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/*
* DCA compatible decoder
* Copyright ( C ) 2004 Gildas Bazin
* Copyright ( C ) 2004 Benjamin Zores
* Copyright ( C ) 2006 Benjamin Larsson
* Copyright ( C ) 2007 Konstantin Shishkov
*
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* This file is part of FFmpeg .
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*
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* FFmpeg is free software ; you can redistribute it and / or
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* 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 .
*
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* FFmpeg is distributed in the hope that it will be useful ,
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* 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
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* License along with FFmpeg ; if not , write to the Free Software
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* Foundation , Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
*/
# include <math.h>
# include <stddef.h>
# include <stdio.h>
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# include "libavutil/channel_layout.h"
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# include "libavutil/common.h"
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# include "libavutil/float_dsp.h"
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# include "libavutil/internal.h"
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# include "libavutil/intreadwrite.h"
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# include "libavutil/mathematics.h"
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# include "libavutil/opt.h"
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# include "libavutil/samplefmt.h"
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# include "avcodec.h"
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# include "fft.h"
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# include "get_bits.h"
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# include "dcadata.h"
# include "dcahuff.h"
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# include "dca.h"
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# include "mathops.h"
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# include "synth_filter.h"
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# include "dcadsp.h"
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# include "fmtconvert.h"
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# include "internal.h"
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# if ARCH_ARM
# include "arm / dca.h"
# endif
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//#define TRACE
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# define DCA_PRIM_CHANNELS_MAX (7)
# define DCA_ABITS_MAX (32) /* Should be 28 */
# define DCA_SUBSUBFRAMES_MAX (4)
# define DCA_SUBFRAMES_MAX (16)
# define DCA_BLOCKS_MAX (16)
# define DCA_LFE_MAX (3)
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# define DCA_CHSETS_MAX (4)
# define DCA_CHSET_CHANS_MAX (8)
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enum DCAMode {
DCA_MONO = 0 ,
DCA_CHANNEL ,
DCA_STEREO ,
DCA_STEREO_SUMDIFF ,
DCA_STEREO_TOTAL ,
DCA_3F ,
DCA_2F1R ,
DCA_3F1R ,
DCA_2F2R ,
DCA_3F2R ,
DCA_4F2R
} ;
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/* these are unconfirmed but should be mostly correct */
enum DCAExSSSpeakerMask {
DCA_EXSS_FRONT_CENTER = 0x0001 ,
DCA_EXSS_FRONT_LEFT_RIGHT = 0x0002 ,
DCA_EXSS_SIDE_REAR_LEFT_RIGHT = 0x0004 ,
DCA_EXSS_LFE = 0x0008 ,
DCA_EXSS_REAR_CENTER = 0x0010 ,
DCA_EXSS_FRONT_HIGH_LEFT_RIGHT = 0x0020 ,
DCA_EXSS_REAR_LEFT_RIGHT = 0x0040 ,
DCA_EXSS_FRONT_HIGH_CENTER = 0x0080 ,
DCA_EXSS_OVERHEAD = 0x0100 ,
DCA_EXSS_CENTER_LEFT_RIGHT = 0x0200 ,
DCA_EXSS_WIDE_LEFT_RIGHT = 0x0400 ,
DCA_EXSS_SIDE_LEFT_RIGHT = 0x0800 ,
DCA_EXSS_LFE2 = 0x1000 ,
DCA_EXSS_SIDE_HIGH_LEFT_RIGHT = 0x2000 ,
DCA_EXSS_REAR_HIGH_CENTER = 0x4000 ,
DCA_EXSS_REAR_HIGH_LEFT_RIGHT = 0x8000 ,
} ;
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enum DCAXxchSpeakerMask {
DCA_XXCH_FRONT_CENTER = 0x0000001 ,
DCA_XXCH_FRONT_LEFT = 0x0000002 ,
DCA_XXCH_FRONT_RIGHT = 0x0000004 ,
DCA_XXCH_SIDE_REAR_LEFT = 0x0000008 ,
DCA_XXCH_SIDE_REAR_RIGHT = 0x0000010 ,
DCA_XXCH_LFE1 = 0x0000020 ,
DCA_XXCH_REAR_CENTER = 0x0000040 ,
DCA_XXCH_SURROUND_REAR_LEFT = 0x0000080 ,
DCA_XXCH_SURROUND_REAR_RIGHT = 0x0000100 ,
DCA_XXCH_SIDE_SURROUND_LEFT = 0x0000200 ,
DCA_XXCH_SIDE_SURROUND_RIGHT = 0x0000400 ,
DCA_XXCH_FRONT_CENTER_LEFT = 0x0000800 ,
DCA_XXCH_FRONT_CENTER_RIGHT = 0x0001000 ,
DCA_XXCH_FRONT_HIGH_LEFT = 0x0002000 ,
DCA_XXCH_FRONT_HIGH_CENTER = 0x0004000 ,
DCA_XXCH_FRONT_HIGH_RIGHT = 0x0008000 ,
DCA_XXCH_LFE2 = 0x0010000 ,
DCA_XXCH_SIDE_FRONT_LEFT = 0x0020000 ,
DCA_XXCH_SIDE_FRONT_RIGHT = 0x0040000 ,
DCA_XXCH_OVERHEAD = 0x0080000 ,
DCA_XXCH_SIDE_HIGH_LEFT = 0x0100000 ,
DCA_XXCH_SIDE_HIGH_RIGHT = 0x0200000 ,
DCA_XXCH_REAR_HIGH_CENTER = 0x0400000 ,
DCA_XXCH_REAR_HIGH_LEFT = 0x0800000 ,
DCA_XXCH_REAR_HIGH_RIGHT = 0x1000000 ,
DCA_XXCH_REAR_LOW_CENTER = 0x2000000 ,
DCA_XXCH_REAR_LOW_LEFT = 0x4000000 ,
DCA_XXCH_REAR_LOW_RIGHT = 0x8000000 ,
} ;
static const uint32_t map_xxch_to_native [ 28 ] = {
AV_CH_FRONT_CENTER ,
AV_CH_FRONT_LEFT ,
AV_CH_FRONT_RIGHT ,
AV_CH_SIDE_LEFT ,
AV_CH_SIDE_RIGHT ,
AV_CH_LOW_FREQUENCY ,
AV_CH_BACK_CENTER ,
AV_CH_BACK_LEFT ,
AV_CH_BACK_RIGHT ,
AV_CH_SIDE_LEFT , /* side surround left -- dup sur side L */
AV_CH_SIDE_RIGHT , /* side surround right -- dup sur side R */
AV_CH_FRONT_LEFT_OF_CENTER ,
AV_CH_FRONT_RIGHT_OF_CENTER ,
AV_CH_TOP_FRONT_LEFT ,
AV_CH_TOP_FRONT_CENTER ,
AV_CH_TOP_FRONT_RIGHT ,
AV_CH_LOW_FREQUENCY , /* lfe2 -- duplicate lfe1 position */
AV_CH_FRONT_LEFT_OF_CENTER , /* side front left -- dup front cntr L */
AV_CH_FRONT_RIGHT_OF_CENTER , /* side front right -- dup front cntr R */
AV_CH_TOP_CENTER , /* overhead */
AV_CH_TOP_FRONT_LEFT , /* side high left -- dup */
AV_CH_TOP_FRONT_RIGHT , /* side high right -- dup */
AV_CH_TOP_BACK_CENTER ,
AV_CH_TOP_BACK_LEFT ,
AV_CH_TOP_BACK_RIGHT ,
AV_CH_BACK_CENTER , /* rear low center -- dup */
AV_CH_BACK_LEFT , /* rear low left -- dup */
AV_CH_BACK_RIGHT /* read low right -- dup */
} ;
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enum DCAExtensionMask {
DCA_EXT_CORE = 0x001 , ///< core in core substream
DCA_EXT_XXCH = 0x002 , ///< XXCh channels extension in core substream
DCA_EXT_X96 = 0x004 , ///< 96/24 extension in core substream
DCA_EXT_XCH = 0x008 , ///< XCh channel extension in core substream
DCA_EXT_EXSS_CORE = 0x010 , ///< core in ExSS (extension substream)
DCA_EXT_EXSS_XBR = 0x020 , ///< extended bitrate extension in ExSS
DCA_EXT_EXSS_XXCH = 0x040 , ///< XXCh channels extension in ExSS
DCA_EXT_EXSS_X96 = 0x080 , ///< 96/24 extension in ExSS
DCA_EXT_EXSS_LBR = 0x100 , ///< low bitrate component in ExSS
DCA_EXT_EXSS_XLL = 0x200 , ///< lossless extension in ExSS
} ;
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/* -1 are reserved or unknown */
static const int dca_ext_audio_descr_mask [ ] = {
DCA_EXT_XCH ,
- 1 ,
DCA_EXT_X96 ,
DCA_EXT_XCH | DCA_EXT_X96 ,
- 1 ,
- 1 ,
DCA_EXT_XXCH ,
- 1 ,
} ;
/* extensions that reside in core substream */
# define DCA_CORE_EXTS (DCA_EXT_XCH | DCA_EXT_XXCH | DCA_EXT_X96)
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/* Tables for mapping dts channel configurations to libavcodec multichannel api.
* Some compromises have been made for special configurations . Most configurations
* are never used so complete accuracy is not needed .
*
* L = left , R = right , C = center , S = surround , F = front , R = rear , T = total , OV = overhead .
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* S - > side , when both rear and back are configured move one of them to the side channel
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* OV - > center back
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* All 2 channel configurations - > AV_CH_LAYOUT_STEREO
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*/
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static const uint64_t dca_core_channel_layout [ ] = {
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AV_CH_FRONT_CENTER , ///< 1, A
AV_CH_LAYOUT_STEREO , ///< 2, A + B (dual mono)
AV_CH_LAYOUT_STEREO , ///< 2, L + R (stereo)
AV_CH_LAYOUT_STEREO , ///< 2, (L + R) + (L - R) (sum-difference)
AV_CH_LAYOUT_STEREO , ///< 2, LT + RT (left and right total)
AV_CH_LAYOUT_STEREO | AV_CH_FRONT_CENTER , ///< 3, C + L + R
AV_CH_LAYOUT_STEREO | AV_CH_BACK_CENTER , ///< 3, L + R + S
AV_CH_LAYOUT_STEREO | AV_CH_FRONT_CENTER | AV_CH_BACK_CENTER , ///< 4, C + L + R + S
AV_CH_LAYOUT_STEREO | AV_CH_SIDE_LEFT | AV_CH_SIDE_RIGHT , ///< 4, L + R + SL + SR
AV_CH_LAYOUT_STEREO | AV_CH_FRONT_CENTER | AV_CH_SIDE_LEFT |
AV_CH_SIDE_RIGHT , ///< 5, C + L + R + SL + SR
AV_CH_LAYOUT_STEREO | AV_CH_SIDE_LEFT | AV_CH_SIDE_RIGHT |
AV_CH_FRONT_LEFT_OF_CENTER | AV_CH_FRONT_RIGHT_OF_CENTER , ///< 6, CL + CR + L + R + SL + SR
AV_CH_LAYOUT_STEREO | AV_CH_BACK_LEFT | AV_CH_BACK_RIGHT |
AV_CH_FRONT_CENTER | AV_CH_BACK_CENTER , ///< 6, C + L + R + LR + RR + OV
AV_CH_FRONT_CENTER | AV_CH_FRONT_RIGHT_OF_CENTER |
AV_CH_FRONT_LEFT_OF_CENTER | AV_CH_BACK_CENTER |
AV_CH_BACK_LEFT | AV_CH_BACK_RIGHT , ///< 6, CF + CR + LF + RF + LR + RR
AV_CH_FRONT_LEFT_OF_CENTER | AV_CH_FRONT_CENTER |
AV_CH_FRONT_RIGHT_OF_CENTER | AV_CH_LAYOUT_STEREO |
AV_CH_SIDE_LEFT | AV_CH_SIDE_RIGHT , ///< 7, CL + C + CR + L + R + SL + SR
AV_CH_FRONT_LEFT_OF_CENTER | AV_CH_FRONT_RIGHT_OF_CENTER |
AV_CH_LAYOUT_STEREO | AV_CH_SIDE_LEFT | AV_CH_SIDE_RIGHT |
AV_CH_BACK_LEFT | AV_CH_BACK_RIGHT , ///< 8, CL + CR + L + R + SL1 + SL2 + SR1 + SR2
AV_CH_FRONT_LEFT_OF_CENTER | AV_CH_FRONT_CENTER |
AV_CH_FRONT_RIGHT_OF_CENTER | AV_CH_LAYOUT_STEREO |
AV_CH_SIDE_LEFT | AV_CH_BACK_CENTER | AV_CH_SIDE_RIGHT , ///< 8, CL + C + CR + L + R + SL + S + SR
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} ;
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static const int8_t dca_lfe_index [ ] = {
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1 , 2 , 2 , 2 , 2 , 3 , 2 , 3 , 2 , 3 , 2 , 3 , 1 , 3 , 2 , 3
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} ;
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static const int8_t dca_channel_reorder_lfe [ ] [ 9 ] = {
{ 0 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 4 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 3 , 4 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 4 , 5 , - 1 , - 1 , - 1 , - 1 } ,
{ 3 , 4 , 0 , 1 , 5 , 6 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 4 , 5 , 6 , - 1 , - 1 , - 1 } ,
{ 0 , 6 , 4 , 5 , 2 , 3 , - 1 , - 1 , - 1 } ,
{ 4 , 2 , 5 , 0 , 1 , 6 , 7 , - 1 , - 1 } ,
{ 5 , 6 , 0 , 1 , 7 , 3 , 8 , 4 , - 1 } ,
{ 4 , 2 , 5 , 0 , 1 , 6 , 8 , 7 , - 1 } ,
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} ;
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static const int8_t dca_channel_reorder_lfe_xch [ ] [ 9 ] = {
{ 0 , 2 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 4 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 3 , 4 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 4 , 5 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 4 , 5 , 3 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 5 , 6 , 4 , - 1 , - 1 , - 1 } ,
{ 3 , 4 , 0 , 1 , 6 , 7 , 5 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 4 , 5 , 6 , 7 , - 1 , - 1 } ,
{ 0 , 6 , 4 , 5 , 2 , 3 , 7 , - 1 , - 1 } ,
{ 4 , 2 , 5 , 0 , 1 , 7 , 8 , 6 , - 1 } ,
{ 5 , 6 , 0 , 1 , 8 , 3 , 9 , 4 , 7 } ,
{ 4 , 2 , 5 , 0 , 1 , 6 , 9 , 8 , 7 } ,
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} ;
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static const int8_t dca_channel_reorder_nolfe [ ] [ 9 ] = {
{ 0 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 2 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 2 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 3 , 4 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 3 , 0 , 1 , 4 , 5 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 3 , 4 , 5 , - 1 , - 1 , - 1 } ,
{ 0 , 5 , 3 , 4 , 1 , 2 , - 1 , - 1 , - 1 } ,
{ 3 , 2 , 4 , 0 , 1 , 5 , 6 , - 1 , - 1 } ,
{ 4 , 5 , 0 , 1 , 6 , 2 , 7 , 3 , - 1 } ,
{ 3 , 2 , 4 , 0 , 1 , 5 , 7 , 6 , - 1 } ,
} ;
static const int8_t dca_channel_reorder_nolfe_xch [ ] [ 9 ] = {
{ 0 , 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 2 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 2 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 2 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 2 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 2 , 3 , - 1 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 3 , 4 , - 1 , - 1 , - 1 , - 1 } ,
{ 0 , 1 , 3 , 4 , 2 , - 1 , - 1 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 4 , 5 , 3 , - 1 , - 1 , - 1 } ,
{ 2 , 3 , 0 , 1 , 5 , 6 , 4 , - 1 , - 1 } ,
{ 2 , 0 , 1 , 3 , 4 , 5 , 6 , - 1 , - 1 } ,
{ 0 , 5 , 3 , 4 , 1 , 2 , 6 , - 1 , - 1 } ,
{ 3 , 2 , 4 , 0 , 1 , 6 , 7 , 5 , - 1 } ,
{ 4 , 5 , 0 , 1 , 7 , 2 , 8 , 3 , 6 } ,
{ 3 , 2 , 4 , 0 , 1 , 5 , 8 , 7 , 6 } ,
} ;
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# define DCA_DOLBY 101 /* FIXME */
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# define DCA_CHANNEL_BITS 6
# define DCA_CHANNEL_MASK 0x3F
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# define DCA_LFE 0x80
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# define HEADER_SIZE 14
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# define DCA_MAX_FRAME_SIZE 16384
# define DCA_MAX_EXSS_HEADER_SIZE 4096
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# define DCA_BUFFER_PADDING_SIZE 1024
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# define DCA_NSYNCAUX 0x9A1105A0
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/** Bit allocation */
typedef struct {
int offset ; ///< code values offset
int maxbits [ 8 ] ; ///< max bits in VLC
int wrap ; ///< wrap for get_vlc2()
VLC vlc [ 8 ] ; ///< actual codes
} BitAlloc ;
static BitAlloc dca_bitalloc_index ; ///< indexes for samples VLC select
static BitAlloc dca_tmode ; ///< transition mode VLCs
static BitAlloc dca_scalefactor ; ///< scalefactor VLCs
static BitAlloc dca_smpl_bitalloc [ 11 ] ; ///< samples VLCs
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static av_always_inline int get_bitalloc ( GetBitContext * gb , BitAlloc * ba ,
int idx )
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{
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return get_vlc2 ( gb , ba - > vlc [ idx ] . table , ba - > vlc [ idx ] . bits , ba - > wrap ) +
ba - > offset ;
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}
typedef struct {
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const AVClass * class ; ///< class for AVOptions
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AVCodecContext * avctx ;
/* Frame header */
int frame_type ; ///< type of the current frame
int samples_deficit ; ///< deficit sample count
int crc_present ; ///< crc is present in the bitstream
int sample_blocks ; ///< number of PCM sample blocks
int frame_size ; ///< primary frame byte size
int amode ; ///< audio channels arrangement
int sample_rate ; ///< audio sampling rate
int bit_rate ; ///< transmission bit rate
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int bit_rate_index ; ///< transmission bit rate index
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int dynrange ; ///< embedded dynamic range flag
int timestamp ; ///< embedded time stamp flag
int aux_data ; ///< auxiliary data flag
int hdcd ; ///< source material is mastered in HDCD
int ext_descr ; ///< extension audio descriptor flag
int ext_coding ; ///< extended coding flag
int aspf ; ///< audio sync word insertion flag
int lfe ; ///< low frequency effects flag
int predictor_history ; ///< predictor history flag
