📄 drm_dec.c
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/*
** FAAD2 - Freeware Advanced Audio (AAC) Decoder including SBR and PS decoding
** Copyright (C) 2003-2004 M. Bakker, Ahead Software AG, http://www.nero.com
**
** 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 program 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 General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program; if not, write to the Free Software
** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
**
** Any non-GPL usage of this software or parts of this software is strictly
** forbidden.
**
** Commercial non-GPL licensing of this software is possible.
** For more info contact Ahead Software through Mpeg4AAClicense@nero.com.
**
** $Id: drm_dec.c,v 1.5 2004/09/04 14:56:28 menno Exp $
**/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <math.h>
#include "common.h"
#ifdef DRM
#include "sbr_dec.h"
#include "drm_dec.h"
#include "bits.h"
/* constants */
#define DECAY_CUTOFF 3
#define DECAY_SLOPE 0.05f
/* type definitaions */
typedef const int8_t (*drm_ps_huff_tab)[2];
/* binary search huffman tables */
static const int8_t f_huffman_sa[][2] =
{
{ /*0*/ -15, 1 }, /* index 0: 1 bits: x */
{ 2, 3 }, /* index 1: 2 bits: 1x */
{ /*7*/ -8, 4 }, /* index 2: 3 bits: 10x */
{ 5, 6 }, /* index 3: 3 bits: 11x */
{ /*1*/ -14, /*-1*/ -16 }, /* index 4: 4 bits: 101x */
{ /*-2*/ -17, 7 }, /* index 5: 4 bits: 110x */
{ 8, 9 }, /* index 6: 4 bits: 111x */
{ /*2*/ -13, /*-3*/ -18 }, /* index 7: 5 bits: 1101x */
{ /*3*/ -12, 10 }, /* index 8: 5 bits: 1110x */
{ 11, 12 }, /* index 9: 5 bits: 1111x */
{ /*4*/ -11, /*5*/ -10 }, /* index 10: 6 bits: 11101x */
{ /*-4*/ -19, /*-5*/ -20 }, /* index 11: 6 bits: 11110x */
{ /*6*/ -9, 13 }, /* index 12: 6 bits: 11111x */
{ /*-7*/ -22, /*-6*/ -21 } /* index 13: 7 bits: 111111x */
};
static const int8_t t_huffman_sa[][2] =
{
{ /*0*/ -15, 1 }, /* index 0: 1 bits: x */
{ 2, 3 }, /* index 1: 2 bits: 1x */
{ /*-1*/ -16, /*1*/ -14 }, /* index 2: 3 bits: 10x */
{ 4, 5 }, /* index 3: 3 bits: 11x */
{ /*-2*/ -17, /*2*/ -13 }, /* index 4: 4 bits: 110x */
{ 6, 7 }, /* index 5: 4 bits: 111x */
{ /*-3*/ -18, /*3*/ -12 }, /* index 6: 5 bits: 1110x */
{ 8, 9 }, /* index 7: 5 bits: 1111x */
{ /*-4*/ -19, /*4*/ -11 }, /* index 8: 6 bits: 11110x */
{ 10, 11 }, /* index 9: 6 bits: 11111x */
{ /*-5*/ -20, /*5*/ -10 }, /* index 10: 7 bits: 111110x */
{ /*-6*/ -21, 12 }, /* index 11: 7 bits: 111111x */
{ /*-7*/ -22, 13 }, /* index 12: 8 bits: 1111111x */
{ /*6*/ -9, /*7*/ -8 } /* index 13: 9 bits: 11111111x */
};
static const int8_t f_huffman_pan[][2] =
{
{ /*0*/ -15, 1 }, /* index 0: 1 bits: x */
{ /*-1*/ -16, 2 }, /* index 1: 2 bits: 1x */
{ /*1*/ -14, 3 }, /* index 2: 3 bits: 11x */
{ 4, 5 }, /* index 3: 4 bits: 111x */
{ /*-2*/ -17, /*2*/ -13 }, /* index 4: 5 bits: 1110x */
{ 6, 7 }, /* index 5: 5 bits: 1111x */
{ /*-3*/ -18, /*3*/ -12 }, /* index 6: 6 bits: 11110x */
{ 8, 9 }, /* index 7: 6 bits: 11111x */
{ /*-4*/ -19, /*4*/ -11 }, /* index 8: 7 bits: 111110x */
{ 10, 11 }, /* index 9: 7 bits: 111111x */
{ /*-5*/ -20, /*5*/ -10 }, /* index 10: 8 bits: 1111110x */
