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/*
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 * VC-1 and WMV3 decoder
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 * Copyright (c) 2006-2007 Konstantin Shishkov
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 * Partly based on vc9.c (c) 2005 Anonymous, Alex Beregszaszi, Michael Niedermayer
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 *
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 * This file is part of FFmpeg.
 *
 * 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
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 * version 2.1 of the License, or (at your option) any later version.
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 *
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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
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 *
 */

/**
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 * @file vc1.c
 * VC-1 and WMV3 decoder
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 *
 */
#include "common.h"
#include "dsputil.h"
#include "avcodec.h"
#include "mpegvideo.h"
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#include "vc1data.h"
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#include "vc1acdata.h"
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#undef NDEBUG
#include <assert.h>

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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];
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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;
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extern const uint16_t ff_msmp4_mb_i_table[64][2];
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#define DC_VLC_BITS 9
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#define AC_VLC_BITS 9
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static const uint16_t table_mb_intra[64][2];
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/** Markers used if VC-1 AP frame data */
//@{
enum VC1Code{
    VC1_CODE_RES0       = 0x00000100,
    VC1_CODE_ENDOFSEQ   = 0x0000010A,
    VC1_CODE_SLICE,
    VC1_CODE_FIELD,
    VC1_CODE_FRAME,
    VC1_CODE_ENTRYPOINT,
    VC1_CODE_SEQHDR,
};
//@}
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/** Available Profiles */
//@{
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enum Profile {
    PROFILE_SIMPLE,
    PROFILE_MAIN,
    PROFILE_COMPLEX, ///< TODO: WMV9 specific
    PROFILE_ADVANCED
};
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//@}
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/** Sequence quantizer mode */
//@{
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enum QuantMode {
    QUANT_FRAME_IMPLICIT,    ///< Implicitly specified at frame level
    QUANT_FRAME_EXPLICIT,    ///< Explicitly specified at frame level
    QUANT_NON_UNIFORM,       ///< Non-uniform quant used for all frames
    QUANT_UNIFORM            ///< Uniform quant used for all frames
};
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//@}
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/** Where quant can be changed */
//@{
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enum DQProfile {
    DQPROFILE_FOUR_EDGES,
    DQPROFILE_DOUBLE_EDGES,
    DQPROFILE_SINGLE_EDGE,
    DQPROFILE_ALL_MBS
};
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//@}
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/** @name Where quant can be changed
 */
//@{
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enum DQSingleEdge {
    DQSINGLE_BEDGE_LEFT,
    DQSINGLE_BEDGE_TOP,
    DQSINGLE_BEDGE_RIGHT,
    DQSINGLE_BEDGE_BOTTOM
};
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//@}
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/** Which pair of edges is quantized with ALTPQUANT */
//@{
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enum DQDoubleEdge {
    DQDOUBLE_BEDGE_TOPLEFT,
    DQDOUBLE_BEDGE_TOPRIGHT,
    DQDOUBLE_BEDGE_BOTTOMRIGHT,
    DQDOUBLE_BEDGE_BOTTOMLEFT
};
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//@}
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/** MV modes for P frames */
//@{
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enum MVModes {
    MV_PMODE_1MV_HPEL_BILIN,
    MV_PMODE_1MV,
    MV_PMODE_1MV_HPEL,
    MV_PMODE_MIXED_MV,
    MV_PMODE_INTENSITY_COMP
};
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//@}
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/** @name MV types for B frames */
//@{
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enum BMVTypes {
    BMV_TYPE_BACKWARD,
    BMV_TYPE_FORWARD,
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    BMV_TYPE_INTERPOLATED
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};
//@}

/** @name Block types for P/B frames */
//@{
enum TransformTypes {
    TT_8X8,
    TT_8X4_BOTTOM,
    TT_8X4_TOP,
    TT_8X4, //Both halves
    TT_4X8_RIGHT,
    TT_4X8_LEFT,
    TT_4X8, //Both halves
    TT_4X4
};
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//@}
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/** Table for conversion between TTBLK and TTMB */
static const int ttblk_to_tt[3][8] = {
  { TT_8X4, TT_4X8, TT_8X8, TT_4X4, TT_8X4_TOP, TT_8X4_BOTTOM, TT_4X8_RIGHT, TT_4X8_LEFT },
  { TT_8X8, TT_4X8_RIGHT, TT_4X8_LEFT, TT_4X4, TT_8X4, TT_4X8, TT_8X4_BOTTOM, TT_8X4_TOP },
  { TT_8X8, TT_4X8, TT_4X4, TT_8X4_BOTTOM, TT_4X8_RIGHT, TT_4X8_LEFT, TT_8X4, TT_8X4_TOP }
};

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static const int ttfrm_to_tt[4] = { TT_8X8, TT_8X4, TT_4X8, TT_4X4 };

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/** MV P mode - the 5th element is only used for mode 1 */
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static const uint8_t mv_pmode_table[2][5] = {
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  { MV_PMODE_1MV_HPEL_BILIN, MV_PMODE_1MV, MV_PMODE_1MV_HPEL, MV_PMODE_INTENSITY_COMP, MV_PMODE_MIXED_MV },
  { MV_PMODE_1MV, MV_PMODE_MIXED_MV, MV_PMODE_1MV_HPEL, MV_PMODE_INTENSITY_COMP, MV_PMODE_1MV_HPEL_BILIN }
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};
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static const uint8_t mv_pmode_table2[2][4] = {
  { MV_PMODE_1MV_HPEL_BILIN, MV_PMODE_1MV, MV_PMODE_1MV_HPEL, MV_PMODE_MIXED_MV },
  { MV_PMODE_1MV, MV_PMODE_MIXED_MV, MV_PMODE_1MV_HPEL, MV_PMODE_1MV_HPEL_BILIN }
};
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/** One more frame type */
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#define BI_TYPE 7

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
  }
};