int header_crc ; ///< header crc check bytes
int multirate_inter ; ///< multirate interpolator switch
int version ; ///< encoder software revision
int copy_history ; ///< copy history
int source_pcm_res ; ///< source pcm resolution
int front_sum ; ///< front sum/difference flag
int surround_sum ; ///< surround sum/difference flag
int dialog_norm ; ///< dialog normalisation parameter
/* Primary audio coding header */
int subframes ; ///< number of subframes
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int total_channels ; ///< number of channels including extensions
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int prim_channels ; ///< number of primary audio channels
int subband_activity [ DCA_PRIM_CHANNELS_MAX ] ; ///< subband activity count
int vq_start_subband [ DCA_PRIM_CHANNELS_MAX ] ; ///< high frequency vq start subband
int joint_intensity [ DCA_PRIM_CHANNELS_MAX ] ; ///< joint intensity coding index
int transient_huffman [ DCA_PRIM_CHANNELS_MAX ] ; ///< transient mode code book
int scalefactor_huffman [ DCA_PRIM_CHANNELS_MAX ] ; ///< scale factor code book
int bitalloc_huffman [ DCA_PRIM_CHANNELS_MAX ] ; ///< bit allocation quantizer select
int quant_index_huffman [ DCA_PRIM_CHANNELS_MAX ] [ DCA_ABITS_MAX ] ; ///< quantization index codebook select
float scalefactor_adj [ DCA_PRIM_CHANNELS_MAX ] [ DCA_ABITS_MAX ] ; ///< scale factor adjustment
/* Primary audio coding side information */
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int subsubframes [ DCA_SUBFRAMES_MAX ] ; ///< number of subsubframes
int partial_samples [ DCA_SUBFRAMES_MAX ] ; ///< partial subsubframe samples count
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int prediction_mode [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] ; ///< prediction mode (ADPCM used or not)
int prediction_vq [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] ; ///< prediction VQ coefs
int bitalloc [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] ; ///< bit allocation index
int transition_mode [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] ; ///< transition mode (transients)
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int32_t scale_factor [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] [ 2 ] ; ///< scale factors (2 if transient)
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int joint_huff [ DCA_PRIM_CHANNELS_MAX ] ; ///< joint subband scale factors codebook
int joint_scale_factor [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] ; ///< joint subband scale factors
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float downmix_coef [ DCA_PRIM_CHANNELS_MAX + 1 ] [ 2 ] ; ///< stereo downmix coefficients
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int dynrange_coef ; ///< dynamic range coefficient
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/* Core substream's embedded downmix coefficients (cf. ETSI TS 102 114 V1.4.1)
* Input : primary audio channels ( incl . LFE if present )
* Output : downmix audio channels ( up to 4 , no LFE ) */
uint8_t core_downmix ; ///< embedded downmix coefficients available
uint8_t core_downmix_amode ; ///< audio channel arrangement of embedded downmix
uint16_t core_downmix_codes [ DCA_PRIM_CHANNELS_MAX + 1 ] [ 4 ] ; ///< embedded downmix coefficients (9-bit codes)
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int32_t high_freq_vq [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] ; ///< VQ encoded high frequency subbands
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float lfe_data [ 2 * DCA_LFE_MAX * ( DCA_BLOCKS_MAX + 4 ) ] ; ///< Low frequency effect data
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int lfe_scale_factor ;
/* Subband samples history (for ADPCM) */
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DECLARE_ALIGNED ( 16 , float , subband_samples_hist ) [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] [ 4 ] ;
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DECLARE_ALIGNED ( 32 , float , subband_fir_hist ) [ DCA_PRIM_CHANNELS_MAX ] [ 512 ] ;
DECLARE_ALIGNED ( 32 , float , subband_fir_noidea ) [ DCA_PRIM_CHANNELS_MAX ] [ 32 ] ;
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int hist_index [ DCA_PRIM_CHANNELS_MAX ] ;
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DECLARE_ALIGNED ( 32 , float , raXin ) [ 32 ] ;
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int output ; ///< type of output
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DECLARE_ALIGNED ( 32 , float , subband_samples ) [ DCA_BLOCKS_MAX ] [ DCA_PRIM_CHANNELS_MAX ] [ DCA_SUBBANDS ] [ 8 ] ;
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float * samples_chanptr [ DCA_PRIM_CHANNELS_MAX + 1 ] ;
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float * extra_channels [ DCA_PRIM_CHANNELS_MAX + 1 ] ;
uint8_t * extra_channels_buffer ;
unsigned int extra_channels_buffer_size ;
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uint8_t dca_buffer [ DCA_MAX_FRAME_SIZE + DCA_MAX_EXSS_HEADER_SIZE + DCA_BUFFER_PADDING_SIZE ] ;
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int dca_buffer_size ; ///< how much data is in the dca_buffer
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const int8_t * channel_order_tab ; ///< channel reordering table, lfe and non lfe
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GetBitContext gb ;
/* Current position in DCA frame */
int current_subframe ;
int current_subsubframe ;
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int core_ext_mask ; ///< present extensions in the core substream
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/* XCh extension information */
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int xch_present ; ///< XCh extension present and valid
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int xch_base_channel ; ///< index of first (only) channel containing XCH data
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int xch_disable ; ///< whether the XCh extension should be decoded or not
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/* XXCH extension information */
int xxch_chset ;
int xxch_nbits_spk_mask ;
uint32_t xxch_core_spkmask ;
uint32_t xxch_spk_masks [ 4 ] ; /* speaker masks, last element is core mask */
int xxch_chset_nch [ 4 ] ;
float xxch_dmix_sf [ DCA_CHSETS_MAX ] ;
uint32_t xxch_dmix_embedded ; /* lower layer has mix pre-embedded, per chset */
float xxch_dmix_coeff [ DCA_PRIM_CHANNELS_MAX ] [ 32 ] ; /* worst case sizing */
int8_t xxch_order_tab [ 32 ] ;
int8_t lfe_index ;
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/* ExSS header parser */
int static_fields ; ///< static fields present
int mix_metadata ; ///< mixing metadata present
int num_mix_configs ; ///< number of mix out configurations
int mix_config_num_ch [ 4 ] ; ///< number of channels in each mix out configuration
int profile ;
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int debug_flag ; ///< used for suppressing repeated error messages output
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AVFloatDSPContext fdsp ;
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FFTContext imdct ;
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SynthFilterContext synth ;
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DCADSPContext dcadsp ;
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FmtConvertContext fmt_conv ;
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} DCAContext ;
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static float dca_dmix_code ( unsigned code ) ;
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static const uint16_t dca_vlc_offs [ ] = {
0 , 512 , 640 , 768 , 1282 , 1794 , 2436 , 3080 , 3770 , 4454 , 5364 ,
5372 , 5380 , 5388 , 5392 , 5396 , 5412 , 5420 , 5428 , 5460 , 5492 , 5508 ,
5572 , 5604 , 5668 , 5796 , 5860 , 5892 , 6412 , 6668 , 6796 , 7308 , 7564 ,
7820 , 8076 , 8620 , 9132 , 9388 , 9910 , 10166 , 10680 , 11196 , 11726 , 12240 ,
12752 , 13298 , 13810 , 14326 , 14840 , 15500 , 16022 , 16540 , 17158 , 17678 , 18264 ,
18796 , 19352 , 19926 , 20468 , 21472 , 22398 , 23014 , 23622 ,
} ;
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static av_cold void dca_init_vlcs ( void )
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{
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static int vlcs_initialized = 0 ;
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int i , j , c = 14 ;
static VLC_TYPE dca_table [ 23622 ] [ 2 ] ;
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if ( vlcs_initialized )
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return ;
dca_bitalloc_index . offset = 1 ;
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dca_bitalloc_index . wrap = 2 ;
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for ( i = 0 ; i < 5 ; i + + ) {
dca_bitalloc_index . vlc [ i ] . table = & dca_table [ dca_vlc_offs [ i ] ] ;
dca_bitalloc_index . vlc [ i ] . table_allocated = dca_vlc_offs [ i + 1 ] - dca_vlc_offs [ i ] ;
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init_vlc ( & dca_bitalloc_index . vlc [ i ] , bitalloc_12_vlc_bits [ i ] , 12 ,
bitalloc_12_bits [ i ] , 1 , 1 ,
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bitalloc_12_codes [ i ] , 2 , 2 , INIT_VLC_USE_NEW_STATIC ) ;
}
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dca_scalefactor . offset = - 64 ;
dca_scalefactor . wrap = 2 ;
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for ( i = 0 ; i < 5 ; i + + ) {
dca_scalefactor . vlc [ i ] . table = & dca_table [ dca_vlc_offs [ i + 5 ] ] ;
dca_scalefactor . vlc [ i ] . table_allocated = dca_vlc_offs [ i + 6 ] - dca_vlc_offs [ i + 5 ] ;
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init_vlc ( & dca_scalefactor . vlc [ i ] , SCALES_VLC_BITS , 129 ,
scales_bits [ i ] , 1 , 1 ,
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scales_codes [ i ] , 2 , 2 , INIT_VLC_USE_NEW_STATIC ) ;
}
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dca_tmode . offset = 0 ;
dca_tmode . wrap = 1 ;
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for ( i = 0 ; i < 4 ; i + + ) {
dca_tmode . vlc [ i ] . table = & dca_table [ dca_vlc_offs [ i + 10 ] ] ;
dca_tmode . vlc [ i ] . table_allocated = dca_vlc_offs [ i + 11 ] - dca_vlc_offs [ i + 10 ] ;
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init_vlc ( & dca_tmode . vlc [ i ] , tmode_vlc_bits [ i ] , 4 ,
tmode_bits [ i ] , 1 , 1 ,
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tmode_codes [ i ] , 2 , 2 , INIT_VLC_USE_NEW_STATIC ) ;
}
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for ( i = 0 ; i < 10 ; i + + )
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for ( j = 0 ; j < 7 ; j + + ) {
if ( ! bitalloc_codes [ i ] [ j ] )
break ;
dca_smpl_bitalloc [ i + 1 ] . offset = bitalloc_offsets [ i ] ;
dca_smpl_bitalloc [ i + 1 ] . wrap = 1 + ( j > 4 ) ;
dca_smpl_bitalloc [ i + 1 ] . vlc [ j ] . table = & dca_table [ dca_vlc_offs [ c ] ] ;
dca_smpl_bitalloc [ i + 1 ] . vlc [ j ] . table_allocated = dca_vlc_offs [ c + 1 ] - dca_vlc_offs [ c ] ;
init_vlc ( & dca_smpl_bitalloc [ i + 1 ] . vlc [ j ] , bitalloc_maxbits [ i ] [ j ] ,
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bitalloc_sizes [ i ] ,
bitalloc_bits [ i ] [ j ] , 1 , 1 ,
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bitalloc_codes [ i ] [ j ] , 2 , 2 , INIT_VLC_USE_NEW_STATIC ) ;
c + + ;
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}
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vlcs_initialized = 1 ;
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}
static inline void get_array ( GetBitContext * gb , int * dst , int len , int bits )
{
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while ( len - - )
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* dst + + = get_bits ( gb , bits ) ;
}
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static inline int dca_xxch2index ( DCAContext * s , int xxch_ch )
{
int i , base , mask ;
/* locate channel set containing the channel */
for ( i = - 1 , base = 0 , mask = ( s - > xxch_core_spkmask & ~ DCA_XXCH_LFE1 ) ;
i < = s - > xxch_chset & & ! ( mask & xxch_ch ) ; mask = s - > xxch_spk_masks [ + + i ] )
base + = av_popcount ( mask ) ;
return base + av_popcount ( mask & ( xxch_ch - 1 ) ) ;
}
static int dca_parse_audio_coding_header ( DCAContext * s , int base_channel ,
int xxch )
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{
int i , j ;
static const float adj_table [ 4 ] = { 1.0 , 1.1250 , 1.2500 , 1.4375 } ;
static const int bitlen [ 11 ] = { 0 , 1 , 2 , 2 , 2 , 2 , 3 , 3 , 3 , 3 , 3 } ;
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static const int thr [ 11 ] = { 0 , 1 , 3 , 3 , 3 , 3 , 7 , 7 , 7 , 7 , 7 } ;
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int hdr_pos = 0 , hdr_size = 0 ;
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float scale_factor ;
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int this_chans , acc_mask ;
int embedded_downmix ;
int nchans , mask [ 8 ] ;
int coeff , ichan ;
/* xxch has arbitrary sized audio coding headers */
if ( xxch ) {
hdr_pos = get_bits_count ( & s - > gb ) ;
hdr_size = get_bits ( & s - > gb , 7 ) + 1 ;
}
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nchans = get_bits ( & s - > gb , 3 ) + 1 ;
s - > total_channels = nchans + base_channel ;
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s - > prim_channels = s - > total_channels ;
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/* obtain speaker layout mask & downmix coefficients for XXCH */
if ( xxch ) {
acc_mask = s - > xxch_core_spkmask ;
this_chans = get_bits ( & s - > gb , s - > xxch_nbits_spk_mask - 6 ) < < 6 ;
s - > xxch_spk_masks [ s - > xxch_chset ] = this_chans ;
s - > xxch_chset_nch [ s - > xxch_chset ] = nchans ;
for ( i = 0 ; i < = s - > xxch_chset ; i + + )
acc_mask | = s - > xxch_spk_masks [ i ] ;
/* check for downmixing information */
if ( get_bits1 ( & s - > gb ) ) {
embedded_downmix = get_bits1 ( & s - > gb ) ;
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coeff = get_bits ( & s - > gb , 6 ) ;
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if ( coeff < 1 | | coeff > 61 ) {
av_log ( s - > avctx , AV_LOG_ERROR , " 6bit coeff %d is out of range \n " , coeff ) ;
return AVERROR_INVALIDDATA ;
}
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scale_factor = - 1.0f / dca_dmix_code ( ( coeff < < 2 ) - 3 ) ;
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s - > xxch_dmix_sf [ s - > xxch_chset ] = scale_factor ;
for ( i = base_channel ; i < s - > prim_channels ; i + + ) {
mask [ i ] = get_bits ( & s - > gb , s - > xxch_nbits_spk_mask ) ;
}
for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
memset ( s - > xxch_dmix_coeff [ j ] , 0 , sizeof ( s - > xxch_dmix_coeff [ 0 ] ) ) ;
s - > xxch_dmix_embedded | = ( embedded_downmix < < j ) ;
for ( i = 0 ; i < s - > xxch_nbits_spk_mask ; i + + ) {
if ( mask [ j ] & ( 1 < < i ) ) {
if ( ( 1 < < i ) = = DCA_XXCH_LFE1 ) {
av_log ( s - > avctx , AV_LOG_WARNING ,
" DCA-XXCH: dmix to LFE1 not supported. \n " ) ;
continue ;
}
coeff = get_bits ( & s - > gb , 7 ) ;
ichan = dca_xxch2index ( s , 1 < < i ) ;
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if ( ( coeff & 63 ) < 1 | | ( coeff & 63 ) > 61 ) {
av_log ( s - > avctx , AV_LOG_ERROR , " 7bit coeff %d is out of range \n " , coeff ) ;
return AVERROR_INVALIDDATA ;
}
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s - > xxch_dmix_coeff [ j ] [ ichan ] = dca_dmix_code ( ( coeff < < 2 ) - 3 ) ;
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}
}
}
}
}
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if ( s - > prim_channels > DCA_PRIM_CHANNELS_MAX )
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s - > prim_channels = DCA_PRIM_CHANNELS_MAX ;
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for ( i = base_channel ; i < s - > prim_channels ; i + + ) {
