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|
/*
* VC-9 and WMV3 decoder
* Copyright (c) 2005 Anonymous
* Copyright (c) 2005 Alex Beregszaszi
* Copyright (c) 2005 Michael Niedermayer
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
/**
* @file vc9.c
* VC-9 and WMV3 decoder
*
* TODO: Norm-6 bitplane imode, most AP stuff, optimize, all of MB layer :)
* TODO: use MPV_ !!
*/
#include "common.h"
#include "dsputil.h"
#include "avcodec.h"
#include "mpegvideo.h"
#include "vc9data.h"
extern const uint32_t ff_table0_dc_lum[120][2], ff_table1_dc_lum[120][2];
extern const uint32_t ff_table0_dc_chroma[120][2], ff_table1_dc_chroma[120][2];
extern VLC ff_msmp4_dc_luma_vlc[2], ff_msmp4_dc_chroma_vlc[2];
#define MB_INTRA_VLC_BITS 9
extern VLC ff_msmp4_mb_i_vlc;
#define DC_VLC_BITS 9
static const uint16_t table_mb_intra[64][2];
/* Some inhibiting stuff */
#define HAS_ADVANCED_PROFILE 1
#define TRACE 1
#if TRACE
# define INIT_VLC(vlc, nb_bits, nb_codes, bits, bits_wrap, bits_size, \
codes, codes_wrap, codes_size, use_static) \
if (init_vlc(vlc, nb_bits, nb_codes, bits, bits_wrap, bits_size, \
codes, codes_wrap, codes_size, use_static) < 0) \
{ \
av_log(v->s.avctx, AV_LOG_ERROR, "Error for " # vlc " (%i)\n", i); \
return -1; \
}
#else
# define INIT_VLC(vlc, nb_bits, nb_codes, bits, bits_wrap, bits_size, \
codes, codes_wrap, codes_size, use_static) \
init_vlc(vlc, nb_bits, nb_codes, bits, bits_wrap, bits_size, \
codes, codes_wrap, codes_size, use_static)
#endif
#define PROFILE_SIMPLE 0
#define PROFILE_MAIN 1
#define PROFILE_ADVANCED 3
#define QUANT_FRAME_IMPLICIT 0
#define QUANT_FRAME_EXPLICIT 1
#define QUANT_NON_UNIFORM 2
#define QUANT_UNIFORM 3
/* Where quant can be changed */
#define DQPROFILE_FOUR_EDGES 0
#define DQPROFILE_DOUBLE_EDGES 1
#define DQPROFILE_SINGLE_EDGE 2
#define DQPROFILE_ALL_MBS 3
/* Which edge is quantized with ALTPQUANT */
#define DQSINGLE_BEDGE_LEFT 0
#define DQSINGLE_BEDGE_TOP 1
#define DQSINGLE_BEDGE_RIGHT 2
#define DQSINGLE_BEDGE_BOTTOM 3
/* Which pair of edges is quantized with ALTPQUANT */
#define DQDOUBLE_BEDGE_TOPLEFT 0
#define DQDOUBLE_BEDGE_TOPRIGHT 1
#define DQDOUBLE_BEDGE_BOTTOMRIGHT 2
#define DQDOUBLE_BEDGE_BOTTOMLEFT 3
/* MV P modes */
#define MV_PMODE_1MV_HPEL_BILIN 0
#define MV_PMODE_1MV 1
#define MV_PMODE_1MV_HPEL 2
#define MV_PMODE_MIXED_MV 3
#define MV_PMODE_INTENSITY_COMP 4
#define BMV_TYPE_BACKWARD 0
#define BMV_TYPE_FORWARD 1
#define BMV_TYPE_INTERPOLATED 3
/* MV P mode - the 5th element is only used for mode 1 */
static const uint8_t mv_pmode_table[2][5] = {
{ MV_PMODE_1MV_HPEL_BILIN, MV_PMODE_1MV, MV_PMODE_1MV_HPEL, MV_PMODE_MIXED_MV, MV_PMODE_INTENSITY_COMP },
{ MV_PMODE_1MV, MV_PMODE_MIXED_MV, MV_PMODE_1MV_HPEL, MV_PMODE_1MV_HPEL_BILIN, MV_PMODE_INTENSITY_COMP }
};
/* One more frame type */
#define BI_TYPE 7
/* FIXME Worse than ugly */
static const int fps_nr[5] = { 24, 25, 30, 50, 60 },
fps_dr[2] = { 1000, 1001 };
static const uint8_t pquant_table[3][32] = {
{ /* Implicit quantizer */
0, 1, 2, 3, 4, 5, 6, 7, 8, 6, 7, 8, 9, 10, 11, 12,
13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 27, 29, 31
},
{ /* Explicit quantizer, pquantizer uniform */
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15,
16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31
},
{ /* Explicit quantizer, pquantizer non-uniform */
0, 1, 1, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13,
14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 29, 31
}
};
// FIXME move this into the context
#define VC9_BFRACTION_VLC_BITS 7
static VLC vc9_bfraction_vlc;
#define VC9_IMODE_VLC_BITS 4
static VLC vc9_imode_vlc;
#define VC9_NORM2_VLC_BITS 3
static VLC vc9_norm2_vlc;
#define VC9_NORM6_VLC_BITS 9
static VLC vc9_norm6_vlc;
/* Could be optimized, one table only needs 8 bits */
#define VC9_TTMB_VLC_BITS 9 //12
static VLC vc9_ttmb_vlc[3];
#define VC9_MV_DIFF_VLC_BITS 9 //15
static VLC vc9_mv_diff_vlc[4];
#define VC9_CBPCY_P_VLC_BITS 9 //14
static VLC vc9_cbpcy_p_vlc[4];
#define VC9_4MV_BLOCK_PATTERN_VLC_BITS 6
static VLC vc9_4mv_block_pattern_vlc[4];
//We mainly need data and is_raw, so this struct could be avoided
//to save a level of indirection; feel free to modify
typedef struct BitPlane {
uint8_t *data;
int width, stride;
int height;
uint8_t is_raw;
} BitPlane;
typedef struct VC9Context{
/* No MpegEnc context, might be good to use it */
MpegEncContext s;
/***************************/
/* Sequence Header */
/***************************/
/* Simple/Main Profile */
int res_sm; //reserved, 2b
int res_x8; //reserved
int multires; //frame-level RESPIC syntax element present
int res_fasttx; //always 1
int res_transtab; //always 0
int rangered; //RANGEREDFRM (range reduction) syntax element present
int res_rtm_flag; //reserved, set to 1
int reserved; //duh
#if HAS_ADVANCED_PROFILE
/* Advanced Profile */
int level; //3
int chromaformat; //2
int postprocflag; //frame-based processing use
int broadcast; //TFF/RFF present
int interlace; //Progressive/interlaced (RPTFTM syntax element)
int tfcntrflag; //TFCNTR present
int panscanflag; //NUMPANSCANWIN, TOPLEFT{X,Y}, BOTRIGHT{X,Y} presents
int extended_dmv;
int color_prim; //8
int transfer_char; //8
int matrix_coef; //8
int hrd_param_flag;
#endif
/* All Profiles */
/* TODO: move all int to flags */
int profile; //2
int frmrtq_postproc; //3
int bitrtq_postproc; //5
int loopfilter;
int fastuvmc; //Rounding of qpel vector to hpel ? (not in Simple)
int extended_mv; //Ext MV in P/B (not in Simple)
int dquant; //How qscale varies with MBs, 2bits (not in Simple)
int vstransform; //variable-size transform46
int overlap; //overlapped transforms in use
int quantizer_mode; //2, quantizer mode used for sequence, see QUANT_*
int finterpflag; //INTERPFRM present
/*****************************/
/* Frame decoding */
/*****************************/
/* All profiles */
uint8_t mv_mode, mv_mode2; /* MV coding mode */
uint8_t pq, altpq; /* Quantizers */
uint8_t dquantfrm, dqprofile, dqsbedge, dqbilevel; /* pquant parameters */
int tile; /* 3x2 if (width_mb%3) else 2x3 */
VLC *luma_ac_vlc, *chroma_ac_vlc,
*luma_dc_vlc, *chroma_dc_vlc; /* transac/dcfrm bits are indexes */
uint8_t ttmbf, ttfrm; /* Transform type */
uint8_t lumscale, lumshift; /* Luma compensation parameters */
int16_t bfraction; /* Relative position % anchors=> how to scale MVs */
uint8_t halfpq; /* Uniform quant over image and qp+.5 */
uint8_t respic;
/* Ranges:
* 0 -> [-64n 63.f] x [-32, 31.f]
* 1 -> [-128, 127.f] x [-64, 63.f]
* 2 -> [-512, 511.f] x [-128, 127.f]
* 3 -> [-1024, 1023.f] x [-256, 255.f]
*/
uint8_t mvrange;
uint8_t pquantizer;
uint8_t *previous_line_cbpcy; /* To use for predicted CBPCY */
VLC *cbpcy_vlc /* Current CBPCY VLC table */,
*mv_diff_vlc /* Current MV Diff VLC table */,
*ttmb_vlc /* Current MB Transform Type VLC table */;
BitPlane mv_type_mb_plane; /* bitplane for mv_type == (4MV) */
BitPlane skip_mb_plane, /* bitplane for skipped MBs */
direct_mb_plane; /* bitplane for "direct" MBs */
/* S/M only ? */
uint8_t rangeredfrm; /* out_sample = CLIP((in_sample-128)*2+128) */
uint8_t interpfrm;
#if HAS_ADVANCED_PROFILE
/* Advanced */
uint8_t fcm; //0->Progressive, 2->Frame-Interlace, 3->Field-Interlace
uint8_t numpanscanwin;
uint8_t tfcntr;
uint8_t rptfrm, tff, rff;
uint8_t topleftx;
uint8_t toplefty;
uint8_t bottomrightx;
uint8_t bottomrighty;
uint8_t uvsamp;
uint8_t postproc;
int hrd_num_leaky_buckets;
uint8_t bit_rate_exponent;
uint8_t buffer_size_exponent;
BitPlane ac_pred_plane; //AC prediction flags bitplane
BitPlane over_flags_plane; //Overflags bitplane
uint8_t condover;
uint16_t *hrd_rate, *hrd_buffer;
VLC *luma_ac2_vlc, *chroma_ac2_vlc;
#endif
} VC9Context;
/* FIXME Slow and ugly */
static int get_prefix(GetBitContext *gb, int stop, int len)
{
#if 1
int i = 0, tmp = !stop;
while (i != len && tmp != stop)
{
tmp = get_bits(gb, 1);
i++;
}
return i;
#else
unsigned int buf;
int log;
OPEN_READER(re, gb);
UPDATE_CACHE(re, gb);
buf=GET_CACHE(re, gb); //Still not sure
if (stop) buf = ~buf;
log= av_log2(-buf); //FIXME: -?
