 40, 40,
41, 41, 41, 41, 42, 42, 42, 42, 42, 43, 43, 43, 43, 44, 44, 44, 44, 44, 45, 45,
45, 45, 45, 46, 46, 46, 46, 46, 47, 47, 47, 47, 47, 48, 48, 48, 48, 49, 49, 49,
49, 49, 50, 50, 50, 50, 50, 51, 51, 51, 51, 51, 52, 52, 52, 52, 52, 53, 53, 53,
53, 53, 54, 54, 54, 54, 54, 55, 55, 55, 55, 55, 56, 56, 56, 56, 56, 57, 57, 57,
57, 57, 58, 58, 58, 58, 58, 58, 59, 59, 59, 59, 59, 60, 60, 60, 60, 60, 61, 61,
61, 61, 61, 62, 62, 62, 62, 62, 62, 63, 63, 63, 63, 63, 64, 64, 64, 64, 64, 65,
65, 65, 65, 65, 65, 66, 66, 66, 66, 66, 67, 67, 67, 67, 67, 68, 68, 68, 68, 68,
68, 69, 69, 69, 69, 69, 70, 70, 70, 70, 70, 70, 71, 71, 71, 71, 71, 72, 72, 72,
72, 72, 72, 73, 73, 73, 73, 73, 74, 74, 74, 74, 74, 74, 75, 75, 75, 75, 75, 75,
76, 76, 76, 76, 76, 77, 77, 77, 77, 77, 77, 78, 78, 78, 78, 78, 78, 79, 79, 79,
79, 79, 80, 80, 80, 80, 80, 80, 81, 81, 81, 81, 81, 81, 82, 82, 82, 82, 82, 82,
83, 83, 83, 83, 83, 84, 84, 84, 84, 84, 84, 85, 85, 85, 85, 85, 85, 86, 86, 86,
86, 86, 86, 87, 87, 87, 87, 87, 87, 88, 88, 88, 88, 88, 88, 89, 89, 89, 89, 89,
89, 90, 90, 90, 90, 90, 90, 91, 91, 91, 91, 91, 91, 92, 92, 92, 92, 92, 92, 93,
93, 93, 93, 93, 93, 94, 94, 94, 94, 94, 94, 95, 95, 95, 95, 95, 95, 96, 96, 96,
96, 96, 96, 97, 97, 97, 97, 97, 97, 98, 98, 98, 98, 98, 98, 99, 99, 99, 99, 99,
99, 99,100,100,100,100,100,100,101,101,101,101,101,101,102,102,102,102,102,102,
103,103,103,103,103,103,104,104,104,104,104,104,104,105,105,105,105,105,105,106,
106,106,106,106,106,107,107,107,107,107,107,107,108,108,108,108,108,108,109,109,
109,109,109,109,110,110,110,110,110,110,110,111,111,111,111,111,111,112,112,112,
112,112,112,112,113,113,113,113,113,113,114,114,114,114,114,114,115,115,115,115,
115,115,115,116,116,116,116,116,116,117,117,117,117,117,117,117,118,118,118,118,
118,118,118,119,119,119,119,119,119,120,120,120,120,120,120,120,121,121,121,121,
121,121,122,122,122,122,122,122,122,123,123,123,123,123,123,123,124,124,124,124,
124,124,125,125,125,125,125,125,125,126,126,126,126,126,126,126,127,127,127,127,
127,127,128,128,128,128,128,128,128,129,129,129,129,129,129,129,130,130,130,130,
130,130,131,131,131,131,131,131,131,132,132,132,132,132,132,132,133,133,133,133,
133,133,133,134,134,134,134,134,134,134,135,135,135,135,135,135,136,136,136,136,
136,136,136,137,137,137,137,137,137,137,138,138,138,138,138,138,138,139,139,139,
139,139,139,139,140,140,140,140,140,140,140,141,141,141,141,141,141,141,142,142,
142,142,142,142,142,143,143,143,143,143,143,143,144,144,144,144,144,144,144,145,
145,145,145,145,145,145,146,146,146,146,146,146,146,147,147,147,147,147,147,147,
148,148,148,148,148,148,148,149,149,149,149,149,149,149,150,150,150,150,150,150,
150,151,151,151,151,151,151,151,152,152,152,152,152,152,152,153,153,153,153,153,
153,153,154,154,154,154,154,154,154,154,155,155,155,155,155,155,155,156,156,156,
156,156,156,156,157,157,157,157,157,157,157,158,158,158,158,158,158,158,159,159,
159,159,159,159,159,160,160,160,160,160,160,160,160,161,161,161,161,161,161,161,
162,162,162,162,162,162,162,163,163,163,163,163,163,163,163,164,164,164,164,164,
164,164,165,165,165,165,165,165,165,166,166,166,166,166,166,166,167,167,167,167,
167,167,167,167,168,168,168,168,168,168,168,169,169,169,169,169,169,169,169,170,
170,170,170,170,170,170,171,171,171,171,171,171,171,172,172,172,172,172,172,172,
172,173,173,173,173,173,173,173,174,174,174,174,174,174,174,174,175,175,175,175,
175,175,175,176,176,176,176,176,176,176,176,177,177,177,177,177,177,177,178,178,
178,178,178,178,178,178,179,179,179,179,179,179,179,180,180,180,180,180,180,180,
180,181,181,181,181,181,181,181,182,182,182,182,182,182,182,182,183,183,183,183,
183,183,183,184,184,184,184,184,184,184,184,185,185,185,185,185,185,185,186,186,
186,186,186,186,186,186,187,187,187,187,187,187,187,187,188,188,188,188,188,188,
188,189,189,189,189,189,189,189,189,190,190,190,190,190,190,190,190,191,191,191,
191,191,191,191,192,192,192,192,192,192,192,192,193,193,193,193,193,193,193,193,
194,194,194,194,194,194,194,195,195,195,195,195,195,195,195,196,196,196,196,196,
196,196,196,197,197,197,197,197,197,197,197,198,198,198,198,198,198,198,199,199,
199,199,199,199,199,199,200,200,200,200,200,200,200,200,201,201,201,201,201,201,
201,201,202,202,202,202,202,202,202,202,203,203,203,203,203,203,203,204,204,204,
204,204,204,204,204,205,205,205,205,205,205,205,205,206,206,206,206,206,206,206,
206,207,207,207,207,207,207,207,207,208,208,208,208,208,208,208,208,209,209,209,
209,209,209,209,209,210,210,210,210,210,210,210,210,211,211,211,211,211,211,211,
211,212,212,212,212,212,212,212,212,213,213,213,213,213,213,213,213,214,214,214,
214,214,214,214,214,215,215,215,215,215,215,215,215,216,216,216,216,216,216,216,
216,217,217,217,217,217,217,217,217,218,218,218,218,218,218,218,218,219,219,219,
219,219,219,219,219,220,220,220,220,220,220,220,220,221,221,221,221,221,221,221,
221,222,222,222,222,222,222,222,222,223,223,223,223,223,223,223,223,224,224,224,
224,224,224,224,224,225,225,225,225,225,225,225,225,226,226,226,226,226,226,226,
226,227,227,227,227,227,227,227,227,228,228,228,228,228,228,228,228,229,229,229,
229,229,229,229,229,229,230,230,230,230,230,230,230,230,231,231,231,231,231,231,
231,231,232,232,232,232,232,232,232,232,233,233,233,233,233,233,233,233,234,234,
234,234,234,234,234,234,234,235,235,235,235,235,235,235,235,236,236,236,236,236,
236,236,236,237,237,237,237,237,237,237,237,238,238,238,238,238,238,238,238,238,
239,239,239,239,239,239,239,239,240,240,240,240,240,240,240,240,241,241,241,241,
241,241,241,241,242,242,242,242,242,242,242,242,242,243,243,243,243,243,243,243,
243,244,244,244,244,244,244,244,244,245,245,245,245,245,245,245,245,245,246,246,
246,246,246,246,246,246,247,247,247,247,247,247,247,247,248,248,248,248,248,248,
248,248,248,249,249,249,249,249,249,249,249,250,250,250,250,250,250,250,250,250,
251,251,251,251,251,251,251,251,252,252,252,252,252,252,252,252,253,253,253,253,
253,253,253,253,253,254,254,254,254,254,254,254,254,255,255,255,255,255,255,255,
255,255,256,256,256,256,256,256,256,256,257,257,257,257,257,257,257,257,257,258,
258,258,258,258,258,258,258,259,259,259,259,259,259,259,259,259,260,260,260,260,
260,260,260,260,261,261,261,261,261,261,261,261,261,262,262,262,262,262,262,262,
262,263,263,263,263,263,263,263,263,263,264,264,264,264,264,264,264,264,265,265,
265,265,265,265,265,265,265,266,266,266,266,266,266,266,266,267,267,267,267,267,
267,267,267,267,268,268,268,268,268,268,268,268,268,269,269,269,269,269,269,269,
269,270,270,270,270,270,270,270,270,270,271,271,271,271,271,271,271,271,271,272,
272,272,272,272,272,272,272,273,273,273,273,273,273,273,273,273,274,274,274,274,
274,274,274,274,275,275,275,275,275,275,275,275,275,276,276,276,276,276,276,276,
276,276,277,277,277,277,277,277,277,277,277,278,278,278,278,278,278,278,278,279,
279,279,279,279,279,279,279,279,280,280,280,280,280,280,280,280,280,281,281,281,
281,281,281,281,281,282,282,282,282,282,282,282,282,282,283,283,283,283,283,283,
283,283,283,284,284,284,284,284,284,284,284,284,285,285,285,285,285,285,285,285,
286,286,286,286,286,286,286,286,286,287,287,287,287,287,287,287,287,287,288,288,
288,288,288,288,288,288,288,289,289,289,289,289,289,289,289,289,290,290,290,290,
290,290,290,290,291,291,291,291,291,291,291,291,291,292,292,292,292,292,292,292,
292,292,293,293,293,293,293,293,293,293,293,294,294,294,294,294,294,294,294,294,
295,295,295,295,295,295,295,295,295,296,296,296,296,296,296,296,296,296,297,297,
297,297,297,297,297,297,297,298,298,298,298,298,298,298,298,299,299,299,299,299,
299,299,299,299,300,300,300,300,300,300,300,300,300,301,301,301,301,301,301,301,
301,301,302,302,302,302,302,302,302,302,302,303,303,303,303,303,303,303,303,303,
304,304,304,304,304,304,304,304,304,305,305,305,305,305,305,305,305,305,306,306,
306,306,306,306,306,306,306,307,307,307,307,307,307,307,307,307,308,308,308,308,
308,308,308,308,308,309,309,309,309,309,309,309,309,309,310,310,310,310,310,310,
310,310,310,311,311,311,311,311,311,311,311,311,312,312,312,312,312,312,312,312,
312,313,313,313,313,313,313,313,313,313,314,314,314,314,314,314,314,314,314,315,
315,315,315,315,315,315,315,315,316,316,316,316,316,316,316,316,316,317,317,317,
317,317,317,317,317,317,318,318,318,318,318,318,318,318,318,318,319,319,319,319,
319,319,319,319,319,320,320,320,320,320,320,320,320,320,321,321,321,321,321,321,
321,321,321,322,322,322,322,322,322,322,322,322,323,323,323,323,323,323,323,323,