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s - > subband_activity [ i ] = get_bits ( & s - > gb , 5 ) + 2 ;
if ( s - > subband_activity [ i ] > DCA_SUBBANDS )
s - > subband_activity [ i ] = DCA_SUBBANDS ;
}
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for ( i = base_channel ; i < s - > prim_channels ; i + + ) {
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s - > vq_start_subband [ i ] = get_bits ( & s - > gb , 5 ) + 1 ;
if ( s - > vq_start_subband [ i ] > DCA_SUBBANDS )
s - > vq_start_subband [ i ] = DCA_SUBBANDS ;
}
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get_array ( & s - > gb , s - > joint_intensity + base_channel , s - > prim_channels - base_channel , 3 ) ;
get_array ( & s - > gb , s - > transient_huffman + base_channel , s - > prim_channels - base_channel , 2 ) ;
get_array ( & s - > gb , s - > scalefactor_huffman + base_channel , s - > prim_channels - base_channel , 3 ) ;
get_array ( & s - > gb , s - > bitalloc_huffman + base_channel , s - > prim_channels - base_channel , 3 ) ;
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/* Get codebooks quantization indexes */
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if ( ! base_channel )
memset ( s - > quant_index_huffman , 0 , sizeof ( s - > quant_index_huffman ) ) ;
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for ( j = 1 ; j < 11 ; j + + )
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for ( i = base_channel ; i < s - > prim_channels ; i + + )
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s - > quant_index_huffman [ i ] [ j ] = get_bits ( & s - > gb , bitlen [ j ] ) ;
/* Get scale factor adjustment */
for ( j = 0 ; j < 11 ; j + + )
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for ( i = base_channel ; i < s - > prim_channels ; i + + )
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s - > scalefactor_adj [ i ] [ j ] = 1 ;
for ( j = 1 ; j < 11 ; j + + )
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for ( i = base_channel ; i < s - > prim_channels ; i + + )
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if ( s - > quant_index_huffman [ i ] [ j ] < thr [ j ] )
s - > scalefactor_adj [ i ] [ j ] = adj_table [ get_bits ( & s - > gb , 2 ) ] ;
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if ( ! xxch ) {
if ( s - > crc_present ) {
/* Audio header CRC check */
get_bits ( & s - > gb , 16 ) ;
}
} else {
/* Skip to the end of the header, also ignore CRC if present */
i = get_bits_count ( & s - > gb ) ;
if ( hdr_pos + 8 * hdr_size > i )
skip_bits_long ( & s - > gb , hdr_pos + 8 * hdr_size - i ) ;
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}
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s - > current_subframe = 0 ;
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s - > current_subsubframe = 0 ;
# ifdef TRACE
av_log ( s - > avctx , AV_LOG_DEBUG , " subframes: %i \n " , s - > subframes ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " prim channels: %i \n " , s - > prim_channels ) ;
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for ( i = base_channel ; i < s - > prim_channels ; i + + ) {
av_log ( s - > avctx , AV_LOG_DEBUG , " subband activity: %i \n " ,
s - > subband_activity [ i ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " vq start subband: %i \n " ,
s - > vq_start_subband [ i ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " joint intensity: %i \n " ,
s - > joint_intensity [ i ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " transient mode codebook: %i \n " ,
s - > transient_huffman [ i ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " scale factor codebook: %i \n " ,
s - > scalefactor_huffman [ i ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " bit allocation quantizer: %i \n " ,
s - > bitalloc_huffman [ i ] ) ;
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av_log ( s - > avctx , AV_LOG_DEBUG , " quant index huff: " ) ;
for ( j = 0 ; j < 11 ; j + + )
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av_log ( s - > avctx , AV_LOG_DEBUG , " %i " , s - > quant_index_huffman [ i ] [ j ] ) ;
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av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " scalefac adj: " ) ;
for ( j = 0 ; j < 11 ; j + + )
av_log ( s - > avctx , AV_LOG_DEBUG , " %1.3f " , s - > scalefactor_adj [ i ] [ j ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
}
# endif
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return 0 ;
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}
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static int dca_parse_frame_header ( DCAContext * s )
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{
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init_get_bits ( & s - > gb , s - > dca_buffer , s - > dca_buffer_size * 8 ) ;
/* Sync code */
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skip_bits_long ( & s - > gb , 32 ) ;
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/* Frame header */
s - > frame_type = get_bits ( & s - > gb , 1 ) ;
s - > samples_deficit = get_bits ( & s - > gb , 5 ) + 1 ;
s - > crc_present = get_bits ( & s - > gb , 1 ) ;
s - > sample_blocks = get_bits ( & s - > gb , 7 ) + 1 ;
s - > frame_size = get_bits ( & s - > gb , 14 ) + 1 ;
if ( s - > frame_size < 95 )
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return AVERROR_INVALIDDATA ;
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s - > amode = get_bits ( & s - > gb , 6 ) ;
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s - > sample_rate = avpriv_dca_sample_rates [ get_bits ( & s - > gb , 4 ) ] ;
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if ( ! s - > sample_rate )
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return AVERROR_INVALIDDATA ;
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s - > bit_rate_index = get_bits ( & s - > gb , 5 ) ;
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s - > bit_rate = dca_bit_rates [ s - > bit_rate_index ] ;
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if ( ! s - > bit_rate )
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return AVERROR_INVALIDDATA ;
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skip_bits1 ( & s - > gb ) ; // always 0 (reserved, cf. ETSI TS 102 114 V1.4.1)
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s - > dynrange = get_bits ( & s - > gb , 1 ) ;
s - > timestamp = get_bits ( & s - > gb , 1 ) ;
s - > aux_data = get_bits ( & s - > gb , 1 ) ;
s - > hdcd = get_bits ( & s - > gb , 1 ) ;
s - > ext_descr = get_bits ( & s - > gb , 3 ) ;
s - > ext_coding = get_bits ( & s - > gb , 1 ) ;
s - > aspf = get_bits ( & s - > gb , 1 ) ;
s - > lfe = get_bits ( & s - > gb , 2 ) ;
s - > predictor_history = get_bits ( & s - > gb , 1 ) ;
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if ( s - > lfe > 2 ) {
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s - > lfe = 0 ;
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av_log ( s - > avctx , AV_LOG_ERROR , " Invalid LFE value: %d \n " , s - > lfe ) ;
return AVERROR_INVALIDDATA ;
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}
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/* TODO: check CRC */
if ( s - > crc_present )
s - > header_crc = get_bits ( & s - > gb , 16 ) ;
s - > multirate_inter = get_bits ( & s - > gb , 1 ) ;
s - > version = get_bits ( & s - > gb , 4 ) ;
s - > copy_history = get_bits ( & s - > gb , 2 ) ;
s - > source_pcm_res = get_bits ( & s - > gb , 3 ) ;
s - > front_sum = get_bits ( & s - > gb , 1 ) ;
s - > surround_sum = get_bits ( & s - > gb , 1 ) ;
s - > dialog_norm = get_bits ( & s - > gb , 4 ) ;
/* FIXME: channels mixing levels */
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s - > output = s - > amode ;
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if ( s - > lfe )
s - > output | = DCA_LFE ;
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# ifdef TRACE
av_log ( s - > avctx , AV_LOG_DEBUG , " frame type: %i \n " , s - > frame_type ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " samples deficit: %i \n " , s - > samples_deficit ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " crc present: %i \n " , s - > crc_present ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " sample blocks: %i (%i samples) \n " ,
s - > sample_blocks , s - > sample_blocks * 32 ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " frame size: %i bytes \n " , s - > frame_size ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " amode: %i (%i channels) \n " ,
s - > amode , dca_channels [ s - > amode ] ) ;
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av_log ( s - > avctx , AV_LOG_DEBUG , " sample rate: %i Hz \n " ,
s - > sample_rate ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " bit rate: %i bits/s \n " ,
s - > bit_rate ) ;
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av_log ( s - > avctx , AV_LOG_DEBUG , " dynrange: %i \n " , s - > dynrange ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " timestamp: %i \n " , s - > timestamp ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " aux_data: %i \n " , s - > aux_data ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " hdcd: %i \n " , s - > hdcd ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " ext descr: %i \n " , s - > ext_descr ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " ext coding: %i \n " , s - > ext_coding ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " aspf: %i \n " , s - > aspf ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " lfe: %i \n " , s - > lfe ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " predictor history: %i \n " ,
s - > predictor_history ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " header crc: %i \n " , s - > header_crc ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " multirate inter: %i \n " ,
s - > multirate_inter ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " version number: %i \n " , s - > version ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " copy history: %i \n " , s - > copy_history ) ;
av_log ( s - > avctx , AV_LOG_DEBUG ,
" source pcm resolution: %i (%i bits/sample) \n " ,
s - > source_pcm_res , dca_bits_per_sample [ s - > source_pcm_res ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " front sum: %i \n " , s - > front_sum ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " surround sum: %i \n " , s - > surround_sum ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " dialog norm: %i \n " , s - > dialog_norm ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
# endif
/* Primary audio coding header */
s - > subframes = get_bits ( & s - > gb , 4 ) + 1 ;
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return dca_parse_audio_coding_header ( s , 0 , 0 ) ;
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}
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static inline int get_scale ( GetBitContext * gb , int level , int value , int log2range )
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{
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if ( level < 5 ) {
/* huffman encoded */
value + = get_bitalloc ( gb , & dca_scalefactor , level ) ;
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value = av_clip ( value , 0 , ( 1 < < log2range ) - 1 ) ;
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} else if ( level < 8 ) {
if ( level + 1 > log2range ) {
skip_bits ( gb , level + 1 - log2range ) ;
value = get_bits ( gb , log2range ) ;
} else {
value = get_bits ( gb , level + 1 ) ;
}
}
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return value ;
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}
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static int dca_subframe_header ( DCAContext * s , int base_channel , int block_index )
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{
/* Primary audio coding side information */
int j , k ;
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if ( get_bits_left ( & s - > gb ) < 0 )
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return AVERROR_INVALIDDATA ;
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if ( ! base_channel ) {
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s - > subsubframes [ s - > current_subframe ] = get_bits ( & s - > gb , 2 ) + 1 ;
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s - > partial_samples [ s - > current_subframe ] = get_bits ( & s - > gb , 3 ) ;
}
for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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for ( k = 0 ; k < s - > subband_activity [ j ] ; k + + )
s - > prediction_mode [ j ] [ k ] = get_bits ( & s - > gb , 1 ) ;
}
/* Get prediction codebook */
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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for ( k = 0 ; k < s - > subband_activity [ j ] ; k + + ) {
if ( s - > prediction_mode [ j ] [ k ] > 0 ) {
/* (Prediction coefficient VQ address) */
s - > prediction_vq [ j ] [ k ] = get_bits ( & s - > gb , 12 ) ;
}
}
}
/* Bit allocation index */
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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for ( k = 0 ; k < s - > vq_start_subband [ j ] ; k + + ) {
if ( s - > bitalloc_huffman [ j ] = = 6 )
s - > bitalloc [ j ] [ k ] = get_bits ( & s - > gb , 5 ) ;
else if ( s - > bitalloc_huffman [ j ] = = 5 )
s - > bitalloc [ j ] [ k ] = get_bits ( & s - > gb , 4 ) ;
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else if ( s - > bitalloc_huffman [ j ] = = 7 ) {
av_log ( s - > avctx , AV_LOG_ERROR ,
" Invalid bit allocation index \n " ) ;
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return AVERROR_INVALIDDATA ;
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} else {
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s - > bitalloc [ j ] [ k ] =
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get_bitalloc ( & s - > gb , & dca_bitalloc_index , s - > bitalloc_huffman [ j ] ) ;
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}
if ( s - > bitalloc [ j ] [ k ] > 26 ) {
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av_dlog ( s - > avctx , " bitalloc index [%i][%i] too big (%i) \n " ,
j , k , s - > bitalloc [ j ] [ k ] ) ;
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return AVERROR_INVALIDDATA ;
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}
}
}
/* Transition mode */
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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for ( k = 0 ; k < s - > subband_activity [ j ] ; k + + ) {
s - > transition_mode [ j ] [ k ] = 0 ;
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if ( s - > subsubframes [ s - > current_subframe ] > 1 & &
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k < s - > vq_start_subband [ j ] & & s - > bitalloc [ j ] [ k ] > 0 ) {
s - > transition_mode [ j ] [ k ] =
get_bitalloc ( & s - > gb , & dca_tmode , s - > transient_huffman [ j ] ) ;
}
}
}
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if ( get_bits_left ( & s - > gb ) < 0 )
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return AVERROR_INVALIDDATA ;
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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const uint32_t * scale_table ;
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int scale_sum , log_size ;
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memset ( s - > scale_factor [ j ] , 0 ,
s - > subband_activity [ j ] * sizeof ( s - > scale_factor [ 0 ] [ 0 ] [ 0 ] ) * 2 ) ;
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if ( s - > scalefactor_huffman [ j ] = = 6 ) {
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scale_table = scale_factor_quant7 ;
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log_size = 7 ;
} else {
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scale_table = scale_factor_quant6 ;
