Revision f1b94134a4b879bc55c3dacdb496690c8ebdc03f authored by Vikram Fugro on 11 March 2016, 12:16:11 UTC, committed by Jean-Baptiste Kempf on 11 March 2016, 14:57:34 UTC
Allocate the output vlc pictures with dimensions padded, as requested by the decoder (for alignments). This further increases the chances of direct rendering. Signed-off-by: Jean-Baptiste Kempf <jb@videolan.org>
1 parent 6c813cb
adpcm.c
/*****************************************************************************
* adpcm.c : adpcm variant audio decoder
*****************************************************************************
* Copyright (C) 2001, 2002 VLC authors and VideoLAN
* $Id$
*
* Authors: Laurent Aimar <fenrir@via.ecp.fr>
* RĂ©mi Denis-Courmont <rem # videolan.org>
*
* This program 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.
*
* 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*****************************************************************************/
/*****************************************************************************
* Preamble
*
* Documentation: http://www.pcisys.net/~melanson/codecs/adpcm.txt
*****************************************************************************/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <vlc_common.h>
#include <vlc_plugin.h>
#include <vlc_codec.h>
/*****************************************************************************
* Module descriptor
*****************************************************************************/
static int OpenDecoder( vlc_object_t * );
static void CloseDecoder( vlc_object_t * );
static block_t *DecodeBlock( decoder_t *, block_t ** );
static void Flush( decoder_t * );
vlc_module_begin ()
set_description( N_("ADPCM audio decoder") )
set_capability( "decoder", 50 )
set_category( CAT_INPUT )
set_subcategory( SUBCAT_INPUT_ACODEC )
set_callbacks( OpenDecoder, CloseDecoder )
vlc_module_end ()
/*****************************************************************************
* Local prototypes
*****************************************************************************/
enum adpcm_codec_e
{
ADPCM_IMA_QT,
ADPCM_IMA_WAV,
ADPCM_MS,
ADPCM_DK3,
ADPCM_DK4,
ADPCM_EA
};
struct decoder_sys_t
{
enum adpcm_codec_e codec;
size_t i_block;
size_t i_samplesperblock;
date_t end_date;
int16_t *prev;
};
static void DecodeAdpcmMs ( decoder_t *, int16_t *, uint8_t * );
static void DecodeAdpcmImaWav( decoder_t *, int16_t *, uint8_t * );
static void DecodeAdpcmImaQT ( decoder_t *, int16_t *, uint8_t * );
static void DecodeAdpcmDk4 ( decoder_t *, int16_t *, uint8_t * );
static void DecodeAdpcmDk3 ( decoder_t *, int16_t *, uint8_t * );
static void DecodeAdpcmEA ( decoder_t *, int16_t *, uint8_t * );
static const int pi_channels_maps[6] =
{
0,
AOUT_CHAN_CENTER,
AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT,
AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_CENTER,
AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_REARLEFT | AOUT_CHAN_REARLEFT,