323,324,324,324,324,324,324,324,324,324,325,325,325,325,325,325,325,325,325,325,
326,326,326,326,326,326,326,326,326,327,327,327,327,327,327,327,327,327,328,328,
328,328,328,328,328,328,328,329,329,329,329,329,329,329,329,329,330,330,330,330,
330,330,330,330,330,330,331,331,331,331,331,331,331,331,331,332,332,332,332,332,
332,332,332,332,333,333,333,333,333,333,333,333,333,334,334,334,334,334,334,334,
334,334,335,335,335,335,335,335,335,335,335,335,336,336,336,336,336,336,336,336,
336,337,337,337,337,337,337,337,337,337,338,338,338,338,338,338,338,338,338,338,
339,339,339,339,339,339,339,339,339,340,340,340,340,340,340,340,340,340,341,341,
341,341,341,341,341,341,341,341,342,342,342,342,342,342,342,342,342,343,343,343,
343,343,343,343,343,343,344,344,344,344,344,344,344,344,344,344,345,345,345,345,
345,345,345,345,345,346,346,346,346,346,346,346,346,346,347,347,347,347,347,347,
347,347,347,347,348,348,348,348,348,348,348,348,348,349,349,349,349,349,349,349,
349,349,350,350,350,350,350,350,350,350,350,350,351,351,351,351,351,351,351,351,
351,352,352,352,352,352,352,352,352,352,352,353,353,353,353,353,353,353,353,353,
354,354,354,354,354,354,354,354,354,355,355,355,355,355,355,355,355,355,355,356,
356,356,356,356,356,356,356,356,357,357,357,357,357,357,357,357,357,357,358,358,
358,358,358,358,358,358,358,359,359,359,359,359,359,359,359,359,359,360,360,360,
360,360,360,360,360,360,361,361,361,361,361,361,361,361,361,361,362,362,362,362,
362,362,362,362,362,363,363,363,363,363,363,363,363,363,363,364,364,364,364,364,
364,364,364,364,365,365,365,365,365,365,365,365,365,365,366,366,366,366,366,366,
366,366,366,367,367,367,367,367,367,367,367,367,367,368,368,368,368,368,368,368,
368,368,369,369,369,369,369,369,369,369,369,369,370,370,370,370,370,370,370,370,
370,370,371,371,371,371,371,371,371,371,371,372,372,372,372,372,372,372,372,372,
372,373,373,373,373,373,373,373,373,373,374,374,374,374,374,374,374,374,374,374,
375,375,375,375,375,375,375,375,375,375,376,376,376,376,376,376,376,376,376,377,
377,377,377,377,377,377,377,377,377,378,378,378,378,378,378,378,378,378,379,379,
379,379,379,379,379,379,379,379,380,380,380,380,380,380,380,380,380,380,381,381,
381,381,381,381,381,381,381,382,382,382,382,382,382,382,382,382,382,383,383,383,
383,383,383,383,383,383,383,384,384,384,384,384,384,384,384,384,385,385,385,385,
385,385,385,385,385,385,386,386,386,386,386,386,386,386,386,386,387,387,387,387,
387,387,387,387,387,387,388,388,388,388,388,388,388,388,388,389,389,389,389,389,
389,389,389,389,389,390,390,390,390,390,390,390,390,390,390,391,391,391,391,391,
391,391,391,391,391,392,392,392,392,392,392,392,392,392,393,393,393,393,393,393,
393,393,393,393,394,394,394,394,394,394,394,394,394,394,395,395,395,395,395,395,
395,395,395,395,396,396,396,396,396,396,396,396,396,397,397,397,397,397,397,397,
397,397,397,398,398,398,398,398,398,398,398,398,398,399,399,399,399,399,399,399,
399,399,399,400,400,400,400,400,400,400,400,400,400,401,401,401,401,401,401,401,
401,401,402,402,402,402,402,402,402,402,402,402,403,403,403,403,403,403,403,403,
403,403,404,404,404,404,404,404,404,404,404,404,405,405,405,405,405,405,405,405,
405,405,406,406,406,406,406,406,406,406,406,406,407,407,407,407,407,407,407,407,
407,407,408,408,408,408,408,408,408,408,408,408,409,409,409,409,409,409,409,409,
409,410,410,410,410,410,410,410,410,410,410,411,411,411,411,411,411,411,411,411,
411,412,412,412,412,412,412,412,412,412,412,413,413,413,413,413,413,413,413,413,
413,414,414,414,414,414,414,414,414,414,414,415,415,415,415,415,415,415,415,415,
415,416,416,416,416,416,416,416,416,416,416,417,417,417,417,417,417,417,417,417,
417,418,418,418,418,418,418,418,418,418,418,419,419,419,419,419,419,419,419,419,
419,420,420,420,420,420,420,420,420,420,420,421,421,421,421,421,421,421,421,421,
421,422,422,422,422,422,422,422,422,422,422,423,423,423,423,423,423,423,423,423,
423,424,424,424,424,424,424,424,424,424,424,425,425,425,425,425,425,425,425,425,
425,426,426,426,426,426,426,426,426,426,426,427,427,427,427,427,427,427,427,427,
427,428,428,428,428,428,428,428,428,428,428,429,429,429,429,429,429,429,429,429,
429,430,430,430,430,430,430,430,430,430,430,431,431,431,431,431,431,431,431,431,
431,432,432,432,432,432,432,432,432,432,432,433,433,433,433,433,433,433,433,433,
433,434,434,434,434,434,434,434,434,434,434,435,435,435,435,435,435,435,435,435,
435,435,436,436,436,436,436,436,436,436,436,436,437,437,437,437,437,437,437,437,
437,437,438,438,438,438,438,438,438,438,438,438,439,439,439,439,439,439,439,439,
439,439,440,440,440,440,440,440,440,440,440,440,441,441,441,441,441,441,441,441,
441,441,442,442,442,442,442,442,442,442,442,442,443,443,443,443,443,443,443,443,
443,443,443,444,444,444,444,444,444,444,444,444,444,445,445,445,445,445,445,445,
445,445,445,446,446,446,446,446,446,446,446,446,446,447,447,447,447,447,447,447,
447,447,447,448,448,448,448,448,448,448,448,448,448,448,449,449,449,449,449,449,
449,449,449,449,450,450,450,450,450,450,450,450,450,450,451,451,451,451,451,451,
451,451,451,451,452,452,452,452,452,452,452,452,452,452,453,453,453,453,453,453,
453,453,453,453,453,454,454,454,454,454,454,454,454,454,454,455,455,455,455,455,
455,455,455,455,455,456,456,456,456,456,456,456,456,456,456,457,457,457,457,457,
457,457,457,457,457,457,458,458,458,458,458,458,458,458,458,458,459,459,459,459,
459,459,459,459,459,459,460,460,460,460,460,460,460,460,460,460,460,461,461,461,
461,461,461,461,461,461,461,462,462,462,462,462,462,462,462,462,462,463,463,463,
463,463,463,463,463,463,463,463,464,464,464,464,464,464,464,464,464,464,465,465,
465,465,465,465,465,465,465,465,466,466,466,466,466,466,466,466,466,466,466,467,
467,467,467,467,467,467,467,467,467,468,468,468,468,468,468,468,468,468,468,469,
469,469,469,469,469,469,469,469,469,469,470,470,470,470,470,470,470,470,470,470,
471,471,471,471,471,471,471,471,471,471,472,472,472,472,472,472,472,472,472,472,
472,473,473,473,473,473,473,473,473,473,473,474,474,474,474,474,474,474,474,474,
474,475,475,475,475,475,475,475,475,475,475,475,476,476,476,476,476,476,476,476,
476,476,477,477,477,477,477,477,477,477,477,477,477,478,478,478,478,478,478,478,
478,478,478,479,479,479,479,479,479,479,479,479,479,479,480,480,480,480,480,480,
480,480,480,480,481,481,481,481,481,481,481,481,481,481,482,482,482,482,482,482,
482,482,482,482,482,483,483,483,483,483,483,483,483,483,483,484,484,484,484,484,
484,484,484,484,484,484,485,485,485,485,485,485,485,485,485,485,486,486,486,486,
486,486,486,486,486,486,486,487,487,487,487,487,487,487,487,487,487,488,488,488,
488,488,488,488,488,488,488,488,489,489,489,489,489,489,489,489,489,489,490,490,
490,490,490,490,490,490,490,490,490,491,491,491,491,491,491,491,491,491,491,492,
492,492,492,492,492,492,492,492,492,492,493,493,493,493,493,493,493,493,493,493,
494,494,494,494,494,494,494,494,494,494,494,495,495,495,495,495,495,495,495,495,
495,496,496,496,496,496,496,496,496,496,496,496,497,497,497,497,497,497,497,497,
497,497,497,498,498,498,498,498,498,498,498,498,498,499,499,499,499,499,499,499,
499,499,499,499,500,500,500,500,500,500,500,500,500,500,501,501,501,501,501,501,
501,501,501,501,501,502,502,502,502,502,502,502,502,502,502,503,503,503,503,503,
503,503,503,503,503,503,504,504,504,504,504,504,504,504,504,504,504,505,505,505,
505,505,505,505,505,505,505,506,506,506,506,506,506,506,506,506,506,506,507,507,
507,507,507,507,507,507,507,507,507,508,508,508,508,508,508,508,508,508,508,509,
509,509,509,509,509,509,509,509,509,509,510,510,510,510,510,510,510,510,510,510,
510,511,511,511,511,511,511,511,511,511,511,512,512,512,512,512 };
static const int order[32] =
{ 0, 1, 16, 17, 8, 9, 24, 25, 4, 5, 20, 21, 12, 13, 28, 29,
2, 3, 18, 19,10,11, 26, 27, 6, 7, 22, 23, 14, 15, 30, 31 };
static const long sampr_index[2][3] =
{ { 22050, 24000, 16000 }, /* MPEG 2 */
{ 44100, 48000, 32000 } }; /* MPEG 1 */
static const long bitr_index[2][15] =
{ {0, 8,16,24,32,40,48,56, 64, 80, 96,112,128,144,160}, /* MPEG 2 */
{0,32,40,48,56,64,80,96,112,128,160,192,224,256,320} }; /* MPEG 1 */
static const int num_bands[3][15] =
{ {0,10,10,10,10,12,14,16, 20, 22, 24, 26, 28, 30, 32},
{0,10,10,10,10,10,12,14, 18, 24, 26, 28, 30, 32, 32},
{0,10,12,14,18,24,26,28, 30, 32, 32, 32, 32, 32, 32} };
static const int cx_const[9] =
{ 16135, 10531, 5604, 15396, -2845,-12551, 14189, 8192, 16384 };