if (log < limit){
LAST_SKIP_BITS(re, gb, log+1);
CLOSE_READER(re, gb);
return log;
}
LAST_SKIP_BITS(re, gb, limit);
CLOSE_READER(re, gb);
return limit;
#endif
}
static int vc9_init_common(VC9Context *v)
{
static int done = 0;
int i;
/* Set the bit planes */
/* FIXME memset better ? (16bytes) */
v->mv_type_mb_plane = (struct BitPlane) { NULL, 0, 0, 0 };
v->direct_mb_plane = (struct BitPlane) { NULL, 0, 0, 0 };
v->skip_mb_plane = (struct BitPlane) { NULL, 0, 0, 0 };
#if HAS_ADVANCED_PROFILE
v->ac_pred_plane = v->over_flags_plane = (struct BitPlane) { NULL, 0, 0, 0 };
v->hrd_rate = v->hrd_buffer = NULL;
#endif
/* VLC tables */
#if 0 // spec -> actual tables converter
for(i=0; i<64; i++){
int code= (vc9_norm6_spec[i][1] << vc9_norm6_spec[i][4]) + vc9_norm6_spec[i][3];
av_log(NULL, AV_LOG_DEBUG, "0x%03X, ", code);
if(i%16==15) av_log(NULL, AV_LOG_DEBUG, "\n");
}
for(i=0; i<64; i++){
int code= vc9_norm6_spec[i][2] + vc9_norm6_spec[i][4];
av_log(NULL, AV_LOG_DEBUG, "%2d, ", code);
if(i%16==15) av_log(NULL, AV_LOG_DEBUG, "\n");
}
#endif
if(!done)
{
done = 1;
INIT_VLC(&vc9_bfraction_vlc, VC9_BFRACTION_VLC_BITS, 23,
vc9_bfraction_bits, 1, 1,
vc9_bfraction_codes, 1, 1, 1);
INIT_VLC(&vc9_norm2_vlc, VC9_NORM2_VLC_BITS, 4,
vc9_norm2_bits, 1, 1,
vc9_norm2_codes, 1, 1, 1);
INIT_VLC(&vc9_norm6_vlc, VC9_NORM6_VLC_BITS, 64,
vc9_norm6_bits, 1, 1,
vc9_norm6_codes, 2, 2, 1);
INIT_VLC(&vc9_imode_vlc, VC9_IMODE_VLC_BITS, 7,
vc9_imode_bits, 1, 1,
vc9_imode_codes, 1, 1, 1);
for (i=0; i<3; i++)
{
INIT_VLC(&vc9_ttmb_vlc[i], VC9_TTMB_VLC_BITS, 16,
vc9_ttmb_bits[i], 1, 1,
vc9_ttmb_codes[i], 2, 2, 1);
}
for(i=0; i<4; i++)
{
INIT_VLC(&vc9_4mv_block_pattern_vlc[i], VC9_4MV_BLOCK_PATTERN_VLC_BITS, 16,
vc9_4mv_block_pattern_bits[i], 1, 1,
vc9_4mv_block_pattern_codes[i], 1, 1, 1);
INIT_VLC(&vc9_cbpcy_p_vlc[i], VC9_CBPCY_P_VLC_BITS, 64,
vc9_cbpcy_p_bits[i], 1, 1,
vc9_cbpcy_p_codes[i], 2, 2, 1);
INIT_VLC(&vc9_mv_diff_vlc[i], VC9_MV_DIFF_VLC_BITS, 73,
vc9_mv_diff_bits[i], 1, 1,
vc9_mv_diff_codes[i], 2, 2, 1);
}
}
/* Other defaults */
v->pq = -1;
v->mvrange = 0; /* 7.1.1.18, p80 */
return 0;
}
#if HAS_ADVANCED_PROFILE
/* 6.2.1, p32 */
static int decode_hrd(VC9Context *v, GetBitContext *gb)
{
int i, num;
num = get_bits(gb, 5);
if (v->hrd_rate || num != v->hrd_num_leaky_buckets)
{
av_freep(&v->hrd_rate);
}
if (!v->hrd_rate) v->hrd_rate = av_malloc(num*sizeof(uint16_t));
if (!v->hrd_rate) return -1;
if (v->hrd_buffer || num != v->hrd_num_leaky_buckets)
{
av_freep(&v->hrd_buffer);
}
if (!v->hrd_buffer) v->hrd_buffer = av_malloc(num*sizeof(uint16_t));
if (!v->hrd_buffer) return -1;
v->hrd_num_leaky_buckets = num;
//exponent in base-2 for rate
v->bit_rate_exponent = get_bits(gb, 4);
//exponent in base-2 for buffer_size
v->buffer_size_exponent = get_bits(gb, 4);
for (i=0; i<num; i++)
{
//mantissae, ordered (if not, use a function ?
v->hrd_rate[i] = get_bits(gb, 16);
if (i && v->hrd_rate[i-1]>=v->hrd_rate[i])
{
av_log(v, AV_LOG_ERROR, "HDR Rates aren't strictly increasing:"
"%i vs %i\n", v->hrd_rate[i-1], v->hrd_rate[i]);
return -1;
}
v->hrd_buffer[i] = get_bits(gb, 16);
if (i && v->hrd_buffer[i-1]<v->hrd_buffer[i])
{
av_log(v, AV_LOG_ERROR, "HDR Buffers aren't decreasing:"
"%i vs %i\n", v->hrd_buffer[i-1], v->hrd_buffer[i]);
return -1;
}
}
return 0;
}
/* Table 2, p18 */
static int decode_advanced_sequence_header(AVCodecContext *avctx, GetBitContext *gb)
{
VC9Context *v = avctx->priv_data;
int nr, dr, aspect_ratio;
v->postprocflag = get_bits(gb, 1);
v->broadcast = get_bits(gb, 1);
v->interlace = get_bits(gb, 1);
v->tfcntrflag = get_bits(gb, 1);
v->finterpflag = get_bits(gb, 1); //common
v->panscanflag = get_bits(gb, 1);
v->reserved = get_bits(gb, 1);
if (v->reserved)
{
av_log(avctx, AV_LOG_ERROR, "RESERVED should be 0 (is %i)\n",
v->reserved);
return -1;
}
if (v->extended_mv)
v->extended_dmv = get_bits(gb, 1);
/* 6.1.7, p21 */
if (get_bits(gb, 1) /* pic_size_flag */)
{
avctx->coded_width = get_bits(gb, 12);
avctx->coded_height = get_bits(gb, 12);
if ( get_bits(gb, 1) /* disp_size_flag */)
{
avctx->width = get_bits(gb, 14);
avctx->height = get_bits(gb, 14);
}
/* 6.1.7.4, p22 */
if ( get_bits(gb, 1) /* aspect_ratio_flag */)
{
aspect_ratio = get_bits(gb, 4); //SAR
if (aspect_ratio == 0x0F) //FF_ASPECT_EXTENDED
{
avctx->sample_aspect_ratio.num = get_bits(gb, 8);
avctx->sample_aspect_ratio.den = get_bits(gb, 8);
}
else if (aspect_ratio == 0x0E)
{
av_log(avctx, AV_LOG_DEBUG, "Reserved AR found\n");
}
else
{
avctx->sample_aspect_ratio = vc9_pixel_aspect[aspect_ratio];
}
}
}
else
{
avctx->coded_width = avctx->width;
avctx->coded_height = avctx->height;
}
/* 6.1.8, p23 */
if ( get_bits(gb, 1) /* framerateflag */)
{
if ( get_bits(gb, 1) /* framerateind */)
{
nr = get_bits(gb, 8);
dr = get_bits(gb, 4);
if (nr<1)
{
av_log(avctx, AV_LOG_ERROR, "0 is forbidden for FRAMERATENR\n");
return -1;
}
if (nr>5)
{
av_log(avctx, AV_LOG_ERROR,
"Reserved FRAMERATENR %i not handled\n", nr);
}
if (dr<1)
{
av_log(avctx, AV_LOG_ERROR, "0 is forbidden for FRAMERATEDR\n");
}
if (dr>2)
{
av_log(avctx, AV_LOG_ERROR,
"Reserved FRAMERATEDR %i not handled\n", dr);
}
avctx->frame_rate_base = fps_nr[dr];
avctx->frame_rate = fps_nr[nr];
}
else
{
nr = get_bits(gb, 16);
// 0.03125->2048Hz / 0.03125Hz
avctx->frame_rate = 1000000;
avctx->frame_rate_base = 31250*(1+nr);
}
}
/* 6.1.9, p25 */
if ( get_bits(gb, 1) /* color_format_flag */)
{
//Chromacity coordinates of color primaries
//like ITU-R BT.709-2, BT.470-2, ...