AOUT_CHAN_LEFT | AOUT_CHAN_RIGHT | AOUT_CHAN_CENTER
| AOUT_CHAN_REARLEFT | AOUT_CHAN_REARLEFT
};
/* Various table from http://www.pcisys.net/~melanson/codecs/adpcm.txt */
static const int i_index_table[16] =
{
-1, -1, -1, -1, 2, 4, 6, 8,
-1, -1, -1, -1, 2, 4, 6, 8
};
static const int i_step_table[89] =
{
7, 8, 9, 10, 11, 12, 13, 14, 16, 17,
19, 21, 23, 25, 28, 31, 34, 37, 41, 45,
50, 55, 60, 66, 73, 80, 88, 97, 107, 118,
130, 143, 157, 173, 190, 209, 230, 253, 279, 307,
337, 371, 408, 449, 494, 544, 598, 658, 724, 796,
876, 963, 1060, 1166, 1282, 1411, 1552, 1707, 1878, 2066,
2272, 2499, 2749, 3024, 3327, 3660, 4026, 4428, 4871, 5358,
5894, 6484, 7132, 7845, 8630, 9493, 10442, 11487, 12635, 13899,
15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794, 32767
};
static const int i_adaptation_table[16] =
{
230, 230, 230, 230, 307, 409, 512, 614,
768, 614, 512, 409, 307, 230, 230, 230
};
static const int i_adaptation_coeff1[7] =
{
256, 512, 0, 192, 240, 460, 392
};
static const int i_adaptation_coeff2[7] =
{
0, -256, 0, 64, 0, -208, -232
};
/*****************************************************************************
* OpenDecoder: probe the decoder and return score
*****************************************************************************/
static int OpenDecoder( vlc_object_t *p_this )
{
decoder_t *p_dec = (decoder_t*)p_this;
decoder_sys_t *p_sys;
switch( p_dec->fmt_in.i_codec )
{
case VLC_FOURCC('i','m','a', '4'): /* IMA ADPCM */
case VLC_FOURCC('m','s',0x00,0x02): /* MS ADPCM */
case VLC_FOURCC('m','s',0x00,0x11): /* IMA ADPCM */
case VLC_CODEC_ADPCM_DK3:
case VLC_CODEC_ADPCM_DK4:
case VLC_FOURCC('X','A','J', 0): /* EA ADPCM */
break;
default:
return VLC_EGENERIC;
}
if( p_dec->fmt_in.audio.i_channels <= 0 ||
p_dec->fmt_in.audio.i_channels > 5 )
{
msg_Err( p_dec, "invalid number of channel (not between 1 and 5): %i",
p_dec->fmt_in.audio.i_channels );
return VLC_EGENERIC;
}
if( p_dec->fmt_in.audio.i_rate <= 0 )
{
msg_Err( p_dec, "bad samplerate" );
return VLC_EGENERIC;
}
/* Allocate the memory needed to store the decoder's structure */
p_sys = malloc(sizeof(*p_sys));
if( unlikely(p_sys == NULL) )
return VLC_ENOMEM;
p_sys->prev = NULL;
switch( p_dec->fmt_in.i_codec )
{
case VLC_FOURCC('i','m','a', '4'): /* IMA ADPCM */
p_sys->codec = ADPCM_IMA_QT;
break;
case VLC_CODEC_ADPCM_IMA_WAV: /* IMA ADPCM */
p_sys->codec = ADPCM_IMA_WAV;
break;
case VLC_CODEC_ADPCM_MS: /* MS ADPCM */
p_sys->codec = ADPCM_MS;
break;
case VLC_CODEC_ADPCM_DK4: /* Duck DK4 ADPCM */
p_sys->codec = ADPCM_DK4;
break;
case VLC_CODEC_ADPCM_DK3: /* Duck DK3 ADPCM */
p_sys->codec = ADPCM_DK3;
break;
case VLC_FOURCC('X','A','J', 0): /* EA ADPCM */
p_sys->codec = ADPCM_EA;
p_sys->prev = calloc( 2 * p_dec->fmt_in.audio.i_channels,
sizeof( int16_t ) );
if( unlikely(p_sys->prev == NULL) )
{
free( p_sys );
return VLC_ENOMEM;
}
break;
}
if( p_dec->fmt_in.audio.i_blockalign <= 0 )
{
p_sys->i_block = (p_sys->codec == ADPCM_IMA_QT) ?