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/** @name VC-1 VLC tables and defines
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 *  @todo TODO move this into the context
 */
//@{
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#define VC1_BFRACTION_VLC_BITS 7
static VLC vc1_bfraction_vlc;
#define VC1_IMODE_VLC_BITS 4
static VLC vc1_imode_vlc;
#define VC1_NORM2_VLC_BITS 3
static VLC vc1_norm2_vlc;
#define VC1_NORM6_VLC_BITS 9
static VLC vc1_norm6_vlc;
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/* Could be optimized, one table only needs 8 bits */
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#define VC1_TTMB_VLC_BITS 9 //12
static VLC vc1_ttmb_vlc[3];
#define VC1_MV_DIFF_VLC_BITS 9 //15
static VLC vc1_mv_diff_vlc[4];
#define VC1_CBPCY_P_VLC_BITS 9 //14
static VLC vc1_cbpcy_p_vlc[4];
#define VC1_4MV_BLOCK_PATTERN_VLC_BITS 6
static VLC vc1_4mv_block_pattern_vlc[4];
#define VC1_TTBLK_VLC_BITS 5
static VLC vc1_ttblk_vlc[3];
#define VC1_SUBBLKPAT_VLC_BITS 6
static VLC vc1_subblkpat_vlc[3];
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static VLC vc1_ac_coeff_table[8];
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//@}
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enum CodingSet {
    CS_HIGH_MOT_INTRA = 0,
    CS_HIGH_MOT_INTER,
    CS_LOW_MOT_INTRA,
    CS_LOW_MOT_INTER,
    CS_MID_RATE_INTRA,
    CS_MID_RATE_INTER,
    CS_HIGH_RATE_INTRA,
    CS_HIGH_RATE_INTER
};

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/** @name Overlap conditions for Advanced Profile */
//@{
enum COTypes {
    CONDOVER_NONE = 0,
    CONDOVER_ALL,
    CONDOVER_SELECT
};
//@}


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/** The VC1 Context
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 * @fixme Change size wherever another size is more efficient
 * Many members are only used for Advanced Profile
 */
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typedef struct VC1Context{
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    MpegEncContext s;

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    int bits;

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    /** Simple/Main Profile sequence header */
    //@{
    int res_sm;           ///< reserved, 2b
    int res_x8;           ///< reserved
    int multires;         ///< frame-level RESPIC syntax element present
    int res_fasttx;       ///< reserved, always 1
    int res_transtab;     ///< reserved, always 0
    int rangered;         ///< RANGEREDFRM (range reduction) syntax element present
                          ///< at frame level
    int res_rtm_flag;     ///< reserved, set to 1
    int reserved;         ///< reserved
    //@}
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    /** Advanced Profile */
    //@{
    int level;            ///< 3bits, for Advanced/Simple Profile, provided by TS layer
    int chromaformat;     ///< 2bits, 2=4:2:0, only defined
    int postprocflag;     ///< Per-frame processing suggestion flag present
    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} present
    int extended_dmv;     ///< Additional extended dmv range at P/B frame-level
    int color_prim;       ///< 8bits, chroma coordinates of the color primaries
    int transfer_char;    ///< 8bits, Opto-electronic transfer characteristics
    int matrix_coef;      ///< 8bits, Color primaries->YCbCr transform matrix
    int hrd_param_flag;   ///< Presence of Hypothetical Reference
                          ///< Decoder parameters
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    int psf;              ///< Progressive Segmented Frame
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    //@}
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    /** Sequence header data for all Profiles
     * TODO: choose between ints, uint8_ts and monobit flags
     */
    //@{
    int profile;          ///< 2bits, Profile
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    int frmrtq_postproc;  ///< 3bits,
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    int bitrtq_postproc;  ///< 5bits, quantized framerate-based postprocessing strength
    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 [48]x[48] transform type + info
    int overlap;          ///< overlapped transforms in use
    int quantizer_mode;   ///< 2bits, quantizer mode used for sequence, see QUANT_*
    int finterpflag;      ///< INTERPFRM present
    //@}

    /** Frame decoding info for all profiles */
    //@{
    uint8_t mv_mode;      ///< MV coding monde
    uint8_t mv_mode2;     ///< Secondary MV coding mode (B frames)
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    int k_x;              ///< Number of bits for MVs (depends on MV range)
    int k_y;              ///< Number of bits for MVs (depends on MV range)
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    int range_x, range_y; ///< MV range
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    uint8_t pq, altpq;    ///< Current/alternate frame quantizer scale
    /** pquant parameters */
    //@{
    uint8_t dquantfrm;
    uint8_t dqprofile;
    uint8_t dqsbedge;
    uint8_t dqbilevel;
    //@}
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    /** AC coding set indexes
     * @see 8.1.1.10, p(1)10
     */
    //@{
    int c_ac_table_index; ///< Chroma index from ACFRM element
    int y_ac_table_index; ///< Luma index from AC2FRM element
    //@}
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    int ttfrm;            ///< Transform type info present at frame level
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    uint8_t ttmbf;        ///< Transform type flag
    uint8_t ttblk4x4;     ///< Value of ttblk which indicates a 4x4 transform
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    int codingset;        ///< index of current table set from 11.8 to use for luma block decoding
    int codingset2;       ///< index of current table set from 11.8 to use for chroma block decoding
    int pqindex;          ///< raw pqindex used in coding set selection
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    int a_avail, c_avail;
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    uint8_t *mb_type_base, *mb_type[3];
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    /** Luma compensation parameters */
    //@{
    uint8_t lumscale;
    uint8_t lumshift;
    //@}
    int16_t bfraction;    ///< Relative position % anchors=> how to scale MVs
    uint8_t halfpq;       ///< Uniform quant over image and qp+.5
    uint8_t respic;       ///< Frame-level flag for resized images
    int buffer_fullness;  ///< HRD info
    /** 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;
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    uint8_t pquantizer;           ///< Uniform (over sequence) quantizer in use
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    VLC *cbpcy_vlc;               ///< CBPCY VLC table
    int tt_index;                 ///< Index for Transform Type tables
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    uint8_t* mv_type_mb_plane;    ///< bitplane for mv_type == (4MV)
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    uint8_t* direct_mb_plane;     ///< bitplane for "direct" MBs
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    int mv_type_is_raw;           ///< mv type mb plane is not coded
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    int dmb_is_raw;               ///< direct mb plane is raw
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    int skip_is_raw;              ///< skip mb plane is not coded
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    uint8_t luty[256], lutuv[256]; // lookup tables used for intensity compensation
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    int use_ic;                   ///< use intensity compensation in B-frames
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    int rnd;                      ///< rounding control
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    /** Frame decoding info for S/M profiles only */
    //@{
    uint8_t rangeredfrm; ///< out_sample = CLIP((in_sample-128)*2+128)
    uint8_t interpfrm;
    //@}
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    /** Frame decoding info for Advanced profile */
    //@{
    uint8_t fcm; ///< 0->Progressive, 2->Frame-Interlace, 3->Field-Interlace
    uint8_t numpanscanwin;
    uint8_t tfcntr;
    uint8_t rptfrm, tff, rff;
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    uint16_t topleftx;
    uint16_t toplefty;
    uint16_t bottomrightx;
    uint16_t bottomrighty;
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    uint8_t uvsamp;
    uint8_t postproc;
    int hrd_num_leaky_buckets;
    uint8_t bit_rate_exponent;
    uint8_t buffer_size_exponent;
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    uint8_t* acpred_plane;       ///< AC prediction flags bitplane
    int acpred_is_raw;
    uint8_t* over_flags_plane;   ///< Overflags bitplane
    int overflg_is_raw;
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    uint8_t condover;
    uint16_t *hrd_rate, *hrd_buffer;
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    uint8_t *hrd_fullness;
    uint8_t range_mapy_flag;
    uint8_t range_mapuv_flag;
    uint8_t range_mapy;
    uint8_t range_mapuv;
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    //@}
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    int p_frame_skipped;
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    int bi_type;
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} VC1Context;
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/**
 * Get unary code of limited length
 * @fixme FIXME Slow and ugly
 * @param gb GetBitContext
 * @param[in] stop The bitstop value (unary code of 1's or 0's)
 * @param[in] len Maximum length
 * @return Unary length/index
 */
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static int get_prefix(GetBitContext *gb, int stop, int len)
{
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#if 1
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    int i;