v->color_prim = get_bits(gb, 8);
if (v->color_prim<1)
{
av_log(avctx, AV_LOG_ERROR, "0 for COLOR_PRIM is reserved\n");
return -1;
}
if (v->color_prim == 3 || v->color_prim>6)
{
av_log(avctx, AV_LOG_DEBUG, "Reserved COLOR_PRIM %i found\n",
v->color_prim);
return -1;
}
//Opto-electronic transfer characteristics
v->transfer_char = get_bits(gb, 8);
if (v->transfer_char == 3 || v->transfer_char>8)
{
av_log(avctx, AV_LOG_DEBUG, "Reserved TRANSFERT_CHAR %i found\n",
v->color_prim);
return -1;
}
//Matrix coefficient for primariev->YCbCr
v->matrix_coef = get_bits(gb, 8);
if (v->matrix_coef < 1) return -1; //forbidden
if ((v->matrix_coef>3 && v->matrix_coef<6) || v->matrix_coef>7)
{
av_log(avctx, AV_LOG_DEBUG, "Reserved MATRIX_COEF %i found\n",
v->color_prim);
return -1;
}
}
//Hypothetical reference decoder indicator flag
v->hrd_param_flag = get_bits(gb, 1);
if (v->hrd_param_flag)
{
if (decode_hrd(v, gb) < 0) return -1;
}
av_log(avctx, AV_LOG_DEBUG, "Advanced profile not supported yet\n");
return -1;
}
#endif
/* Figure 7-8, p16-17 */
static int decode_sequence_header(AVCodecContext *avctx, GetBitContext *gb)
{
VC9Context *v = avctx->priv_data;
v->profile = get_bits(gb, 2);
av_log(avctx, AV_LOG_DEBUG, "Profile: %i\n", v->profile);
#if HAS_ADVANCED_PROFILE
if (v->profile > PROFILE_MAIN)
{
v->level = get_bits(gb, 3);
v->chromaformat = get_bits(gb, 2);
if (v->chromaformat != 1)
{
av_log(avctx, AV_LOG_ERROR,
"Only 4:2:0 chroma format supported\n");
return -1;
}
}
else
#endif
{
v->res_sm = get_bits(gb, 2); //reserved
if (v->res_sm)
{
av_log(avctx, AV_LOG_ERROR,
"Reserved RES_SM=%i is forbidden\n", v->res_sm);
//return -1;
}
}
// (fps-2)/4 (->30)
v->frmrtq_postproc = get_bits(gb, 3); //common
// (bitrate-32kbps)/64kbps
v->bitrtq_postproc = get_bits(gb, 5); //common
v->loopfilter = get_bits(gb, 1); //common
#if HAS_ADVANCED_PROFILE
if (v->profile <= PROFILE_MAIN)
#endif
{
v->res_x8 = get_bits(gb, 1); //reserved
if (v->res_x8)
{
av_log(avctx, AV_LOG_ERROR,
"1 for reserved RES_X8 is forbidden\n");
return -1;
}
v->multires = get_bits(gb, 1);
v->res_fasttx = get_bits(gb, 1);
if (!v->res_fasttx)
{
av_log(avctx, AV_LOG_ERROR,
"0 for reserved RES_FASTTX is forbidden\n");
//return -1;
}
}
v->fastuvmc = get_bits(gb, 1); //common
if (!v->profile && !v->fastuvmc)
{
av_log(avctx, AV_LOG_ERROR,
"FASTUVMC unavailable in Simple Profile\n");
return -1;
}
v->extended_mv = get_bits(gb, 1); //common
if (!v->profile && v->extended_mv)
{
av_log(avctx, AV_LOG_ERROR,
"Extended MVs unavailable in Simple Profile\n");
return -1;
}
v->dquant = get_bits(gb, 2); //common
v->vstransform = get_bits(gb, 1); //common
#if HAS_ADVANCED_PROFILE
if (v->profile <= PROFILE_MAIN)
#endif
{
v->res_transtab = get_bits(gb, 1);
if (v->res_transtab)
{
av_log(avctx, AV_LOG_ERROR,
"1 for reserved RES_TRANSTAB is forbidden\n");
return -1;
}
}
v->overlap = get_bits(gb, 1); //common
#if HAS_ADVANCED_PROFILE
if (v->profile <= PROFILE_MAIN)
#endif
{
v->s.resync_marker = get_bits(gb, 1);
v->rangered = get_bits(gb, 1);
}
v->s.max_b_frames = avctx->max_b_frames = get_bits(gb, 3); //common
v->quantizer_mode = get_bits(gb, 2); //common
#if HAS_ADVANCED_PROFILE
if (v->profile <= PROFILE_MAIN)
#endif
{
v->finterpflag = get_bits(gb, 1); //common
v->res_rtm_flag = get_bits(gb, 1); //reserved
if (!v->res_rtm_flag)
{
av_log(avctx, AV_LOG_ERROR,
"0 for reserved RES_RTM_FLAG is forbidden\n");
//return -1;
}
#if TRACE
av_log(avctx, AV_LOG_INFO,
"Profile %i:\nfrmrtq_postproc=%i, bitrtq_postproc=%i\n"
"LoopFilter=%i, MultiRes=%i, FastUVMV=%i, Extended MV=%i\n"
"Rangered=%i, VSTransform=%i, Overlap=%i, SyncMarker=%i\n"
"DQuant=%i, Quantizer mode=%i, Max B frames=%i\n",
v->profile, v->frmrtq_postproc, v->bitrtq_postproc,
v->loopfilter, v->multires, v->fastuvmc, v->extended_mv,
v->rangered, v->vstransform, v->overlap, v->s.resync_marker,
v->dquant, v->quantizer_mode, avctx->max_b_frames
);
return 0;
#endif
}
#if HAS_ADVANCED_PROFILE
else return decode_advanced_sequence_header(avctx, gb);
#endif
}
#if HAS_ADVANCED_PROFILE
/*****************************************************************************/
/* Entry point decoding (Advanced Profile) */
/*****************************************************************************/
static int advanced_entry_point_process(AVCodecContext *avctx, GetBitContext *gb)
{
VC9Context *v = avctx->priv_data;
int range_mapy_flag, range_mapuv_flag, i;
if (v->profile != PROFILE_ADVANCED)
{
av_log(avctx, AV_LOG_ERROR,
"Entry point are only defined in Advanced Profile!\n");
return -1; //Only for advanced profile!
}
if (v->hrd_param_flag)
{
//Update buffer fullness
av_log(avctx, AV_LOG_DEBUG, "Buffer fullness update\n");
for (i=0; i<v->hrd_num_leaky_buckets; i++)
skip_bits(gb, 8);
}
if ((range_mapy_flag = get_bits(gb, 1)))
{
//RANGE_MAPY
av_log(avctx, AV_LOG_DEBUG, "RANGE_MAPY\n");
skip_bits(gb, 3);
}
if ((range_mapuv_flag = get_bits(gb, 1)))
{
//RANGE_MAPUV
av_log(avctx, AV_LOG_DEBUG, "RANGE_MAPUV\n");
skip_bits(gb, 3);
}
if (v->panscanflag)
{
//NUMPANSCANWIN
v->numpanscanwin = get_bits(gb, 3);
av_log(avctx, AV_LOG_DEBUG, "NUMPANSCANWIN: %u\n", v->numpanscanwin);
}
return 0;
}
#endif
/******************************************************************************/
/* Bitplane decoding: 8.7, p56 */
/******************************************************************************/
#define IMODE_RAW 0
#define IMODE_NORM2 1
#define IMODE_DIFF2 2
#define IMODE_NORM6 3
#define IMODE_DIFF6 4
#define IMODE_ROWSKIP 5
#define IMODE_COLSKIP 6
int alloc_bitplane(BitPlane *bp, int width, int height)
{
if (!bp || bp->width<0 || bp->height<0) return -1;
bp->data = (uint8_t*)av_malloc(width*height);
if (!bp->data) return -1;
bp->width = bp->stride = width; //FIXME Needed for aligned data ?