34 * p_dec->fmt_in.audio.i_channels : 1024;
msg_Warn( p_dec, "block size undefined, using %zu", p_sys->i_block );
}
else
{
p_sys->i_block = p_dec->fmt_in.audio.i_blockalign;
}
/* calculate samples per block */
switch( p_sys->codec )
{
case ADPCM_IMA_QT:
p_sys->i_samplesperblock = 64;
break;
case ADPCM_IMA_WAV:
p_sys->i_samplesperblock =
2 * ( p_sys->i_block - 4 * p_dec->fmt_in.audio.i_channels ) /
p_dec->fmt_in.audio.i_channels;
break;
case ADPCM_MS:
p_sys->i_samplesperblock =
2 * (p_sys->i_block - 7 * p_dec->fmt_in.audio.i_channels) /
p_dec->fmt_in.audio.i_channels + 2;
break;
case ADPCM_DK4:
p_sys->i_samplesperblock =
2 * (p_sys->i_block - 4 * p_dec->fmt_in.audio.i_channels) /
p_dec->fmt_in.audio.i_channels + 1;
break;
case ADPCM_DK3:
p_dec->fmt_in.audio.i_channels = 2;
p_sys->i_samplesperblock = ( 4 * ( p_sys->i_block - 16 ) + 2 )/ 3;
break;
case ADPCM_EA:
p_sys->i_samplesperblock =
2 * (p_sys->i_block - p_dec->fmt_in.audio.i_channels) /
p_dec->fmt_in.audio.i_channels;
}
msg_Dbg( p_dec, "format: samplerate:%d Hz channels:%d bits/sample:%d "
"blockalign:%zu samplesperblock:%zu",
p_dec->fmt_in.audio.i_rate, p_dec->fmt_in.audio.i_channels,
p_dec->fmt_in.audio.i_bitspersample, p_sys->i_block,
p_sys->i_samplesperblock );
p_dec->p_sys = p_sys;
p_dec->fmt_out.i_cat = AUDIO_ES;
p_dec->fmt_out.i_codec = VLC_CODEC_S16N;
p_dec->fmt_out.audio.i_rate = p_dec->fmt_in.audio.i_rate;
p_dec->fmt_out.audio.i_channels = p_dec->fmt_in.audio.i_channels;
p_dec->fmt_out.audio.i_physical_channels =
p_dec->fmt_out.audio.i_original_channels =
pi_channels_maps[p_dec->fmt_in.audio.i_channels];
date_Init( &p_sys->end_date, p_dec->fmt_out.audio.i_rate, 1 );
date_Set( &p_sys->end_date, 0 );
p_dec->pf_decode_audio = DecodeBlock;
p_dec->pf_flush = Flush;
return VLC_SUCCESS;
}
/*****************************************************************************
* Flush:
*****************************************************************************/
static void Flush( decoder_t *p_dec )
{
decoder_sys_t *p_sys = p_dec->p_sys;
date_Set( &p_sys->end_date, 0 );
}
/*****************************************************************************
* DecodeBlock:
*****************************************************************************/
static block_t *DecodeBlock( decoder_t *p_dec, block_t **pp_block )
{
decoder_sys_t *p_sys = p_dec->p_sys;
block_t *p_block;
if( !pp_block || !*pp_block ) return NULL;
p_block = *pp_block;
*pp_block = NULL; /* So the packet doesn't get re-sent */
if( p_block->i_flags & BLOCK_FLAG_CORRUPTED )
{
block_Release( p_block );
return NULL;
}
if( p_block->i_flags & BLOCK_FLAG_DISCONTINUITY )
Flush( p_dec );
if( p_block->i_pts > VLC_TS_INVALID &&
p_block->i_pts != date_Get( &p_sys->end_date ) )