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log_size = 6 ;
}
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/* When huffman coded, only the difference is encoded */
scale_sum = 0 ;
for ( k = 0 ; k < s - > subband_activity [ j ] ; k + + ) {
if ( k > = s - > vq_start_subband [ j ] | | s - > bitalloc [ j ] [ k ] > 0 ) {
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scale_sum = get_scale ( & s - > gb , s - > scalefactor_huffman [ j ] , scale_sum , log_size ) ;
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s - > scale_factor [ j ] [ k ] [ 0 ] = scale_table [ scale_sum ] ;
}
if ( k < s - > vq_start_subband [ j ] & & s - > transition_mode [ j ] [ k ] ) {
/* Get second scale factor */
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scale_sum = get_scale ( & s - > gb , s - > scalefactor_huffman [ j ] , scale_sum , log_size ) ;
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s - > scale_factor [ j ] [ k ] [ 1 ] = scale_table [ scale_sum ] ;
}
}
}
/* Joint subband scale factor codebook select */
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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/* Transmitted only if joint subband coding enabled */
if ( s - > joint_intensity [ j ] > 0 )
s - > joint_huff [ j ] = get_bits ( & s - > gb , 3 ) ;
}
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if ( get_bits_left ( & s - > gb ) < 0 )
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return AVERROR_INVALIDDATA ;
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/* Scale factors for joint subband coding */
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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int source_channel ;
/* Transmitted only if joint subband coding enabled */
if ( s - > joint_intensity [ j ] > 0 ) {
int scale = 0 ;
source_channel = s - > joint_intensity [ j ] - 1 ;
/* When huffman coded, only the difference is encoded
* ( is this valid as well for joint scales ? ? ? ) */
for ( k = s - > subband_activity [ j ] ; k < s - > subband_activity [ source_channel ] ; k + + ) {
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scale = get_scale ( & s - > gb , s - > joint_huff [ j ] , 64 /* bias */ , 7 ) ;
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s - > joint_scale_factor [ j ] [ k ] = scale ; /*joint_scale_table[scale]; */
}
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if ( ! ( s - > debug_flag & 0x02 ) ) {
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av_log ( s - > avctx , AV_LOG_DEBUG ,
" Joint stereo coding not supported \n " ) ;
s - > debug_flag | = 0x02 ;
}
}
}
/* Dynamic range coefficient */
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if ( ! base_channel & & s - > dynrange )
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s - > dynrange_coef = get_bits ( & s - > gb , 8 ) ;
/* Side information CRC check word */
if ( s - > crc_present ) {
get_bits ( & s - > gb , 16 ) ;
}
/*
* Primary audio data arrays
*/
/* VQ encoded high frequency subbands */
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for ( j = base_channel ; j < s - > prim_channels ; j + + )
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for ( k = s - > vq_start_subband [ j ] ; k < s - > subband_activity [ j ] ; k + + )
/* 1 vector -> 32 samples */
s - > high_freq_vq [ j ] [ k ] = get_bits ( & s - > gb , 10 ) ;
/* Low frequency effect data */
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if ( ! base_channel & & s - > lfe ) {
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int quant7 ;
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/* LFE samples */
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int lfe_samples = 2 * s - > lfe * ( 4 + block_index ) ;
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int lfe_end_sample = 2 * s - > lfe * ( 4 + block_index + s - > subsubframes [ s - > current_subframe ] ) ;
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float lfe_scale ;
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for ( j = lfe_samples ; j < lfe_end_sample ; j + + ) {
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/* Signed 8 bits int */
s - > lfe_data [ j ] = get_sbits ( & s - > gb , 8 ) ;
}
/* Scale factor index */
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quant7 = get_bits ( & s - > gb , 8 ) ;
if ( quant7 > 127 ) {
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avpriv_request_sample ( s - > avctx , " LFEScaleIndex larger than 127 " ) ;
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return AVERROR_INVALIDDATA ;
}
s - > lfe_scale_factor = scale_factor_quant7 [ quant7 ] ;
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/* Quantization step size * scale factor */
lfe_scale = 0.035 * s - > lfe_scale_factor ;
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for ( j = lfe_samples ; j < lfe_end_sample ; j + + )
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s - > lfe_data [ j ] * = lfe_scale ;
}
# ifdef TRACE
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av_log ( s - > avctx , AV_LOG_DEBUG , " subsubframes: %i \n " ,
s - > subsubframes [ s - > current_subframe ] ) ;
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av_log ( s - > avctx , AV_LOG_DEBUG , " partial samples: %i \n " ,
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s - > partial_samples [ s - > current_subframe ] ) ;
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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av_log ( s - > avctx , AV_LOG_DEBUG , " prediction mode: " ) ;
for ( k = 0 ; k < s - > subband_activity [ j ] ; k + + )
av_log ( s - > avctx , AV_LOG_DEBUG , " %i " , s - > prediction_mode [ j ] [ k ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
}
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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for ( k = 0 ; k < s - > subband_activity [ j ] ; k + + )
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av_log ( s - > avctx , AV_LOG_DEBUG ,
" prediction coefs: %f, %f, %f, %f \n " ,
( float ) adpcm_vb [ s - > prediction_vq [ j ] [ k ] ] [ 0 ] / 8192 ,
( float ) adpcm_vb [ s - > prediction_vq [ j ] [ k ] ] [ 1 ] / 8192 ,
( float ) adpcm_vb [ s - > prediction_vq [ j ] [ k ] ] [ 2 ] / 8192 ,
( float ) adpcm_vb [ s - > prediction_vq [ j ] [ k ] ] [ 3 ] / 8192 ) ;
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}
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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av_log ( s - > avctx , AV_LOG_DEBUG , " bitalloc index: " ) ;
for ( k = 0 ; k < s - > vq_start_subband [ j ] ; k + + )
av_log ( s - > avctx , AV_LOG_DEBUG , " %2.2i " , s - > bitalloc [ j ] [ k ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
}
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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av_log ( s - > avctx , AV_LOG_DEBUG , " Transition mode: " ) ;
for ( k = 0 ; k < s - > subband_activity [ j ] ; k + + )
av_log ( s - > avctx , AV_LOG_DEBUG , " %i " , s - > transition_mode [ j ] [ k ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
}
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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av_log ( s - > avctx , AV_LOG_DEBUG , " Scale factor: " ) ;
for ( k = 0 ; k < s - > subband_activity [ j ] ; k + + ) {
if ( k > = s - > vq_start_subband [ j ] | | s - > bitalloc [ j ] [ k ] > 0 )
av_log ( s - > avctx , AV_LOG_DEBUG , " %i " , s - > scale_factor [ j ] [ k ] [ 0 ] ) ;
if ( k < s - > vq_start_subband [ j ] & & s - > transition_mode [ j ] [ k ] )
av_log ( s - > avctx , AV_LOG_DEBUG , " %i(t) " , s - > scale_factor [ j ] [ k ] [ 1 ] ) ;
}
av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
}
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for ( j = base_channel ; j < s - > prim_channels ; j + + ) {
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if ( s - > joint_intensity [ j ] > 0 ) {
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int source_channel = s - > joint_intensity [ j ] - 1 ;
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av_log ( s - > avctx , AV_LOG_DEBUG , " Joint scale factor index: \n " ) ;
for ( k = s - > subband_activity [ j ] ; k < s - > subband_activity [ source_channel ] ; k + + )
av_log ( s - > avctx , AV_LOG_DEBUG , " %i " , s - > joint_scale_factor [ j ] [ k ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
}
}
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for ( j = base_channel ; j < s - > prim_channels ; j + + )
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for ( k = s - > vq_start_subband [ j ] ; k < s - > subband_activity [ j ] ; k + + )
av_log ( s - > avctx , AV_LOG_DEBUG , " VQ index: %i \n " , s - > high_freq_vq [ j ] [ k ] ) ;
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if ( ! base_channel & & s - > lfe ) {
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int lfe_samples = 2 * s - > lfe * ( 4 + block_index ) ;
int lfe_end_sample = 2 * s - > lfe * ( 4 + block_index + s - > subsubframes [ s - > current_subframe ] ) ;
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av_log ( s - > avctx , AV_LOG_DEBUG , " LFE samples: \n " ) ;
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for ( j = lfe_samples ; j < lfe_end_sample ; j + + )
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av_log ( s - > avctx , AV_LOG_DEBUG , " %f " , s - > lfe_data [ j ] ) ;
av_log ( s - > avctx , AV_LOG_DEBUG , " \n " ) ;
}
# endif
return 0 ;
}
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static void qmf_32_subbands ( DCAContext * s , int chans ,
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float samples_in [ 32 ] [ 8 ] , float * samples_out ,
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float scale )
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{
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const float * prCoeff ;
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int sb_act = s - > subband_activity [ chans ] ;
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scale * = sqrt ( 1 / 8.0 ) ;
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/* Select filter */
if ( ! s - > multirate_inter ) /* Non-perfect reconstruction */
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prCoeff = fir_32bands_nonperfect ;
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else /* Perfect reconstruction */
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prCoeff = fir_32bands_perfect ;
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s - > dcadsp . qmf_32_subbands ( samples_in , sb_act , & s - > synth , & s - > imdct ,
s - > subband_fir_hist [ chans ] ,
& s - > hist_index [ chans ] ,
s - > subband_fir_noidea [ chans ] , prCoeff ,
samples_out , s - > raXin , scale ) ;
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}
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static void lfe_interpolation_fir ( DCAContext * s , int decimation_select ,
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int num_deci_sample , float * samples_in ,
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float * samples_out )
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{
/* samples_in: An array holding decimated samples.
* Samples in current subframe starts from samples_in [ 0 ] ,
* while samples_in [ - 1 ] , samples_in [ - 2 ] , . . . , stores samples
* from last subframe as history .
*
* samples_out : An array holding interpolated samples
*/
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int idx ;
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const float * prCoeff ;
int deciindex ;
/* Select decimation filter */
if ( decimation_select = = 1 ) {
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idx = 1 ;
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prCoeff = lfe_fir_128 ;
} else {
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idx = 0 ;
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prCoeff = lfe_fir_64 ;
}
/* Interpolation */
for ( deciindex = 0 ; deciindex < num_deci_sample ; deciindex + + ) {
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s - > dcadsp . lfe_fir [ idx ] ( samples_out , samples_in , prCoeff ) ;
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samples_in + + ;
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samples_out + = 2 * 32 * ( 1 + idx ) ;
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}
}
/* downmixing routines */
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# define MIX_REAR1(samples, s1, rs, coef) \
samples [ 0 ] [ i ] + = samples [ s1 ] [ i ] * coef [ rs ] [ 0 ] ; \
samples [ 1 ] [ i ] + = samples [ s1 ] [ i ] * coef [ rs ] [ 1 ] ;
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# define MIX_REAR2(samples, s1, s2, rs, coef) \
samples [ 0 ] [ i ] + = samples [ s1 ] [ i ] * coef [ rs ] [ 0 ] + samples [ s2 ] [ i ] * coef [ rs + 1 ] [ 0 ] ; \
samples [ 1 ] [ i ] + = samples [ s1 ] [ i ] * coef [ rs ] [ 1 ] + samples [ s2 ] [ i ] * coef [ rs + 1 ] [ 1 ] ;
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# define MIX_FRONT3(samples, coef) \
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t = samples [ c ] [ i ] ; \
u = samples [ l ] [ i ] ; \
v = samples [ r ] [ i ] ; \
samples [ 0 ] [ i ] = t * coef [ 0 ] [ 0 ] + u * coef [ 1 ] [ 0 ] + v * coef [ 2 ] [ 0 ] ; \
samples [ 1 ] [ i ] = t * coef [ 0 ] [ 1 ] + u * coef [ 1 ] [ 1 ] + v * coef [ 2 ] [ 1 ] ;
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# define DOWNMIX_TO_STEREO(op1, op2) \
for ( i = 0 ; i < 256 ; i + + ) { \
op1 \
op2 \
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}
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static void dca_downmix ( float * * samples , int srcfmt , int lfe_present ,
float coef [ DCA_PRIM_CHANNELS_MAX + 1 ] [ 2 ] ,
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const int8_t * channel_mapping )
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{
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int c , l , r , sl , sr , s ;
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int i ;
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float t , u , v ;
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switch ( srcfmt ) {
case DCA_MONO :
case DCA_4F2R :
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av_log ( NULL , AV_LOG_ERROR , " Not implemented! \n " ) ;
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break ;
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case DCA_CHANNEL :
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case DCA_STEREO :
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case DCA_STEREO_TOTAL :
case DCA_STEREO_SUMDIFF :
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break ;
case DCA_3F :
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c = channel_mapping [ 0 ] ;
l = channel_mapping [ 1 ] ;
r = channel_mapping [ 2 ] ;
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DOWNMIX_TO_STEREO ( MIX_FRONT3 ( samples , coef ) , ) ;
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break ;
case DCA_2F1R :
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s = channel_mapping [ 2 ] ;
DOWNMIX_TO_STEREO ( MIX_REAR1 ( samples , s , 2 , coef ) , ) ;
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break ;
case DCA_3F1R :
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c = channel_mapping [ 0 ] ;
l = channel_mapping [ 1 ] ;
r = channel_mapping [ 2 ] ;
s = channel_mapping [ 3 ] ;
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DOWNMIX_TO_STEREO ( MIX_FRONT3 ( samples , coef ) ,
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MIX_REAR1 ( samples , s , 3 , coef ) ) ;
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break ;
case DCA_2F2R :
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sl = channel_mapping [ 2 ] ;
sr = channel_mapping [ 3 ] ;
DOWNMIX_TO_STEREO ( MIX_REAR2 ( samples , sl , sr , 2 , coef ) , ) ;
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break ;