static const int ca_const[8] =
{-16859,-15458,-10269, -5961, -3099, -1342, -465, -121 };
static const int cs_const[8] =
{ 28098, 28893, 31117, 32221, 32621, 32740, 32765, 32768 };
static const short enwindow_const[15*27+24] =
{ 0, 65, 593, 1766, 22228, 2115, 611, 62,
8, 119, 1419, 10564,-11659,-1635,-154, -9,
-8, -119,-1419,-10564, 11659, 1635, 154, 9, 464, 100, 91,
0, 69, 604, 1635, 23148, 2363, 643, 62,
7, 107, 1368, 10449,-12733,-1818,-180,-11,
-7, -107,-1368,-10449, 12733, 1818, 180, 11, 420, 200, 164,
0, 72, 608, 1465, 23979, 2600, 671, 63,
7, 94, 1305, 10265,-13818,-2004,-207,-12,
-7, -94,-1305,-10265, 13818, 2004, 207, 12, 380, 297, 220,
0, 76, 606, 1256, 24718, 2825, 693, 63,
6, 81, 1232, 10016,-14908,-2192,-236,-14,
-6, -81,-1232,-10016, 14908, 2192, 236, 14, 342, 392, 262,
0, 78, 597, 1007, 25359, 3033, 712, 63,
6, 68, 1150, 9706,-15995,-2380,-267,-15,
-6, -68,-1150, -9706, 15995, 2380, 267, 15, 307, 483, 289,
0, 80, 580, 719, 25901, 3224, 726, 62,
6, 54, 1060, 9343,-17072,-2565,-299,-17,
-6, -54,-1060, -9343, 17072, 2565, 299, 17, 274, 569, 304,
-1, 82, 555, 391, 26339, 3395, 735, 61,
5, 40, 963, 8930,-18131,-2747,-332,-19,
-5, -40, -963, -8930, 18131, 2747, 332, 19, 242, 650, 307,
-1, 83, 523, 26, 26672, 3545, 740, 60,
5, 27, 861, 8474,-19164,-2923,-366,-21,
-5, -27, -861, -8474, 19164, 2923, 366, 21, 212, 724, 300,
-1, 83, 482, -376, 26900, 3672, 739, 58,
4, 14, 756, 7981,-20163,-3092,-401,-24,
-4, -14, -756, -7981, 20163, 3092, 401, 24, 183, 792, 283,
-1, 82, 433, -812, 27022, 3776, 735, 56,
4, 1, 648, 7456,-21122,-3250,-435,-26,
-4, -1, -648, -7456, 21122, 3250, 435, 26, 155, 851, 258,
-1, 81, 376, -1281, 27038, 3855, 726, 54,
3, -11, 539, 6907,-22032,-3397,-470,-28,
-3, 11, -539, -6907, 22032, 3397, 470, 28, 128, 903, 226,
-1, 78, 312, -1778, 26951, 3910, 713, 52,
3, -22, 430, 6338,-22887,-3530,-503,-31,
-3, 22, -430, -6338, 22887, 3530, 503, 31, 102, 946, 188,
-2, 75, 239, -2302, 26761, 3941, 696, 49,
3, -33, 322, 5757,-23678,-3648,-537,-34,
-3, 33, -322, -5757, 23678, 3648, 537, 34, 76, 980, 145,
-2, 70, 160, -2848, 26472, 3948, 676, 47,
3, -42, 217, 5167,-24399,-3749,-568,-36,
-3, 42, -217, -5167, 24399, 3749, 568, 36, 50, 1004, 99,
-2, 65, 74, -3412, 26087, 3931, 653, 44,
2, -51, 115, 4577,-25045,-3830,-599,-39,
-2, 51, -115, -4577, 25045, 3830, 599, 39, 25, 1019, 50,
25610,3891,627,42,-3990,-18,58,-2,
21226,-21226,10604,-10604,1860,-1860,1458,-1458,576,-576,130,-130,60,-60,8,-8
};
static const int win_const[18][4] = {
{ -3072, -134, -146, 3352 },
{ -2747, -362, -471, 3579 },
{ -2387, -529, -831, 3747 },
{ -2004, -632,-1214, 3850 },
{ -1609, -666,-1609, 3884 },
{ -1214, -632,-2004, 3850 },
{ -831, -529,-2387, 3747 },
{ -471, -362,-2747, 3579 },
{ -146, -134,-3072, 3352 },
{ 134,-3072,-3352, -146 },
{ 362,-2747,-3579, -471 },
{ 529,-2387,-3747, -831 },
{ 632,-2004,-3850,-1214 },
{ 666,-1609,-3884,-1609 },
{ 632,-1214,-3850,-2004 },
{ 529, -831,-3747,-2387 },
{ 362, -471,-3579,-2747 },
{ 134, -146,-3352,-3072 } };
/* forward declarations */
static int HuffmanCode( short *ix, char *xr_sign, uint32_t begin, uint32_t end, int table);
static int HuffmanCod1( short *ix, char *xr_sign, uint32_t begin, uint32_t end, int table);
static void putbits(uint32_t val, uint32_t nbit);
static int find_best_2( short *ix, uint32_t start, uint32_t end, const uint32_t *table,
uint32_t len, int *bits);
static int find_best_3( short *ix, uint32_t start, uint32_t end, const uint32_t *table,
uint32_t len, int *bits);
static int count_bit1 ( short *ix, uint32_t start, uint32_t end, int *bits );
static int count_bigv ( short *ix, uint32_t start, uint32_t end, int table0, int table1,
int *bits);
static void encodeSideInfo( side_info_t si[2][2] )
{
int gr, ch, header;
uint32_t cc=0, sz=0;
/*
* MPEG header layout:
* AAAAAAAA AAABBCCD EEEEFFGH IIJJKLMM
* A (31-21) = frame sync
* B (20-19) = MPEG type
* C (18-17) = MPEG layer
* D (16) = protection bit
* E (15-12) = bitrate index
* F (11-10) = samplerate index
* G (9) = padding bit
* H (8) = private bit
* I (7-6) = channel mode
* J (5-4) = mode extension (jstereo only)
* K (3) = copyright bit
* L (2) = original
* M (1-0) = emphasis
*/
header = (0xfff00000) | /* frame sync (AAAAAAAAA AAA)
mp3 type (upper): 1 (B) */
(0x01 << 17) | /* mp3 layer: 01 (CC) */
( 0x1 << 16) | /* mp3 crc: 1 (D) */
( 0x1 << 2); /* mp3 org: 1 (L) */
header |= cfg.mpg.type << 19;
header |= cfg.mpg.bitr_id << 12;
header |= cfg.mpg.smpl_id << 10;
header |= cfg.mpg.padding << 9;
header |= cfg.mpg.mode << 6;
/* no emphasis (bits 0-1) */
putbits( header, 32 );
if(cfg.mpg.type == 1)
{ /* MPEG1 */
if(cfg.channels == 2) { putlong( 0, 20); }
else { putlong( 0, 18); }
for(gr=0; gr<cfg.granules; gr++)
for(ch=0; ch<cfg.channels; ch++)
{
side_info_t *gi = &si[gr][ch];
putlong((gi->part2_3_length+42),12 ); /* add scale_facs array size */
putlong( gi->address3>>1, 9 );
putlong( gi->global_gain, 8 );
putlong( 9, 4 ); /* set scale_facs compr type */
putlong( gi->table_select[0], 6 );
putlong( gi->table_select[1], 5 );
putlong( gi->table_select[2], 5 );
putlong( gi->region_0_1, 7 );
putlong( 1 , 2 ); /* set scale_facs to 1bit */
putlong( gi->table_select[3], 1 );
}
}
else
{ /* MPEG2 */
if(cfg.channels == 2) { putlong( 0, 10); }
else { putlong( 0, 9); }
for(ch=0; ch<cfg.channels; ch++)
{
side_info_t *gi = &si[0][ch];
putlong((gi->part2_3_length+42),12 ); /* add scale_facs array size */
putlong( gi->address3>>1, 9 );
putlong( gi->global_gain, 8 );
putlong( 0xCA, 9 ); /* set scale_facs compr type */
putlong( gi->table_select[0], 6 );
putlong( gi->table_select[1], 5 );
putlong( gi->table_select[2], 5 );
putlong( gi->region_0_1 , 7 );
putlong( 1 , 1 ); /* set scale_facs to 1bit */
putlong( gi->table_select[3], 1 );
}
}
/* flush remaining bits */
putbits(cc, sz);
}
/* Note the discussion of huffmancodebits() on pages 28 and 29 of the IS,
as well as the definitions of the side information on pages 26 and 27. */
static void Huffmancodebits( short *ix, char *xr_sign, side_info_t *gi )
{
int region1 = gi->address1;
int region2 = gi->address2;
int bigvals = gi->address3;
int count1 = bigvals + (gi->count1 << 2);
int stuffBits = 0;
int bits = 0;
int i, v;
for(i=v=0; i<32; i+=2)
v |= band_scale_f[i>>1] << (30-i);
putbits(v, 32); // store scale_facs (part1)
for(v=0; i<42; i+=2)
v |= band_scale_f[i>>1] << (40-i);
putbits(v, 10); // store scale_facs (part2)
if(region1 > 0)
bits += HuffmanCode(ix, xr_sign, 0 , region1, gi->table_select[0]);
if(region2 > region1)
bits += HuffmanCode(ix, xr_sign, region1, region2, gi->table_select[1]);
if(bigvals > region2)
bits += HuffmanCode(ix, xr_sign, region2, bigvals, gi->table_select[2]);
if(count1 > bigvals)
bits += HuffmanCod1(ix, xr_sign, bigvals, count1, gi->table_select[3]);
if((stuffBits = gi->part2_3_length - bits) > 0)
{
int stuffWords = stuffBits >> 5;
int remainBits = stuffBits & 31;
if( remainBits )
putbits( ~0, remainBits );
while( stuffWords-- )
putbits( ~0, 32 ); /* Huffman code tables leed to padding ones */
}
}
int HuffmanCod1( short *ix, char *xr_sign, uint32_t begin, uint32_t end, int tbl)
{
uint32_t cc=0, sz=0;
uint32_t i, d, p;
int sumbit=0, s=0, l=0, v, w, x, y;
#define sgnv xr_sign[i+0]
#define sgnw xr_sign[i+1]
#define sgnx xr_sign[i+2]
#define sgny xr_sign[i+3]
for(i=begin; i<end; i+=4)
{
v = ix[i+0];
w = ix[i+1];
x = ix[i+2];
y = ix[i+3];
p = (v << 3) + (w << 2) + (x << 1) + y;
switch(p)
{
case 0: l=0; s = 0; break;
case 1: l=1; s = sgny; break;
case 2: l=1; s = sgnx; break;
case 3: l=2; s = (sgnx << 1) + sgny; break;
case 4: l=1; s = sgnw; break;
case 5: l=2; s = (sgnw << 1) + sgny; break;
case 6: l=2; s = (sgnw << 1) + sgnx; break;
case 7: l=3; s = (sgnw << 2) + (sgnx << 1) + sgny; break;
case 8: l=1; s = sgnv; break;
case 9: l=2; s = (sgnv << 1) + sgny; break;
case 10: l=2; s = (sgnv << 1) + sgnx; break;
case 11: l=3; s = (sgnv << 2) + (sgnx << 1) + sgny; break;
case 12: l=2; s = (sgnv << 1) + sgnw; break;
case 13: l=3; s = (sgnv << 2) + (sgnw << 1) + sgny; break;
case 14: l=3; s = (sgnv << 2) + (sgnw << 1) + sgnx; break;
case 15: l=4; s = (sgnv << 3) + (sgnw << 2) + (sgnx << 1) + sgny; break;
}
d = (ht_count[tbl][0][p] << l) + s;
l = ht_count[tbl][1][p];
putlong( d, l );
sumbit += l;
}
/* flush remaining bits */
putbits(cc, sz);
return sumbit;
}
/* Implements the pseudocode of page 98 of the IS */
int HuffmanCode(short *ix, char *xr_sign, uint32_t begin, uint32_t end, int table)