{
date_Set( &p_sys->end_date, p_block->i_pts );
}
else if( !date_Get( &p_sys->end_date ) )
{
/* We've just started the stream, wait for the first PTS. */
block_Release( p_block );
return NULL;
}
/* Don't re-use the same pts twice */
p_block->i_pts = VLC_TS_INVALID;
if( p_block->i_buffer >= p_sys->i_block )
{
block_t *p_out;
p_out = decoder_NewAudioBuffer( p_dec, p_sys->i_samplesperblock );
if( p_out == NULL )
{
block_Release( p_block );
return NULL;
}
p_out->i_pts = date_Get( &p_sys->end_date );
p_out->i_length = date_Increment( &p_sys->end_date,
p_sys->i_samplesperblock ) - p_out->i_pts;
switch( p_sys->codec )
{
case ADPCM_IMA_QT:
DecodeAdpcmImaQT( p_dec, (int16_t*)p_out->p_buffer,
p_block->p_buffer );
break;
case ADPCM_IMA_WAV:
DecodeAdpcmImaWav( p_dec, (int16_t*)p_out->p_buffer,
p_block->p_buffer );
break;
case ADPCM_MS:
DecodeAdpcmMs( p_dec, (int16_t*)p_out->p_buffer,
p_block->p_buffer );
break;
case ADPCM_DK4:
DecodeAdpcmDk4( p_dec, (int16_t*)p_out->p_buffer,
p_block->p_buffer );
break;
case ADPCM_DK3:
DecodeAdpcmDk3( p_dec, (int16_t*)p_out->p_buffer,
p_block->p_buffer );
break;
case ADPCM_EA:
DecodeAdpcmEA( p_dec, (int16_t*)p_out->p_buffer,
p_block->p_buffer );
default:
break;
}
p_block->p_buffer += p_sys->i_block;
p_block->i_buffer -= p_sys->i_block;
return p_out;
}
block_Release( p_block );
return NULL;
}
/*****************************************************************************
* CloseDecoder:
*****************************************************************************/
static void CloseDecoder( vlc_object_t *p_this )
{
decoder_t *p_dec = (decoder_t *)p_this;
decoder_sys_t *p_sys = p_dec->p_sys;
free( p_sys->prev );
free( p_sys );
}
/*****************************************************************************
* Local functions
*****************************************************************************/
#define CLAMP( v, min, max ) \
if( (v) < (min) ) (v) = (min); \
if( (v) > (max) ) (v) = (max)
#define GetByte( v ) \
(v) = *p_buffer; p_buffer++;
#define GetWord( v ) \
(v) = *p_buffer; p_buffer++; \
(v) |= ( *p_buffer ) << 8; p_buffer++; \
if( (v)&0x8000 ) (v) -= 0x010000;
/*
* MS
*/
typedef struct adpcm_ms_channel_s
{
int i_idelta;
int i_sample1, i_sample2;
int i_coeff1, i_coeff2;
} adpcm_ms_channel_t;
static int AdpcmMsExpandNibble(adpcm_ms_channel_t *p_channel,
int i_nibble )
{
int i_predictor;
int i_snibble;
/* expand sign */
i_snibble = i_nibble - ( i_nibble&0x08 ? 0x10 : 0 );
i_predictor = ( p_channel->i_sample1 * p_channel->i_coeff1 +
p_channel->i_sample2 * p_channel->i_coeff2 ) / 256 +
i_snibble * p_channel->i_idelta;
CLAMP( i_predictor, -32768, 32767 );
p_channel->i_sample2 = p_channel->i_sample1;
p_channel->i_sample1 = i_predictor;