case DCA_3F2R :
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c = channel_mapping [ 0 ] ;
l = channel_mapping [ 1 ] ;
r = channel_mapping [ 2 ] ;
sl = channel_mapping [ 3 ] ;
sr = channel_mapping [ 4 ] ;
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DOWNMIX_TO_STEREO ( MIX_FRONT3 ( samples , coef ) ,
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MIX_REAR2 ( samples , sl , sr , 3 , coef ) ) ;
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break ;
}
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if ( lfe_present ) {
int lf_buf = dca_lfe_index [ srcfmt ] ;
int lf_idx = dca_channels [ srcfmt ] ;
for ( i = 0 ; i < 256 ; i + + ) {
samples [ 0 ] [ i ] + = samples [ lf_buf ] [ i ] * coef [ lf_idx ] [ 0 ] ;
samples [ 1 ] [ i ] + = samples [ lf_buf ] [ i ] * coef [ lf_idx ] [ 1 ] ;
}
}
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}
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# ifndef decode_blockcodes
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/* Very compact version of the block code decoder that does not use table
* look - up but is slightly slower */
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static int decode_blockcode ( int code , int levels , int32_t * values )
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{
int i ;
int offset = ( levels - 1 ) > > 1 ;
for ( i = 0 ; i < 4 ; i + + ) {
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int div = FASTDIV ( code , levels ) ;
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values [ i ] = code - offset - div * levels ;
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code = div ;
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}
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return code ;
}
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static int decode_blockcodes ( int code1 , int code2 , int levels , int32_t * values )
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{
return decode_blockcode ( code1 , levels , values ) |
decode_blockcode ( code2 , levels , values + 4 ) ;
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}
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# endif
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static const uint8_t abits_sizes [ 7 ] = { 7 , 10 , 12 , 13 , 15 , 17 , 19 } ;
static const uint8_t abits_levels [ 7 ] = { 3 , 5 , 7 , 9 , 13 , 17 , 25 } ;
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static int dca_subsubframe ( DCAContext * s , int base_channel , int block_index )
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{
int k , l ;
int subsubframe = s - > current_subsubframe ;
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const float * quant_step_table ;
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/* FIXME */
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float ( * subband_samples ) [ DCA_SUBBANDS ] [ 8 ] = s - > subband_samples [ block_index ] ;
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LOCAL_ALIGNED_16 ( int32_t , block , [ 8 * DCA_SUBBANDS ] ) ;
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/*
* Audio data
*/
/* Select quantization step size table */
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if ( s - > bit_rate_index = = 0x1f )
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quant_step_table = lossless_quant_d ;
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else
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quant_step_table = lossy_quant_d ;
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for ( k = base_channel ; k < s - > prim_channels ; k + + ) {
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float rscale [ DCA_SUBBANDS ] ;
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if ( get_bits_left ( & s - > gb ) < 0 )
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return AVERROR_INVALIDDATA ;
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for ( l = 0 ; l < s - > vq_start_subband [ k ] ; l + + ) {
int m ;
/* Select the mid-tread linear quantizer */
int abits = s - > bitalloc [ k ] [ l ] ;
float quant_step_size = quant_step_table [ abits ] ;
/*
* Determine quantization index code book and its type
*/
/* Select quantization index code book */
int sel = s - > quant_index_huffman [ k ] [ abits ] ;
/*
* Extract bits from the bit stream
*/
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if ( ! abits ) {
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rscale [ l ] = 0 ;
memset ( block + 8 * l , 0 , 8 * sizeof ( block [ 0 ] ) ) ;
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} else {
/* Deal with transients */
int sfi = s - > transition_mode [ k ] [ l ] & & subsubframe > = s - > transition_mode [ k ] [ l ] ;
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rscale [ l ] = quant_step_size * s - > scale_factor [ k ] [ l ] [ sfi ] *
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s - > scalefactor_adj [ k ] [ sel ] ;
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if ( abits > = 11 | | ! dca_smpl_bitalloc [ abits ] . vlc [ sel ] . table ) {
if ( abits < = 7 ) {
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/* Block code */
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int block_code1 , block_code2 , size , levels , err ;
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size = abits_sizes [ abits - 1 ] ;
levels = abits_levels [ abits - 1 ] ;
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block_code1 = get_bits ( & s - > gb , size ) ;
block_code2 = get_bits ( & s - > gb , size ) ;
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err = decode_blockcodes ( block_code1 , block_code2 ,
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levels , block + 8 * l ) ;
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if ( err ) {
av_log ( s - > avctx , AV_LOG_ERROR ,
" ERROR: block code look-up failed \n " ) ;
return AVERROR_INVALIDDATA ;
}
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} else {
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/* no coding */
for ( m = 0 ; m < 8 ; m + + )
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block [ 8 * l + m ] = get_sbits ( & s - > gb , abits - 3 ) ;
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}
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} else {
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/* Huffman coded */
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for ( m = 0 ; m < 8 ; m + + )
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block [ 8 * l + m ] = get_bitalloc ( & s - > gb ,
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& dca_smpl_bitalloc [ abits ] , sel ) ;
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}
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}
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}
s - > fmt_conv . int32_to_float_fmul_array8 ( & s - > fmt_conv , subband_samples [ k ] [ 0 ] ,
block , rscale , 8 * s - > vq_start_subband [ k ] ) ;
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for ( l = 0 ; l < s - > vq_start_subband [ k ] ; l + + ) {
int m ;
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/*
* Inverse ADPCM if in prediction mode
*/
if ( s - > prediction_mode [ k ] [ l ] ) {
int n ;
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if ( s - > predictor_history )
subband_samples [ k ] [ l ] [ 0 ] + = ( adpcm_vb [ s - > prediction_vq [ k ] [ l ] ] [ 0 ] *
s - > subband_samples_hist [ k ] [ l ] [ 3 ] +
adpcm_vb [ s - > prediction_vq [ k ] [ l ] ] [ 1 ] *
s - > subband_samples_hist [ k ] [ l ] [ 2 ] +
adpcm_vb [ s - > prediction_vq [ k ] [ l ] ] [ 2 ] *
s - > subband_samples_hist [ k ] [ l ] [ 1 ] +
adpcm_vb [ s - > prediction_vq [ k ] [ l ] ] [ 3 ] *
s - > subband_samples_hist [ k ] [ l ] [ 0 ] ) *
( 1.0f / 8192 ) ;
for ( m = 1 ; m < 8 ; m + + ) {
float sum = adpcm_vb [ s - > prediction_vq [ k ] [ l ] ] [ 0 ] *
subband_samples [ k ] [ l ] [ m - 1 ] ;
for ( n = 2 ; n < = 4 ; n + + )
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if ( m > = n )
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sum + = adpcm_vb [ s - > prediction_vq [ k ] [ l ] ] [ n - 1 ] *
subband_samples [ k ] [ l ] [ m - n ] ;
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else if ( s - > predictor_history )
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sum + = adpcm_vb [ s - > prediction_vq [ k ] [ l ] ] [ n - 1 ] *
s - > subband_samples_hist [ k ] [ l ] [ m - n + 4 ] ;
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subband_samples [ k ] [ l ] [ m ] + = sum * ( 1.0f / 8192 ) ;
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}
}
}
/*
* Decode VQ encoded high frequencies
*/
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if ( s - > subband_activity [ k ] > s - > vq_start_subband [ k ] ) {
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if ( ! ( s - > debug_flag & 0x01 ) ) {
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av_log ( s - > avctx , AV_LOG_DEBUG ,
" Stream with high frequencies VQ coding \n " ) ;
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s - > debug_flag | = 0x01 ;
}
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s - > dcadsp . decode_hf ( subband_samples [ k ] , s - > high_freq_vq [ k ] ,
high_freq_vq , subsubframe * 8 ,
s - > scale_factor [ k ] , s - > vq_start_subband [ k ] ,
s - > subband_activity [ k ] ) ;
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}
}
/* Check for DSYNC after subsubframe */
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if ( s - > aspf | | subsubframe = = s - > subsubframes [ s - > current_subframe ] - 1 ) {
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if ( 0xFFFF = = get_bits ( & s - > gb , 16 ) ) { /* 0xFFFF */
# ifdef TRACE
av_log ( s - > avctx , AV_LOG_DEBUG , " Got subframe DSYNC \n " ) ;
# endif
} else {
av_log ( s - > avctx , AV_LOG_ERROR , " Didn't get subframe DSYNC \n " ) ;
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return AVERROR_INVALIDDATA ;
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}
}
/* Backup predictor history for adpcm */
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for ( k = base_channel ; k < s - > prim_channels ; k + + )
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for ( l = 0 ; l < s - > vq_start_subband [ k ] ; l + + )
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AV_COPY128 ( s - > subband_samples_hist [ k ] [ l ] , & subband_samples [ k ] [ l ] [ 4 ] ) ;
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return 0 ;
}
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static int dca_filter_channels ( DCAContext * s , int block_index )
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{
float ( * subband_samples ) [ DCA_SUBBANDS ] [ 8 ] = s - > subband_samples [ block_index ] ;
int k ;
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/* 32 subbands QMF */
for ( k = 0 ; k < s - > prim_channels ; k + + ) {
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/* static float pcm_to_double[8] = { 32768.0, 32768.0, 524288.0, 524288.0,
0 , 8388608.0 , 8388608.0 } ; */
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if ( s - > channel_order_tab [ k ] > = 0 )
qmf_32_subbands ( s , k , subband_samples [ k ] ,
s - > samples_chanptr [ s - > channel_order_tab [ k ] ] ,
M_SQRT1_2 / 32768.0 /* pcm_to_double[s->source_pcm_res] */ ) ;
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}
/* Generate LFE samples for this subsubframe FIXME!!! */
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if ( s - > lfe ) {
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lfe_interpolation_fir ( s , s - > lfe , 2 * s - > lfe ,
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s - > lfe_data + 2 * s - > lfe * ( block_index + 4 ) ,
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s - > samples_chanptr [ s - > lfe_index ] ) ;
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/* Outputs 20bits pcm samples */
}
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/* Downmixing to Stereo */
if ( s - > prim_channels + ! ! s - > lfe > 2 & &
s - > avctx - > request_channel_layout = = AV_CH_LAYOUT_STEREO ) {
dca_downmix ( s - > samples_chanptr , s - > amode , ! ! s - > lfe , s - > downmix_coef ,
s - > channel_order_tab ) ;
}
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return 0 ;
}
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static int dca_subframe_footer ( DCAContext * s , int base_channel )
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{
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int in , out , aux_data_count , aux_data_end , reserved ;
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uint32_t nsyncaux ;
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/*
* Unpack optional information
*/
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/* presumably optional information only appears in the core? */
if ( ! base_channel ) {
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if ( s - > timestamp )
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skip_bits_long ( & s - > gb , 32 ) ;
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if ( s - > aux_data ) {
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aux_data_count = get_bits ( & s - > gb , 6 ) ;
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// align (32-bit)
skip_bits_long ( & s - > gb , ( - get_bits_count ( & s - > gb ) ) & 31 ) ;
aux_data_end = 8 * aux_data_count + get_bits_count ( & s - > gb ) ;
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if ( ( nsyncaux = get_bits_long ( & s - > gb , 32 ) ) ! = DCA_NSYNCAUX ) {
av_log ( s - > avctx , AV_LOG_ERROR , " nSYNCAUX mismatch %# " PRIx32 " \n " ,
nsyncaux ) ;
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return AVERROR_INVALIDDATA ;
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}
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if ( get_bits1 ( & s - > gb ) ) { // bAUXTimeStampFlag
avpriv_request_sample ( s - > avctx ,
" Auxiliary Decode Time Stamp Flag " ) ;
// align (4-bit)
skip_bits ( & s - > gb , ( - get_bits_count ( & s - > gb ) ) & 4 ) ;
// 44 bits: nMSByte (8), nMarker (4), nLSByte (28), nMarker (4)
skip_bits_long ( & s - > gb , 44 ) ;
}
if ( ( s - > core_downmix = get_bits1 ( & s - > gb ) ) ) {
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int am = get_bits ( & s - > gb , 3 ) ;
switch ( am ) {
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case 0 :
s - > core_downmix_amode = DCA_MONO ;
break ;
case 1 :
s - > core_downmix_amode = DCA_STEREO ;
break ;
case 2 :
s - > core_downmix_amode = DCA_STEREO_TOTAL ;
break ;
case 3 :
s - > core_downmix_amode = DCA_3F ;
break ;
case 4 :
s - > core_downmix_amode = DCA_2F1R ;
break ;
case 5 :
s - > core_downmix_amode = DCA_2F2R ;
break ;
case 6 :
s - > core_downmix_amode = DCA_3F1R ;
break ;
default :
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av_log ( s - > avctx , AV_LOG_ERROR ,
" Invalid mode %d for embedded downmix coefficients \n " ,
am ) ;
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return AVERROR_INVALIDDATA ;
}
for ( out = 0 ; out < dca_channels [ s - > core_downmix_amode ] ; out + + ) {
for ( in = 0 ; in < s - > prim_channels + ! ! s - > lfe ; in + + ) {
uint16_t tmp = get_bits ( & s - > gb , 9 ) ;
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if ( ( tmp & 0xFF ) > 241 ) {
av_log ( s - > avctx , AV_LOG_ERROR ,
" Invalid downmix coefficient code % " PRIu16 " \n " ,
tmp ) ;
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return AVERROR_INVALIDDATA ;
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}
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s - > core_downmix_codes [ in ] [ out ] = tmp ;
}
}
}
align_get_bits ( & s - > gb ) ; // byte align
skip_bits ( & s - > gb , 16 ) ; // nAUXCRC16
// additional data (reserved, cf. ETSI TS 102 114 V1.4.1)