{
uint32_t cc=0, sz=0, code;
uint32_t i, xl=0, yl=0, idx;
int x, y, bit, sumbit=0;
#define sign_x xr_sign[i+0]
#define sign_y xr_sign[i+1]
if(table == 0)
return 0;
if( table > 15 )
{ /* ESC-table is used */
uint32_t linbits = ht_big[table-16].linbits;
uint16_t *hffcode = table < 24 ? t16HB : t24HB;
uint8_t *hlen = table < 24 ? t16l : t24l;
for(i=begin; i<end; i+=2)
{
x = ix[ i ];
y = ix[i+1];
if(x > 14) { xl = x - 15; x = 15; }
if(y > 14) { yl = y - 15; y = 15; }
idx = x * 16 + y;
code = hffcode[idx];
bit = hlen [idx];
if(x)
{
if(x > 14)
{
code = (code << linbits) | xl;
bit += linbits;
}
code = (code << 1) | sign_x;
bit += 1;
}
if(y)
{
if(y > 14)
{
if(bit + linbits + 1 > 32)
{
putlong( code, bit );
sumbit += bit;
code = bit = 0;
}
code = (code << linbits) | yl;
bit += linbits;
}
code = (code << 1) | sign_y;
bit += 1;
}
putlong( code, bit );
sumbit += bit;
}
}
else
{ /* No ESC-words */
const struct huffcodetab *h = &ht[table];
for(i=begin; i<end; i+=2)
{
x = ix[i];
y = ix[i+1];
idx = x * h->len + y;
code = h->table[idx];
bit = h->hlen [idx];
if(x)
{
code = (code << 1) | sign_x;
bit += 1;
}
if(y)
{
code = (code << 1) | sign_y;
bit += 1;
}
putlong( code, bit );
sumbit += bit;
}
}
/* flush remaining bits */
putbits(cc, sz);
return sumbit;
}
void putbits(uint32_t val, uint32_t nbit)
{
int new_bitpos = CodedData.bitpos + nbit;
int ptrpos = CodedData.bitpos >> 5;
val = val & (0xffffffff >> (32 - nbit));
/* data fit in one uint32_t */
if(((new_bitpos - 1) >> 5) == ptrpos)
CodedData.bbuf[ptrpos] |= val << ((32 - new_bitpos) & 31);
else
{
CodedData.bbuf[ptrpos ] |= val >> ((new_bitpos - 32) & 31);
CodedData.bbuf[ptrpos+1] |= val << ((32 - new_bitpos) & 31);
}
CodedData.bitpos = new_bitpos;
}
/***************************************************************************/
/* Choose the Huffman table that will encode ix[begin..end] with */
/* the fewest bits. */
/* Note: This code contains knowledge about the sizes and characteristic */
/* of the Huffman tables as defined in the IS (Table B.7), and will not */
/* work with any arbitrary tables. */
/***************************************************************************/
int choose_table( short *ix, uint32_t begin, uint32_t end, int *bits )
{
uint32_t i;
int max, table0, table1;
for(i=begin,max=0; i<end; i++)
if(ix[i] > max)
max = ix[i];
if(max < 16)
{
/* tables without linbits */
/* indx: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 */
/* len: 0, 2, 3, 3, 0, 4, 4, 6, 6, 6, 8, 8, 8, 16, 0, 16 */
switch(max)
{
case 0: return 0;
case 1: return count_bit1(ix, begin, end, bits);
case 2: return 2 + find_best_2(ix, begin, end, tab23, 3, bits);
case 3: return 5 + find_best_2(ix, begin, end, tab56, 4, bits);
case 4:
case 5: return 7 + find_best_3(ix, begin, end, tab789, 6, bits);
case 6:
case 7: return 10 + find_best_3(ix, begin, end, tabABC, 8, bits);
default: return 13 + find_best_2(ix, begin, end, tab1315, 16, bits) * 2;
}
}
else
{
/* tables with linbits */
max -= 15;
for(table0=0; table0<8; table0++)
if(ht_big[table0].linmax >= max)
break;
for(table1=8; table1<16; table1++)
if(ht_big[table1].linmax >= max)
break;
return 16 + count_bigv(ix, begin, end, table0, table1, bits);
}
}
int find_best_2(short *ix, uint32_t start, uint32_t end, const uint32_t *table,
uint32_t len, int *bits)
{
uint32_t i, sum = 0;
for(i=start; i<end; i+=2)
sum += table[ix[i] * len + ix[i+1]];
if((sum & 0xffff) <= (sum >> 16))
{
*bits = (sum & 0xffff);
return 1;
}
else
{
*bits = sum >> 16;
return 0;
}
}
int find_best_3(short *ix, uint32_t start, uint32_t end, const uint32_t *table,
uint32_t len, int *bits)
{
uint32_t i, j, sum = 0;
int sum1 = 0;
int sum2 = 0;
int sum3 = 0;
/* avoid overflow in packed additions: 78*13 < 1024 */
for(i=start; i<end; )
{
j = i + 2*78 > end ? end : i + 2*78;
for(sum=0; i<j; i+=2)
sum += table[ix[i] * len + ix[i+1]];
sum1 += (sum >> 20);
sum2 += (sum >> 10) & 0x3ff;
sum3 += (sum >> 0) & 0x3ff;
}
i = 0;
if(sum1 > sum2) { sum1 = sum2; i = 1; }
if(sum1 > sum3) { sum1 = sum3; i = 2; }
*bits = sum1;
return i;
}
/*************************************************************************/
/* Function: Count the number of bits necessary to code the subregion. */
/*************************************************************************/
int count_bit1(short *ix, uint32_t start, uint32_t end, int *bits )
{
uint32_t i, sum = 0;
for(i=start; i<end; i+=2)
sum += t1l[4 + ix[i] * 2 + ix[i+1]];
*bits = sum;
return 1; /* this is table1 */
}
int count_bigv(short *ix, uint32_t start, uint32_t end, int table0,
int table1, int *bits )
{
uint32_t i, sum0, sum1, sum=0, bigv=0, x, y;
/* ESC-table is used */
for(i=start; i<end; i+=2)
{
x = ix[i];
y = ix[i+1];
if(x > 14) { x = 15; bigv++; }
if(y > 14) { y = 15; bigv++; }
sum += tab1624[x * 16 + y];
}
sum0 = (sum >> 16) + bigv * ht_big[table0].linbits;
sum1 = (sum & 0xffff) + bigv * ht_big[table1].linbits;
if(sum0 <= sum1)
{
*bits = sum0;
return table0;
}
else
{
*bits = sum1;
return table1;
}
}
/*************************************************************************/
/* Function: Calculation of rzero, count1, address3 */
/* (Partitions ix into big values, quadruples and zeros). */
/*************************************************************************/
int calc_runlen( short *ix, side_info_t *si )
{
int p, i, sum = 0;
for(i=SAMPL2; i-=2; )
if(*(uint32_t*)&ix[i-2]) /* !!!! short *ix; !!!!! */
break;
si->count1 = 0;
for( ; i>3; i-=4)
{
int v = ix[i-1];
int w = ix[i-2];
int x = ix[i-3];
int y = ix[i-4];
if((v | w | x | y) <= 1)
{
p = (y<<3) + (x<<2) + (w<<1) + (v);
sum += tab01[p];
si->count1++;
}
else break;
}
si->address3 = i;
if((sum >> 16) < (sum & 0xffff))
{
si->table_select[3] = 0;
return sum >> 16;
}
else
{
si->table_select[3] = 1;
return sum & 0xffff;
}
}
/*************************************************************************/
/* Function: Quantization of the vector xr ( -> ix) */
/*************************************************************************/
int quantize_int(int *xr, short *ix, side_info_t *si)
{
unsigned int i, idx, s, frac_pow[] = { 0x10000, 0xd745, 0xb505, 0x9838 };
s = frac_pow[si->quantStep & 3] >> si->quantStep / 4;
/* check for possible 'out of range' values */
if(((si->max_val + 256) >> 8) * s >= (65536 << 8))
return 0;
if(((si->max_val + 256) >> 8) * s < (4096 << 8))
{ /* all values fit the table size */
for(i=SAMPL2; i--; )
ix[i] = int2idx[(xr[i] * s + 0x8000) >> 16];
}
else
{ /* check each index wether it fits the table */
for(i=SAMPL2; i--; )
{
idx = (xr[i] * s + 0x08000) >> 16;
if(idx > 4095) ix[i] = int2idx[(idx + 8) >> 4] << 3;
else ix[i] = int2idx[idx];
}
}
return 1;
}
/*************************************************************************/
/* subdivides the bigvalue region which will use separate Huffman tables */
/*************************************************************************/
void subdivide(side_info_t *si)
{
int scfb, count0, count1;
if( !si->address3 )
{ /* no bigvalue region */
si->region_0_1 = 0;
si->address1 = 0;
si->address2 = 0;
}
else
{
/* Calculate scale factor band index */
for(scfb=0; scalefac[scfb] < si->address3; )
scfb++;
count0 = subdv_table[scfb].region0_cnt;
count1 = subdv_table[scfb].region1_cnt;
si->region_0_1 = (count0 << 3) | count1;
si->address1 = scalefac[count0 + 1];
si->address2 = scalefac[count0 + 1 + count1 + 1];
}
}
/*******************************************************************/
/* Count the number of bits necessary to code the bigvalues region */
/*******************************************************************/
int bigv_bitcount(short *ix, side_info_t *gi)
{
int b1=0, b2=0, b3=0;
/* Select huffman code tables for bigvalues regions */
gi->table_select[0] = 0;
gi->table_select[1] = 0;
gi->table_select[2] = 0;
if( gi->address1 > 0 ) /* region0 */
gi->table_select[0] = choose_table(ix, 0 , gi->address1, &b1);
if( gi->address2 > gi->address1 ) /* region1 */
gi->table_select[1] = choose_table(ix, gi->address1, gi->address2, &b2);
if( gi->address3 > gi->address2 ) /* region2 */
gi->table_select[2] = choose_table(ix, gi->address2, gi->address3, &b3);
return b1+b2+b3;
}
int quantize_and_count_bits(int *xr, short *ix, side_info_t *si)
{
int bits = 10000;
if(quantize_int(xr, ix, si))
{
bits = calc_runlen(ix, si); /* rzero,count1,address3 */
subdivide(si); /* bigvalues sfb division */
bits += bigv_bitcount(ix,si); /* bit count */
}
return bits;
}