    for(i = 0; i < len && get_bits1(gb) != stop; i++);
    return i;
/*  int i = 0, tmp = !stop;
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  while (i != len && tmp != stop)
  {
    tmp = get_bits(gb, 1);
    i++;
  }
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  if (i == len && tmp != stop) return len+1;
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  return i;*/
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#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;
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  log= av_log2(-buf); //FIXME: -?
  if (log < limit){
    LAST_SKIP_BITS(re, gb, log+1);
    CLOSE_READER(re, gb);
    return log;
  }
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  LAST_SKIP_BITS(re, gb, limit);
  CLOSE_READER(re, gb);
  return limit;
#endif
}

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static inline int decode210(GetBitContext *gb){
    int n;
    n = get_bits1(gb);
    if (n == 1)
        return 0;
    else
        return 2 - get_bits1(gb);
}

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/**
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 * Init VC-1 specific tables and VC1Context members
 * @param v The VC1Context to initialize
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 * @return Status
 */
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static int vc1_init_common(VC1Context *v)
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{
    static int done = 0;
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    int i = 0;
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    v->hrd_rate = v->hrd_buffer = NULL;
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    /* VLC tables */
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    if(!done)
    {
        done = 1;
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        init_vlc(&vc1_bfraction_vlc, VC1_BFRACTION_VLC_BITS, 23,
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                 vc1_bfraction_bits, 1, 1,
                 vc1_bfraction_codes, 1, 1, 1);
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        init_vlc(&vc1_norm2_vlc, VC1_NORM2_VLC_BITS, 4,
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                 vc1_norm2_bits, 1, 1,
                 vc1_norm2_codes, 1, 1, 1);
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        init_vlc(&vc1_norm6_vlc, VC1_NORM6_VLC_BITS, 64,
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                 vc1_norm6_bits, 1, 1,
                 vc1_norm6_codes, 2, 2, 1);
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        init_vlc(&vc1_imode_vlc, VC1_IMODE_VLC_BITS, 7,
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                 vc1_imode_bits, 1, 1,
                 vc1_imode_codes, 1, 1, 1);
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        for (i=0; i<3; i++)
        {
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            init_vlc(&vc1_ttmb_vlc[i], VC1_TTMB_VLC_BITS, 16,
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                     vc1_ttmb_bits[i], 1, 1,
                     vc1_ttmb_codes[i], 2, 2, 1);
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            init_vlc(&vc1_ttblk_vlc[i], VC1_TTBLK_VLC_BITS, 8,
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                     vc1_ttblk_bits[i], 1, 1,
                     vc1_ttblk_codes[i], 1, 1, 1);
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            init_vlc(&vc1_subblkpat_vlc[i], VC1_SUBBLKPAT_VLC_BITS, 15,
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                     vc1_subblkpat_bits[i], 1, 1,
                     vc1_subblkpat_codes[i], 1, 1, 1);
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        }
        for(i=0; i<4; i++)
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        {
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            init_vlc(&vc1_4mv_block_pattern_vlc[i], VC1_4MV_BLOCK_PATTERN_VLC_BITS, 16,
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                     vc1_4mv_block_pattern_bits[i], 1, 1,
                     vc1_4mv_block_pattern_codes[i], 1, 1, 1);
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            init_vlc(&vc1_cbpcy_p_vlc[i], VC1_CBPCY_P_VLC_BITS, 64,
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                     vc1_cbpcy_p_bits[i], 1, 1,
                     vc1_cbpcy_p_codes[i], 2, 2, 1);
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            init_vlc(&vc1_mv_diff_vlc[i], VC1_MV_DIFF_VLC_BITS, 73,
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                     vc1_mv_diff_bits[i], 1, 1,
                     vc1_mv_diff_codes[i], 2, 2, 1);
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        }
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        for(i=0; i<8; i++)
            init_vlc(&vc1_ac_coeff_table[i], AC_VLC_BITS, vc1_ac_sizes[i],
                     &vc1_ac_tables[i][0][1], 8, 4,
                     &vc1_ac_tables[i][0][0], 8, 4, 1);
        init_vlc(&ff_msmp4_mb_i_vlc, MB_INTRA_VLC_BITS, 64,
                 &ff_msmp4_mb_i_table[0][1], 4, 2,
                 &ff_msmp4_mb_i_table[0][0], 4, 2, 1);
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    }