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if ( ( reserved = ( aux_data_end - get_bits_count ( & s - > gb ) ) ) < 0 ) {
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av_log ( s - > avctx , AV_LOG_ERROR ,
" Overread auxiliary data by %d bits \n " , - reserved ) ;
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return AVERROR_INVALIDDATA ;
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} else if ( reserved ) {
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avpriv_request_sample ( s - > avctx ,
" Core auxiliary data reserved content " ) ;
skip_bits_long ( & s - > gb , reserved ) ;
}
}
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if ( s - > crc_present & & s - > dynrange )
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get_bits ( & s - > gb , 16 ) ;
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}
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return 0 ;
}
/**
* Decode a dca frame block
*
* @ param s pointer to the DCAContext
*/
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static int dca_decode_block ( DCAContext * s , int base_channel , int block_index )
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{
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int ret ;
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/* Sanity check */
if ( s - > current_subframe > = s - > subframes ) {
av_log ( s - > avctx , AV_LOG_DEBUG , " check failed: %i>%i " ,
s - > current_subframe , s - > subframes ) ;
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return AVERROR_INVALIDDATA ;
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}
if ( ! s - > current_subsubframe ) {
# ifdef TRACE
av_log ( s - > avctx , AV_LOG_DEBUG , " DSYNC dca_subframe_header \n " ) ;
# endif
/* Read subframe header */
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if ( ( ret = dca_subframe_header ( s , base_channel , block_index ) ) )
return ret ;
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}
/* Read subsubframe */
# ifdef TRACE
av_log ( s - > avctx , AV_LOG_DEBUG , " DSYNC dca_subsubframe \n " ) ;
# endif
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if ( ( ret = dca_subsubframe ( s , base_channel , block_index ) ) )
return ret ;
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/* Update state */
s - > current_subsubframe + + ;
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if ( s - > current_subsubframe > = s - > subsubframes [ s - > current_subframe ] ) {
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s - > current_subsubframe = 0 ;
s - > current_subframe + + ;
}
if ( s - > current_subframe > = s - > subframes ) {
# ifdef TRACE
av_log ( s - > avctx , AV_LOG_DEBUG , " DSYNC dca_subframe_footer \n " ) ;
# endif
/* Read subframe footer */
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if ( ( ret = dca_subframe_footer ( s , base_channel ) ) )
return ret ;
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}
return 0 ;
}
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/**
* Return the number of channels in an ExSS speaker mask ( HD )
*/
static int dca_exss_mask2count ( int mask )
{
/* count bits that mean speaker pairs twice */
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return av_popcount ( mask ) +
av_popcount ( mask & ( DCA_EXSS_CENTER_LEFT_RIGHT |
DCA_EXSS_FRONT_LEFT_RIGHT |
DCA_EXSS_FRONT_HIGH_LEFT_RIGHT |
DCA_EXSS_WIDE_LEFT_RIGHT |
DCA_EXSS_SIDE_LEFT_RIGHT |
DCA_EXSS_SIDE_HIGH_LEFT_RIGHT |
DCA_EXSS_SIDE_REAR_LEFT_RIGHT |
DCA_EXSS_REAR_LEFT_RIGHT |
DCA_EXSS_REAR_HIGH_LEFT_RIGHT ) ) ;
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}
/**
* Skip mixing coefficients of a single mix out configuration ( HD )
*/
static void dca_exss_skip_mix_coeffs ( GetBitContext * gb , int channels , int out_ch )
{
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int i ;
for ( i = 0 ; i < channels ; i + + ) {
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int mix_map_mask = get_bits ( gb , out_ch ) ;
int num_coeffs = av_popcount ( mix_map_mask ) ;
skip_bits_long ( gb , num_coeffs * 6 ) ;
}
}
/**
* Parse extension substream asset header ( HD )
*/
static int dca_exss_parse_asset_header ( DCAContext * s )
{
int header_pos = get_bits_count ( & s - > gb ) ;
int header_size ;
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int channels = 0 ;
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int embedded_stereo = 0 ;
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int embedded_6ch = 0 ;
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int drc_code_present ;
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int av_uninit ( extensions_mask ) ;
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int i , j ;
if ( get_bits_left ( & s - > gb ) < 16 )
return - 1 ;
/* We will parse just enough to get to the extensions bitmask with which
* we can set the profile value . */
header_size = get_bits ( & s - > gb , 9 ) + 1 ;
skip_bits ( & s - > gb , 3 ) ; // asset index
if ( s - > static_fields ) {
if ( get_bits1 ( & s - > gb ) )
skip_bits ( & s - > gb , 4 ) ; // asset type descriptor
if ( get_bits1 ( & s - > gb ) )
skip_bits_long ( & s - > gb , 24 ) ; // language descriptor
if ( get_bits1 ( & s - > gb ) ) {
/* How can one fit 1024 bytes of text here if the maximum value
* for the asset header size field above was 512 bytes ? */
int text_length = get_bits ( & s - > gb , 10 ) + 1 ;
if ( get_bits_left ( & s - > gb ) < text_length * 8 )
return - 1 ;
skip_bits_long ( & s - > gb , text_length * 8 ) ; // info text
}
skip_bits ( & s - > gb , 5 ) ; // bit resolution - 1
skip_bits ( & s - > gb , 4 ) ; // max sample rate code
channels = get_bits ( & s - > gb , 8 ) + 1 ;
if ( get_bits1 ( & s - > gb ) ) { // 1-to-1 channels to speakers
int spkr_remap_sets ;
int spkr_mask_size = 16 ;
int num_spkrs [ 7 ] ;
if ( channels > 2 )
embedded_stereo = get_bits1 ( & s - > gb ) ;
if ( channels > 6 )
embedded_6ch = get_bits1 ( & s - > gb ) ;
if ( get_bits1 ( & s - > gb ) ) {
spkr_mask_size = ( get_bits ( & s - > gb , 2 ) + 1 ) < < 2 ;
skip_bits ( & s - > gb , spkr_mask_size ) ; // spkr activity mask
}
spkr_remap_sets = get_bits ( & s - > gb , 3 ) ;
for ( i = 0 ; i < spkr_remap_sets ; i + + ) {
/* std layout mask for each remap set */
num_spkrs [ i ] = dca_exss_mask2count ( get_bits ( & s - > gb , spkr_mask_size ) ) ;
}
for ( i = 0 ; i < spkr_remap_sets ; i + + ) {
int num_dec_ch_remaps = get_bits ( & s - > gb , 5 ) + 1 ;
if ( get_bits_left ( & s - > gb ) < 0 )
return - 1 ;
for ( j = 0 ; j < num_spkrs [ i ] ; j + + ) {
int remap_dec_ch_mask = get_bits_long ( & s - > gb , num_dec_ch_remaps ) ;
int num_dec_ch = av_popcount ( remap_dec_ch_mask ) ;
skip_bits_long ( & s - > gb , num_dec_ch * 5 ) ; // remap codes
}
}
} else {
skip_bits ( & s - > gb , 3 ) ; // representation type
}
}
drc_code_present = get_bits1 ( & s - > gb ) ;
if ( drc_code_present )
get_bits ( & s - > gb , 8 ) ; // drc code
if ( get_bits1 ( & s - > gb ) )
skip_bits ( & s - > gb , 5 ) ; // dialog normalization code
if ( drc_code_present & & embedded_stereo )
get_bits ( & s - > gb , 8 ) ; // drc stereo code
if ( s - > mix_metadata & & get_bits1 ( & s - > gb ) ) {
skip_bits ( & s - > gb , 1 ) ; // external mix
skip_bits ( & s - > gb , 6 ) ; // post mix gain code
if ( get_bits ( & s - > gb , 2 ) ! = 3 ) // mixer drc code
skip_bits ( & s - > gb , 3 ) ; // drc limit
else
skip_bits ( & s - > gb , 8 ) ; // custom drc code
if ( get_bits1 ( & s - > gb ) ) // channel specific scaling
for ( i = 0 ; i < s - > num_mix_configs ; i + + )
skip_bits_long ( & s - > gb , s - > mix_config_num_ch [ i ] * 6 ) ; // scale codes
else
skip_bits_long ( & s - > gb , s - > num_mix_configs * 6 ) ; // scale codes
for ( i = 0 ; i < s - > num_mix_configs ; i + + ) {
if ( get_bits_left ( & s - > gb ) < 0 )
return - 1 ;
dca_exss_skip_mix_coeffs ( & s - > gb , channels , s - > mix_config_num_ch [ i ] ) ;
if ( embedded_6ch )
dca_exss_skip_mix_coeffs ( & s - > gb , 6 , s - > mix_config_num_ch [ i ] ) ;
if ( embedded_stereo )
dca_exss_skip_mix_coeffs ( & s - > gb , 2 , s - > mix_config_num_ch [ i ] ) ;
}
}
switch ( get_bits ( & s - > gb , 2 ) ) {
case 0 : extensions_mask = get_bits ( & s - > gb , 12 ) ; break ;
case 1 : extensions_mask = DCA_EXT_EXSS_XLL ; break ;
case 2 : extensions_mask = DCA_EXT_EXSS_LBR ; break ;
case 3 : extensions_mask = 0 ; /* aux coding */ break ;
}
/* not parsed further, we were only interested in the extensions mask */
if ( get_bits_left ( & s - > gb ) < 0 )
return - 1 ;
if ( get_bits_count ( & s - > gb ) - header_pos > header_size * 8 ) {
av_log ( s - > avctx , AV_LOG_WARNING , " Asset header size mismatch. \n " ) ;
return - 1 ;
}
skip_bits_long ( & s - > gb , header_pos + header_size * 8 - get_bits_count ( & s - > gb ) ) ;
if ( extensions_mask & DCA_EXT_EXSS_XLL )
s - > profile = FF_PROFILE_DTS_HD_MA ;
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else if ( extensions_mask & ( DCA_EXT_EXSS_XBR | DCA_EXT_EXSS_X96 |
DCA_EXT_EXSS_XXCH ) )
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s - > profile = FF_PROFILE_DTS_HD_HRA ;
if ( ! ( extensions_mask & DCA_EXT_CORE ) )
av_log ( s - > avctx , AV_LOG_WARNING , " DTS core detection mismatch. \n " ) ;
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if ( ( extensions_mask & DCA_CORE_EXTS ) ! = s - > core_ext_mask )
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av_log ( s - > avctx , AV_LOG_WARNING ,
" DTS extensions detection mismatch (%d, %d) \n " ,
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extensions_mask & DCA_CORE_EXTS , s - > core_ext_mask ) ;
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return 0 ;
}
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static int dca_xbr_parse_frame ( DCAContext * s )
{
int scale_table_high [ DCA_CHSET_CHANS_MAX ] [ DCA_SUBBANDS ] [ 2 ] ;
int active_bands [ DCA_CHSETS_MAX ] [ DCA_CHSET_CHANS_MAX ] ;
int abits_high [ DCA_CHSET_CHANS_MAX ] [ DCA_SUBBANDS ] ;
int anctemp [ DCA_CHSET_CHANS_MAX ] ;
int chset_fsize [ DCA_CHSETS_MAX ] ;
int n_xbr_ch [ DCA_CHSETS_MAX ] ;
int hdr_size , num_chsets , xbr_tmode , hdr_pos ;
int i , j , k , l , chset , chan_base ;
av_log ( s - > avctx , AV_LOG_DEBUG , " DTS-XBR: decoding XBR extension \n " ) ;
/* get bit position of sync header */
hdr_pos = get_bits_count ( & s - > gb ) - 32 ;
hdr_size = get_bits ( & s - > gb , 6 ) + 1 ;
num_chsets = get_bits ( & s - > gb , 2 ) + 1 ;
for ( i = 0 ; i < num_chsets ; i + + )
chset_fsize [ i ] = get_bits ( & s - > gb , 14 ) + 1 ;
xbr_tmode = get_bits1 ( & s - > gb ) ;
for ( i = 0 ; i < num_chsets ; i + + ) {
n_xbr_ch [ i ] = get_bits ( & s - > gb , 3 ) + 1 ;
k = get_bits ( & s - > gb , 2 ) + 5 ;
for ( j = 0 ; j < n_xbr_ch [ i ] ; j + + )
active_bands [ i ] [ j ] = get_bits ( & s - > gb , k ) + 1 ;
}
/* skip to the end of the header */
i = get_bits_count ( & s - > gb ) ;
if ( hdr_pos + hdr_size * 8 > i )
skip_bits_long ( & s - > gb , hdr_pos + hdr_size * 8 - i ) ;
/* loop over the channel data sets */
/* only decode as many channels as we've decoded base data for */
for ( chset = 0 , chan_base = 0 ;
chset < num_chsets & & chan_base + n_xbr_ch [ chset ] < = s - > prim_channels ;
chan_base + = n_xbr_ch [ chset + + ] ) {
int start_posn = get_bits_count ( & s - > gb ) ;
int subsubframe = 0 ;
int subframe = 0 ;
/* loop over subframes */
for ( k = 0 ; k < ( s - > sample_blocks / 8 ) ; k + + ) {
/* parse header if we're on first subsubframe of a block */
if ( subsubframe = = 0 ) {
/* Parse subframe header */
for ( i = 0 ; i < n_xbr_ch [ chset ] ; i + + ) {
anctemp [ i ] = get_bits ( & s - > gb , 2 ) + 2 ;
}
for ( i = 0 ; i < n_xbr_ch [ chset ] ; i + + ) {
get_array ( & s - > gb , abits_high [ i ] , active_bands [ chset ] [ i ] , anctemp [ i ] ) ;
}
for ( i = 0 ; i < n_xbr_ch [ chset ] ; i + + ) {
anctemp [ i ] = get_bits ( & s - > gb , 3 ) ;
if ( anctemp [ i ] < 1 ) {
av_log ( s - > avctx , AV_LOG_ERROR , " DTS-XBR: SYNC ERROR \n " ) ;
return AVERROR_INVALIDDATA ;
}
}
/* generate scale factors */
for ( i = 0 ; i < n_xbr_ch [ chset ] ; i + + ) {
const uint32_t * scale_table ;
int nbits ;
if ( s - > scalefactor_huffman [ chan_base + i ] = = 6 ) {
scale_table = scale_factor_quant7 ;
} else {
scale_table = scale_factor_quant6 ;
}
nbits = anctemp [ i ] ;
for ( j = 0 ; j < active_bands [ chset ] [ i ] ; j + + ) {
if ( abits_high [ i ] [ j ] > 0 ) {
scale_table_high [ i ] [ j ] [ 0 ] =
scale_table [ get_bits ( & s - > gb , nbits ) ] ;
if ( xbr_tmode & & s - > transition_mode [ i ] [ j ] ) {
scale_table_high [ i ] [ j ] [ 1 ] =
scale_table [ get_bits ( & s - > gb , nbits ) ] ;
}
}
}
}
}
/* decode audio array for this block */
for ( i = 0 ; i < n_xbr_ch [ chset ] ; i + + ) {
for ( j = 0 ; j < active_bands [ chset ] [ i ] ; j + + ) {
const int xbr_abits = abits_high [ i ] [ j ] ;
const float quant_step_size = lossless_quant_d [ xbr_abits ] ;
const int sfi = xbr_tmode & & s - > transition_mode [ i ] [ j ] & & subsubframe > = s - > transition_mode [ i ] [ j ] ;
const float rscale = quant_step_size * scale_table_high [ i ] [ j ] [ sfi ] ;
float * subband_samples = s - > subband_samples [ k ] [ chan_base + i ] [ j ] ;
int block [ 8 ] ;
if ( xbr_abits < = 0 )
continue ;
if ( xbr_abits > 7 ) {
get_array ( & s - > gb , block , 8 , xbr_abits - 3 ) ;
} else {
int block_code1 , block_code2 , size , levels , err ;
size = abits_sizes [ xbr_abits - 1 ] ;
levels = abits_levels [ xbr_abits - 1 ] ;
block_code1 = get_bits ( & s - > gb , size ) ;
block_code2 = get_bits ( & s - > gb , size ) ;
err = decode_blockcodes ( block_code1 , block_code2 ,
levels , block ) ;
if ( err ) {
av_log ( s - > avctx , AV_LOG_ERROR ,
" ERROR: DTS-XBR: block code look-up failed \n " ) ;
return AVERROR_INVALIDDATA ;
}
}
/* scale & sum into subband */
for ( l = 0 ; l < 8 ; l + + )
subband_samples [ l ] + = ( float ) block [ l ] * rscale ;
}
}
/* check DSYNC marker */
if ( s - > aspf | | subsubframe = = s - > subsubframes [ subframe ] - 1 ) {
if ( get_bits ( & s - > gb , 16 ) ! = 0xffff ) {
av_log ( s - > avctx , AV_LOG_ERROR , " DTS-XBR: Didn't get subframe DSYNC \n " ) ;
return AVERROR_INVALIDDATA ;
}
}
/* advance sub-sub-frame index */
if ( + + subsubframe > = s - > subsubframes [ subframe ] ) {
subsubframe = 0 ;
subframe + + ;
}
}
/* skip to next channel set */
i = get_bits_count ( & s - > gb ) ;
if ( start_posn + chset_fsize [ chset ] * 8 ! = i ) {
j = start_posn + chset_fsize [ chset ] * 8 - i ;
if ( j < 0 | | j > = 8 )
av_log ( s - > avctx , AV_LOG_ERROR , " DTS-XBR: end of channel set, "
" skipping further than expected (%d bits) \n " , j ) ;
skip_bits_long ( & s - > gb , j ) ;
}
}
return 0 ;
}
/* parse initial header for XXCH and dump details */
static int dca_xxch_decode_frame ( DCAContext * s )
{
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int hdr_size , spkmsk_bits , num_chsets , core_spk , hdr_pos ;
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int i , chset , base_channel , chstart , fsize [ 8 ] ;
/* assume header word has already been parsed */
hdr_pos = get_bits_count ( & s - > gb ) - 32 ;
hdr_size = get_bits ( & s - > gb , 6 ) + 1 ;
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/*chhdr_crc =*/ skip_bits1 ( & s - > gb ) ;
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spkmsk_bits = get_bits ( & s - > gb , 5 ) + 1 ;
num_chsets = get_bits ( & s - > gb , 2 ) + 1 ;
for ( i = 0 ; i < num_chsets ; i + + )
fsize [ i ] = get_bits ( & s - > gb , 14 ) + 1 ;
core_spk = get_bits ( & s - > gb , spkmsk_bits ) ;
s - > xxch_core_spkmask = core_spk ;
s - > xxch_nbits_spk_mask = spkmsk_bits ;
s - > xxch_dmix_embedded = 0 ;
/* skip to the end of the header */
i = get_bits_count ( & s - > gb ) ;
if ( hdr_pos + hdr_size * 8 > i )
skip_bits_long ( & s - > gb , hdr_pos + hdr_size * 8 - i ) ;
for ( chset = 0 ; chset < num_chsets ; chset + + ) {
chstart = get_bits_count ( & s - > gb ) ;
base_channel = s - > prim_channels ;
s - > xxch_chset = chset ;
/* XXCH and Core headers differ, see 6.4.2 "XXCH Channel Set Header" vs.