bp->height = height;
return 0;
}
void free_bitplane(BitPlane *bp)
{
bp->width = bp->stride = bp->height = 0;
if (bp->data) av_freep(&bp->data);
}
static void decode_rowskip(uint8_t* plane, int width, int height, int stride, VC9Context *v){
int x, y;
GetBitContext *gb = &v->s.gb;
for (y=0; y<height; y++){
if (!get_bits(gb, 1)) //rowskip
memset(plane, 0, width);
else
for (x=0; x<width; x++)
plane[x] = get_bits(gb, 1);
plane += stride;
}
}
//FIXME optimize
static void decode_colskip(uint8_t* plane, int width, int height, int stride, VC9Context *v){
int x, y;
GetBitContext *gb = &v->s.gb;
for (x=0; x<width; x++){
if (!get_bits(gb, 1)) //colskip
for (y=0; y<height; y++)
plane[y*stride] = 0;
else
for (y=0; y<height; y++)
plane[y*stride] = get_bits(gb, 1);
plane ++;
}
}
//FIXME optimize
//FIXME is this supposed to set elements to 0/FF or 0/1? 0/x!=0, not used for
// prediction
//FIXME Use BitPlane struct or return if table is raw (no bits read here but
// later on)
static int bitplane_decoding(BitPlane *bp, VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int imode, x, y, code, use_vertical_tile, tile_w, tile_h;
uint8_t invert, *planep = bp->data;
invert = get_bits(gb, 1);
imode = get_vlc2(gb, vc9_imode_vlc.table, VC9_IMODE_VLC_BITS, 2);
bp->is_raw = 0;
switch (imode)
{
case IMODE_RAW:
//Data is actually read in the MB layer (same for all tests == "raw")
bp->is_raw = 1; //invert ignored
return invert;
case IMODE_DIFF2:
case IMODE_NORM2:
if ((bp->height*bp->width) & 1) *(++planep) = get_bits(gb, 1);
for(x=0; x<(bp->height*bp->width)>>1; x++){
code = get_vlc2(gb, vc9_norm2_vlc.table, VC9_NORM2_VLC_BITS, 2);
*(++planep) = code&1; //lsb => left
*(++planep) = code&2; //msb => right - bitplane => only !0 matters
//FIXME width->stride
}
break;
case IMODE_DIFF6:
case IMODE_NORM6:
use_vertical_tile= bp->height%3==0 && bp->width%3!=0;
tile_w= use_vertical_tile ? 2 : 3;
tile_h= use_vertical_tile ? 3 : 2;
for(y= bp->height%tile_h; y< bp->height; y+=tile_h){
for(x= bp->width%tile_w; x< bp->width; x+=tile_w){
code = get_vlc2(gb, vc9_norm6_vlc.table, VC9_NORM6_VLC_BITS, 2);
if(code<0){
av_log(v->s.avctx, AV_LOG_DEBUG, "inavlid NORM-6 VLC\n");
return -1;
}
//FIXME following is a pure guess and probably wrong
//FIXME A bitplane (0 | !0), so could the shifts be avoided ?
planep[x + 0*bp->stride]= (code>>0)&1;
planep[x + 1 + 0*bp->stride]= (code>>1)&1;
if(use_vertical_tile){
planep[x + 0 + 1*bp->stride]= (code>>2)&1;
planep[x + 1 + 1*bp->stride]= (code>>3)&1;
planep[x + 0 + 2*bp->stride]= (code>>4)&1;
planep[x + 1 + 2*bp->stride]= (code>>5)&1;
}else{
planep[x + 2 + 0*bp->stride]= (code>>2)&1;
planep[x + 0 + 1*bp->stride]= (code>>3)&1;
planep[x + 1 + 1*bp->stride]= (code>>4)&1;
planep[x + 2 + 1*bp->stride]= (code>>5)&1;
}
}
}
x= bp->width % tile_w;
decode_colskip(bp->data , x, bp->height , bp->stride, v);
decode_rowskip(bp->data+x, bp->width - x, bp->height % tile_h, bp->stride, v);
break;
case IMODE_ROWSKIP:
decode_rowskip(bp->data, bp->width, bp->height, bp->stride, v);
break;
case IMODE_COLSKIP: //Teh ugly
decode_colskip(bp->data, bp->width, bp->height, bp->stride, v);
break;
default: break;
}
/* Applying diff operator */
if (imode == IMODE_DIFF2 || imode == IMODE_DIFF6)
{
planep = bp->data;
planep[0] ^= invert;
for (x=1; x<bp->width; x++)
planep[x] ^= planep[x-1];
for (y=1; y<bp->height; y++)
{
planep += bp->stride;
planep[0] ^= planep[-bp->stride];
for (x=1; x<bp->width; x++)
{
if (planep[x-1] != planep[x-bp->stride]) planep[x] ^= invert;
else planep[x] ^= planep[x-1];
}
}
}
else if (invert)
{
planep = bp->data;
for (x=0; x<bp->width*bp->height; x++) planep[x] = !planep[x]; //FIXME stride
}
return (imode<<1) + invert;
}
/*****************************************************************************/
/* VOP Dquant decoding */
/*****************************************************************************/
static int vop_dquant_decoding(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int pqdiff;
//variable size
if (v->dquant == 2)
{
pqdiff = get_bits(gb, 3);
if (pqdiff == 7) v->altpq = get_bits(gb, 5);
else v->altpq = v->pq + pqdiff + 1;
}
else
{
v->dquantfrm = get_bits(gb, 1);
if ( v->dquantfrm )
{
v->dqprofile = get_bits(gb, 2);
switch (v->dqprofile)
{
case DQPROFILE_SINGLE_EDGE:
case DQPROFILE_DOUBLE_EDGES:
v->dqsbedge = get_bits(gb, 2);
break;
case DQPROFILE_ALL_MBS:
v->dqbilevel = get_bits(gb, 1);
default: break; //Forbidden ?
}
if (!v->dqbilevel || v->dqprofile != DQPROFILE_ALL_MBS)
{
pqdiff = get_bits(gb, 3);
if (pqdiff == 7) v->altpq = get_bits(gb, 5);
else v->altpq = v->pq + pqdiff + 1;
}
}
}
return 0;
}
/*****************************************************************************/
/* All Profiles picture header decoding specific functions */
/* Only pro/epilog differs between Simple/Main and Advanced => check caller */
/*****************************************************************************/
static int decode_bi_picture_header(VC9Context *v)
{
/* Very particular case:
- for S/M Profiles, decode_b_picture_header reads BF,
bfraction then determine if this is a BI frame, calling
this function afterwards
- for A Profile, PTYPE already tells so and we can go
directly there
*/
GetBitContext *gb = &v->s.gb;
int pqindex;
/* Read the quantization stuff */
pqindex = get_bits(gb, 5);
if (v->quantizer_mode == QUANT_FRAME_IMPLICIT)
v->pq = pquant_table[0][pqindex];
else
{
v->pq = pquant_table[v->quantizer_mode-1][pqindex];
}
if (pqindex < 9) v->halfpq = get_bits(gb, 1);
if (v->quantizer_mode == QUANT_FRAME_EXPLICIT)
v->pquantizer = get_bits(gb, 1);
/* Read the MV type/mode */
if (v->extended_mv == 1)
v->mvrange = get_prefix(gb, 0, 3);
/* FIXME: what table are used in that case ? */
v->mv_diff_vlc = &vc9_mv_diff_vlc[0];
v->cbpcy_vlc = &ff_msmp4_mb_i_vlc;
av_log(v->s.avctx, AV_LOG_DEBUG, "B frame, QP=%i\n", v->pq);
av_log(v->s.avctx, AV_LOG_ERROR, "BI_TYPE not supported yet\n");
/* Epilog should be done in caller */
return -1;
}
/* Tables 11+12, p62-65 */
static int decode_b_picture_primary_header(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int pqindex, status;
/* Prolog common to all frametypes should be done in caller */
if (v->profile == PROFILE_SIMPLE)
{
av_log(v, AV_LOG_ERROR, "Found a B frame while in Simple Profile!\n");
return FRAME_SKIPED;
}
v->bfraction = vc9_bfraction_lut[get_vlc2(gb, vc9_bfraction_vlc.table,
VC9_BFRACTION_VLC_BITS, 2)];
if (v->bfraction < -1)
{
av_log(v, AV_LOG_ERROR, "Invalid BFRaction\n");
return FRAME_SKIPED;
}
else if (!v->bfraction)
{
/* We actually have a BI frame */
return decode_bi_picture_header(v);
}
/* Read the quantization stuff */
pqindex = get_bits(gb, 5);
if (v->quantizer_mode == QUANT_FRAME_IMPLICIT)
v->pq = pquant_table[0][pqindex];
else
{
v->pq = pquant_table[v->quantizer_mode-1][pqindex];
}
if (pqindex < 9) v->halfpq = get_bits(gb, 1);
if (v->quantizer_mode == QUANT_FRAME_EXPLICIT)
v->pquantizer = get_bits(gb, 1);
/* Read the MV type/mode */
if (v->extended_mv == 1)
v->mvrange = get_prefix(gb, 0, 3);
v->mv_mode = get_bits(gb, 1);
if (v->pq < 13)
{
if (!v->mv_mode)
{
v->mv_mode = get_bits(gb, 2);
if (v->mv_mode)
av_log(v, AV_LOG_ERROR,
"mv_mode for lowquant B frame was %i\n", v->mv_mode);
}
}
else
{
if (!v->mv_mode)
{
if (get_bits(gb, 1))
av_log(v, AV_LOG_ERROR,
"mv_mode for highquant B frame was %i\n", v->mv_mode);
}
v->mv_mode = 1-v->mv_mode; //To match (pq < 13) mapping
}
return 0;
}