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    /* Other defaults */
    v->pq = -1;
    v->mvrange = 0; /* 7.1.1.18, p80 */

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    return 0;
}

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/***********************************************************************/
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/**
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 * @defgroup bitplane VC9 Bitplane decoding
 * @see 8.7, p56
 * @{
 */

/** @addtogroup bitplane
 * Imode types
 * @{
 */
enum Imode {
    IMODE_RAW,
    IMODE_NORM2,
    IMODE_DIFF2,
    IMODE_NORM6,
    IMODE_DIFF6,
    IMODE_ROWSKIP,
    IMODE_COLSKIP
};
/** @} */ //imode defines

/** Decode rows by checking if they are skipped
 * @param plane Buffer to store decoded bits
 * @param[in] width Width of this buffer
 * @param[in] height Height of this buffer
 * @param[in] stride of this buffer
 */
static void decode_rowskip(uint8_t* plane, int width, int height, int stride, GetBitContext *gb){
    int x, y;
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    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;
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    }
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}
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/** Decode columns by checking if they are skipped
 * @param plane Buffer to store decoded bits
 * @param[in] width Width of this buffer
 * @param[in] height Height of this buffer
 * @param[in] stride of this buffer
 * @fixme FIXME: Optimize
 */
static void decode_colskip(uint8_t* plane, int width, int height, int stride, GetBitContext *gb){
    int x, y;
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    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 ++;
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    }
}

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/** Decode a bitplane's bits
 * @param bp Bitplane where to store the decode bits
 * @param v VC-1 context for bit reading and logging
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 * @return Status
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 * @fixme FIXME: Optimize
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 */
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static int bitplane_decoding(uint8_t* data, int *raw_flag, VC1Context *v)
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{
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    GetBitContext *gb = &v->s.gb;
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    int imode, x, y, code, offset;
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    uint8_t invert, *planep = data;
    int width, height, stride;
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    width = v->s.mb_width;
    height = v->s.mb_height;
    stride = v->s.mb_stride;
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    invert = get_bits(gb, 1);
    imode = get_vlc2(gb, vc1_imode_vlc.table, VC1_IMODE_VLC_BITS, 1);
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    *raw_flag = 0;
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    switch (imode)
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    {
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    case IMODE_RAW:
        //Data is actually read in the MB layer (same for all tests == "raw")
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        *raw_flag = 1; //invert ignored
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        return invert;
    case IMODE_DIFF2:
    case IMODE_NORM2:
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        if ((height * width) & 1)
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        {
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            *planep++ = get_bits(gb, 1);
            offset = 1;
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        }
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        else offset = 0;
        // decode bitplane as one long line
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        for (y = offset; y < height * width; y += 2) {
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            code = get_vlc2(gb, vc1_norm2_vlc.table, VC1_NORM2_VLC_BITS, 1);
            *planep++ = code & 1;
            offset++;
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            if(offset == width) {
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                offset = 0;
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                planep += stride - width;
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            }
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            *planep++ = code >> 1;
            offset++;
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            if(offset == width) {
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                offset = 0;
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                planep += stride - width;
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            }
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        }
        break;
    case IMODE_DIFF6:
    case IMODE_NORM6:
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        if(!(height % 3) && (width % 3)) { // use 2x3 decoding
            for(y = 0; y < height; y+= 3) {
                for(x = width & 1; x < width; x += 2) {
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                    code = get_vlc2(gb, vc1_norm6_vlc.table, VC1_NORM6_VLC_BITS, 2);
                    if(code < 0){
                        av_log(v->s.avctx, AV_LOG_DEBUG, "invalid NORM-6 VLC\n");
                        return -1;
                    }
                    planep[x + 0] = (code >> 0) & 1;
                    planep[x + 1] = (code >> 1) & 1;
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                    planep[x + 0 + stride] = (code >> 2) & 1;
                    planep[x + 1 + stride] = (code >> 3) & 1;
                    planep[x + 0 + stride * 2] = (code >> 4) & 1;
                    planep[x + 1 + stride * 2] = (code >> 5) & 1;
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                }
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                planep += stride * 3;
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            }
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            if(width & 1) decode_colskip(data, 1, height, stride, &v->s.gb);
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        } else { // 3x2
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            planep += (height & 1) * stride;
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            for(y = height & 1; y < height; y += 2) {
                for(x = width % 3; x < width; x += 3) {
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                    code = get_vlc2(gb, vc1_norm6_vlc.table, VC1_NORM6_VLC_BITS, 2);
                    if(code < 0){
                        av_log(v->s.avctx, AV_LOG_DEBUG, "invalid NORM-6 VLC\n");
                        return -1;
                    }
                    planep[x + 0] = (code >> 0) & 1;
                    planep[x + 1] = (code >> 1) & 1;
                    planep[x + 2] = (code >> 2) & 1;
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                    planep[x + 0 + stride] = (code >> 3) & 1;
                    planep[x + 1 + stride] = (code >> 4) & 1;
                    planep[x + 2 + stride] = (code >> 5) & 1;
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                }
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                planep += stride * 2;
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            }
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            x = width % 3;
            if(x) decode_colskip(data  ,             x, height    , stride, &v->s.gb);
            if(height & 1) decode_rowskip(data+x, width - x, 1, stride, &v->s.gb);
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        }
        break;
    case IMODE_ROWSKIP:
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        decode_rowskip(data, width, height, stride, &v->s.gb);
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        break;
    case IMODE_COLSKIP:
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        decode_colskip(data, width, height, stride, &v->s.gb);
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        break;
    default: break;
    }