p_channel->i_idelta = ( i_adaptation_table[i_nibble] *
p_channel->i_idelta ) / 256;
if( p_channel->i_idelta < 16 )
{
p_channel->i_idelta = 16;
}
return( i_predictor );
}
static void DecodeAdpcmMs( decoder_t *p_dec, int16_t *p_sample,
uint8_t *p_buffer )
{
decoder_sys_t *p_sys = p_dec->p_sys;
adpcm_ms_channel_t channel[2];
int i_nibbles;
int b_stereo;
int i_block_predictor;
b_stereo = p_dec->fmt_in.audio.i_channels == 2 ? 1 : 0;
GetByte( i_block_predictor );
CLAMP( i_block_predictor, 0, 6 );
channel[0].i_coeff1 = i_adaptation_coeff1[i_block_predictor];
channel[0].i_coeff2 = i_adaptation_coeff2[i_block_predictor];
if( b_stereo )
{
GetByte( i_block_predictor );
CLAMP( i_block_predictor, 0, 6 );
channel[1].i_coeff1 = i_adaptation_coeff1[i_block_predictor];
channel[1].i_coeff2 = i_adaptation_coeff2[i_block_predictor];
}
GetWord( channel[0].i_idelta );
if( b_stereo )
{
GetWord( channel[1].i_idelta );
}
GetWord( channel[0].i_sample1 );
if( b_stereo )
{
GetWord( channel[1].i_sample1 );
}
GetWord( channel[0].i_sample2 );
if( b_stereo )
{
GetWord( channel[1].i_sample2 );
}
if( b_stereo )
{
*p_sample++ = channel[0].i_sample2;
*p_sample++ = channel[1].i_sample2;
*p_sample++ = channel[0].i_sample1;
*p_sample++ = channel[1].i_sample1;
}
else
{
*p_sample++ = channel[0].i_sample2;
*p_sample++ = channel[0].i_sample1;
}
for( i_nibbles = 2 * (p_sys->i_block - 7 * p_dec->fmt_in.audio.i_channels);
i_nibbles > 0; i_nibbles -= 2, p_buffer++ )
{
*p_sample++ = AdpcmMsExpandNibble( &channel[0], (*p_buffer) >> 4);
*p_sample++ = AdpcmMsExpandNibble( &channel[b_stereo ? 1 : 0],
(*p_buffer)&0x0f);
}
}
/*
* IMA-WAV
*/
typedef struct adpcm_ima_wav_channel_s
{
int i_predictor;
int i_step_index;
} adpcm_ima_wav_channel_t;
static int AdpcmImaWavExpandNibble(adpcm_ima_wav_channel_t *p_channel,
int i_nibble )
{
int i_diff;
i_diff = i_step_table[p_channel->i_step_index] >> 3;
if( i_nibble&0x04 ) i_diff += i_step_table[p_channel->i_step_index];
if( i_nibble&0x02 ) i_diff += i_step_table[p_channel->i_step_index]>>1;
if( i_nibble&0x01 ) i_diff += i_step_table[p_channel->i_step_index]>>2;
if( i_nibble&0x08 )
p_channel->i_predictor -= i_diff;
else
p_channel->i_predictor += i_diff;
CLAMP( p_channel->i_predictor, -32768, 32767 );
p_channel->i_step_index += i_index_table[i_nibble];
CLAMP( p_channel->i_step_index, 0, 88 );
return( p_channel->i_predictor );
}
static void DecodeAdpcmImaWav( decoder_t *p_dec, int16_t *p_sample,
uint8_t *p_buffer )
{
decoder_sys_t *p_sys = p_dec->p_sys;
adpcm_ima_wav_channel_t channel[2];
int i_nibbles;
int b_stereo;
b_stereo = p_dec->fmt_in.audio.i_channels == 2 ? 1 : 0;
GetWord( channel[0].i_predictor );
GetByte( channel[0].i_step_index );
CLAMP( channel[0].i_step_index, 0, 88 );