static int decode_b_picture_secondary_header(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int status;
bitplane_decoding(&v->skip_mb_plane, v);
if (status < 0) return -1;
#if TRACE
if (v->mv_mode == MV_PMODE_MIXED_MV)
{
status = bitplane_decoding(&v->mv_type_mb_plane, v);
if (status < 0)
return -1;
#if TRACE
av_log(v->s.avctx, AV_LOG_DEBUG, "MB MV Type plane encoding: "
"Imode: %i, Invert: %i\n", status>>1, status&1);
#endif
}
//bitplane
status = bitplane_decoding(&v->direct_mb_plane, v);
if (status < 0) return -1;
#if TRACE
av_log(v->s.avctx, AV_LOG_DEBUG, "MB Direct plane encoding: "
"Imode: %i, Invert: %i\n", status>>1, status&1);
#endif
av_log(v->s.avctx, AV_LOG_DEBUG, "Skip MB plane encoding: "
"Imode: %i, Invert: %i\n", status>>1, status&1);
#endif
/* FIXME: what is actually chosen for B frames ? */
v->mv_diff_vlc = &vc9_mv_diff_vlc[get_bits(gb, 2)];
v->cbpcy_vlc = &vc9_cbpcy_p_vlc[get_bits(gb, 2)];
if (v->dquant)
{
vop_dquant_decoding(v);
}
if (v->vstransform)
{
v->ttmbf = get_bits(gb, 1);
if (v->ttmbf)
{
v->ttfrm = get_bits(gb, 2);
av_log(v, AV_LOG_INFO, "Transform used: %ix%i\n",
(v->ttfrm & 2) ? 4 : 8, (v->ttfrm & 1) ? 4 : 8);
}
}
/* Epilog should be done in caller */
return 0;
}
/* Tables 5+7, p53-54 and 55-57 */
static int decode_i_picture_header(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int pqindex, status = 0;
/* Prolog common to all frametypes should be done in caller */
//BF = Buffer Fullness
if (v->profile <= PROFILE_MAIN && get_bits(gb, 7))
{
av_log(v, AV_LOG_DEBUG, "I BufferFullness not 0\n");
}
/* Quantizer stuff */
pqindex = get_bits(gb, 5);
if (v->quantizer_mode == QUANT_FRAME_IMPLICIT)
v->pq = pquant_table[0][pqindex];
else
{
v->pq = pquant_table[v->quantizer_mode-1][pqindex];
}
if (pqindex < 9) v->halfpq = get_bits(gb, 1);
if (v->quantizer_mode == QUANT_FRAME_EXPLICIT)
v->pquantizer = get_bits(gb, 1);
av_log(v->s.avctx, AV_LOG_DEBUG, "I frame: QP=%i (+%i/2)\n",
v->pq, v->halfpq);
#if HAS_ADVANCED_PROFILE
if (v->profile <= PROFILE_MAIN)
#endif
{
if (v->extended_mv) v->mvrange = get_prefix(gb, 0, 3);
if (v->multires) v->respic = get_bits(gb, 2);
}
#if HAS_ADVANCED_PROFILE
else
{
v->s.ac_pred = get_bits(gb, 1);
if (v->postprocflag) v->postproc = get_bits(gb, 1);
/* 7.1.1.34 + 8.5.2 */
if (v->overlap && v->pq<9)
{
v->condover = get_bits(gb, 1);
if (v->condover)
{
v->condover = 2+get_bits(gb, 1);
if (v->condover == 3)
{
status = bitplane_decoding(&v->over_flags_plane, v);
if (status < 0) return -1;
#if TRACE
av_log(v->s.avctx, AV_LOG_DEBUG, "Overflags plane encoding: "
"Imode: %i, Invert: %i\n", status>>1, status&1);
#endif
}
}
}
}
#endif
/* Epilog should be done in caller */
return status;
}
/* Table 9, p58-60 */
static int decode_p_picture_primary_header(VC9Context *v)
{
/* INTERFRM, FRMCNT, RANGEREDFRM read in caller */
GetBitContext *gb = &v->s.gb;
int lowquant, pqindex, status = 0;
pqindex = get_bits(gb, 5);
if (v->quantizer_mode == QUANT_FRAME_IMPLICIT)
v->pq = pquant_table[0][pqindex];
else
{
v->pq = pquant_table[v->quantizer_mode-1][pqindex];
}
if (pqindex < 9) v->halfpq = get_bits(gb, 1);
if (v->quantizer_mode == QUANT_FRAME_EXPLICIT)
v->pquantizer = get_bits(gb, 1);
av_log(v->s.avctx, AV_LOG_DEBUG, "P Frame: QP=%i (+%i/2)\n",
v->pq, v->halfpq);
if (v->extended_mv == 1) v->mvrange = get_prefix(gb, 0, 3);
#if HAS_ADVANCED_PROFILE
if (v->profile > PROFILE_MAIN)
{
if (v->postprocflag) v->postproc = get_bits(gb, 1);
}
else
#endif
if (v->multires) v->respic = get_bits(gb, 2);
lowquant = (v->pquantizer>12) ? 0 : 1;
v->mv_mode = mv_pmode_table[lowquant][get_prefix(gb, 1, 4)];
if (v->mv_mode == MV_PMODE_INTENSITY_COMP)
{
v->mv_mode2 = mv_pmode_table[lowquant][get_prefix(gb, 1, 3)];
v->lumscale = get_bits(gb, 6);
v->lumshift = get_bits(gb, 6);
}
return 0;
}
static int decode_p_picture_secondary_header(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int status = 0;
if ((v->mv_mode == MV_PMODE_INTENSITY_COMP &&
v->mv_mode2 == MV_PMODE_MIXED_MV)
|| v->mv_mode == MV_PMODE_MIXED_MV)
{
status = bitplane_decoding(&v->mv_type_mb_plane, v);
if (status < 0) return -1;
#if TRACE
av_log(v->s.avctx, AV_LOG_DEBUG, "MB MV Type plane encoding: "
"Imode: %i, Invert: %i\n", status>>1, status&1);
#endif
}
status = bitplane_decoding(&v->skip_mb_plane, v);
if (status < 0) return -1;
#if TRACE
av_log(v->s.avctx, AV_LOG_DEBUG, "MB Skip plane encoding: "
"Imode: %i, Invert: %i\n", status>>1, status&1);
#endif
/* Hopefully this is correct for P frames */
v->mv_diff_vlc = &vc9_mv_diff_vlc[get_bits(gb, 2)];
v->cbpcy_vlc = &vc9_cbpcy_p_vlc[get_bits(gb, 2)];
if (v->dquant)
{
av_log(v->s.avctx, AV_LOG_INFO, "VOP DQuant info\n");
vop_dquant_decoding(v);
}
if (v->vstransform)
{
v->ttmbf = get_bits(gb, 1);
if (v->ttmbf)
{
v->ttfrm = get_bits(gb, 2);
av_log(v->s.avctx, AV_LOG_INFO, "Transform used: %ix%i\n",
(v->ttfrm & 2) ? 4 : 8, (v->ttfrm & 1) ? 4 : 8);
}
}
/* Epilog should be done in caller */
return 0;
}
static int standard_decode_picture_primary_header(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int status = 0;
if (v->finterpflag) v->interpfrm = get_bits(gb, 1);
skip_bits(gb, 2); //framecnt unused
if (v->rangered) v->rangeredfrm = get_bits(gb, 1);
v->s.pict_type = get_bits(gb, 1);
if (v->s.avctx->max_b_frames && !v->s.pict_type)
{
if (get_bits(gb, 1)) v->s.pict_type = I_TYPE;
else v->s.pict_type = P_TYPE;
}
else v->s.pict_type++; //P_TYPE
switch (v->s.pict_type)
{
case I_TYPE: status = decode_i_picture_header(v); break;
case BI_TYPE: status = decode_bi_picture_header(v); break;
case P_TYPE: status = decode_p_picture_primary_header(v); break;
case B_TYPE: status = decode_b_picture_primary_header(v); break;
}
if (status == FRAME_SKIPED)
{
av_log(v, AV_LOG_INFO, "Skipping frame...\n");
return status;
}
return 0;
}
static int standard_decode_picture_secondary_header(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int status = 0, index;
switch (v->s.pict_type)
{
case P_TYPE: status = decode_p_picture_secondary_header(v); break;
case B_TYPE: status = decode_b_picture_secondary_header(v); break;
}
/* AC Syntax */
index = decode012(gb);
v->luma_ac_vlc = NULL + index; //FIXME Add AC table
v->chroma_ac_vlc = NULL + index;
if (v->s.pict_type == I_TYPE || v->s.pict_type == BI_TYPE)
{
index = decode012(gb);
v->luma_ac2_vlc = NULL + index; //FIXME Add AC2 table
v->chroma_ac2_vlc = NULL + index;
}
/* DC Syntax */
index = decode012(gb);
v->luma_dc_vlc = &ff_msmp4_dc_luma_vlc[index];
v->chroma_dc_vlc = &ff_msmp4_dc_chroma_vlc[index];
return 0;
}
#if HAS_ADVANCED_PROFILE
/******************************************************************************/
/* Advanced Profile picture header decoding specific functions */
/******************************************************************************/
static int advanced_decode_picture_primary_header(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
static const int type_table[4] = { P_TYPE, B_TYPE, I_TYPE, BI_TYPE };
int type, i;
if (v->interlace)
{
v->fcm = get_bits(gb, 1);
if (v->fcm) v->fcm = 2+get_bits(gb, 1);
}
type = get_prefix(gb, 0, 4);
if (type > 4 || type < 0) return FRAME_SKIPED;
v->s.pict_type = type_table[type];
av_log(v->s.avctx, AV_LOG_INFO, "AP Frame Type: %i\n", v->s.pict_type);
if (v->tfcntrflag) v->tfcntr = get_bits(gb, 8);
if (v->broadcast)
{
if (!v->interlace) v->rptfrm = get_bits(gb, 2);
else
{
v->tff = get_bits(gb, 1);
v->rff = get_bits(gb, 1);
}
}
if (v->panscanflag)