/************************************************************************/
/* The code selects the best quantStep for a particular set of scalefacs*/
/************************************************************************/
int inner_loop(int *xr, int max_bits, side_info_t *si)
{
int bits;
while((bits=quantize_and_count_bits(xr, enc_data, si)) < max_bits-64)
{
if(si->quantStep == 0)
break;
if(si->quantStep <= 2)
si->quantStep = 0;
else
si->quantStep -= 2;
}
while(bits > max_bits)
{
si->quantStep++;
bits = quantize_and_count_bits(xr, enc_data, si);
}
return bits;
}
void iteration_loop(int *xr, side_info_t *si, int gr_cnt)
{
int remain, tar_bits, max_bits = cfg.mean_bits;
/* distribute reserved bits to remaining granules */
tar_bits = max_bits + (cfg.ResvSize / gr_cnt & ~7);
if(tar_bits > max_bits + max_bits/2)
tar_bits = max_bits + max_bits/2;
si->part2_3_length = inner_loop(xr, tar_bits, si);
si->global_gain = si->quantStep + 142 - si->additStep;
/* unused bits of the reservoir can be used for remaining granules */
cfg.ResvSize += max_bits - si->part2_3_length;
/* end: distribute the reserved bits to one or two granules */
if(gr_cnt == 1)
{
si->part2_3_length += cfg.ResvSize;
/* mp3 format allows max 12bits for granule length */
if(si->part2_3_length > 4092)
{
remain = (si->part2_3_length - 4092 + 31) >> 5;
si->part2_3_length -= remain << 5;
si[-1].part2_3_length += remain << 5;
while(remain--)
putbits(~0, 32);
}
}
}
/* returns sum_j=0^31 a[j]*cos(PI*j*(k+1/2)/32), 0<=k<32 */
void window_subband1(short *wk, int sb0[SBLIMIT], int sb1[SBLIMIT]) ICODE_ATTR;
void window_subband1(short *wk, int sb0[SBLIMIT], int sb1[SBLIMIT])
{
int k, i, u, v;
short *wp, *x1, *x2;
#ifdef CPU_COLDFIRE
int s0, s1, t0, t1;
for(k=0; k<18; k++, wk+=64, sb0+=SBLIMIT, sb1+=SBLIMIT)
{
wp = enwindow;
x1 = wk;
x2 = x1 - 124;
for(i=-15; i<0; i++)
{
asm volatile(
"move.l (-224*4,%[x2]), %%d4\n" /* d4 = x2[-224] */
"movem.l (%[wp]), %%d0-%%d3\n" /* load 8 values */
"mac.w %%d0u, %%d4u, %%acc0\n"
"mac.w %%d0u, %%d4l, (-160*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d0l, %%d4u, %%acc0\n"
"mac.w %%d0l, %%d4l, ( -96*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d1u, %%d4u, %%acc0\n"
"mac.w %%d1u, %%d4l, ( -32*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d1l, %%d4u, %%acc0\n"
"mac.w %%d1l, %%d4l, ( 32*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, ( 96*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d2l, %%d4u, %%acc0\n"
"mac.w %%d2l, %%d4l, ( 160*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d3u, %%d4u, %%acc0\n"
"mac.w %%d3u, %%d4l, ( 224*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d3l, %%d4u, %%acc0\n"
"mac.w %%d3l, %%d4l, (-256*4,%[x1]), %%d4, %%acc1\n"
"movem.l (16,%[wp]), %%d0-%%d3\n" /* load 8 values */
"mac.w %%d0u, %%d4u, %%acc0\n"
"mac.w %%d0u, %%d4l, (-192*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d0l, %%d4u, %%acc0\n"
"mac.w %%d0l, %%d4l, (-128*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1u, %%d4u, %%acc0\n"
"mac.w %%d1u, %%d4l, ( -64*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1l, %%d4u, %%acc0\n"
"mac.w %%d1l, %%d4l, ( 0*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, ( 64*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2l, %%d4u, %%acc0\n"
"mac.w %%d2l, %%d4l, ( 128*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3u, %%d4u, %%acc0\n"
"mac.w %%d3u, %%d4l, ( 192*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3l, %%d4u, %%acc0\n"
"mac.w %%d3l, %%d4l, ( 224*4,%[x1]), %%d4, %%acc1\n"
"movclr.l %%acc0, %%d0\n"
"move.l %%d0, %[s0]\n"
"movclr.l %%acc1, %%d0\n"
"move.l %%d0, %[s1]\n"
"movem.l (%[wp]), %%d0-%%d3\n" /* load 8 values */
"mac.w %%d0u, %%d4u, %%acc0\n"
"mac.w %%d0u, %%d4l, ( 160*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d0l, %%d4u, %%acc0\n"
"mac.w %%d0l, %%d4l, ( 96*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1u, %%d4u, %%acc0\n"
"mac.w %%d1u, %%d4l, ( 32*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1l, %%d4u, %%acc0\n"
"mac.w %%d1l, %%d4l, ( -32*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, ( -96*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2l, %%d4u, %%acc0\n"
"mac.w %%d2l, %%d4l, (-160*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3u, %%d4u, %%acc0\n"
"mac.w %%d3u, %%d4l, (-224*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3l, %%d4u, %%acc0\n"
"mac.w %%d3l, %%d4l, ( 256*4,%[x2]), %%d4, %%acc1\n"
"movem.l (32,%[wp]), %%d0-%%d3\n" /* load 8 values */
"mac.w %%d0u, %%d4u, %%acc0\n"
"mac.w %%d0u, %%d4l, ( 192*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d0l, %%d4u, %%acc0\n"
"mac.w %%d0l, %%d4l, ( 128*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d1u, %%d4u, %%acc0\n"
"mac.w %%d1u, %%d4l, ( 64*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d1l, %%d4u, %%acc0\n"
"mac.w %%d1l, %%d4l, ( 0*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, ( -64*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d2l, %%d4u, %%acc0\n"
"mac.w %%d2l, %%d4l, (-128*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d3u, %%d4u, %%acc0\n"
"mac.w %%d3u, %%d4l, (-192*4,%[x2]), %%d4, %%acc1\n"
"mac.w %%d3l, %%d4u, %%acc0\n"
"mac.w %%d3l, %%d4l, %%acc1\n"
"movclr.l %%acc0, %%d0\n"
"move.l %%d0, %[t0]\n"
"movclr.l %%acc1, %%d0\n"
"move.l %%d0, %[t1]\n"
: [x1] "+a" (x1), [x2] "+a" (x2), [s0] "+m" (s0), [t0] "+m" (t0),
[s1] "+m" (s1), [t1] "+m" (t1)
: [wp] "a" (wp) : "d0", "d1", "d2", "d3", "d4");
sb0[30+i*2] = shft4(t0) + shft13(s0) * wp[24];
sb0[31+i*2] = shft13(t0) * wp[25] - shft13(s0) * wp[26];
sb1[30+i*2] = shft4(t1) + shft13(s1) * wp[24];
sb1[31+i*2] = shft13(t1) * wp[25] - shft13(s1) * wp[26];
wp += 27;
x1 -= 2;
x2 += 2;
}
asm volatile(
"move.l ( -32*4,%[x1]), %%d4\n" /* d4 = x1[-32] */
"movem.l (%[wp]), %%d0-%%d3\n" /* load 8 values */
"mac.w %%d0u, %%d4u, %%acc0\n"
"mac.w %%d0u, %%d4l, ( -96*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d0l, %%d4u, %%acc0\n"
"mac.w %%d0l, %%d4l, (-160*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1u, %%d4u, %%acc0\n"
"mac.w %%d1u, %%d4l, (-224*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1l, %%d4u, %%acc0\n"
"mac.w %%d1l, %%d4l, ( 32*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, ( 96*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2l, %%d4u, %%acc0\n"
"mac.w %%d2l, %%d4l, ( 160*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3u, %%d4u, %%acc0\n"
"mac.w %%d3u, %%d4l, ( 224*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3l, %%d4u, %%acc0\n"
"mac.w %%d3l, %%d4l, ( -16*4,%[x1]), %%d4, %%acc1\n"
"movclr.l %%acc0, %%d0\n"
"move.l %%d0, %[s0]\n"
"movclr.l %%acc1, %%d0\n"
"move.l %%d0, %[s1]\n"
"movem.l (16,%[wp]), %%d0-%%d3\n" /* load 8 values */
"mac.w %%d0u, %%d4u, %%acc0\n"
"mac.w %%d0u, %%d4l, ( -48*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1u, %%d4u, %%acc0\n"
"mac.w %%d1u, %%d4l, ( 16*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1l, %%d4u, %%acc0\n"
"mac.w %%d1l, %%d4l, ( -80*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, ( 48*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, (-112*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3u, %%d4u, %%acc0\n"
"mac.w %%d3u, %%d4l, ( 80*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3l, %%d4u, %%acc0\n"
"mac.w %%d3l, %%d4l, (-144*4,%[x1]), %%d4, %%acc1\n"
"movem.l (32,%[wp]), %%d0-%%d3\n" /* load 8 values */
"mac.w %%d0u, %%d4u, %%acc0\n"
"mac.w %%d0u, %%d4l, ( 112*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d0u, %%d4u, %%acc0\n"
"mac.w %%d0u, %%d4l, (-176*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1u, %%d4u, %%acc0\n"
"mac.w %%d1u, %%d4l, ( 144*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d1l, %%d4u, %%acc0\n"
"mac.w %%d1l, %%d4l, (-208*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, ( 176*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d2u, %%d4u, %%acc0\n"
"mac.w %%d2u, %%d4l, (-240*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3u, %%d4u, %%acc0\n"
"mac.w %%d3u, %%d4l, ( 208*4,%[x1]), %%d4, %%acc1\n"
"mac.w %%d3l, %%d4u, %%acc0\n"
"mac.w %%d3l, %%d4l, %%acc1\n"
"movclr.l %%acc0, %%d0\n"
"move.l %%d0, %[t0]\n"
"movclr.l %%acc1, %%d0\n"
"move.l %%d0, %[t1]\n"
: [x1] "+a" (x1), [s0] "+m" (s0), [t0] "+m" (t0),
[s1] "+m" (s1), [t1] "+m" (t1)
: [wp] "a" (wp) : "d0", "d1", "d2", "d3", "d4");
u = shft4(s0 - t0);
v = shft4(s0 + t0);
t0 = sb0[14];
s0 = sb0[15] - t0;
sb0[31] = v + t0; /* A0 */