5.3 .2 " Primary Audio Coding Header " , DTS Spec 1.3 .1 */
dca_parse_audio_coding_header ( s , base_channel , 1 ) ;
/* decode channel data */
for ( i = 0 ; i < ( s - > sample_blocks / 8 ) ; i + + ) {
if ( dca_decode_block ( s , base_channel , i ) ) {
av_log ( s - > avctx , AV_LOG_ERROR ,
" Error decoding DTS-XXCH extension \n " ) ;
continue ;
}
}
/* skip to end of this section */
i = get_bits_count ( & s - > gb ) ;
if ( chstart + fsize [ chset ] * 8 > i )
skip_bits_long ( & s - > gb , chstart + fsize [ chset ] * 8 - i ) ;
}
s - > xxch_chset = num_chsets ;
return 0 ;
}
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/**
* Parse extension substream header ( HD )
*/
static void dca_exss_parse_header ( DCAContext * s )
{
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int asset_size [ 8 ] ;
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int ss_index ;
int blownup ;
int num_audiop = 1 ;
int num_assets = 1 ;
int active_ss_mask [ 8 ] ;
int i , j ;
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int start_posn ;
int hdrsize ;
uint32_t mkr ;
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if ( get_bits_left ( & s - > gb ) < 52 )
return ;
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start_posn = get_bits_count ( & s - > gb ) - 32 ;
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skip_bits ( & s - > gb , 8 ) ; // user data
ss_index = get_bits ( & s - > gb , 2 ) ;
blownup = get_bits1 ( & s - > gb ) ;
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hdrsize = get_bits ( & s - > gb , 8 + 4 * blownup ) + 1 ; // header_size
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skip_bits ( & s - > gb , 16 + 4 * blownup ) ; // hd_size
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s - > static_fields = get_bits1 ( & s - > gb ) ;
if ( s - > static_fields ) {
skip_bits ( & s - > gb , 2 ) ; // reference clock code
skip_bits ( & s - > gb , 3 ) ; // frame duration code
if ( get_bits1 ( & s - > gb ) )
skip_bits_long ( & s - > gb , 36 ) ; // timestamp
/* a single stream can contain multiple audio assets that can be
* combined to form multiple audio presentations */
num_audiop = get_bits ( & s - > gb , 3 ) + 1 ;
if ( num_audiop > 1 ) {
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avpriv_request_sample ( s - > avctx ,
" Multiple DTS-HD audio presentations " ) ;
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/* ignore such streams for now */
return ;
}
num_assets = get_bits ( & s - > gb , 3 ) + 1 ;
if ( num_assets > 1 ) {
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avpriv_request_sample ( s - > avctx , " Multiple DTS-HD audio assets " ) ;
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/* ignore such streams for now */
return ;
}
for ( i = 0 ; i < num_audiop ; i + + )
active_ss_mask [ i ] = get_bits ( & s - > gb , ss_index + 1 ) ;
for ( i = 0 ; i < num_audiop ; i + + )
for ( j = 0 ; j < = ss_index ; j + + )
if ( active_ss_mask [ i ] & ( 1 < < j ) )
skip_bits ( & s - > gb , 8 ) ; // active asset mask
s - > mix_metadata = get_bits1 ( & s - > gb ) ;
if ( s - > mix_metadata ) {
int mix_out_mask_size ;
skip_bits ( & s - > gb , 2 ) ; // adjustment level
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mix_out_mask_size = ( get_bits ( & s - > gb , 2 ) + 1 ) < < 2 ;
s - > num_mix_configs = get_bits ( & s - > gb , 2 ) + 1 ;
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for ( i = 0 ; i < s - > num_mix_configs ; i + + ) {
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int mix_out_mask = get_bits ( & s - > gb , mix_out_mask_size ) ;
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s - > mix_config_num_ch [ i ] = dca_exss_mask2count ( mix_out_mask ) ;
}
}
}
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av_assert0 ( num_assets > 0 ) ; // silence a warning
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for ( i = 0 ; i < num_assets ; i + + )
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asset_size [ i ] = get_bits_long ( & s - > gb , 16 + 4 * blownup ) ;
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for ( i = 0 ; i < num_assets ; i + + ) {
if ( dca_exss_parse_asset_header ( s ) )
return ;
}
/* not parsed further, we were only interested in the extensions mask
* from the asset header */
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j = get_bits_count ( & s - > gb ) ;
if ( start_posn + hdrsize * 8 > j )
skip_bits_long ( & s - > gb , start_posn + hdrsize * 8 - j ) ;
for ( i = 0 ; i < num_assets ; i + + ) {
start_posn = get_bits_count ( & s - > gb ) ;
mkr = get_bits_long ( & s - > gb , 32 ) ;
/* parse extensions that we know about */
if ( mkr = = 0x655e315e ) {
dca_xbr_parse_frame ( s ) ;
} else if ( mkr = = 0x47004a03 ) {
dca_xxch_decode_frame ( s ) ;
s - > core_ext_mask | = DCA_EXT_XXCH ; /* xxx use for chan reordering */
} else {
av_log ( s - > avctx , AV_LOG_DEBUG ,
" DTS-ExSS: unknown marker = 0x%08x \n " , mkr ) ;
}
/* skip to end of block */
j = get_bits_count ( & s - > gb ) ;
if ( start_posn + asset_size [ i ] * 8 > j )
skip_bits_long ( & s - > gb , start_posn + asset_size [ i ] * 8 - j ) ;
}
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}
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static float dca_dmix_code ( unsigned code )
{
int sign = ( code > > 8 ) - 1 ;
code & = 0xff ;
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# define POW2_MINUS15 .000030517578125
return ( ( dca_dmixtable [ code ] ^ sign ) - sign ) * POW2_MINUS15 ;
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}
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/**
* Main frame decoding function
* FIXME add arguments
*/
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static int dca_decode_frame ( AVCodecContext * avctx , void * data ,
int * got_frame_ptr , AVPacket * avpkt )
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{
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AVFrame * frame = data ;
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const uint8_t * buf = avpkt - > data ;
int buf_size = avpkt - > size ;
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int channel_mask ;
int channel_layout ;
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int lfe_samples ;
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int num_core_channels = 0 ;
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int i , ret ;
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float * * samples_flt ;
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float * src_chan ;
float * dst_chan ;
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DCAContext * s = avctx - > priv_data ;
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int core_ss_end ;
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int channels , full_channels ;
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float scale ;
int achan ;
int chset ;
int mask ;
int lavc ;
int posn ;
int j , k ;
int endch ;
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s - > xch_present = 0 ;
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s - > dca_buffer_size = ff_dca_convert_bitstream ( buf , buf_size , s - > dca_buffer ,
DCA_MAX_FRAME_SIZE + DCA_MAX_EXSS_HEADER_SIZE ) ;
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if ( s - > dca_buffer_size = = AVERROR_INVALIDDATA ) {
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av_log ( avctx , AV_LOG_ERROR , " Not a valid DCA frame \n " ) ;
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return AVERROR_INVALIDDATA ;
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}
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if ( ( ret = dca_parse_frame_header ( s ) ) < 0 ) {
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//seems like the frame is corrupt, try with the next one
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return ret ;
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}
//set AVCodec values with parsed data
avctx - > sample_rate = s - > sample_rate ;
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avctx - > bit_rate = s - > bit_rate ;
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s - > profile = FF_PROFILE_DTS ;
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for ( i = 0 ; i < ( s - > sample_blocks / 8 ) ; i + + ) {
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if ( ( ret = dca_decode_block ( s , 0 , i ) ) ) {
av_log ( avctx , AV_LOG_ERROR , " error decoding block \n " ) ;
return ret ;
}
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}
/* record number of core channels incase less than max channels are requested */
num_core_channels = s - > prim_channels ;
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if ( s - > prim_channels + ! ! s - > lfe > 2 & &
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avctx - > request_channel_layout = = AV_CH_LAYOUT_STEREO ) {
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/* Stereo downmix coefficients
*
* The decoder can only downmix to 2 - channel , so we need to ensure
* embedded downmix coefficients are actually targeting 2 - channel .
*/
if ( s - > core_downmix & & ( s - > core_downmix_amode = = DCA_STEREO | |
s - > core_downmix_amode = = DCA_STEREO_TOTAL ) ) {
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for ( i = 0 ; i < num_core_channels + ! ! s - > lfe ; i + + ) {
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/* Range checked earlier */
s - > downmix_coef [ i ] [ 0 ] = dca_dmix_code ( s - > core_downmix_codes [ i ] [ 0 ] ) ;
s - > downmix_coef [ i ] [ 1 ] = dca_dmix_code ( s - > core_downmix_codes [ i ] [ 1 ] ) ;
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}
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s - > output = s - > core_downmix_amode ;
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} else {
int am = s - > amode & DCA_CHANNEL_MASK ;
if ( am > = FF_ARRAY_ELEMS ( dca_default_coeffs ) ) {
av_log ( s - > avctx , AV_LOG_ERROR ,
" Invalid channel mode %d \n " , am ) ;
return AVERROR_INVALIDDATA ;
}
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if ( num_core_channels + ! ! s - > lfe >
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FF_ARRAY_ELEMS ( dca_default_coeffs [ 0 ] ) ) {
avpriv_request_sample ( s - > avctx , " Downmixing %d channels " ,
s - > prim_channels + ! ! s - > lfe ) ;
return AVERROR_PATCHWELCOME ;
}
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for ( i = 0 ; i < num_core_channels + ! ! s - > lfe ; i + + ) {
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s - > downmix_coef [ i ] [ 0 ] = dca_default_coeffs [ am ] [ i ] [ 0 ] ;
s - > downmix_coef [ i ] [ 1 ] = dca_default_coeffs [ am ] [ i ] [ 1 ] ;
}
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}
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av_dlog ( s - > avctx , " Stereo downmix coeffs: \n " ) ;
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for ( i = 0 ; i < num_core_channels + ! ! s - > lfe ; i + + ) {
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av_dlog ( s - > avctx , " L, input channel %d = %f \n " , i ,
s - > downmix_coef [ i ] [ 0 ] ) ;
av_dlog ( s - > avctx , " R, input channel %d = %f \n " , i ,
s - > downmix_coef [ i ] [ 1 ] ) ;
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}
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av_dlog ( s - > avctx , " \n " ) ;
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}
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if ( s - > ext_coding )
s - > core_ext_mask = dca_ext_audio_descr_mask [ s - > ext_descr ] ;
else
s - > core_ext_mask = 0 ;
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core_ss_end = FFMIN ( s - > frame_size , s - > dca_buffer_size ) * 8 ;
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/* only scan for extensions if ext_descr was unknown or indicated a
* supported XCh extension */
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if ( s - > core_ext_mask < 0 | | s - > core_ext_mask & ( DCA_EXT_XCH | DCA_EXT_XXCH ) ) {
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/* if ext_descr was unknown, clear s->core_ext_mask so that the
* extensions scan can fill it up */
s - > core_ext_mask = FFMAX ( s - > core_ext_mask , 0 ) ;
/* extensions start at 32-bit boundaries into bitstream */
skip_bits_long ( & s - > gb , ( - get_bits_count ( & s - > gb ) ) & 31 ) ;
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while ( core_ss_end - get_bits_count ( & s - > gb ) > = 32 ) {
uint32_t bits = get_bits_long ( & s - > gb , 32 ) ;
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switch ( bits ) {
case 0x5a5a5a5a : {
int ext_amode , xch_fsize ;
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s - > xch_base_channel = s - > prim_channels ;
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/* validate sync word using XCHFSIZE field */
xch_fsize = show_bits ( & s - > gb , 10 ) ;
if ( ( s - > frame_size ! = ( get_bits_count ( & s - > gb ) > > 3 ) - 4 + xch_fsize ) & &
( s - > frame_size ! = ( get_bits_count ( & s - > gb ) > > 3 ) - 4 + xch_fsize + 1 ) )
continue ;
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/* skip length-to-end-of-frame field for the moment */
skip_bits ( & s - > gb , 10 ) ;
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s - > core_ext_mask | = DCA_EXT_XCH ;
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/* extension amode(number of channels in extension) should be 1 */
/* AFAIK XCh is not used for more channels */
if ( ( ext_amode = get_bits ( & s - > gb , 4 ) ) ! = 1 ) {
av_log ( avctx , AV_LOG_ERROR , " XCh extension amode %d not "
" supported! \n " , ext_amode ) ;
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continue ;
}
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if ( s - > xch_base_channel < 2 ) {
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avpriv_request_sample ( avctx , " XCh with fewer than 2 base channels " ) ;
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continue ;
}
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/* much like core primary audio coding header */
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dca_parse_audio_coding_header ( s , s - > xch_base_channel , 0 ) ;
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for ( i = 0 ; i < ( s - > sample_blocks / 8 ) ; i + + )
if ( ( ret = dca_decode_block ( s , s - > xch_base_channel , i ) ) ) {
av_log ( avctx , AV_LOG_ERROR , " error decoding XCh extension \n " ) ;
continue ;
}
s - > xch_present = 1 ;
break ;
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}
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case 0x47004a03 :
/* XXCh: extended channels */
/* usually found either in core or HD part in DTS-HD HRA streams,
* but not in DTS - ES which contains XCh extensions instead */
s - > core_ext_mask | = DCA_EXT_XXCH ;
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dca_xxch_decode_frame ( s ) ;
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break ;
case 0x1d95f262 : {
int fsize96 = show_bits ( & s - > gb , 12 ) + 1 ;
if ( s - > frame_size ! = ( get_bits_count ( & s - > gb ) > > 3 ) - 4 + fsize96 )
continue ;
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av_log ( avctx , AV_LOG_DEBUG , " X96 extension found at %d bits \n " ,
get_bits_count ( & s - > gb ) ) ;
skip_bits ( & s - > gb , 12 ) ;
av_log ( avctx , AV_LOG_DEBUG , " FSIZE96 = %d bytes \n " , fsize96 ) ;
av_log ( avctx , AV_LOG_DEBUG , " REVNO = %d \n " , get_bits ( & s - > gb , 4 ) ) ;
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s - > core_ext_mask | = DCA_EXT_X96 ;
break ;
}
}
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skip_bits_long ( & s - > gb , ( - get_bits_count ( & s - > gb ) ) & 31 ) ;
}
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} else {
/* no supported extensions, skip the rest of the core substream */
skip_bits_long ( & s - > gb , core_ss_end - get_bits_count ( & s - > gb ) ) ;
}
if ( s - > core_ext_mask & DCA_EXT_X96 )
s - > profile = FF_PROFILE_DTS_96_24 ;
else if ( s - > core_ext_mask & ( DCA_EXT_XCH | DCA_EXT_XXCH ) )
s - > profile = FF_PROFILE_DTS_ES ;
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/* check for ExSS (HD part) */
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if ( s - > dca_buffer_size - s - > frame_size > 32 & &
get_bits_long ( & s - > gb , 32 ) = = DCA_HD_MARKER )
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dca_exss_parse_header ( s ) ;
avctx - > profile = s - > profile ;
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full_channels = channels = s - > prim_channels + ! ! s - > lfe ;
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/* If we have XXCH then the channel layout is managed differently */
/* note that XLL will also have another way to do things */
if ( ! ( s - > core_ext_mask & DCA_EXT_XXCH )
| | ( s - > core_ext_mask & DCA_EXT_XXCH & & avctx - > request_channels > 0
& & avctx - > request_channels
< num_core_channels + ! ! s - > lfe + s - > xxch_chset_nch [ 0 ] ) )
{ /* xxx should also do MA extensions */
if ( s - > amode < 16 ) {
avctx - > channel_layout = dca_core_channel_layout [ s - > amode ] ;
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if ( s - > prim_channels + ! ! s - > lfe > 2 & &
avctx - > request_channel_layout = = AV_CH_LAYOUT_STEREO ) {
/*
* Neither the core ' s auxiliary data nor our default tables contain
* downmix coefficients for the additional channel coded in the XCh
* extension , so when we ' re doing a Stereo downmix , don ' t decode it .