{
#if 0
for (i=0; i<v->numpanscanwin; i++)
{
v->topleftx[i] = get_bits(gb, 16);
v->toplefty[i] = get_bits(gb, 16);
v->bottomrightx[i] = get_bits(gb, 16);
v->bottomrighty[i] = get_bits(gb, 16);
}
#else
skip_bits(gb, 16*4*v->numpanscanwin);
#endif
}
v->s.no_rounding = !get_bits(gb, 1);
v->uvsamp = get_bits(gb, 1);
if (v->finterpflag == 1) v->interpfrm = get_bits(gb, 1);
switch(v->s.pict_type)
{
case I_TYPE: if (decode_i_picture_header(v) < 0) return -1;
case P_TYPE: if (decode_p_picture_primary_header(v) < 0) return -1;
case BI_TYPE:
case B_TYPE: if (decode_b_picture_primary_header(v) < 0) return FRAME_SKIPED;
default: break;
}
return 0;
}
static int advanced_decode_picture_secondary_header(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
int index;
switch(v->s.pict_type)
{
case P_TYPE: if (decode_p_picture_secondary_header(v) < 0) return -1;
case B_TYPE: if (decode_b_picture_secondary_header(v) < 0) return FRAME_SKIPED;
default: break;
}
/* AC Syntax */
index = decode012(gb);
v->luma_ac_vlc = NULL + index; //FIXME
v->chroma_ac_vlc = NULL + index; //FIXME
if (v->s.pict_type == I_TYPE || v->s.pict_type == BI_TYPE)
{
index = decode012(gb); //FIXME
v->luma_ac2_vlc = NULL + index;
v->chroma_ac2_vlc = NULL + index;
}
/* DC Syntax */
index = decode012(gb);
v->luma_dc_vlc = &ff_msmp4_dc_luma_vlc[index];
v->chroma_dc_vlc = &ff_msmp4_dc_chroma_vlc[index];
return 0;
}
#endif
/******************************************************************************/
/* Block decoding functions */
/******************************************************************************/
/* 7.1.4, p91 and 8.1.1.7, p(1)04 */
/* FIXME proper integration (unusable and lots of parameters to send */
int decode_luma_intra_block(VC9Context *v, int mquant)
{
GetBitContext *gb = &v->s.gb;
int dcdiff;
dcdiff = get_vlc2(gb, v->luma_dc_vlc->table,
DC_VLC_BITS, 2);
if (dcdiff)
{
if (dcdiff == 119 /* ESC index value */)
{
/* TODO: Optimize */
if (mquant == 1) dcdiff = get_bits(gb, 10);
else if (mquant == 2) dcdiff = get_bits(gb, 9);
else dcdiff = get_bits(gb, 8);
}
else
{
if (mquant == 1)
dcdiff = (dcdiff<<2) + get_bits(gb, 2) - 3;
else if (mquant == 2)
dcdiff = (dcdiff<<1) + get_bits(gb, 1) - 1;
}
if (get_bits(gb, 1))
dcdiff = -dcdiff;
}
/* FIXME: 8.1.1.15, p(1)13, coeff scaling for Adv Profile */
return 0;
}
/******************************************************************************/
/* MacroBlock decoding functions */
/******************************************************************************/
/* 8.1.1.5, p(1)02-(1)03 */
/* We only need to store 3 flags, but math with 4 is easier */
#define GET_CBPCY(table, bits) \
predicted_cbpcy = get_vlc2(gb, table, bits, 2); \
cbpcy[0] = (p_cbpcy[-1] == p_cbpcy[2]) \
? previous_cbpcy[1] : p_cbpcy[+2]; \
cbpcy[0] ^= ((predicted_cbpcy>>5)&0x01); \
cbpcy[1] = (p_cbpcy[2] == p_cbpcy[3]) ? cbpcy[0] : p_cbpcy[3]; \
cbpcy[1] ^= ((predicted_cbpcy>>4)&0x01); \
cbpcy[2] = (previous_cbpcy[1] == cbpcy[0]) \
? previous_cbpcy[3] : cbpcy[0]; \
cbpcy[2] ^= ((predicted_cbpcy>>3)&0x01); \
cbpcy[3] = (cbpcy[1] == cbpcy[0]) ? cbpcy[2] : cbpcy[1]; \
cbpcy[3] ^= ((predicted_cbpcy>>2)&0x01);
/* 8.1, p100 */
static int standard_decode_i_mbs(VC9Context *v)
{
GetBitContext *gb = &v->s.gb;
MpegEncContext *s = &v->s;
int current_mb = 0; /* MB/Block Position info */
/* FIXME: better to use a pointer than using (x<<4) */
uint8_t cbpcy[4], previous_cbpcy[4], predicted_cbpcy,
*p_cbpcy /* Pointer to skip some math */;
/* Reset CBPCY predictors */
memset(v->previous_line_cbpcy, 0, s->mb_stride<<2);
/* Select ttmb table depending on pq */
if (v->pq < 5) v->ttmb_vlc = &vc9_ttmb_vlc[0];
else if (v->pq < 13) v->ttmb_vlc = &vc9_ttmb_vlc[1];
else v->ttmb_vlc = &vc9_ttmb_vlc[2];
for (s->mb_y=0; s->mb_y<s->mb_height; s->mb_y++)
{
/* Init CBPCY for line */
*((uint32_t*)previous_cbpcy) = 0x00000000;
p_cbpcy = v->previous_line_cbpcy+4;
for (s->mb_x=0; s->mb_x<s->mb_width; s->mb_x++, p_cbpcy += 4)
{
/* Get CBPCY */
GET_CBPCY(ff_msmp4_mb_i_vlc.table, MB_INTRA_VLC_BITS);
s->ac_pred = get_bits(gb, 1);
/* TODO: Decode blocks from that mb wrt cbpcy */
/* Update for next block */
*((uint32_t*)p_cbpcy) = *((uint32_t*)previous_cbpcy);
*((uint32_t*)previous_cbpcy) = *((uint32_t*)cbpcy);
current_mb++;
}
}
return 0;
}
#define GET_MQUANT() \
if (v->dquantfrm) \
{ \
if (v->dqprofile == DQPROFILE_ALL_MBS) \
{ \
if (v->dqbilevel) \
{ \
mquant = (get_bits(gb, 1)) ? v->pq : v->altpq; \
} \
else \
{ \
mqdiff = get_bits(gb, 3); \
if (mqdiff != 7) mquant = v->pq + mqdiff; \
else mquant = get_bits(gb, 5); \
} \
} \
}
/* MVDATA decoding from 8.3.5.2, p(1)20 */
#define GET_MVDATA(_dmv_x, _dmv_y) \
index = 1 + get_vlc2(gb, v->mv_diff_vlc->table, \
VC9_MV_DIFF_VLC_BITS, 2); \
if (index > 36) \
{ \
mb_has_coeffs = 1; \
index -= 37; \
} \
else mb_has_coeffs = 0; \
mb_is_intra = 0; \
if (!index) { _dmv_x = _dmv_y = 0; } \
else if (index == 35) \
{ \
_dmv_x = get_bits(gb, k_x); \
_dmv_y = get_bits(gb, k_y); \
mb_is_intra = 1; \
} \
else \
{ \
index1 = index%6; \
if (hpel_flag && index1 == 5) val = 1; \
else val = 0; \
val = get_bits(gb, size_table[index1] - val); \
sign = 0 - (val&1); \
_dmv_x = (sign ^ ((val>>1) + offset_table[index1])) - sign; \
\
index1 = index/6; \
if (hpel_flag && index1 == 5) val = 1; \
else val = 0; \
val = get_bits(gb, size_table[index1] - val); \
sign = 0 - (val&1); \
_dmv_y = (sign ^ ((val>>1) + offset_table[index1])) - sign; \
}
/* 8.1, p(1)15 */
static int decode_p_mbs(VC9Context *v)
{
MpegEncContext *s = &v->s;
GetBitContext *gb = &v->s.gb;
int current_mb = 0, i; /* MB/Block Position info */
uint8_t cbpcy[4], previous_cbpcy[4], predicted_cbpcy,
*p_cbpcy /* Pointer to skip some math */;
int hybrid_pred; /* Prediction types */
int mv_mode_bit = 0;
int mqdiff, mquant; /* MB quantization */
int ttmb; /* MB Transform type */
static const int size_table[6] = { 0, 2, 3, 4, 5, 8 },
offset_table[6] = { 0, 1, 3, 7, 15, 31 };
int mb_has_coeffs = 1 /* last_flag */, mb_is_intra;
int dmv_x, dmv_y; /* Differential MV components */
int k_x, k_y; /* Long MV fixed bitlength */
int hpel_flag; /* Some MB properties */
int index, index1; /* LUT indices */
int val, sign; /* MVDATA temp values */
/* Select ttmb table depending on pq */
if (v->pq < 5) v->ttmb_vlc = &vc9_ttmb_vlc[0];
else if (v->pq < 13) v->ttmb_vlc = &vc9_ttmb_vlc[1];
else v->ttmb_vlc = &vc9_ttmb_vlc[2];
/* Select proper long MV range */
switch (v->mvrange)
{
case 1: k_x = 10; k_y = 9; break;
case 2: k_x = 12; k_y = 10; break;
case 3: k_x = 13; k_y = 11; break;
default: /*case 0 too */ k_x = 9; k_y = 8; break;
}
hpel_flag = v->mv_mode & 1; //MV_PMODE is HPEL
k_x -= hpel_flag;
k_y -= hpel_flag;
/* Reset CBPCY predictors */
memset(v->previous_line_cbpcy, 0, s->mb_stride<<2);
for (s->mb_y=0; s->mb_y<s->mb_height; s->mb_y++)
{
/* Init CBPCY for line */
*((uint32_t*)previous_cbpcy) = 0x00000000;
p_cbpcy = v->previous_line_cbpcy+4;
for (s->mb_x=0; s->mb_x<s->mb_width; s->mb_x++)
{
if (v->mv_type_mb_plane.is_raw)
v->mv_type_mb_plane.data[current_mb] = get_bits(gb, 1);
if (v->skip_mb_plane.is_raw)
v->skip_mb_plane.data[current_mb] = get_bits(gb, 1);
if (!mv_mode_bit) /* 1MV mode */
{
if (!v->skip_mb_plane.data[current_mb])
{
GET_MVDATA(dmv_x, dmv_y);
/* hybrid mv pred, 8.3.5.3.4 */
if (v->mv_mode == MV_PMODE_1MV ||
v->mv_mode == MV_PMODE_MIXED_MV)
hybrid_pred = get_bits(gb, 1);
if (mb_is_intra && !mb_has_coeffs)
{
GET_MQUANT();