    /* Applying diff operator */
    if (imode == IMODE_DIFF2 || imode == IMODE_DIFF6)
    {
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        planep = data;
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        planep[0] ^= invert;
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        for (x=1; x<width; x++)
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            planep[x] ^= planep[x-1];
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        for (y=1; y<height; y++)
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        {
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            planep += stride;
            planep[0] ^= planep[-stride];
            for (x=1; x<width; x++)
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            {
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                if (planep[x-1] != planep[x-stride]) planep[x] ^= invert;
                else                                 planep[x] ^= planep[x-1];
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            }
        }
    }
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    else if (invert)
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    {
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        planep = data;
        for (x=0; x<stride*height; x++) planep[x] = !planep[x]; //FIXME stride
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    }
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    return (imode<<1) + invert;
}
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/** @} */ //Bitplane group
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/***********************************************************************/
/** VOP Dquant decoding
 * @param v VC-1 Context
 */
static int vop_dquant_decoding(VC1Context *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
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    {
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        v->dquantfrm = get_bits(gb, 1);
        if ( v->dquantfrm )
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        {
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            v->dqprofile = get_bits(gb, 2);
            switch (v->dqprofile)
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            {
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            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 ?
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            }
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            if (v->dqbilevel || v->dqprofile != DQPROFILE_ALL_MBS)
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            {
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                pqdiff = get_bits(gb, 3);
                if (pqdiff == 7) v->altpq = get_bits(gb, 5);
                else v->altpq = v->pq + pqdiff + 1;
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            }
        }
    }
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    return 0;
}
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/** Put block onto picture
 */
static void vc1_put_block(VC1Context *v, DCTELEM block[6][64])
{
    uint8_t *Y;
    int ys, us, vs;
    DSPContext *dsp = &v->s.dsp;

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    if(v->rangeredfrm) {
        int i, j, k;
        for(k = 0; k < 6; k++)
            for(j = 0; j < 8; j++)
                for(i = 0; i < 8; i++)
                    block[k][i + j*8] = ((block[k][i + j*8] - 128) << 1) + 128;

    }
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    ys = v->s.current_picture.linesize[0];
    us = v->s.current_picture.linesize[1];
    vs = v->s.current_picture.linesize[2];
    Y = v->s.dest[0];

    dsp->put_pixels_clamped(block[0], Y, ys);
    dsp->put_pixels_clamped(block[1], Y + 8, ys);
    Y += ys * 8;
    dsp->put_pixels_clamped(block[2], Y, ys);
    dsp->put_pixels_clamped(block[3], Y + 8, ys);

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    if(!(v->s.flags & CODEC_FLAG_GRAY)) {
        dsp->put_pixels_clamped(block[4], v->s.dest[1], us);
        dsp->put_pixels_clamped(block[5], v->s.dest[2], vs);
    }
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}

/** Do motion compensation over 1 macroblock
 * Mostly adapted hpel_motion and qpel_motion from mpegvideo.c
 */
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static void vc1_mc_1mv(VC1Context *v, int dir)
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{
    MpegEncContext *s = &v->s;
    DSPContext *dsp = &v->s.dsp;
    uint8_t *srcY, *srcU, *srcV;
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    int dxy, uvdxy, mx, my, uvmx, uvmy, src_x, src_y, uvsrc_x, uvsrc_y;
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    if(!v->s.last_picture.data[0])return;

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    mx = s->mv[dir][0][0];
    my = s->mv[dir][0][1];

    // store motion vectors for further use in B frames
    if(s->pict_type == P_TYPE) {
        s->current_picture.motion_val[1][s->block_index[0]][0] = mx;
        s->current_picture.motion_val[1][s->block_index[0]][1] = my;
    }
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    uvmx = (mx + ((mx & 3) == 3)) >> 1;
    uvmy = (my + ((my & 3) == 3)) >> 1;
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    if(v->fastuvmc) {
        uvmx = uvmx + ((uvmx<0)?(uvmx&1):-(uvmx&1));
        uvmy = uvmy + ((uvmy<0)?(uvmy&1):-(uvmy&1));
    }
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    if(!dir) {
        srcY = s->last_picture.data[0];
        srcU = s->last_picture.data[1];
        srcV = s->last_picture.data[2];
    } else {
        srcY = s->next_picture.data[0];
        srcU = s->next_picture.data[1];
        srcV = s->next_picture.data[2];
    }
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    src_x = s->mb_x * 16 + (mx >> 2);
    src_y = s->mb_y * 16 + (my >> 2);
    uvsrc_x = s->mb_x * 8 + (uvmx >> 2);
    uvsrc_y = s->mb_y * 8 + (uvmy >> 2);

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    if(v->profile != PROFILE_ADVANCED){
        src_x   = av_clip(  src_x, -16, s->mb_width  * 16);
        src_y   = av_clip(  src_y, -16, s->mb_height * 16);
        uvsrc_x = av_clip(uvsrc_x,  -8, s->mb_width  *  8);
        uvsrc_y = av_clip(uvsrc_y,  -8, s->mb_height *  8);
    }else{
        src_x   = av_clip(  src_x, -17, s->avctx->coded_width);
        src_y   = av_clip(  src_y, -18, s->avctx->coded_height + 1);
        uvsrc_x = av_clip(uvsrc_x,  -8, s->avctx->coded_width  >> 1);
        uvsrc_y = av_clip(uvsrc_y,  -8, s->avctx->coded_height >> 1);
    }
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    srcY += src_y * s->linesize + src_x;
    srcU += uvsrc_y * s->uvlinesize + uvsrc_x;
    srcV += uvsrc_y * s->uvlinesize + uvsrc_x;

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    /* for grayscale we should not try to read from unknown area */
    if(s->flags & CODEC_FLAG_GRAY) {
        srcU = s->edge_emu_buffer + 18 * s->linesize;
        srcV = s->edge_emu_buffer + 18 * s->linesize;
    }