*/
s - > xch_disable = 1 ;
}
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# if FF_API_REQUEST_CHANNELS
FF_DISABLE_DEPRECATION_WARNINGS
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if ( s - > xch_present & & ! s - > xch_disable & &
( ! avctx - > request_channels | |
avctx - > request_channels > num_core_channels + ! ! s - > lfe ) ) {
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FF_ENABLE_DEPRECATION_WARNINGS
# else
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if ( s - > xch_present & & ! s - > xch_disable ) {
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# endif
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avctx - > channel_layout | = AV_CH_BACK_CENTER ;
if ( s - > lfe ) {
avctx - > channel_layout | = AV_CH_LOW_FREQUENCY ;
s - > channel_order_tab = dca_channel_reorder_lfe_xch [ s - > amode ] ;
} else {
s - > channel_order_tab = dca_channel_reorder_nolfe_xch [ s - > amode ] ;
}
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if ( s - > channel_order_tab [ s - > xch_base_channel ] < 0 )
return AVERROR_INVALIDDATA ;
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} else {
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channels = num_core_channels + ! ! s - > lfe ;
s - > xch_present = 0 ; /* disable further xch processing */
if ( s - > lfe ) {
avctx - > channel_layout | = AV_CH_LOW_FREQUENCY ;
s - > channel_order_tab = dca_channel_reorder_lfe [ s - > amode ] ;
} else
s - > channel_order_tab = dca_channel_reorder_nolfe [ s - > amode ] ;
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}
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if ( channels > ! ! s - > lfe & &
s - > channel_order_tab [ channels - 1 - ! ! s - > lfe ] < 0 )
return AVERROR_INVALIDDATA ;
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if ( av_get_channel_layout_nb_channels ( avctx - > channel_layout ) ! = channels ) {
av_log ( avctx , AV_LOG_ERROR , " Number of channels %d mismatches layout %d \n " , channels , av_get_channel_layout_nb_channels ( avctx - > channel_layout ) ) ;
return AVERROR_INVALIDDATA ;
}
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if ( num_core_channels + ! ! s - > lfe > 2 & &
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avctx - > request_channel_layout = = AV_CH_LAYOUT_STEREO ) {
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channels = 2 ;
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s - > output = s - > prim_channels = = 2 ? s - > amode : DCA_STEREO ;
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avctx - > channel_layout = AV_CH_LAYOUT_STEREO ;
}
else if ( avctx - > request_channel_layout & AV_CH_LAYOUT_NATIVE ) {
static const int8_t dca_channel_order_native [ 9 ] = { 0 , 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 } ;
s - > channel_order_tab = dca_channel_order_native ;
}
s - > lfe_index = dca_lfe_index [ s - > amode ] ;
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} else {
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av_log ( avctx , AV_LOG_ERROR ,
" Non standard configuration %d ! \n " , s - > amode ) ;
return AVERROR_INVALIDDATA ;
}
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s - > xxch_dmix_embedded = 0 ;
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} else {
/* we only get here if an XXCH channel set can be added to the mix */
channel_mask = s - > xxch_core_spkmask ;
if ( avctx - > request_channels > 0
& & avctx - > request_channels < s - > prim_channels ) {
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channels = num_core_channels + ! ! s - > lfe ;
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for ( i = 0 ; i < s - > xxch_chset & & channels + s - > xxch_chset_nch [ i ]
< = avctx - > request_channels ; i + + ) {
channels + = s - > xxch_chset_nch [ i ] ;
channel_mask | = s - > xxch_spk_masks [ i ] ;
}
} else {
channels = s - > prim_channels + ! ! s - > lfe ;
for ( i = 0 ; i < s - > xxch_chset ; i + + ) {
channel_mask | = s - > xxch_spk_masks [ i ] ;
}
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}
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/* Given the DTS spec'ed channel mask, generate an avcodec version */
channel_layout = 0 ;
for ( i = 0 ; i < s - > xxch_nbits_spk_mask ; + + i ) {
if ( channel_mask & ( 1 < < i ) ) {
channel_layout | = map_xxch_to_native [ i ] ;
}
}
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/* make sure that we have managed to get equivalent dts/avcodec channel
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* masks in some sense - - unfortunately some channels could overlap */
if ( av_popcount ( channel_mask ) ! = av_popcount ( channel_layout ) ) {
av_log ( avctx , AV_LOG_DEBUG ,
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" DTS-XXCH: Inconsistent avcodec/dts channel layouts \n " ) ;
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return AVERROR_INVALIDDATA ;
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}
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avctx - > channel_layout = channel_layout ;
if ( ! ( avctx - > request_channel_layout & AV_CH_LAYOUT_NATIVE ) ) {
/* Estimate DTS --> avcodec ordering table */
for ( chset = - 1 , j = 0 ; chset < s - > xxch_chset ; + + chset ) {
mask = chset > = 0 ? s - > xxch_spk_masks [ chset ]
: s - > xxch_core_spkmask ;
for ( i = 0 ; i < s - > xxch_nbits_spk_mask ; i + + ) {
if ( mask & ~ ( DCA_XXCH_LFE1 | DCA_XXCH_LFE2 ) & ( 1 < < i ) ) {
lavc = map_xxch_to_native [ i ] ;
posn = av_popcount ( channel_layout & ( lavc - 1 ) ) ;
s - > xxch_order_tab [ j + + ] = posn ;
}
}
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}
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s - > lfe_index = av_popcount ( channel_layout & ( AV_CH_LOW_FREQUENCY - 1 ) ) ;
} else { /* native ordering */
for ( i = 0 ; i < channels ; i + + )
s - > xxch_order_tab [ i ] = i ;
s - > lfe_index = channels - 1 ;
}
s - > channel_order_tab = s - > xxch_order_tab ;
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}
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if ( avctx - > channels ! = channels ) {
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if ( avctx - > channels )
av_log ( avctx , AV_LOG_INFO , " Number of channels changed in DCA decoder (%d -> %d) \n " , avctx - > channels , channels ) ;
avctx - > channels = channels ;
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}
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/* get output buffer */
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frame - > nb_samples = 256 * ( s - > sample_blocks / 8 ) ;
lavc: factorize ff_{thread_,re,}get_buffer error messages.
Coccinelle profile used:
@@
expression r, ctx, f, loglevel, str, flags;
@@
-if ((r = ff_get_buffer(ctx, f, flags)) < 0) {
- av_log(ctx, loglevel, str);
- return r;
-}
+if ((r = ff_get_buffer(ctx, f, flags)) < 0)
+ return r;
@@
expression r, ctx, f, loglevel, str;
@@
-if ((r = ff_reget_buffer(ctx, f)) < 0) {
- av_log(ctx, loglevel, str);
- return r;
-}
+if ((r = ff_reget_buffer(ctx, f)) < 0)
+ return r;
@@
expression r, ctx, f, loglevel, str, flags;
@@
-if ((r = ff_thread_get_buffer(ctx, f, flags)) < 0) {
- av_log(ctx, loglevel, str);
- return r;
-}
+if ((r = ff_thread_get_buffer(ctx, f, flags)) < 0)
+ return r;
...along with some manual patches for the remaining ones.
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if ( ( ret = ff_get_buffer ( avctx , frame , 0 ) ) < 0 )
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return ret ;
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samples_flt = ( float * * ) frame - > extended_data ;
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/* allocate buffer for extra channels if downmixing */
if ( avctx - > channels < full_channels ) {
ret = av_samples_get_buffer_size ( NULL , full_channels - channels ,
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frame - > nb_samples ,
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avctx - > sample_fmt , 0 ) ;
if ( ret < 0 )
return ret ;
av_fast_malloc ( & s - > extra_channels_buffer ,
& s - > extra_channels_buffer_size , ret ) ;
if ( ! s - > extra_channels_buffer )
return AVERROR ( ENOMEM ) ;
ret = av_samples_fill_arrays ( ( uint8_t * * ) s - > extra_channels , NULL ,
s - > extra_channels_buffer ,
full_channels - channels ,
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frame - > nb_samples , avctx - > sample_fmt , 0 ) ;
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if ( ret < 0 )
return ret ;
}
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/* filter to get final output */
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for ( i = 0 ; i < ( s - > sample_blocks / 8 ) ; i + + ) {
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int ch ;
for ( ch = 0 ; ch < channels ; ch + + )
s - > samples_chanptr [ ch ] = samples_flt [ ch ] + i * 256 ;
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for ( ; ch < full_channels ; ch + + )
s - > samples_chanptr [ ch ] = s - > extra_channels [ ch - channels ] + i * 256 ;
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dca_filter_channels ( s , i ) ;
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/* If this was marked as a DTS-ES stream we need to subtract back- */
/* channel from SL & SR to remove matrixed back-channel signal */
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if ( ( s - > source_pcm_res & 1 ) & & s - > xch_present ) {
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float * back_chan = s - > samples_chanptr [ s - > channel_order_tab [ s - > xch_base_channel ] ] ;
float * lt_chan = s - > samples_chanptr [ s - > channel_order_tab [ s - > xch_base_channel - 2 ] ] ;
float * rt_chan = s - > samples_chanptr [ s - > channel_order_tab [ s - > xch_base_channel - 1 ] ] ;
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s - > fdsp . vector_fmac_scalar ( lt_chan , back_chan , - M_SQRT1_2 , 256 ) ;
s - > fdsp . vector_fmac_scalar ( rt_chan , back_chan , - M_SQRT1_2 , 256 ) ;
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}
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/* If stream contains XXCH, we might need to undo an embedded downmix */
if ( s - > xxch_dmix_embedded ) {
/* Loop over channel sets in turn */
ch = num_core_channels ;
for ( chset = 0 ; chset < s - > xxch_chset ; chset + + ) {
endch = ch + s - > xxch_chset_nch [ chset ] ;
mask = s - > xxch_dmix_embedded ;
/* undo downmix */
for ( j = ch ; j < endch ; j + + ) {
if ( mask & ( 1 < < j ) ) { /* this channel has been mixed-out */
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src_chan = s - > samples_chanptr [ s - > channel_order_tab [ j ] ] ;
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for ( k = 0 ; k < endch ; k + + ) {
achan = s - > channel_order_tab [ k ] ;
scale = s - > xxch_dmix_coeff [ j ] [ k ] ;
if ( scale ! = 0.0 ) {
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dst_chan = s - > samples_chanptr [ achan ] ;
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s - > fdsp . vector_fmac_scalar ( dst_chan , src_chan ,
- scale , 256 ) ;
}
}
}
}
/* if a downmix has been embedded then undo the pre-scaling */
if ( ( mask & ( 1 < < ch ) ) & & s - > xxch_dmix_sf [ chset ] ! = 1.0f ) {
scale = s - > xxch_dmix_sf [ chset ] ;
for ( j = 0 ; j < ch ; j + + ) {
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src_chan = s - > samples_chanptr [ s - > channel_order_tab [ j ] ] ;
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for ( k = 0 ; k < 256 ; k + + )
src_chan [ k ] * = scale ;
}
/* LFE channel is always part of core, scale if it exists */
if ( s - > lfe ) {
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src_chan = s - > samples_chanptr [ s - > lfe_index ] ;
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for ( k = 0 ; k < 256 ; k + + )
src_chan [ k ] * = scale ;
}
}
ch = endch ;
}
}
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}
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/* update lfe history */
lfe_samples = 2 * s - > lfe * ( s - > sample_blocks / 8 ) ;
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for ( i = 0 ; i < 2 * s - > lfe * 4 ; i + + )
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s - > lfe_data [ i ] = s - > lfe_data [ i + lfe_samples ] ;
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/* AVMatrixEncoding
*
* DCA_STEREO_TOTAL ( Lt / Rt ) is equivalent to Dolby Surround */
ret = ff_side_data_update_matrix_encoding ( frame ,
( s - > output & ~ DCA_LFE ) = = DCA_STEREO_TOTAL ?
AV_MATRIX_ENCODING_DOLBY : AV_MATRIX_ENCODING_NONE ) ;
if ( ret < 0 )
return ret ;
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* got_frame_ptr = 1 ;
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return buf_size ;
}
/**
* DCA initialization
*
* @ param avctx pointer to the AVCodecContext
*/
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static av_cold int dca_decode_init ( AVCodecContext * avctx )
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{
DCAContext * s = avctx - > priv_data ;
s - > avctx = avctx ;
dca_init_vlcs ( ) ;
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avpriv_float_dsp_init ( & s - > fdsp , avctx - > flags & CODEC_FLAG_BITEXACT ) ;
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ff_mdct_init ( & s - > imdct , 6 , 1 , 1.0 ) ;
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ff_synth_filter_init ( & s - > synth ) ;
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ff_dcadsp_init ( & s - > dcadsp ) ;
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ff_fmt_convert_init ( & s - > fmt_conv , avctx ) ;
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avctx - > sample_fmt = AV_SAMPLE_FMT_FLTP ;
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/* allow downmixing to stereo */
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# if FF_API_REQUEST_CHANNELS
FF_DISABLE_DEPRECATION_WARNINGS
if ( avctx - > request_channels = = 2 )
avctx - > request_channel_layout = AV_CH_LAYOUT_STEREO ;
FF_ENABLE_DEPRECATION_WARNINGS
# endif
if ( avctx - > channels > 2 & &
avctx - > request_channel_layout = = AV_CH_LAYOUT_STEREO )
avctx - > channels = 2 ;
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return 0 ;
}
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static av_cold int dca_decode_end ( AVCodecContext * avctx )
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{
DCAContext * s = avctx - > priv_data ;
ff_mdct_end ( & s - > imdct ) ;
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av_freep ( & s - > extra_channels_buffer ) ;
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return 0 ;
}
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static const AVProfile profiles [ ] = {
{ FF_PROFILE_DTS , " DTS " } ,
{ FF_PROFILE_DTS_ES , " DTS-ES " } ,
{ FF_PROFILE_DTS_96_24 , " DTS 96/24 " } ,
{ FF_PROFILE_DTS_HD_HRA , " DTS-HD HRA " } ,
{ FF_PROFILE_DTS_HD_MA , " DTS-HD MA " } ,
{ FF_PROFILE_UNKNOWN } ,
} ;
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static const AVOption options [ ] = {
{ " disable_xch " , " disable decoding of the XCh extension " , offsetof ( DCAContext , xch_disable ) , AV_OPT_TYPE_INT , { . i64 = 0 } , 0 , 1 , AV_OPT_FLAG_DECODING_PARAM | AV_OPT_FLAG_AUDIO_PARAM } ,
{ NULL } ,
} ;
static const AVClass dca_decoder_class = {
. class_name = " DCA decoder " ,
. item_name = av_default_item_name ,
. option = options ,
. version = LIBAVUTIL_VERSION_INT ,
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. category = AV_CLASS_CATEGORY_DECODER ,
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} ;
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AVCodec ff_dca_decoder = {
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. name = " dca " ,
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. long_name = NULL_IF_CONFIG_SMALL ( " DCA (DTS Coherent Acoustics) " ) ,
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. type = AVMEDIA_TYPE_AUDIO ,
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. id = AV_CODEC_ID_DTS ,
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. priv_data_size = sizeof ( DCAContext ) ,
. init = dca_decode_init ,
. decode = dca_decode_frame ,
. close = dca_decode_end ,
. capabilities = CODEC_CAP_CHANNEL_CONF | CODEC_CAP_DR1 ,
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. sample_fmts = ( const enum AVSampleFormat [ ] ) { AV_SAMPLE_FMT_FLTP ,
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AV_SAMPLE_FMT_NONE } ,
. profiles = NULL_IF_CONFIG_SMALL ( profiles ) ,
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. priv_class = & dca_decoder_class ,
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} ;