sb0[30] = u + s0; /* A1 */
sb0[15] = u - s0; /* A2 */
sb0[14] = v - t0; /* A3 */
u = shft4(s1 - t1);
v = shft4(s1 + t1);
t1 = sb1[14];
s1 = sb1[15] - t1;
sb1[31] = v + t1; /* A0 */
sb1[30] = u + s1; /* A1 */
sb1[15] = u - s1; /* A2 */
sb1[14] = v - t1; /* A3 */
}
#else
int ch, s, t, *a;
for(ch=0; ch<cfg.channels; ch++)
{
a = ch ? sb1 : sb0;
for(k=0; k<18; k++, wk+=64, a+=SBLIMIT)
{
wp = enwindow;
x1 = wk;
x2 = x1 - 124;
/* x1[-572] .... x1[448] = 1022 */
/* 18*4*16*32 */
for(i=-15; i<0; i++)
{
s = (int)x2[-224*2] * wp[ 0]; t = (int)x1[ 224*2] * wp[ 0];
s += (int)x2[-160*2] * wp[ 1]; t += (int)x1[ 160*2] * wp[ 1];
s += (int)x2[- 96*2] * wp[ 2]; t += (int)x1[ 96*2] * wp[ 2];
s += (int)x2[- 32*2] * wp[ 3]; t += (int)x1[ 32*2] * wp[ 3];
s += (int)x2[ 32*2] * wp[ 4]; t += (int)x1[- 32*2] * wp[ 4];
s += (int)x2[ 96*2] * wp[ 5]; t += (int)x1[- 96*2] * wp[ 5];
s += (int)x2[ 160*2] * wp[ 6]; t += (int)x1[-160*2] * wp[ 6];
s += (int)x2[ 224*2] * wp[ 7]; t += (int)x1[-224*2] * wp[ 7];
s += (int)x1[-256*2] * wp[ 8]; t += (int)x2[ 256*2] * wp[16];
s += (int)x1[-192*2] * wp[ 9]; t += (int)x2[ 192*2] * wp[17];
s += (int)x1[-128*2] * wp[10]; t += (int)x2[ 128*2] * wp[18];
s += (int)x1[- 64*2] * wp[11]; t += (int)x2[ 64*2] * wp[19];
s += (int)x1[ 0*2] * wp[12]; t += (int)x2[ 0*2] * wp[20];
s += (int)x1[ 64*2] * wp[13]; t += (int)x2[- 64*2] * wp[21];
s += (int)x1[ 128*2] * wp[14]; t += (int)x2[-128*2] * wp[22];
s += (int)x1[ 192*2] * wp[15]; t += (int)x2[-192*2] * wp[23];
a[30+i*2] = shft4(t) + shft13(s) * wp[24];
a[31+i*2] = shft13(t) * wp[25] - shft13(s) * wp[26];
wp += 27;
x1 -= 2;
x2 += 2;
}
t = (int)x1[- 16*2] * wp[ 8]; s = (int)x1[ -32*2] * wp[0];
t += ((int)x1[- 48*2]-x1[ 16*2]) * wp[10]; s += (int)x1[ -96*2] * wp[1];
t += ((int)x1[- 80*2]+x1[ 48*2]) * wp[12]; s += (int)x1[-160*2] * wp[2];
t += ((int)x1[-112*2]-x1[ 80*2]) * wp[14]; s += (int)x1[-224*2] * wp[3];
t += ((int)x1[-144*2]+x1[112*2]) * wp[16]; s += (int)x1[ 32*2] * wp[4];
t += ((int)x1[-176*2]-x1[144*2]) * wp[18]; s += (int)x1[ 96*2] * wp[5];
t += ((int)x1[-208*2]+x1[176*2]) * wp[20]; s += (int)x1[ 160*2] * wp[6];
t += ((int)x1[-240*2]-x1[208*2]) * wp[22]; s += (int)x1[ 224*2] * wp[7];
u = shft4(s - t);
v = shft4(s + t);
t = a[14];
s = a[15] - t;
a[31] = v + t; /* A0 */
a[30] = u + s; /* A1 */
a[15] = u - s; /* A2 */
a[14] = v - t; /* A3 */
}
wk -= 18 * 64 - 1; /* rewind wk (to next channel start) */
}
#endif
}
void window_subband2(short *x1, int a[SBLIMIT]) ICODE_ATTR;
void window_subband2(short *x1, int a[SBLIMIT])
{
int xr;
short *wp = enwindow;
short *x2 = x1 - 124;
wp += 27 * 15;
x1 -= 2 * 15;
x2 += 2 * 15;
xr = a[28] - a[0]; a[0] += a[28]; a[28] = shft9(xr) * wp[-2*27+25];
xr = a[29] - a[1]; a[1] += a[29]; a[29] = shft9(xr) * wp[-2*27+25];
xr = a[26] - a[2]; a[2] += a[26]; a[26] = shft9(xr) * wp[-4*27+25];
xr = a[27] - a[3]; a[3] += a[27]; a[27] = shft9(xr) * wp[-4*27+25];
xr = a[24] - a[4]; a[4] += a[24]; a[24] = shft9(xr) * wp[-6*27+25];
xr = a[25] - a[5]; a[5] += a[25]; a[25] = shft9(xr) * wp[-6*27+25];
xr = a[22] - a[6]; a[6] += a[22]; a[22] = shft9(xr) * SQRT ;
xr = a[23] - a[7]; a[7] += a[23]; a[23] = shft9(xr) * SQRT - a[7];
a[ 7] -= a[ 6];
a[22] -= a[ 7];
a[23] -= a[22];
xr = a[ 6]; a[ 6] = a[31] - xr; a[31] = a[31] + xr;
xr = a[ 7]; a[ 7] = a[30] - xr; a[30] = a[30] + xr;
xr = a[22]; a[22] = a[15] - xr; a[15] = a[15] + xr;
xr = a[23]; a[23] = a[14] - xr; a[14] = a[14] + xr;
xr = a[20] - a[ 8]; a[ 8] += a[20]; a[20] = shft9(xr) * wp[-10*27+25];
xr = a[21] - a[ 9]; a[ 9] += a[21]; a[21] = shft9(xr) * wp[-10*27+25];
xr = a[18] - a[10]; a[10] += a[18]; a[18] = shft9(xr) * wp[-12*27+25];
xr = a[19] - a[11]; a[11] += a[19]; a[19] = shft9(xr) * wp[-12*27+25];
xr = a[16] - a[12]; a[12] += a[16]; a[16] = shft9(xr) * wp[-14*27+25];
xr = a[17] - a[13]; a[13] += a[17]; a[17] = shft9(xr) * wp[-14*27+25];
xr =-a[20] + a[24]; a[20] += a[24]; a[24] = shft9(xr) * wp[-12*27+25];
xr =-a[21] + a[25]; a[21] += a[25]; a[25] = shft9(xr) * wp[-12*27+25];
xr = a[ 4] - a[ 8]; a[ 4] += a[ 8]; a[ 8] = shft9(xr) * wp[-12*27+25];
xr = a[ 5] - a[ 9]; a[ 5] += a[ 9]; a[ 9] = shft9(xr) * wp[-12*27+25];
xr = a[ 0] - a[12]; a[ 0] += a[12]; a[12] = shft9(xr) * wp[ -4*27+25];
xr = a[ 1] - a[13]; a[ 1] += a[13]; a[13] = shft9(xr) * wp[ -4*27+25];
xr = a[16] - a[28]; a[16] += a[28]; a[28] = shft9(xr) * wp[ -4*27+25];
xr =-a[17] + a[29]; a[17] += a[29]; a[29] = shft9(xr) * wp[ -4*27+25];
xr = SQRT * shft9(a[ 2] - a[10]); a[ 2] += a[10]; a[10] = xr;
xr = SQRT * shft9(a[ 3] - a[11]); a[ 3] += a[11]; a[11] = xr;
xr = SQRT * shft9(a[26] - a[18]); a[18] += a[26]; a[26] = xr - a[18];
xr = SQRT * shft9(a[27] - a[19]); a[19] += a[27]; a[27] = xr - a[19];
xr = a[ 2]; a[19] -= a[ 3]; a[ 3] -= xr; a[ 2] = a[31] - xr; a[31] += xr;
xr = a[ 3]; a[11] -= a[19]; a[18] -= xr; a[ 3] = a[30] - xr; a[30] += xr;
xr = a[18]; a[27] -= a[11]; a[19] -= xr; a[18] = a[15] - xr; a[15] += xr;
xr = a[19]; a[10] -= xr; a[19] = a[14] - xr; a[14] += xr;
xr = a[10]; a[11] -= xr; a[10] = a[23] - xr; a[23] += xr;
xr = a[11]; a[26] -= xr; a[11] = a[22] - xr; a[22] += xr;
xr = a[26]; a[27] -= xr; a[26] = a[ 7] - xr; a[ 7] += xr;
xr = a[27]; a[27] = a[6] - xr; a[6] += xr;
xr = SQRT * shft9(a[ 0] - a[ 4]); a[ 0] += a[ 4]; a[ 4] = xr;
xr = SQRT * shft9(a[ 1] - a[ 5]); a[ 1] += a[ 5]; a[ 5] = xr;
xr = SQRT * shft9(a[16] - a[20]); a[16] += a[20]; a[20] = xr;
xr = SQRT * shft9(a[17] - a[21]); a[17] += a[21]; a[21] = xr;
xr =-SQRT * shft9(a[ 8] - a[12]); a[ 8] += a[12]; a[12] = xr - a[ 8];
xr =-SQRT * shft9(a[ 9] - a[13]); a[ 9] += a[13]; a[13] = xr - a[ 9];
xr =-SQRT * shft9(a[25] - a[29]); a[25] += a[29]; a[29] = xr - a[25];
xr =-SQRT * shft9(a[24] + a[28]); a[24] -= a[28]; a[28] = xr - a[24];
xr = a[24] - a[16]; a[24] = xr;
xr = a[20] - xr; a[20] = xr;
xr = a[28] - xr; a[28] = xr;
xr = a[25] - a[17]; a[25] = xr;
xr = a[21] - xr; a[21] = xr;
xr = a[29] - xr; a[29] = xr;
xr = a[17] - a[1]; a[17] = xr;
xr = a[ 9] - xr; a[ 9] = xr;
xr = a[25] - xr; a[25] = xr;
xr = a[ 5] - xr; a[ 5] = xr;
xr = a[21] - xr; a[21] = xr;
xr = a[13] - xr; a[13] = xr;
xr = a[29] - xr; a[29] = xr;
xr = a[ 1] - a[0]; a[ 1] = xr;
xr = a[16] - xr; a[16] = xr;
xr = a[17] - xr; a[17] = xr;
xr = a[ 8] - xr; a[ 8] = xr;
xr = a[ 9] - xr; a[ 9] = xr;
xr = a[24] - xr; a[24] = xr;
xr = a[25] - xr; a[25] = xr;
xr = a[ 4] - xr; a[ 4] = xr;
xr = a[ 5] - xr; a[ 5] = xr;
xr = a[20] - xr; a[20] = xr;
xr = a[21] - xr; a[21] = xr;
xr = a[12] - xr; a[12] = xr;
xr = a[13] - xr; a[13] = xr;
xr = a[28] - xr; a[28] = xr;
xr = a[29] - xr; a[29] = xr;
xr = a[ 0]; a[ 0] += a[31]; a[31] -= xr;
xr = a[ 1]; a[ 1] += a[30]; a[30] -= xr;
xr = a[16]; a[16] += a[15]; a[15] -= xr;
xr = a[17]; a[17] += a[14]; a[14] -= xr;
xr = a[ 8]; a[ 8] += a[23]; a[23] -= xr;
xr = a[ 9]; a[ 9] += a[22]; a[22] -= xr;
xr = a[24]; a[24] += a[ 7]; a[ 7] -= xr;
xr = a[25]; a[25] += a[ 6]; a[ 6] -= xr;
xr = a[ 4]; a[ 4] += a[27]; a[27] -= xr;
xr = a[ 5]; a[ 5] += a[26]; a[26] -= xr;
xr = a[20]; a[20] += a[11]; a[11] -= xr;
xr = a[21]; a[21] += a[10]; a[10] -= xr;
xr = a[12]; a[12] += a[19]; a[19] -= xr;
xr = a[13]; a[13] += a[18]; a[18] -= xr;
xr = a[28]; a[28] += a[ 3]; a[ 3] -= xr;
xr = a[29]; a[29] += a[ 2]; a[ 2] -= xr;
}
void mdct_long(int *out, int *in) ICODE_ATTR;
void mdct_long(int *out, int *in)
{
int ct,st;
int tc1, tc2, tc3, tc4, ts5, ts6, ts7, ts8;
int ts1, ts2, ts3, ts4, tc5, tc6, tc7, tc8;
/* 1,2, 5,6, 9,10, 13,14, 17 */
tc1 = in[17] - in[ 9];
tc3 = in[15] - in[11];
tc4 = in[14] - in[12];
ts5 = in[ 0] + in[ 8];
ts6 = in[ 1] + in[ 7];
ts7 = in[ 2] + in[ 6];
ts8 = in[ 3] + in[ 5];
out[17] = (ts5 + ts7 - ts8) * cx[8] - (ts6 - in[4]) * cx[8];
st = (ts5 + ts7 - ts8) * cx[7] + (ts6 - in[4]) * cx[8];
ct = (tc1 - tc3 - tc4) * cx[6];
out[5] = ct + st;
out[6] = ct - st;
tc2 = (in[16] - in[10]) * cx[6];
ts6 = ts6 * cx[7] + in[4] * cx[8];
ct = tc1 * cx[0] + tc2 + tc3 * cx[1] + tc4 * cx[2];
st = -ts5 * cx[4] + ts6 - ts7 * cx[5] + ts8 * cx[3];
out[1] = ct + st;
out[2] = ct - st;
ct = tc1 * cx[1] - tc2 - tc3 * cx[2] + tc4 * cx[0];
st = -ts5 * cx[5] + ts6 - ts7 * cx[3] + ts8 * cx[4];
out[ 9] = ct + st;
out[10] = ct - st;
ct = tc1 * cx[2] - tc2 + tc3 * cx[0] - tc4 * cx[1];
st = ts5 * cx[3] - ts6 + ts7 * cx[4] - ts8 * cx[5];
out[13] = ct + st;
out[14] = ct - st;
ts1 = in[ 8] - in[ 0];
ts3 = in[ 6] - in[ 2];
ts4 = in[ 5] - in[ 3];
tc5 = in[17] + in[ 9];
tc6 = in[16] + in[10];
tc7 = in[15] + in[11];
tc8 = in[14] + in[12];