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    if(v->rangeredfrm || (v->mv_mode == MV_PMODE_INTENSITY_COMP)
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       || (unsigned)(src_x - s->mspel) > s->h_edge_pos - (mx&3) - 16 - s->mspel*3
       || (unsigned)(src_y - s->mspel) > s->v_edge_pos - (my&3) - 16 - s->mspel*3){
        uint8_t *uvbuf= s->edge_emu_buffer + 19 * s->linesize;
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        srcY -= s->mspel * (1 + s->linesize);
        ff_emulated_edge_mc(s->edge_emu_buffer, srcY, s->linesize, 17+s->mspel*2, 17+s->mspel*2,
                            src_x - s->mspel, src_y - s->mspel, s->h_edge_pos, s->v_edge_pos);
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        srcY = s->edge_emu_buffer;
        ff_emulated_edge_mc(uvbuf     , srcU, s->uvlinesize, 8+1, 8+1,
                            uvsrc_x, uvsrc_y, s->h_edge_pos >> 1, s->v_edge_pos >> 1);
        ff_emulated_edge_mc(uvbuf + 16, srcV, s->uvlinesize, 8+1, 8+1,
                            uvsrc_x, uvsrc_y, s->h_edge_pos >> 1, s->v_edge_pos >> 1);
        srcU = uvbuf;
        srcV = uvbuf + 16;
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        /* if we deal with range reduction we need to scale source blocks */
        if(v->rangeredfrm) {
            int i, j;
            uint8_t *src, *src2;

            src = srcY;
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            for(j = 0; j < 17 + s->mspel*2; j++) {
                for(i = 0; i < 17 + s->mspel*2; i++) src[i] = ((src[i] - 128) >> 1) + 128;
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                src += s->linesize;
            }
            src = srcU; src2 = srcV;
            for(j = 0; j < 9; j++) {
                for(i = 0; i < 9; i++) {
                    src[i] = ((src[i] - 128) >> 1) + 128;
                    src2[i] = ((src2[i] - 128) >> 1) + 128;
                }
                src += s->uvlinesize;
                src2 += s->uvlinesize;
            }
        }
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        /* if we deal with intensity compensation we need to scale source blocks */
        if(v->mv_mode == MV_PMODE_INTENSITY_COMP) {
            int i, j;
            uint8_t *src, *src2;

            src = srcY;
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            for(j = 0; j < 17 + s->mspel*2; j++) {
                for(i = 0; i < 17 + s->mspel*2; i++) src[i] = v->luty[src[i]];
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                src += s->linesize;
            }
            src = srcU; src2 = srcV;
            for(j = 0; j < 9; j++) {
                for(i = 0; i < 9; i++) {
                    src[i] = v->lutuv[src[i]];
                    src2[i] = v->lutuv[src2[i]];
                }
                src += s->uvlinesize;
                src2 += s->uvlinesize;
            }
        }
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        srcY += s->mspel * (1 + s->linesize);
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    }

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    if(s->mspel) {
        dxy = ((my & 3) << 2) | (mx & 3);
        dsp->put_vc1_mspel_pixels_tab[dxy](s->dest[0]    , srcY    , s->linesize, v->rnd);
        dsp->put_vc1_mspel_pixels_tab[dxy](s->dest[0] + 8, srcY + 8, s->linesize, v->rnd);
        srcY += s->linesize * 8;
        dsp->put_vc1_mspel_pixels_tab[dxy](s->dest[0] + 8 * s->linesize    , srcY    , s->linesize, v->rnd);
        dsp->put_vc1_mspel_pixels_tab[dxy](s->dest[0] + 8 * s->linesize + 8, srcY + 8, s->linesize, v->rnd);
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    } else { // hpel mc - always used for luma
        dxy = (my & 2) | ((mx & 2) >> 1);
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        if(!v->rnd)
            dsp->put_pixels_tab[0][dxy](s->dest[0], srcY, s->linesize, 16);
        else
            dsp->put_no_rnd_pixels_tab[0][dxy](s->dest[0], srcY, s->linesize, 16);
    }
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    if(s->flags & CODEC_FLAG_GRAY) return;
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    /* Chroma MC always uses qpel bilinear */
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    uvdxy = ((uvmy & 3) << 2) | (uvmx & 3);
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    uvmx = (uvmx&3)<<1;
    uvmy = (uvmy&3)<<1;
    if(!v->rnd){
        dsp->put_h264_chroma_pixels_tab[0](s->dest[1], srcU, s->uvlinesize, 8, uvmx, uvmy);
        dsp->put_h264_chroma_pixels_tab[0](s->dest[2], srcV, s->uvlinesize, 8, uvmx, uvmy);
    }else{
        dsp->put_no_rnd_h264_chroma_pixels_tab[0](s->dest[1], srcU, s->uvlinesize, 8, uvmx, uvmy);
        dsp->put_no_rnd_h264_chroma_pixels_tab[0](s->dest[2], srcV, s->uvlinesize, 8, uvmx, uvmy);
    }
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}

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/** Do motion compensation for 4-MV macroblock - luminance block
 */
static void vc1_mc_4mv_luma(VC1Context *v, int n)
{
    MpegEncContext *s = &v->s;
    DSPContext *dsp = &v->s.dsp;
    uint8_t *srcY;
    int dxy, mx, my, src_x, src_y;
    int off;

    if(!v->s.last_picture.data[0])return;
    mx = s->mv[0][n][0];
    my = s->mv[0][n][1];
    srcY = s->last_picture.data[0];

    off = s->linesize * 4 * (n&2) + (n&1) * 8;

    src_x = s->mb_x * 16 + (n&1) * 8 + (mx >> 2);
    src_y = s->mb_y * 16 + (n&2) * 4 + (my >> 2);

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    if(v->profile != PROFILE_ADVANCED){
        src_x   = av_clip(  src_x, -16, s->mb_width  * 16);
        src_y   = av_clip(  src_y, -16, s->mb_height * 16);
    }else{
        src_x   = av_clip(  src_x, -17, s->avctx->coded_width);
        src_y   = av_clip(  src_y, -18, s->avctx->coded_height + 1);
    }
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    srcY += src_y * s->linesize + src_x;

