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/*
* MLP codec common header file
* Copyright (c) 2007-2008 Ian Caulfield
*
* This file is part of FFmpeg.
*
* FFmpeg is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* FFmpeg 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef AVCODEC_MLP_H
#define AVCODEC_MLP_H
#include <stdint.h>
#include "libavutil/channel_layout.h"
#define SYNC_MLP 0xbb
#define SYNC_TRUEHD 0xba
/** Last possible matrix channel for each codec */
#define MAX_MATRIX_CHANNEL_MLP 5
#define MAX_MATRIX_CHANNEL_TRUEHD 7
/** Maximum number of channels in a valid stream.
* MLP : 5.1 + 2 noise channels -> 8 channels
* TrueHD: 7.1 -> 8 channels
*/
#define MAX_CHANNELS 8
/** Maximum number of matrices used in decoding; most streams have one matrix
* per output channel, but some rematrix a channel (usually 0) more than once.
*/
#define MAX_MATRICES_MLP 6
#define MAX_MATRICES_TRUEHD 8
#define MAX_MATRICES 8
/** Maximum number of substreams that can be decoded.
* MLP's limit is 2. TrueHD supports at least up to 3.
*/
#define MAX_SUBSTREAMS 4
/** which multiple of 48000 the maximum sample rate is */
#define MAX_RATEFACTOR 4
/** maximum sample frequency seen in files */
#define MAX_SAMPLERATE (MAX_RATEFACTOR * 48000)
/** maximum number of audio samples within one access unit */
#define MAX_BLOCKSIZE (40 * MAX_RATEFACTOR)
/** next power of two greater than MAX_BLOCKSIZE */
#define MAX_BLOCKSIZE_POW2 (64 * MAX_RATEFACTOR)
/** number of allowed filters */
#define NUM_FILTERS 2
/** The maximum number of taps in IIR and FIR filters. */
#define MAX_FIR_ORDER 8
#define MAX_IIR_ORDER 4
/** Code that signals end of a stream. */
#define END_OF_STREAM 0xd234d234
#define PARAM_BLOCKSIZE (1 << 7)
#define PARAM_MATRIX (1 << 6)
#define PARAM_OUTSHIFT (1 << 5)
#define PARAM_QUANTSTEP (1 << 4)
#define PARAM_FIR (1 << 3)
#define PARAM_IIR (1 << 2)
#define PARAM_HUFFOFFSET (1 << 1)
#define PARAM_PRESENCE (1 << 0)
#define FIR 0
#define IIR 1
/** filter data */
typedef struct FilterParams {
uint8_t order; ///< number of taps in filter
uint8_t shift; ///< Right shift to apply to output of filter.
int32_t state[MAX_FIR_ORDER];
int coeff_bits;
int coeff_shift;
} FilterParams;
/** sample data coding information */
typedef struct ChannelParams {
FilterParams filter_params[NUM_FILTERS];
int32_t coeff[NUM_FILTERS][MAX_FIR_ORDER];
int16_t huff_offset; ///< Offset to apply to residual values.
int32_t sign_huff_offset; ///< sign/rounding-corrected version of huff_offset
uint8_t codebook; ///< Which VLC codebook to use to read residuals.
uint8_t huff_lsbs; ///< Size of residual suffix not encoded using VLC.
} ChannelParams;
/** Tables defining the Huffman codes.
* There are three entropy coding methods used in MLP (four if you count
* "none" as a method). These use the same sequences for codes starting with
* 00 or 01, but have different codes starting with 1.
*/
extern const uint8_t ff_mlp_huffman_tables[3][18][2];
typedef struct {
uint8_t channel_occupancy;
uint8_t group1_channels;
uint8_t group2_channels;
uint8_t summary_info;
} ChannelInformation;
/** Tables defining channel information.
*
* Possible channel arrangements are:
*
* (Group 1) C
* (Group 1) L, R
* (Group 1) Lf, Rf / (Group 2) S
* (Group 1) Lf, Rf / (Group 2) Ls, Rs
* (Group 1) Lf, Rf / (Group 2) LFE
* (Group 1) Lf, Rf / (Group 2) LFE, S
* (Group 1) Lf, Rf / (Group 2) LFE, Ls, Rs
* (Group 1) Lf, Rf / (Group 2) C
* (Group 1) Lf, Rf / (Group 2) C, S
* (Group 1) Lf, Rf / (Group 2) C, Ls, Rs
* (Group 1) Lf, Rf / (Group 2) C, LFE
* (Group 1) Lf, Rf / (Group 2) C, LFE, S
* (Group 1) Lf, Rf / (Group 2) C, LFE, Ls, Rs
* (Group 1) Lf, Rf C / (Group 2) S
* (Group 1) Lf, Rf C / (Group 2) Ls, Rs
* (Group 1) Lf, Rf C / (Group 2) LFE
* (Group 1) Lf, Rf C / (Group 2) LFE, S
* (Group 1) Lf, Rf C / (Group 2) LFE, Ls, Rs
* (Group 1) Lf, Rf Ls Rs / (Group 2) LFE
* (Group 1) Lf, Rf Ls Rs / (Group 2) C
* (Group 1) Lf, Rf, Ls, Rs / (Group 2) C, LFE
*/
extern const ChannelInformation ff_mlp_ch_info[21];
#if FF_API_OLD_CHANNEL_LAYOUT
extern const uint64_t ff_mlp_channel_layouts[12];
#endif
extern const AVChannelLayout ff_mlp_ch_layouts[12];
/** MLP uses checksums that seem to be based on the standard CRC algorithm, but
* are not (in implementation terms, the table lookup and XOR are reversed).
* We can implement this behavior using a standard av_crc on all but the
* last element, then XOR that with the last element.
*/
uint8_t ff_mlp_checksum8 (const uint8_t *buf, unsigned int buf_size);
uint16_t ff_mlp_checksum16(const uint8_t *buf, unsigned int buf_size);
/** Calculate an 8-bit checksum over a restart header -- a non-multiple-of-8
* number of bits, starting two bits into the first byte of buf.
*/
uint8_t ff_mlp_restart_checksum(const uint8_t *buf, unsigned int bit_size);
/** XOR together all the bytes of a buffer.
* Does this belong in dspcontext?
*/
uint8_t ff_mlp_calculate_parity(const uint8_t *buf, unsigned int buf_size);
void ff_mlp_init_crc(void);
/** XOR four bytes into one. */
static inline uint8_t xor_32_to_8(uint32_t value)
{
value ^= value >> 16;
value ^= value >> 8;
return value;
}
typedef enum THDChannelModifier {
THD_CH_MODIFIER_NOTINDICATED = 0x0,
THD_CH_MODIFIER_STEREO = 0x0, // Stereo (not Dolby Surround)
THD_CH_MODIFIER_LTRT = 0x1, // Dolby Surround
THD_CH_MODIFIER_LBINRBIN = 0x2, // Dolby Headphone
THD_CH_MODIFIER_MONO = 0x3, // Mono or Dual Mono
THD_CH_MODIFIER_NOTSURROUNDEX = 0x1, // Not Dolby Digital EX
THD_CH_MODIFIER_SURROUNDEX = 0x2, // Dolby Digital EX
} THDChannelModifier;
#endif /* AVCODEC_MLP_H */