s->ac_pred = get_bits(gb, 1);
}
else if (mb_has_coeffs)
{
if (mb_is_intra) s->ac_pred = get_bits(gb, 1);
GET_CBPCY(v->cbpcy_vlc->table, VC9_CBPCY_P_VLC_BITS);
GET_MQUANT();
}
if (!v->ttmbf)
ttmb = get_vlc2(gb, v->ttmb_vlc->table,
VC9_TTMB_VLC_BITS, 12);
/* TODO: decode blocks from that mb wrt cbpcy */
}
else //Skipped
{
/* hybrid mv pred, 8.3.5.3.4 */
if (v->mv_mode == MV_PMODE_1MV ||
v->mv_mode == MV_PMODE_MIXED_MV)
hybrid_pred = get_bits(gb, 1);
}
} //1MV mode
else //4MV mode
{
if (!v->skip_mb_plane.data[current_mb] /* unskipped MB */)
{
/* Get CBPCY */
GET_CBPCY(v->cbpcy_vlc->table, VC9_CBPCY_P_VLC_BITS);
for (i=0; i<4; i++) //For all 4 Y blocks
{
if (cbpcy[i] /* cbpcy set for this block */)
{
GET_MVDATA(dmv_x, dmv_y);
}
if (v->mv_mode == MV_PMODE_MIXED_MV /* Hybrid pred */)
hybrid_pred = get_bits(gb, 1);
GET_MQUANT();
if (mb_is_intra /* One of the 4 blocks is intra */ &&
index /* non-zero pred for that block */)
s->ac_pred = get_bits(gb, 1);
if (!v->ttmbf)
ttmb = get_vlc2(gb, v->ttmb_vlc->table,
VC9_TTMB_VLC_BITS, 12);
/* TODO: Process blocks wrt cbpcy */
}
}
else //Skipped MB
{
for (i=0; i<4; i++) //All 4 Y blocks
{
if (v->mv_mode == MV_PMODE_MIXED_MV /* Hybrid pred */)
hybrid_pred = get_bits(gb, 1);
/* TODO: do something */
}
}
}
/* Update for next block */
#if TRACE > 2
av_log(s->avctx, AV_LOG_DEBUG, "Block %4i: p_cbpcy=%i%i%i%i, previous_cbpcy=%i%i%i%i,"
" cbpcy=%i%i%i%i\n", current_mb,
p_cbpcy[0], p_cbpcy[1], p_cbpcy[2], p_cbpcy[3],
previous_cbpcy[0], previous_cbpcy[1], previous_cbpcy[2], previous_cbpcy[3],
cbpcy[0], cbpcy[1], cbpcy[2], cbpcy[3]);
#endif
*((uint32_t*)p_cbpcy) = *((uint32_t*)previous_cbpcy);
*((uint32_t*)previous_cbpcy) = *((uint32_t*)cbpcy);
current_mb++;
}
}
return 0;
}
static int decode_b_mbs(VC9Context *v)
{
MpegEncContext *s = &v->s;
GetBitContext *gb = &v->s.gb;
int current_mb = 0, i /* MB / B postion information */;
int b_mv_type = BMV_TYPE_BACKWARD;
int mquant, mqdiff; /* MB quant stuff */
int ttmb; /* MacroBlock transform type */
static const int size_table[6] = { 0, 2, 3, 4, 5, 8 },
offset_table[6] = { 0, 1, 3, 7, 15, 31 };
int mb_has_coeffs = 1 /* last_flag */, mb_is_intra = 1;
int dmv1_x, dmv1_y, dmv2_x, dmv2_y; /* Differential MV components */
int k_x, k_y; /* Long MV fixed bitlength */
int hpel_flag; /* Some MB properties */
int index, index1; /* LUT indices */
int val, sign; /* MVDATA temp values */
/* Select proper long MV range */
switch (v->mvrange)
{
case 1: k_x = 10; k_y = 9; break;
case 2: k_x = 12; k_y = 10; break;
case 3: k_x = 13; k_y = 11; break;
default: /*case 0 too */ k_x = 9; k_y = 8; break;
}
hpel_flag = v->mv_mode & 1; //MV_PMODE is HPEL
k_x -= hpel_flag;
k_y -= hpel_flag;
/* Select ttmb table depending on pq */
if (v->pq < 5) v->ttmb_vlc = &vc9_ttmb_vlc[0];
else if (v->pq < 13) v->ttmb_vlc = &vc9_ttmb_vlc[1];
else v->ttmb_vlc = &vc9_ttmb_vlc[2];
for (s->mb_y=0; s->mb_y<s->mb_height; s->mb_y++)
{
for (s->mb_x=0; s->mb_x<s->mb_width; s->mb_x++)
{
if (v->direct_mb_plane.is_raw)
v->direct_mb_plane.data[current_mb] = get_bits(gb, 1);
if (v->skip_mb_plane.is_raw)
v->skip_mb_plane.data[current_mb] = get_bits(gb, 1);
if (!v->direct_mb_plane.data[current_mb])
{
if (v->skip_mb_plane.data[current_mb])
{
b_mv_type = decode012(gb);
if (v->bfraction > 420 /*1/2*/ &&
b_mv_type < 3) b_mv_type = 1-b_mv_type;
}
else
{
/* FIXME getting tired commenting */
GET_MVDATA(dmv1_x, dmv1_y);
if (!mb_is_intra /* b_mv1 tells not intra */)
{
/* FIXME: actually read it */
b_mv_type = decode012(gb);
if (v->bfraction > 420 /*1/2*/ &&
b_mv_type < 3) b_mv_type = 1-b_mv_type;
}
}
}
if (!v->skip_mb_plane.data[current_mb])
{
if (mb_has_coeffs /* BMV1 == "last" */)
{
GET_MQUANT();
if (mb_is_intra /* intra mb */)
s->ac_pred = get_bits(gb, 1);
}
else
{
/* if bmv1 tells MVs are interpolated */
if (b_mv_type == BMV_TYPE_INTERPOLATED)
{
GET_MVDATA(dmv2_x, dmv2_y);
}
/* GET_MVDATA has reset some stuff */
if (mb_has_coeffs /* b_mv2 == "last" */)
{
if (mb_is_intra /* intra_mb */)
s->ac_pred = get_bits(gb, 1);
GET_MQUANT();
}
}
}
//End1
if (v->ttmbf)
ttmb = get_vlc2(gb, v->ttmb_vlc->table,
VC9_TTMB_VLC_BITS, 12);
//End2
for (i=0; i<6; i++)
{
/* FIXME: process the block */
}
current_mb++;
}
}
return 0;
}
#if HAS_ADVANCED_PROFILE
static int advanced_decode_i_mbs(VC9Context *v)
{
MpegEncContext *s = &v->s;
GetBitContext *gb = &v->s.gb;
int mqdiff, mquant, current_mb = 0, over_flags_mb = 0;
for (s->mb_y=0; s->mb_y<s->mb_height; s->mb_y++)
{
for (s->mb_x=0; s->mb_x<s->mb_width; s->mb_x++)
{
if (v->ac_pred_plane.is_raw)
s->ac_pred = get_bits(gb, 1);
else
s->ac_pred = v->ac_pred_plane.data[current_mb];
if (v->condover == 3 && v->over_flags_plane.is_raw)
over_flags_mb = get_bits(gb, 1);
GET_MQUANT();
/* TODO: lots */
}
current_mb++;
}
return 0;
}
#endif
static int vc9_decode_init(AVCodecContext *avctx)
{
VC9Context *v = avctx->priv_data;
MpegEncContext *s = &v->s;
GetBitContext gb;
if (!avctx->extradata_size || !avctx->extradata) return -1;
avctx->pix_fmt = PIX_FMT_YUV420P;
v->s.avctx = avctx;
if(ff_h263_decode_init(avctx) < 0)
return -1;
if (vc9_init_common(v) < 0) return -1;
avctx->coded_width = avctx->width;
avctx->coded_height = avctx->height;
if (avctx->codec_id == CODEC_ID_WMV3)
{
int count = 0;
// looks like WMV3 has a sequence header stored in the extradata
// advanced sequence header may be before the first frame
// the last byte of the extradata is a version number, 1 for the
// samples we can decode
init_get_bits(&gb, avctx->extradata, avctx->extradata_size);
decode_sequence_header(avctx, &gb);
count = avctx->extradata_size*8 - get_bits_count(&gb);
if (count>0)
{
av_log(avctx, AV_LOG_INFO, "Extra data: %i bits left, value: %X\n",
count, get_bits(&gb, count));
}
else
{
av_log(avctx, AV_LOG_INFO, "Read %i bits in overflow\n", -count);
}
}
avctx->has_b_frames= !!(avctx->max_b_frames);
s->mb_width = (avctx->coded_width+15)>>4;
s->mb_height = (avctx->coded_height+15)>>4;
/* Allocate mb bitplanes */
if (alloc_bitplane(&v->mv_type_mb_plane, s->mb_width, s->mb_height) < 0)
return -1;
if (alloc_bitplane(&v->mv_type_mb_plane, s->mb_width, s->mb_height) < 0)
return -1;
if (alloc_bitplane(&v->skip_mb_plane, s->mb_width, s->mb_height) < 0)
return -1;
if (alloc_bitplane(&v->direct_mb_plane, s->mb_width, s->mb_height) < 0)
return -1;
/* For predictors */
v->previous_line_cbpcy = (uint8_t *)av_malloc(s->mb_stride*4);
if (!v->previous_line_cbpcy) return -1;
#if HAS_ADVANCED_PROFILE
if (v->profile > PROFILE_MAIN)
{
if (alloc_bitplane(&v->over_flags_plane, s->mb_width, s->mb_height) < 0)
return -1;
if (alloc_bitplane(&v->ac_pred_plane, s->mb_width, s->mb_height) < 0)
return -1;
}
#endif
return 0;
}
static int vc9_decode_frame(AVCodecContext *avctx,
void *data, int *data_size,
uint8_t *buf, int buf_size)
{
VC9Context *v = avctx->priv_data;
MpegEncContext *s = &v->s;
int ret = FRAME_SKIPED, len, start_code;
AVFrame *pict = data;
uint8_t *tmp_buf;
v->s.avctx = avctx;
//buf_size = 0 -> last frame
if (!buf_size) return 0;
len = avpicture_get_size(avctx->pix_fmt, avctx->width,
avctx->height);
tmp_buf = (uint8_t *)av_mallocz(len);
avpicture_fill((AVPicture *)pict, tmp_buf, avctx->pix_fmt,
avctx->width, avctx->height);
if (avctx->codec_id == CODEC_ID_VC9)
{
#if 0
// search for IDU's
// FIXME
uint32_t scp = 0;
int scs = 0, i = 0;
while (i < buf_size)
{
for (; i < buf_size && scp != 0x000001; i++)
scp = ((scp<<8)|buf[i])&0xffffff;
if (scp != 0x000001)
break; // eof ?