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    if(v->rangeredfrm || (v->mv_mode == MV_PMODE_INTENSITY_COMP)
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       || (unsigned)(src_x - s->mspel) > s->h_edge_pos - (mx&3) - 8 - s->mspel*2
       || (unsigned)(src_y - s->mspel) > s->v_edge_pos - (my&3) - 8 - s->mspel*2){
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        srcY -= s->mspel * (1 + s->linesize);
        ff_emulated_edge_mc(s->edge_emu_buffer, srcY, s->linesize, 9+s->mspel*2, 9+s->mspel*2,
                            src_x - s->mspel, src_y - s->mspel, s->h_edge_pos, s->v_edge_pos);
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        srcY = s->edge_emu_buffer;
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        /* if we deal with range reduction we need to scale source blocks */
        if(v->rangeredfrm) {
            int i, j;
            uint8_t *src;

            src = srcY;
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            for(j = 0; j < 9 + s->mspel*2; j++) {
                for(i = 0; i < 9 + s->mspel*2; i++) src[i] = ((src[i] - 128) >> 1) + 128;
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                src += s->linesize;
            }
        }
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        /* if we deal with intensity compensation we need to scale source blocks */
        if(v->mv_mode == MV_PMODE_INTENSITY_COMP) {
            int i, j;
            uint8_t *src;

            src = srcY;
            for(j = 0; j < 9 + s->mspel*2; j++) {
                for(i = 0; i < 9 + s->mspel*2; i++) src[i] = v->luty[src[i]];
                src += s->linesize;
            }
        }
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        srcY += s->mspel * (1 + s->linesize);
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    }

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    if(s->mspel) {
        dxy = ((my & 3) << 2) | (mx & 3);
        dsp->put_vc1_mspel_pixels_tab[dxy](s->dest[0] + off, srcY, s->linesize, v->rnd);
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    } else { // hpel mc - always used for luma
        dxy = (my & 2) | ((mx & 2) >> 1);
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        if(!v->rnd)
            dsp->put_pixels_tab[1][dxy](s->dest[0] + off, srcY, s->linesize, 8);
        else
            dsp->put_no_rnd_pixels_tab[1][dxy](s->dest[0] + off, srcY, s->linesize, 8);
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    }
}

static inline int median4(int a, int b, int c, int d)
{
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    if(a < b) {
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        if(c < d) return (FFMIN(b, d) + FFMAX(a, c)) / 2;
        else      return (FFMIN(b, c) + FFMAX(a, d)) / 2;
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    } else {
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        if(c < d) return (FFMIN(a, d) + FFMAX(b, c)) / 2;
        else      return (FFMIN(a, c) + FFMAX(b, d)) / 2;
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    }
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}


/** Do motion compensation for 4-MV macroblock - both chroma blocks
 */
static void vc1_mc_4mv_chroma(VC1Context *v)
{
    MpegEncContext *s = &v->s;
    DSPContext *dsp = &v->s.dsp;
    uint8_t *srcU, *srcV;
    int uvdxy, uvmx, uvmy, uvsrc_x, uvsrc_y;
    int i, idx, tx = 0, ty = 0;
    int mvx[4], mvy[4], intra[4];
    static const int count[16] = { 0, 1, 1, 2, 1, 2, 2, 3, 1, 2, 2, 3, 2, 3, 3, 4};

    if(!v->s.last_picture.data[0])return;
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    if(s->flags & CODEC_FLAG_GRAY) return;
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    for(i = 0; i < 4; i++) {
        mvx[i] = s->mv[0][i][0];
        mvy[i] = s->mv[0][i][1];
        intra[i] = v->mb_type[0][s->block_index[i]];
    }

    /* calculate chroma MV vector from four luma MVs */
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    idx = (intra[3] << 3) | (intra[2] << 2) | (intra[1] << 1) | intra[0];
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    if(!idx) { // all blocks are inter
        tx = median4(mvx[0], mvx[1], mvx[2], mvx[3]);
        ty = median4(mvy[0], mvy[1], mvy[2], mvy[3]);
    } else if(count[idx] == 1) { // 3 inter blocks
        switch(idx) {
        case 0x1:
            tx = mid_pred(mvx[1], mvx[2], mvx[3]);
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            ty = mid_pred(mvy[1], mvy[2], mvy[3]);
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            break;
        case 0x2:
            tx = mid_pred(mvx[0], mvx[2], mvx[3]);
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            ty = mid_pred(mvy[0], mvy[2], mvy[3]);
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            break;
        case 0x4:
            tx = mid_pred(mvx[0], mvx[1], mvx[3]);
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            ty = mid_pred(mvy[0], mvy[1], mvy[3]);
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            break;
        case 0x8:
            tx = mid_pred(mvx[0], mvx[1], mvx[2]);
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            ty = mid_pred(mvy[0], mvy[1], mvy[2]);
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            break;
        }
    } else if(count[idx] == 2) {
        int t1 = 0, t2 = 0;
        for(i=0; i<3;i++) if(!intra[i]) {t1 = i; break;}
        for(i= t1+1; i<4; i++)if(!intra[i]) {t2 = i; break;}
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        tx = (mvx[t1] + mvx[t2]) / 2;
        ty = (mvy[t1] + mvy[t2]) / 2;
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    } else {
        s->current_picture.motion_val[1][s->block_index[0]][0] = 0;
        s->current_picture.motion_val[1][s->block_index[0]][1] = 0;
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        return; //no need to do MC for inter blocks
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    }
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    s->current_picture.motion_val[1][s->block_index[0]][0] = tx;
    s->current_picture.motion_val[1][s->block_index[0]][1] = ty;
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    uvmx = (tx + ((tx&3) == 3)) >> 1;
    uvmy = (ty + ((ty&3) == 3)) >> 1;
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    if(v->fastuvmc) {
        uvmx = uvmx + ((uvmx<0)?(uvmx&1):-(uvmx&1));
        uvmy = uvmy + ((uvmy<0)?(uvmy&1):-(uvmy&1));
    }
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    uvsrc_x = s->mb_x * 8 + (uvmx >> 2);
    uvsrc_y = s->mb_y * 8 + (uvmy >> 2);