p_buffer++;
if( b_stereo )
{
GetWord( channel[1].i_predictor );
GetByte( channel[1].i_step_index );
CLAMP( channel[1].i_step_index, 0, 88 );
p_buffer++;
}
if( b_stereo )
{
for( i_nibbles = 2 * (p_sys->i_block - 8);
i_nibbles > 0;
i_nibbles -= 16 )
{
int i;
for( i = 0; i < 4; i++ )
{
p_sample[i * 4] =
AdpcmImaWavExpandNibble(&channel[0],p_buffer[i]&0x0f);
p_sample[i * 4 + 2] =
AdpcmImaWavExpandNibble(&channel[0],p_buffer[i] >> 4);
}
p_buffer += 4;
for( i = 0; i < 4; i++ )
{
p_sample[i * 4 + 1] =
AdpcmImaWavExpandNibble(&channel[1],p_buffer[i]&0x0f);
p_sample[i * 4 + 3] =
AdpcmImaWavExpandNibble(&channel[1],p_buffer[i] >> 4);
}
p_buffer += 4;
p_sample += 16;
}
}
else
{
for( i_nibbles = 2 * (p_sys->i_block - 4);
i_nibbles > 0;
i_nibbles -= 2, p_buffer++ )
{
*p_sample++ =AdpcmImaWavExpandNibble( &channel[0], (*p_buffer)&0x0f );
*p_sample++ =AdpcmImaWavExpandNibble( &channel[0], (*p_buffer) >> 4 );
}
}
}
/*
* Ima4 in QT file
*/
static void DecodeAdpcmImaQT( decoder_t *p_dec, int16_t *p_sample,
uint8_t *p_buffer )
{
adpcm_ima_wav_channel_t channel[2];
int i_nibbles;
int i_ch;
int i_step;
i_step = p_dec->fmt_in.audio.i_channels;
for( i_ch = 0; i_ch < p_dec->fmt_in.audio.i_channels; i_ch++ )
{
/* load preambule */
channel[i_ch].i_predictor = (int16_t)((( ( p_buffer[0] << 1 )|( p_buffer[1] >> 7 ) ))<<7);
channel[i_ch].i_step_index = p_buffer[1]&0x7f;
CLAMP( channel[i_ch].i_step_index, 0, 88 );
p_buffer += 2;
for( i_nibbles = 0; i_nibbles < 64; i_nibbles +=2 )
{
*p_sample = AdpcmImaWavExpandNibble( &channel[i_ch], (*p_buffer)&0x0f);
p_sample += i_step;
*p_sample = AdpcmImaWavExpandNibble( &channel[i_ch], (*p_buffer >> 4)&0x0f);
p_sample += i_step;
p_buffer++;
}
/* Next channel */
p_sample += 1 - 64 * i_step;
}
}
/*
* Dk4
*/
static void DecodeAdpcmDk4( decoder_t *p_dec, int16_t *p_sample,
uint8_t *p_buffer )
{
decoder_sys_t *p_sys = p_dec->p_sys;
adpcm_ima_wav_channel_t channel[2];
size_t i_nibbles;
int b_stereo;
b_stereo = p_dec->fmt_in.audio.i_channels == 2 ? 1 : 0;
GetWord( channel[0].i_predictor );
GetByte( channel[0].i_step_index );
CLAMP( channel[0].i_step_index, 0, 88 );
p_buffer++;
if( b_stereo )
{
GetWord( channel[1].i_predictor );
GetByte( channel[1].i_step_index );
CLAMP( channel[1].i_step_index, 0, 88 );
p_buffer++;
}
/* first output predictor */
*p_sample++ = channel[0].i_predictor;
if( b_stereo )
{
*p_sample++ = channel[1].i_predictor;
}
for( i_nibbles = 0;
i_nibbles < p_sys->i_block - 4 * (b_stereo ? 2:1 );
i_nibbles++ )
{
*p_sample++ = AdpcmImaWavExpandNibble( &channel[0],
(*p_buffer) >> 4);
*p_sample++ = AdpcmImaWavExpandNibble( &channel[b_stereo ? 1 : 0],
(*p_buffer)&0x0f);
p_buffer++;
}
}
/*
* Dk3
*/
static void DecodeAdpcmDk3( decoder_t *p_dec, int16_t *p_sample,