scs = buf[i++];
init_get_bits(gb, buf+i, (buf_size-i)*8);
switch(scs)
{
case 0x0A: //Sequence End Code
return 0;
case 0x0B: //Slice Start Code
av_log(avctx, AV_LOG_ERROR, "Slice coding not supported\n");
return -1;
case 0x0C: //Field start code
av_log(avctx, AV_LOG_ERROR, "Interlaced coding not supported\n");
return -1;
case 0x0D: //Frame start code
break;
case 0x0E: //Entry point Start Code
if (v->profile <= MAIN_PROFILE)
av_log(avctx, AV_LOG_ERROR,
"Found an entry point in profile %i\n", v->profile);
advanced_entry_point_process(avctx, gb);
break;
case 0x0F: //Sequence header Start Code
decode_sequence_header(avctx, gb);
break;
default:
av_log(avctx, AV_LOG_ERROR,
"Unsupported IDU suffix %lX\n", scs);
}
i += get_bits_count(gb)*8;
}
#else
av_abort();
#endif
}
else
init_get_bits(&v->s.gb, buf, buf_size*8);
s->flags= avctx->flags;
s->flags2= avctx->flags2;
/* no supplementary picture */
if (buf_size == 0) {
/* special case for last picture */
if (s->low_delay==0 && s->next_picture_ptr) {
*pict= *(AVFrame*)s->next_picture_ptr;
s->next_picture_ptr= NULL;
*data_size = sizeof(AVFrame);
}
return 0;
}
//No IDU - we mimic ff_h263_decode_frame
s->bitstream_buffer_size=0;
if (!s->context_initialized) {
if (MPV_common_init(s) < 0) //we need the idct permutaton for reading a custom matrix
return -1;
}
//we need to set current_picture_ptr before reading the header, otherwise we cant store anyting im there
if(s->current_picture_ptr==NULL || s->current_picture_ptr->data[0]){
s->current_picture_ptr= &s->picture[ff_find_unused_picture(s, 0)];
}
#if HAS_ADVANCED_PROFILE
if (v->profile > PROFILE_MAIN)
ret= advanced_decode_picture_primary_header(v);
else
#endif
ret= standard_decode_picture_primary_header(v);
if (ret == FRAME_SKIPED) return buf_size;
/* skip if the header was thrashed */
if (ret < 0){
av_log(s->avctx, AV_LOG_ERROR, "header damaged\n");
return -1;
}
//No bug workaround yet, no DCT conformance
//WMV9 does have resized images
if (v->profile <= PROFILE_MAIN && v->multires){
//Parse context stuff in here, don't know how appliable it is
}
//Not sure about context initialization
// for hurry_up==5
s->current_picture.pict_type= s->pict_type;
s->current_picture.key_frame= s->pict_type == I_TYPE;
/* skip b frames if we dont have reference frames */
if(s->last_picture_ptr==NULL && (s->pict_type==B_TYPE || s->dropable))
return buf_size; //FIXME simulating all buffer consumed
/* skip b frames if we are in a hurry */
if(avctx->hurry_up && s->pict_type==B_TYPE)
return buf_size; //FIXME simulating all buffer consumed
/* skip everything if we are in a hurry>=5 */
if(avctx->hurry_up>=5)
return buf_size; //FIXME simulating all buffer consumed
if(s->next_p_frame_damaged){
if(s->pict_type==B_TYPE)
return buf_size; //FIXME simulating all buffer consumed
else
s->next_p_frame_damaged=0;
}
if(MPV_frame_start(s, avctx) < 0)
return -1;
ff_er_frame_start(s);
//wmv9 may or may not have skip bits
#if HAS_ADVANCED_PROFILE
if (v->profile > PROFILE_MAIN)
ret= advanced_decode_picture_secondary_header(v);
else
#endif
ret = standard_decode_picture_secondary_header(v);
if (ret<0) return FRAME_SKIPED; //FIXME Non fatal for now
//We consider the image coded in only one slice
#if HAS_ADVANCED_PROFILE
if (v->profile > PROFILE_MAIN)
{
switch(s->pict_type)
{
case I_TYPE: ret = advanced_decode_i_mbs(v); break;
case P_TYPE: ret = decode_p_mbs(v); break;
case B_TYPE:
case BI_TYPE: ret = decode_b_mbs(v); break;
default: ret = FRAME_SKIPED;
}
if (ret == FRAME_SKIPED) return buf_size; //We ignore for now failures
}
else
#endif
{
switch(s->pict_type)
{
case I_TYPE: ret = standard_decode_i_mbs(v); break;
case P_TYPE: ret = decode_p_mbs(v); break;
case B_TYPE:
case BI_TYPE: ret = decode_b_mbs(v); break;
default: ret = FRAME_SKIPED;
}
if (ret == FRAME_SKIPED) return buf_size;
}
ff_er_frame_end(s);
MPV_frame_end(s);
assert(s->current_picture.pict_type == s->current_picture_ptr->pict_type);
assert(s->current_picture.pict_type == s->pict_type);
if(s->pict_type==B_TYPE || s->low_delay){
*pict= *(AVFrame*)&s->current_picture;
ff_print_debug_info(s, pict);
} else {
*pict= *(AVFrame*)&s->last_picture;
if(pict)
ff_print_debug_info(s, pict);
}
/* Return the Picture timestamp as the frame number */
/* we substract 1 because it is added on utils.c */
avctx->frame_number = s->picture_number - 1;
/* dont output the last pic after seeking */
if(s->last_picture_ptr || s->low_delay)
*data_size = sizeof(AVFrame);
av_log(avctx, AV_LOG_DEBUG, "Consumed %i/%i bits\n",
get_bits_count(&s->gb), buf_size*8);
/* Fake consumption of all data */
*data_size = len;
return buf_size; //Number of bytes consumed
}
static int vc9_decode_end(AVCodecContext *avctx)
{
VC9Context *v = avctx->priv_data;
#if HAS_ADVANCED_PROFILE
av_freep(&v->hrd_rate);
av_freep(&v->hrd_buffer);
#endif
MPV_common_end(&v->s);
free_bitplane(&v->mv_type_mb_plane);
free_bitplane(&v->skip_mb_plane);
free_bitplane(&v->direct_mb_plane);
return 0;
}
AVCodec vc9_decoder = {
"vc9",
CODEC_TYPE_VIDEO,
CODEC_ID_VC9,
sizeof(VC9Context),
vc9_decode_init,
NULL,
vc9_decode_end,
vc9_decode_frame,
CODEC_CAP_DELAY,
NULL
};
AVCodec wmv3_decoder = {
"wmv3",
CODEC_TYPE_VIDEO,
CODEC_ID_WMV3,
sizeof(VC9Context),
vc9_decode_init,
NULL,
vc9_decode_end,
vc9_decode_frame,
CODEC_CAP_DELAY,
NULL
};
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