{ 12, 13 }, /* index 11: 8 bits: 1111111x */
{ /*-6*/ -21, /*6*/ -9 }, /* index 12: 9 bits: 11111110x */
{ /*-7*/ -22, 14 }, /* index 13: 9 bits: 11111111x */
{ /*7*/ -8, 15 }, /* index 14: 10 bits: 111111111x */
{ 16, 17 }, /* index 15: 11 bits: 1111111111x */
{ /*-8*/ -23, /*8*/ -7 }, /* index 16: 12 bits: 11111111110x */
{ 18, 19 }, /* index 17: 12 bits: 11111111111x */
{ /*-10*/ -25, 20 }, /* index 18: 13 bits: 111111111110x */
{ 21, 22 }, /* index 19: 13 bits: 111111111111x */
{ /*-9*/ -24, /*9*/ -6 }, /* index 20: 14 bits: 1111111111101x */
{ /*10*/ -5, 23 }, /* index 21: 14 bits: 1111111111110x */
{ 24, 25 }, /* index 22: 14 bits: 1111111111111x */
{ /*-13*/ -28, /*-11*/ -26 }, /* index 23: 15 bits: 11111111111101x */
{ /*11*/ -4, /*13*/ -2 }, /* index 24: 15 bits: 11111111111110x */
{ 26, 27 }, /* index 25: 15 bits: 11111111111111x */
{ /*-14*/ -29, /*-12*/ -27 }, /* index 26: 16 bits: 111111111111110x */
{ /*12*/ -3, /*14*/ -1 } /* index 27: 16 bits: 111111111111111x */
};
static const int8_t t_huffman_pan[][2] =
{
{ /*0*/ -15, 1 }, /* index 0: 1 bits: x */
{ /*-1*/ -16, 2 }, /* index 1: 2 bits: 1x */
{ /*1*/ -14, 3 }, /* index 2: 3 bits: 11x */
{ /*-2*/ -17, 4 }, /* index 3: 4 bits: 111x */
{ /*2*/ -13, 5 }, /* index 4: 5 bits: 1111x */
{ /*-3*/ -18, 6 }, /* index 5: 6 bits: 11111x */
{ /*3*/ -12, 7 }, /* index 6: 7 bits: 111111x */
{ /*-4*/ -19, 8 }, /* index 7: 8 bits: 1111111x */
{ /*4*/ -11, 9 }, /* index 8: 9 bits: 11111111x */
{ 10, 11 }, /* index 9: 10 bits: 111111111x */
{ /*-5*/ -20, /*5*/ -10 }, /* index 10: 11 bits: 1111111110x */
{ 12, 13 }, /* index 11: 11 bits: 1111111111x */
{ /*-6*/ -21, /*6*/ -9 }, /* index 12: 12 bits: 11111111110x */
{ 14, 15 }, /* index 13: 12 bits: 11111111111x */
{ /*-7*/ -22, /*7*/ -8 }, /* index 14: 13 bits: 111111111110x */
{ 16, 17 }, /* index 15: 13 bits: 111111111111x */
{ /*-8*/ -23, /*8*/ -7 }, /* index 16: 14 bits: 1111111111110x */
{ 18, 19 }, /* index 17: 14 bits: 1111111111111x */
{ /*-10*/ -25, /*10*/ -5 }, /* index 18: 15 bits: 11111111111110x */
{ 20, 21 }, /* index 19: 15 bits: 11111111111111x */
{ /*-9*/ -24, /*9*/ -6 }, /* index 20: 16 bits: 111111111111110x */
{ 22, 23 }, /* index 21: 16 bits: 111111111111111x */
{ 24, 25 }, /* index 22: 17 bits: 1111111111111110x */
{ 26, 27 }, /* index 23: 17 bits: 1111111111111111x */
{ /*-14*/ -29, /*-13*/ -28 }, /* index 24: 18 bits: 11111111111111100x */
{ /*-12*/ -27, /*-11*/ -26 }, /* index 25: 18 bits: 11111111111111101x */
{ /*11*/ -4, /*12*/ -3 }, /* index 26: 18 bits: 11111111111111110x */
{ /*13*/ -2, /*14*/ -1 } /* index 27: 18 bits: 11111111111111111x */
};
/* There are 3 classes in the standard but the last 2 are identical */
static const real_t sa_quant[8][2] =
{
{ FRAC_CONST(0.0000), FRAC_CONST(0.0000) },
{ FRAC_CONST(0.0501), FRAC_CONST(0.1778) },
{ FRAC_CONST(0.0706), FRAC_CONST(0.2818) },
{ FRAC_CONST(0.0995), FRAC_CONST(0.4467) },
{ FRAC_CONST(0.1399), FRAC_CONST(0.5623) },
{ FRAC_CONST(0.1957), FRAC_CONST(0.7079) },
{ FRAC_CONST(0.2713), FRAC_CONST(0.8913) },
{ FRAC_CONST(0.3699), FRAC_CONST(1.0000) },
};
