ref: 62c41d613aff0c79243c7aa8ce9236884ef443ab
dir: /quant.h/
/*
* Function prototypes for AAC quantization
*
* Copyright (c) 1999 M. Bakker
*
* 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, 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; see the file COPYING. If not, write to
* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/**************************************************************************
Version Control Information Method: CVS
Identifiers:
$Revision: 1.5 $
$Date: 2000/10/06 14:47:27 $ (check in)
$Author: menno $
*************************************************************************/
#ifndef QUANT_H
#define QUANT_H
#include "pulse.h"
#include "interface.h"
#include "tns.h"
#include "ltp_enc.h"
#include "bitstream.h"
#ifdef __cplusplus
extern "C" {
#endif
/* assumptions for the first run of this quantizer */
#define CHANNEL 1
#define MAGIC_NUMBER 0.4054
#define MAX_QUANT 8192
#define SF_OFFSET 100
#define ABS(A) ((A) < 0 ? (-A) : (A))
#define sgn(A) ((A) > 0 ? (1) : (-1))
#define MAXFAC 121 /* maximum scale factor */
#define MIDFAC (MAXFAC-1)/2
#define SF_OFFSET 100 /* global gain must be positive */
#define INTENSITY_HCB 15
#define INTENSITY_HCB2 14
extern int pns_sfb_start; /* lower border for PNS */
/*********************************************************/
/* AACQuantInfo, info for AAC quantization and coding. */
/*********************************************************/
typedef struct {
int max_sfb; /* max_sfb, should = nr_of_sfb/num_window_groups */
int nr_of_sfb; /* Number of scalefactor bands, interleaved */
int spectralCount; /* Number of spectral data coefficients */
enum WINDOW_TYPE block_type; /* Block type */
int scale_factor[MAX_SCFAC_BANDS]; /* Scalefactor data array , interleaved */
int sfb_offset[250]; /* Scalefactor spectral offset, interleaved */
int book_vector[MAX_SCFAC_BANDS]; /* Huffman codebook selected for each sf band */
int data[5*BLOCK_LEN_LONG]; /* Data of spectral bitstream elements, for each spectral pair,
5 elements are required: 1*(esc)+2*(sign)+2*(esc value)=5 */
int len[5*BLOCK_LEN_LONG]; /* Lengths of spectral bitstream elements */
int num_window_groups; /* Number of window groups */
int window_group_length[MAX_SHORT_WINDOWS]; /* Length (in windows) of each window group */
int common_scalefac; /* Global gain */
Window_shape window_shape; /* Window shape parameter */
Window_shape prev_window_shape; /* Previous window shape parameter */
short pred_global_flag; /* Global prediction enable flag */
int pred_sfb_flag[MAX_SCFAC_BANDS]; /* Prediction enable flag for each scalefactor band */
int reset_group_number; /* Prediction reset group number */
TNS_INFO* tnsInfo; /* Ptr to tns data */
AACPulseInfo pulseInfo;
LT_PRED_STATUS *ltpInfo; /* Prt to LTP data */
int pns_sfb_nrg[MAX_SCFAC_BANDS];
int pns_sfb_flag[MAX_SCFAC_BANDS];
int profile;
int srate_idx;
} AACQuantInfo;
void quantize(AACQuantInfo *quantInfo,
double *pow_spectrum,
int quant[BLOCK_LEN_LONG]
);
void dequantize(AACQuantInfo *quantInfo,
double *p_spectrum,
int quant[BLOCK_LEN_LONG],
double requant[BLOCK_LEN_LONG],
double error_energy[MAX_SCFAC_BANDS]
);
int count_bits(AACQuantInfo* quantInfo,
int quant[BLOCK_LEN_LONG]
// ,int output_book_vector[MAX_SCFAC_BANDS*2]
);
/*********************************************************/
/* sort_for_grouping */
/*********************************************************/
int sort_for_grouping(AACQuantInfo* quantInfo, /* ptr to quantization information */
int sfb_width_table[], /* Widths of single window */
double *p_spectrum[], /* Spectral values, noninterleaved */
double *SigMaskRatio,
double *PsySigMaskRatio);
/*********************************************************/
/* tf_init_encode_spectrum_aac */
/*********************************************************/
void tf_init_encode_spectrum_aac( int quality );
/*********************************************************/
/* tf_encode_spectrum_aac */
/*********************************************************/
int tf_encode_spectrum_aac(
double *p_spectrum[MAX_TIME_CHANNELS],
double *SigMaksRatio[MAX_TIME_CHANNELS],
double allowed_dist[MAX_TIME_CHANNELS][MAX_SCFAC_BANDS],
double energy[MAX_TIME_CHANNELS][MAX_SCFAC_BANDS],
enum WINDOW_TYPE block_type[MAX_TIME_CHANNELS],
int sfb_width_table[MAX_TIME_CHANNELS][MAX_SCFAC_BANDS],
// int nr_of_sfb[MAX_TIME_CHANNELS],
int average_block_bits,
// int available_bitreservoir_bits,
// int padding_limit,
BsBitStream *fixed_stream,
// BsBitStream *var_stream,
// int nr_of_chan,
double *p_reconstructed_spectrum[MAX_TIME_CHANNELS],
// int useShortWindows,
// int aacAllowScalefacs,
AACQuantInfo* quantInfo, /* AAC quantization information */
Ch_Info *ch_info
// ,int varBitRate
// ,int bitRate
);
#ifdef __cplusplus
}
#endif
#endif