out[0] = (tc5 + tc7 + tc8) * cx[8] + (tc6 + in[13]) * cx[8];
ct = (tc5 + tc7 + tc8) * cx[7] - (tc6 + in[13]) * cx[8];
st = (ts1 - ts3 + ts4) * cx[6];
out[11] = ct + st;
out[12] = ct - st;
ts2 = (in[7] - in[1]) * cx[6];
tc6 = in[13] * cx[8] - tc6 * cx[7];
ct = tc5 * cx[3] - tc6 + tc7 * cx[4] + tc8 * cx[5];
st = ts1 * cx[2] + ts2 + ts3 * cx[0] + ts4 * cx[1];
out[3] = ct + st;
out[4] = ct - st;
ct =-tc5 * cx[5] + tc6 - tc7 * cx[3] - tc8 * cx[4];
st = ts1 * cx[1] + ts2 - ts3 * cx[2] - ts4 * cx[0];
out[7] = ct + st;
out[8] = ct - st;
ct =-tc5 * cx[4] + tc6 - tc7 * cx[5] - tc8 * cx[3];
st = ts1 * cx[0] - ts2 + ts3 * cx[1] - ts4 * cx[2];
out[15] = ct + st;
out[16] = ct - st;
}
static int find_bitrate_index(int type, int bitrate, bool stereo)
{
if (type == 1 && !stereo && bitrate > 160)
bitrate = 160;
return ci->round_value_to_list32(bitrate,
&bitr_index[type][1], 14, true) + 1;
}
static int find_samplerate_index(long freq, int *mp3_type)
{
int mpeg = freq >= (32000+24000)/2 ? 1 : 0;
int i = ci->round_value_to_list32(freq, sampr_index[mpeg], 3, true);
*mp3_type = mpeg;
return i;
}
bool init_mp3_encoder_engine(int sample_rate,
int num_channels,
struct encoder_config *enc_cfg)
{
const bool stereo = num_channels > 1;
uint32_t avg_byte_per_frame;
cfg.channels = stereo ? 2 : 1;
cfg.mpg.mode = stereo ? 0 : 3; /* 0=stereo, 3=mono */
cfg.mpg.smpl_id = find_samplerate_index(sample_rate, &cfg.mpg.type);
cfg.samplerate = sampr_index[cfg.mpg.type][cfg.mpg.smpl_id];
cfg.mpg.bitr_id = find_bitrate_index(cfg.mpg.type,
enc_cfg->mp3_enc.bitrate,
stereo);
cfg.mpg.bitrate = bitr_index[cfg.mpg.type][cfg.mpg.bitr_id];
cfg.mpg.num_bands = num_bands[stereo ? cfg.mpg.type : 2][cfg.mpg.bitr_id];
if (cfg.mpg.type == 1)
{
cfg.granules = 2;
pcm_chunk_size = PCM_CHUNK_SIZE1;
samp_per_frame = SAMP_PER_FRAME1;
}
else
{
cfg.granules = 1;
pcm_chunk_size = PCM_CHUNK_SIZE2;
samp_per_frame = SAMP_PER_FRAME2;
}
memcpy(scalefac, sfBand[cfg.mpg.smpl_id + 3*cfg.mpg.type], sizeof(scalefac));
memset(mfbuf , 0 , sizeof(mfbuf ));
memset(mdct_freq , 0 , sizeof(mdct_freq ));
memset(enc_data , 0 , sizeof(enc_data ));
memset(sb_data , 0 , sizeof(sb_data ));
memset(&CodedData, 0 , sizeof(CodedData ));
memcpy(ca , ca_const , sizeof(ca ));
memcpy(cs , cs_const , sizeof(cs ));
memcpy(cx , cx_const , sizeof(cx ));
memcpy(win , win_const , sizeof(win ));
memcpy(enwindow , enwindow_const , sizeof(enwindow ));
memcpy(int2idx , int2idx_const , sizeof(int2idx ));
memcpy(ht_count , ht_count_const , sizeof(ht_count ));
memcpy( tab01 , tab01_const , sizeof(tab01 ));
memcpy( tab23 , tab23_const , sizeof(tab23 ));
memcpy( tab56 , tab56_const , sizeof(tab56 ));
memcpy( tab1315 , tab1315_const , sizeof(tab1315 ));
memcpy( tab1624 , tab1624_const , sizeof(tab1624 ));
memcpy( tab789 , tab789_const , sizeof(tab789 ));
memcpy( tabABC , tabABC_const , sizeof(tabABC ));
memcpy( t1HB , t1HB_const , sizeof(t1HB ));
memcpy( t2HB , t2HB_const , sizeof(t2HB ));
memcpy( t3HB , t3HB_const , sizeof(t3HB ));
memcpy( t5HB , t5HB_const , sizeof(t5HB ));
memcpy( t6HB , t6HB_const , sizeof(t6HB ));
memcpy( t7HB , t7HB_const , sizeof(t7HB ));
memcpy( t8HB , t8HB_const , sizeof(t8HB ));
memcpy( t9HB , t9HB_const , sizeof(t9HB ));
memcpy(t10HB , t10HB_const , sizeof(t10HB ));
memcpy(t11HB , t11HB_const , sizeof(t11HB ));
memcpy(t12HB , t12HB_const , sizeof(t12HB ));
memcpy(t13HB , t13HB_const , sizeof(t13HB ));
memcpy(t15HB , t15HB_const , sizeof(t15HB ));
memcpy(t16HB , t16HB_const , sizeof(t16HB ));
memcpy(t24HB , t24HB_const , sizeof(t24HB ));
memcpy( t1l , t1l_const , sizeof(t1l ));
memcpy( t2l , t2l_const , sizeof(t2l ));
memcpy( t3l , t3l_const , sizeof(t3l ));
memcpy( t5l , t5l_const , sizeof(t5l ));
memcpy( t6l , t6l_const , sizeof(t6l ));
memcpy( t7l , t7l_const , sizeof(t7l ));
memcpy( t8l , t8l_const , sizeof(t8l ));
memcpy( t9l , t9l_const , sizeof(t9l ));
memcpy(t10l , t10l_const , sizeof(t10l ));
memcpy(t11l , t11l_const , sizeof(t11l ));
memcpy(t12l , t12l_const , sizeof(t12l ));
memcpy(t13l , t13l_const , sizeof(t13l ));
memcpy(t15l , t15l_const , sizeof(t15l ));
memcpy(t16l , t16l_const , sizeof(t16l ));
memcpy(t24l , t24l_const , sizeof(t24l ));
memcpy(ht , ht_const , sizeof(ht ));
ht[ 0].table = NULL; ht[ 0].hlen = NULL; /* Apparently not used */
ht[ 1].table = t1HB; ht[ 1].hlen = t1l;
ht[ 2].table = t2HB; ht[ 2].hlen = t2l;
ht[ 3].table = t3HB; ht[ 3].hlen = t3l;
ht[ 4].table = NULL; ht[ 4].hlen = NULL; /* Apparently not used */
ht[ 5].table = t5HB; ht[ 5].hlen = t5l;
ht[ 6].table = t6HB; ht[ 6].hlen = t6l;
ht[ 7].table = t7HB; ht[ 7].hlen = t7l;
ht[ 8].table = t8HB; ht[ 8].hlen = t8l;
ht[ 9].table = t9HB; ht[ 9].hlen = t9l;
ht[10].table = t10HB; ht[10].hlen = t10l;
ht[11].table = t11HB; ht[11].hlen = t11l;
ht[12].table = t12HB; ht[12].hlen = t12l;
ht[13].table = t13HB; ht[13].hlen = t13l;
ht[14].table = NULL; ht[14].hlen = NULL; /* Apparently not used */
ht[15].table = t15HB; ht[15].hlen = t15l;
/* Figure average number of 'bytes' per frame */
avg_byte_per_frame = SAMPL2 * 16000 * cfg.mpg.bitrate / (2 - cfg.mpg.type);
avg_byte_per_frame = avg_byte_per_frame / cfg.samplerate;
cfg.byte_per_frame = avg_byte_per_frame / 64;
cfg.frac_per_frame = avg_byte_per_frame & 63;
cfg.slot_lag = 0;
cfg.sideinfo_len = 32 + (cfg.mpg.type ? (cfg.channels == 1 ? 136 : 256)
: (cfg.channels == 1 ? 72 : 136));
return true;
}
STATICIRAM void to_mono_mm(void) ICODE_ATTR;
STATICIRAM void to_mono_mm(void)
{
/* |llllllllllllllll|rrrrrrrrrrrrrrrr| =>
* |mmmmmmmmmmmmmmmm|mmmmmmmmmmmmmmmm|
*/
uint32_t *samp = (uint32_t *)&mfbuf[2*512];
uint32_t *samp_end = samp + samp_per_frame;
inline void to_mono(uint32_t **samp)
{
int32_t lr = **samp;
int32_t m = (int16_t)lr + (lr >> 16) + err;
err = m & 1;
m >>= 1;
*(*samp)++ = (m << 16) | (uint16_t)m;
} /* to_mono */
do
{
to_mono(&samp);
to_mono(&samp);
to_mono(&samp);
to_mono(&samp);
to_mono(&samp);
to_mono(&samp);
to_mono(&samp);
to_mono(&samp);
}
while (samp < samp_end);
} /* to_mono_mm */
#ifdef ROCKBOX_LITTLE_ENDIAN
/* Swaps a frame to big endian */
static inline void byte_swap_frame32(uint32_t *dst, uint32_t *src,
size_t size) ICODE_ATTR;
static inline void byte_swap_frame32(uint32_t *dst, uint32_t *src,
size_t size)
{
uint32_t *src_end = SKIPBYTES(src, size);
do
{
*dst++ = swap32(*src++);
*dst++ = swap32(*src++);
*dst++ = swap32(*src++);
*dst++ = swap32(*src++);
*dst++ = swap32(*src++);
*dst++ = swap32(*src++);
*dst++ = swap32(*src++);
*dst++ = swap32(*src++);
}
while(src < src_end);
} /* byte_swap_frame32 */
#endif /* ROCKBOX_LITTLE_ENDIAN */
void set_scale_facs(int *mdct_freq)
{
unsigned int i, is, ie, k, s;
int max_freq_val, avrg_freq_val;
/* calc average of first 256 frequency values */
for(avrg_freq_val=i=0; i<256; i++)
avrg_freq_val += mdct_freq[i];
avrg_freq_val >>= 8;
/* if max of current band is smaller than average, increase precision */
/* last band keeps untouched (not scaled) */
for(is=k=0; is<scalefac[21]; k++)
{
max_freq_val = 0;
for(i=is, ie=scalefac[k+1]; i<ie; i++)
if(max_freq_val < mdct_freq[i])
max_freq_val = mdct_freq[i];
for(s=0; s<3; s++)
if((max_freq_val<<s) > avrg_freq_val)
break;
band_scale_f[k] = (unsigned char)s;
for(i=is; s && i<ie; i++)
mdct_freq[i] <<= s;
is = ie;
}
}
STATICIRAM void encode_frame(char *buffer, struct enc_chunk_hdr *chunk)
ICODE_ATTR;
STATICIRAM void encode_frame(char *buffer, struct enc_chunk_hdr *chunk)
{
int gr, gr_cnt;
uint32_t max;
/* encode one mp3 frame in this loop */
CodedData.bitpos = 0;
memset(CodedData.bbuf, 0, sizeof(CodedData.bbuf));
if((cfg.slot_lag += cfg.frac_per_frame) >= 64)
{ /* Padding for this frame */
cfg.slot_lag -= 64;
cfg.mpg.padding = 1;
}
else
cfg.mpg.padding = 0;
cfg.mean_bits = (8 * cfg.byte_per_frame + 8 * cfg.mpg.padding
- cfg.sideinfo_len) / cfg.granules / cfg.channels
- 42; // reserved for scale_facs
/* shift out old samples */
memcpy(mfbuf, mfbuf + 2*cfg.granules*576, 4*512);
if (chunk->flags & CHUNKF_START_FILE)
{
/* prefix silent samples for encoder delay */
memset(mfbuf + 2*512, 0, ENC_DELAY_SIZE);
/* read new samples to iram for further processing */
memcpy(mfbuf + 2*512 + ENC_DELAY_SIZE/2,
buffer, pcm_chunk_size - ENC_DELAY_SIZE);
chunk->num_pcm = samp_per_frame - ENC_DELAY_SAMP;
}
else
{
/* read new samples to iram for further processing */
memcpy(mfbuf + 2*512, buffer, pcm_chunk_size);
chunk->num_pcm = samp_per_frame;
}
if (cfg.channels == 1)
to_mono_mm();
cfg.ResvSize = 0;
gr_cnt = cfg.granules * cfg.channels;