/* We don't need the actual quantizer values */
#if 0
static const real_t pan_quant[8][5] =
{
{ COEF_CONST(0.0000), COEF_CONST(0.0000), COEF_CONST(0.0000), COEF_CONST(0.0000), COEF_CONST(0.0000) },
{ COEF_CONST(0.1661), COEF_CONST(0.1661), COEF_CONST(0.3322), COEF_CONST(0.3322), COEF_CONST(0.3322) },
{ COEF_CONST(0.3322), COEF_CONST(0.3322), COEF_CONST(0.6644), COEF_CONST(0.8305), COEF_CONST(0.8305) },
{ COEF_CONST(0.4983), COEF_CONST(0.6644), COEF_CONST(0.9966), COEF_CONST(1.4949), COEF_CONST(1.6610) },
{ COEF_CONST(0.6644), COEF_CONST(0.9966), COEF_CONST(1.4949), COEF_CONST(2.1593), COEF_CONST(2.4914) },
{ COEF_CONST(0.8305), COEF_CONST(1.3288), COEF_CONST(2.1593), COEF_CONST(2.9897), COEF_CONST(3.4880) },
{ COEF_CONST(0.9966), COEF_CONST(1.8271), COEF_CONST(2.8236), COEF_CONST(3.8202), COEF_CONST(4.6507) },
{ COEF_CONST(1.3288), COEF_CONST(2.3253), COEF_CONST(3.4880), COEF_CONST(4.6507), COEF_CONST(5.8134) },
};
#endif
/* 2^(pan_quant[x][y] */
static const real_t pan_pow_2_pos[8][5] = {
{ REAL_CONST(1.0000000), REAL_CONST(1.0000000), REAL_CONST(1.0000000), REAL_CONST(1.0000000), REAL_CONST(1.0000000) },
{ REAL_CONST(1.1220021), REAL_CONST(1.1220021), REAL_CONST(1.2589312), REAL_CONST(1.2589312), REAL_CONST(1.2589312) },
{ REAL_CONST(1.2589312), REAL_CONST(1.2589312), REAL_CONST(1.5849090), REAL_CONST(1.7783016), REAL_CONST(1.7783016) },
{ REAL_CONST(1.4125481), REAL_CONST(1.5849090), REAL_CONST(1.9952921), REAL_CONST(2.8184461), REAL_CONST(3.1623565) },
{ REAL_CONST(1.5849090), REAL_CONST(1.9952922), REAL_CONST(2.8184461), REAL_CONST(4.4669806), REAL_CONST(5.6232337) },
{ REAL_CONST(1.7783016), REAL_CONST(2.5119365), REAL_CONST(4.4669806), REAL_CONST(7.9430881), REAL_CONST(11.219994) },
{ REAL_CONST(1.9952921), REAL_CONST(3.5482312), REAL_CONST(7.0792671), REAL_CONST(14.125206), REAL_CONST(25.118876) },
{ REAL_CONST(2.5119365), REAL_CONST(5.0116998), REAL_CONST(11.219994), REAL_CONST(25.118876), REAL_CONST(56.235140) }
};
/* 2^(-pan_quant[x][y] */
static const real_t pan_pow_2_neg[8][5] = {
{ REAL_CONST(1), REAL_CONST(1), REAL_CONST(1), REAL_CONST(1), REAL_CONST(1) },
{ REAL_CONST(0.8912487), REAL_CONST(0.8912487), REAL_CONST(0.7943242), REAL_CONST(0.7943242), REAL_CONST(0.7943242) },
{ REAL_CONST(0.7943242), REAL_CONST(0.7943242), REAL_CONST(0.6309511), REAL_CONST(0.5623344), REAL_CONST(0.5623344) },
{ REAL_CONST(0.7079405), REAL_CONST(0.6309511), REAL_CONST(0.5011797), REAL_CONST(0.3548054), REAL_CONST(0.3162199) },
{ REAL_CONST(0.6309511), REAL_CONST(0.5011797), REAL_CONST(0.3548054), REAL_CONST(0.2238649), REAL_CONST(0.1778336) },
{ REAL_CONST(0.5623343), REAL_CONST(0.3980992), REAL_CONST(0.2238649), REAL_CONST(0.1258956), REAL_CONST(0.0891266) },
{ REAL_CONST(0.5011797), REAL_CONST(0.2818306), REAL_CONST(0.1412576), REAL_CONST(0.0707954), REAL_CONST(0.0398107) },
{ REAL_CONST(0.3980992), REAL_CONST(0.1995331), REAL_CONST(0.0891267), REAL_CONST(0.0398107), REAL_CONST(0.0177825) }
};
/* 2^(pan_quant[x][y]/30) */
static const real_t pan_pow_2_30_pos[8][5] = {
{ COEF_CONST(1), COEF_CONST(1), COEF_CONST(1), COEF_CONST(1), COEF_CONST(1) },