uint8_t *p_buffer )
{
decoder_sys_t *p_sys = p_dec->p_sys;
uint8_t *p_end = &p_buffer[p_sys->i_block];
adpcm_ima_wav_channel_t sum;
adpcm_ima_wav_channel_t diff;
int i_diff_value;
p_buffer += 10;
GetWord( sum.i_predictor );
GetWord( diff.i_predictor );
GetByte( sum.i_step_index );
GetByte( diff.i_step_index );
i_diff_value = diff.i_predictor;
/* we process 6 nibbles at once */
while( p_buffer + 1 <= p_end )
{
/* first 3 nibbles */
AdpcmImaWavExpandNibble( &sum,
(*p_buffer)&0x0f);
AdpcmImaWavExpandNibble( &diff,
(*p_buffer) >> 4 );
i_diff_value = ( i_diff_value + diff.i_predictor ) / 2;
*p_sample++ = sum.i_predictor + i_diff_value;
*p_sample++ = sum.i_predictor - i_diff_value;
p_buffer++;
AdpcmImaWavExpandNibble( &sum,
(*p_buffer)&0x0f);
*p_sample++ = sum.i_predictor + i_diff_value;
*p_sample++ = sum.i_predictor - i_diff_value;
/* now last 3 nibbles */
AdpcmImaWavExpandNibble( &sum,
(*p_buffer)>>4);
p_buffer++;
if( p_buffer < p_end )
{
AdpcmImaWavExpandNibble( &diff,
(*p_buffer)&0x0f );
i_diff_value = ( i_diff_value + diff.i_predictor ) / 2;
*p_sample++ = sum.i_predictor + i_diff_value;
*p_sample++ = sum.i_predictor - i_diff_value;
AdpcmImaWavExpandNibble( &sum,
(*p_buffer)>>4);
p_buffer++;
*p_sample++ = sum.i_predictor + i_diff_value;
*p_sample++ = sum.i_predictor - i_diff_value;
}
}
}
/*
* EA ADPCM
*/
#define MAX_CHAN 5
static void DecodeAdpcmEA( decoder_t *p_dec, int16_t *p_sample,
uint8_t *p_buffer )
{
static const int16_t EATable[]=
{
0x0000, 0x00F0, 0x01CC, 0x0188, 0x0000, 0x0000, 0xFF30, 0xFF24,
0x0000, 0x0001, 0x0003, 0x0004, 0x0007, 0x0008, 0x000A, 0x000B,
0x0000, 0xFFFF, 0xFFFD, 0xFFFC,
};
decoder_sys_t *p_sys = p_dec->p_sys;
int_fast32_t c1[MAX_CHAN], c2[MAX_CHAN];
int_fast8_t d[MAX_CHAN];
unsigned chans = p_dec->fmt_in.audio.i_channels;
const uint8_t *p_end = &p_buffer[p_sys->i_block];
int16_t *prev = p_sys->prev;
int16_t *cur = prev + chans;
for (unsigned c = 0; c < chans; c++)
{
uint8_t input = p_buffer[c];
c1[c] = EATable[input >> 4];
c2[c] = EATable[(input >> 4) + 4];
d[c] = (input & 0xf) + 8;
}
for (p_buffer += chans; p_buffer < p_end; p_buffer += chans)
{
union { uint32_t u; int32_t i; } spl;
for (unsigned c = 0; c < chans; c++)
{
spl.u = (p_buffer[c] & 0xf0u) << 24u;
spl.i >>= d[c];
spl.i = (spl.i + cur[c] * c1[c] + prev[c] * c2[c] + 0x80) >> 8;
CLAMP(spl.i, -32768, 32767);
prev[c] = cur[c];
cur[c] = spl.i;
*(p_sample++) = spl.i;
}
for (unsigned c = 0; c < chans; c++)
{
spl.u = (p_buffer[c] & 0x0fu) << 28u;
spl.i >>= d[c];
spl.i = (spl.i + cur[c] * c1[c] + prev[c] * c2[c] + 0x80) >> 8;
CLAMP(spl.i, -32768, 32767);
prev[c] = cur[c];
cur[c] = spl.i;
*(p_sample++) = spl.i;
}
}
}
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