CodedData.bitpos = cfg.sideinfo_len; /* leave space for mp3 header */
for(gr=0; gr<cfg.granules; gr++)
{
short *wk = mfbuf + 2*286 + gr*1152;
int ch;
/* 16bit packed wav data can be windowed efficiently on coldfire */
window_subband1(wk, sb_data[0][1-gr][0], sb_data[1][1-gr][0]);
for(ch=0; ch<cfg.channels; ch++)
{
int ii, k, shift;
wk = mfbuf + 2*286 + gr*1152 + ch;
/* 36864=4*18*16*32 */
for(k=0; k<18; k++, wk+=64)
{
window_subband2(wk, sb_data[ch][1-gr][k]);
/* Compensate for inversion in the analysis filter */
if(k & 1)
{
int band;
for(band=1; band<32; band+=2)
sb_data[ch][1-gr][k][band] *= -1;
}
}
/* Perform imdct of 18 previous + 18 current subband samples */
/* for integer precision do this loop again (if neccessary) */
shift = 14 - (cfg.cod_info[gr][ch].additStep >> 2);
for(k=1,ii=0; ii<3 && k; ii++)
{
int *mdct = mdct_freq;
int band;
cfg.cod_info[gr][ch].additStep = 4 * (14 - shift);
for(band=0; band<cfg.mpg.num_bands; band++, mdct+=18)
{
int *band0 = sb_data[ch][ gr][0] + order[band];
int *band1 = sb_data[ch][1-gr][0] + order[band];
int work[18];
/* 9216=4*32*9*8 */
for(k=-9; k<0; k++)
{
int a = shft_n(band1[(k+9)*32], shift);
int b = shft_n(band1[(8-k)*32], shift);
int c = shft_n(band0[(k+9)*32], shift);
int d = shft_n(band0[(8-k)*32], shift);
work[k+ 9] = shft16(a * win[k+ 9][0] +
b * win[k+ 9][1] +
c * win[k+ 9][2] +
d * win[k+ 9][3]);
work[k+18] = shft16(c * win[k+18][0] +
d * win[k+18][1] +
a * win[k+18][2] +
b * win[k+18][3]);
}
/* 7200=4*18*100 */
mdct_long(mdct, work);
/* Perform aliasing reduction butterfly */
if(band != 0)
{
for(k=7; k>=0; --k)
{
int bu, bd;
bu = shft15(mdct[k]) * ca[k] +
shft15(mdct[-1-k]) * cs[k];
bd = shft15(mdct[k]) * cs[k] -
shft15(mdct[-1-k]) * ca[k];
mdct[-1-k] = bu;
mdct[ k ] = bd;
}
}
}
max = 0;
for(k=0; k<576; k++)
{
if(mdct_freq[k] < 0)
{
mdct_sign[k] = 1; /* negative */
mdct_freq[k] = shft13(-mdct_freq[k]);
}
else
{
mdct_sign[k] = 0; /* positive */
mdct_freq[k] = shft13(mdct_freq[k]);
}
if(max < (uint32_t)mdct_freq[k])
max = (uint32_t)mdct_freq[k];
}
cfg.cod_info[gr][ch].max_val = max;
/* calc new shift for higher integer precision */
for(k=0; max<(uint32_t)(0x7800>>k); k++) shift--;
for( ; (max>>k)>=(uint32_t)0x10000; k++) shift++;
if(shift < 0) shift = 0;
}
cfg.cod_info[gr][ch].quantStep +=
cfg.cod_info[gr][ch].additStep;
set_scale_facs(mdct_freq);
/* bit and noise allocation */
iteration_loop(mdct_freq, &cfg.cod_info[gr][ch],
gr_cnt--);
/* write the frame to the bitstream */
Huffmancodebits(enc_data, mdct_sign,
&cfg.cod_info[gr][ch]);
cfg.cod_info[gr][ch].quantStep -=
cfg.cod_info[gr][ch].additStep;
if(cfg.granules == 1)
{
memcpy(sb_data[ch][0], sb_data[ch][1],
sizeof(sb_data[ch][0]));
}
}
}
chunk->enc_size = cfg.byte_per_frame + cfg.mpg.padding;
/* finish this chunk by adding sideinfo header data */
CodedData.bitpos = 0;
encodeSideInfo( cfg.cod_info );
#ifdef ROCKBOX_BIG_ENDIAN
/* copy chunk to enc_buffer */
memcpy(chunk->enc_data, CodedData.bbuf, chunk->enc_size);
#else
/* swap frame to big endian */
byte_swap_frame32((uint32_t *)chunk->enc_data, CodedData.bbuf, chunk->enc_size);
#endif
} /* encode_frame */
/* called very often - inline */
static inline bool is_file_data_ok(struct enc_file_event_data *filed) ICODE_ATTR;
static inline bool is_file_data_ok(struct enc_file_event_data *filed)
{
return filed->rec_file >= 0 && (long)filed->chunk->flags >= 0;
} /* is_event_ok */
/* called very often - inline */
static inline bool on_write_chunk(struct enc_file_event_data *data) ICODE_ATTR;
static inline bool on_write_chunk(struct enc_file_event_data *data)
{
if (!is_file_data_ok(data))
return false;
if (data->chunk->enc_data == NULL)
{
#ifdef ROCKBOX_HAS_LOGF
ci->logf("mp3 enc: NULL data");
#endif
return true;
}
if (ci->write(data->rec_file, data->chunk->enc_data,
data->chunk->enc_size) != (ssize_t)data->chunk->enc_size)
return false;
data->num_pcm_samples += data->chunk->num_pcm;
return true;
} /* on_write_chunk */
static bool on_start_file(struct enc_file_event_data *data)
{
if ((data->chunk->flags & CHUNKF_ERROR) || *data->filename == '\0')
return false;
data->rec_file = ci->open(data->filename, O_RDWR|O_CREAT|O_TRUNC);
if (data->rec_file < 0)
return false;
/* reset sample count */
data->num_pcm_samples = 0;
return true;
} /* on_start_file */
static bool on_end_file(struct enc_file_event_data *data)
{
if (data->rec_file < 0)
return false; /* file already closed, nothing more we can do */
/* always _try_ to write the file header, even on error */
if (ci->close(data->rec_file) != 0)
return false;
data->rec_file = -1;
return true;
} /* on_end_file */
static void on_rec_new_stream(struct enc_buffer_event_data *data)
{
int num_frames = cfg.mpg.type == 1 ?
ENC_PADDING_FRAMES1 : ENC_PADDING_FRAMES2;
if (data->flags & CHUNKF_END_FILE)
{
/* add silent frames to end - encoder will also be flushed for start
of next file if any */
memset(res_buffer, 0, pcm_chunk_size);
/* the initial chunk given for the end is at enc_wr_index */
while (num_frames-- > 0)
{
data->chunk->enc_data = ENC_CHUNK_SKIP_HDR(data->chunk->enc_data,
data->chunk);
encode_frame(res_buffer, data->chunk);
data->chunk->num_pcm = samp_per_frame;
ci->enc_finish_chunk();
data->chunk = ci->enc_get_chunk();
}
}
else if (data->flags & CHUNKF_PRERECORD)
{
/* nothing to add and we cannot change prerecorded data */
}
else if (data->flags & CHUNKF_START_FILE)
{
/* starting fresh ... be sure to flush encoder first */
struct enc_chunk_hdr *chunk = ENC_CHUNK_HDR(res_buffer);
chunk->flags = 0;
chunk->enc_data = ENC_CHUNK_SKIP_HDR(chunk->enc_data, chunk);
while (num_frames-- > 0)
{
memset(chunk->enc_data, 0, pcm_chunk_size);
encode_frame(chunk->enc_data, chunk);
}
}
} /* on_rec_new_stream */
STATICIRAM void enc_events_callback(enum enc_events event, void *data)
ICODE_ATTR;
STATICIRAM void enc_events_callback(enum enc_events event, void *data)
{
if (event == ENC_WRITE_CHUNK)
{
if (on_write_chunk((struct enc_file_event_data *)data))
return;
}
else if (event == ENC_START_FILE)
{
if (on_start_file((struct enc_file_event_data *)data))
return;
}
else if (event == ENC_END_FILE)
{
if (on_end_file((struct enc_file_event_data *)data))
return;
}
else if (event == ENC_REC_NEW_STREAM)
{
on_rec_new_stream((struct enc_buffer_event_data *)data);
return;
}
else
{
return;
}
((struct enc_file_event_data *)data)->chunk->flags |= CHUNKF_ERROR;
} /* enc_events_callback */
static bool enc_init(void)
{
struct enc_inputs inputs;
struct enc_parameters params;
if (ci->enc_get_inputs == NULL ||
ci->enc_set_parameters == NULL ||
ci->enc_get_chunk == NULL ||
ci->enc_finish_chunk == NULL ||
ci->enc_get_pcm_data == NULL ||
ci->enc_unget_pcm_data == NULL )
return false;
ci->enc_get_inputs(&inputs);
if (inputs.config->afmt != AFMT_MPA_L3)
return false;
init_mp3_encoder_engine(inputs.sample_rate, inputs.num_channels,
inputs.config);
err = 0;
/* configure the buffer system */
params.afmt = AFMT_MPA_L3;
params.chunk_size = cfg.byte_per_frame + 1;
params.enc_sample_rate = cfg.samplerate;
/* need enough reserved bytes to hold one frame of pcm samples + hdr
for padding and flushing */
params.reserve_bytes = ENC_CHUNK_HDR_SIZE + pcm_chunk_size;
params.events_callback = enc_events_callback;
ci->enc_set_parameters(&params);
res_buffer = params.reserve_buffer;
#ifdef CPU_COLDFIRE
asm volatile ("move.l #0, %macsr"); /* integer mode */
#endif
return true;
} /* enc_init */
enum codec_status codec_main(void)
{
/* Generic codec initialisation */
if (!enc_init())
{
ci->enc_codec_loaded = -1;
return CODEC_ERROR;
}
/* main application waits for this flag during encoder loading */
ci->enc_codec_loaded = 1;
/* main encoding loop */
while (!ci->stop_encoder)
{
char *buffer;
while ((buffer = ci->enc_get_pcm_data(pcm_chunk_size)) != NULL)
{
struct enc_chunk_hdr *chunk;
if (ci->stop_encoder)
break;
chunk = ci->enc_get_chunk();
chunk->enc_data = ENC_CHUNK_SKIP_HDR(chunk->enc_data, chunk);
encode_frame(buffer, chunk);
if (chunk->num_pcm < samp_per_frame)
{
ci->enc_unget_pcm_data(pcm_chunk_size - chunk->num_pcm*4);
chunk->num_pcm = samp_per_frame;
}
ci->enc_finish_chunk();
ci->yield();
}
ci->yield();
}
/* reset parameters to initial state */
ci->enc_set_parameters(NULL);
/* main application waits for this flag during encoder removing */
ci->enc_codec_loaded = 0;
return CODEC_OK;
} /* codec_start */
#endif /* ndef SIMULATOR */
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