{ COEF_CONST(1.003845098), COEF_CONST(1.003845098), COEF_CONST(1.007704982), COEF_CONST(1.007704982), COEF_CONST(1.007704982) },
{ COEF_CONST(1.007704982), COEF_CONST(1.007704982), COEF_CONST(1.01546933), COEF_CONST(1.019373909), COEF_CONST(1.019373909) },
{ COEF_CONST(1.011579706), COEF_CONST(1.01546933), COEF_CONST(1.023293502), COEF_CONST(1.035142941), COEF_CONST(1.039123167) },
{ COEF_CONST(1.01546933), COEF_CONST(1.023293502), COEF_CONST(1.035142941), COEF_CONST(1.051155908), COEF_CONST(1.059252598) },
{ COEF_CONST(1.019373909), COEF_CONST(1.03117796), COEF_CONST(1.051155908), COEF_CONST(1.071518432), COEF_CONST(1.0839263) },
{ COEF_CONST(1.023293502), COEF_CONST(1.043118698), COEF_CONST(1.067414119), COEF_CONST(1.092277933), COEF_CONST(1.113439626) },
{ COEF_CONST(1.03117796), COEF_CONST(1.055195268), COEF_CONST(1.0839263), COEF_CONST(1.113439626), COEF_CONST(1.143756546) }
};
/* 2^(-pan_quant[x][y]/30) */
static const real_t pan_pow_2_30_neg[8][5] = {
{ COEF_CONST(1), COEF_CONST(1), COEF_CONST(1), COEF_CONST(1), COEF_CONST(1) },
{ COEF_CONST(0.99616963), COEF_CONST(0.99616963), COEF_CONST(0.992353931), COEF_CONST(0.992353931), COEF_CONST(0.99235393) },
{ COEF_CONST(0.992353931), COEF_CONST(0.992353931), COEF_CONST(0.984766325), COEF_CONST(0.980994305), COEF_CONST(0.980994305) },
{ COEF_CONST(0.988552848), COEF_CONST(0.984766325), COEF_CONST(0.977236734), COEF_CONST(0.966050157), COEF_CONST(0.962349827) },
{ COEF_CONST(0.984766325), COEF_CONST(0.977236734), COEF_CONST(0.966050157), COEF_CONST(0.951333663), COEF_CONST(0.944061881) },
{ COEF_CONST(0.980994305), COEF_CONST(0.969764715), COEF_CONST(0.951333663), COEF_CONST(0.933255062), COEF_CONST(0.922571949) },
{ COEF_CONST(0.977236734), COEF_CONST(0.958663671), COEF_CONST(0.936843519), COEF_CONST(0.915517901), COEF_CONST(0.898117847) },
{ COEF_CONST(0.969764715), COEF_CONST(0.947691892), COEF_CONST(0.922571949), COEF_CONST(0.898117847), COEF_CONST(0.874311936) }
};
static const real_t g_decayslope[MAX_SA_BAND] = {
FRAC_CONST(1), FRAC_CONST(1), FRAC_CONST(1), FRAC_CONST(0.95),FRAC_CONST(0.9), FRAC_CONST(0.85), FRAC_CONST(0.8),
FRAC_CONST(0.75),FRAC_CONST(0.7), FRAC_CONST(0.65),FRAC_CONST(0.6), FRAC_CONST(0.55),FRAC_CONST(0.5), FRAC_CONST(0.45),
FRAC_CONST(0.4), FRAC_CONST(0.35),FRAC_CONST(0.3), FRAC_CONST(0.25),FRAC_CONST(0.2), FRAC_CONST(0.15), FRAC_CONST(0.1),
FRAC_CONST(0.05),FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0),
FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0),
FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0),
FRAC_CONST(0), FRAC_CONST(0), FRAC_CONST(0)
};
static const real_t sa_sqrt_1_minus[8][2] = {
{ FRAC_CONST(1), FRAC_CONST(1) },
{ FRAC_CONST(0.998744206), FRAC_CONST(0.984066644) },
{ FRAC_CONST(0.997504707), FRAC_CONST(0.959473168) },
{ FRAC_CONST(0.995037562), FRAC_CONST(0.894683804) },
{ FRAC_CONST(0.990165638), FRAC_CONST(0.826933317) },
{ FRAC_CONST(0.980663811), FRAC_CONST(0.706312672) },
{ FRAC_CONST(0.962494836), FRAC_CONST(0.45341406) },
{ FRAC_CONST(0.929071574), FRAC_CONST(0) }
};
static const uint8_t sa_freq_scale[9][2] =
{
{ 0, 0},
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