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    if(v->profile != PROFILE_ADVANCED){
        uvsrc_x = av_clip(uvsrc_x,  -8, s->mb_width  *  8);
        uvsrc_y = av_clip(uvsrc_y,  -8, s->mb_height *  8);
    }else{
        uvsrc_x = av_clip(uvsrc_x,  -8, s->avctx->coded_width  >> 1);
        uvsrc_y = av_clip(uvsrc_y,  -8, s->avctx->coded_height >> 1);
    }
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    srcU = s->last_picture.data[1] + uvsrc_y * s->uvlinesize + uvsrc_x;
    srcV = s->last_picture.data[2] + uvsrc_y * s->uvlinesize + uvsrc_x;
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    if(v->rangeredfrm || (v->mv_mode == MV_PMODE_INTENSITY_COMP)
       || (unsigned)uvsrc_x > (s->h_edge_pos >> 1) - 9
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       || (unsigned)uvsrc_y > (s->v_edge_pos >> 1) - 9){
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        ff_emulated_edge_mc(s->edge_emu_buffer     , srcU, s->uvlinesize, 8+1, 8+1,
                            uvsrc_x, uvsrc_y, s->h_edge_pos >> 1, s->v_edge_pos >> 1);
        ff_emulated_edge_mc(s->edge_emu_buffer + 16, srcV, s->uvlinesize, 8+1, 8+1,
                            uvsrc_x, uvsrc_y, s->h_edge_pos >> 1, s->v_edge_pos >> 1);
        srcU = s->edge_emu_buffer;
        srcV = s->edge_emu_buffer + 16;
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        /* if we deal with range reduction we need to scale source blocks */
        if(v->rangeredfrm) {
            int i, j;
            uint8_t *src, *src2;

            src = srcU; src2 = srcV;
            for(j = 0; j < 9; j++) {
                for(i = 0; i < 9; i++) {
                    src[i] = ((src[i] - 128) >> 1) + 128;
                    src2[i] = ((src2[i] - 128) >> 1) + 128;
                }
                src += s->uvlinesize;
                src2 += s->uvlinesize;
            }
        }
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        /* if we deal with intensity compensation we need to scale source blocks */
        if(v->mv_mode == MV_PMODE_INTENSITY_COMP) {
            int i, j;
            uint8_t *src, *src2;

            src = srcU; src2 = srcV;
            for(j = 0; j < 9; j++) {
                for(i = 0; i < 9; i++) {
                    src[i] = v->lutuv[src[i]];
                    src2[i] = v->lutuv[src2[i]];
                }
                src += s->uvlinesize;
                src2 += s->uvlinesize;
            }
        }
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    }

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    /* Chroma MC always uses qpel bilinear */
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    uvdxy = ((uvmy & 3) << 2) | (uvmx & 3);
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    uvmx = (uvmx&3)<<1;
    uvmy = (uvmy&3)<<1;
    if(!v->rnd){
        dsp->put_h264_chroma_pixels_tab[0](s->dest[1], srcU, s->uvlinesize, 8, uvmx, uvmy);
        dsp->put_h264_chroma_pixels_tab[0](s->dest[2], srcV, s->uvlinesize, 8, uvmx, uvmy);
    }else{
        dsp->put_no_rnd_h264_chroma_pixels_tab[0](s->dest[1], srcU, s->uvlinesize, 8, uvmx, uvmy);
        dsp->put_no_rnd_h264_chroma_pixels_tab[0](s->dest[2], srcV, s->uvlinesize, 8, uvmx, uvmy);
    }
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}

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static int decode_sequence_header_adv(VC1Context *v, GetBitContext *gb);

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/**
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 * Decode Simple/Main Profiles sequence header
 * @see Figure 7-8, p16-17
 * @param avctx Codec context
 * @param gb GetBit context initialized from Codec context extra_data
 * @return Status
 */
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static int decode_sequence_header(AVCodecContext *avctx, GetBitContext *gb)
{
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    VC1Context *v = avctx->priv_data;
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    av_log(avctx, AV_LOG_DEBUG, "Header: %0X\n", show_bits(gb, 32));
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    v->profile = get_bits(gb, 2);
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    if (v->profile == PROFILE_COMPLEX)
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    {
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        av_log(avctx, AV_LOG_ERROR, "WMV3 Complex Profile is not fully supported\n");
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    }
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    if (v->profile == PROFILE_ADVANCED)
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    {
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        return decode_sequence_header_adv(v, gb);
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    }
    else
    {
        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);
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            return -1;
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        }
    }

    // (fps-2)/4 (->30)
    v->frmrtq_postproc = get_bits(gb, 3); //common
    // (bitrate-32kbps)/64kbps
    v->bitrtq_postproc = get_bits(gb, 5); //common
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    v->s.loop_filter = get_bits(gb, 1); //common
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    if(v->s.loop_filter == 1 && v->profile == PROFILE_SIMPLE)
    {
        av_log(avctx, AV_LOG_ERROR,
               "LOOPFILTER shell not be enabled in simple profile\n");
    }
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    v->res_x8 = get_bits(gb, 1); //reserved
    if (v->res_x8)
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    {
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        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;
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    }

    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
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    v->res_transtab = get_bits(gb, 1);
    if (v->res_transtab)
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    {
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        av_log(avctx, AV_LOG_ERROR,
               "1 for reserved RES_TRANSTAB is forbidden\n");
        return -1;
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    }

    v->overlap = get_bits(gb, 1); //common

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    v->s.resync_marker = get_bits(gb, 1);
    v->rangered = get_bits(gb, 1);
    if (v->rangered && v->profile == PROFILE_SIMPLE)
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    {
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        av_log(avctx, AV_LOG_INFO,
               "RANGERED should be set to 0 in simple profile\n");
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    }

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    v->s.max_b_frames = avctx->max_b_frames = get_bits(gb, 3); //common
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    v->quantizer_mode = get_bits(gb, 2); //common

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    v->finterpflag = get_bits(gb, 1); //common
    v->res_rtm_flag = get_bits(gb, 1); //reserved
    if (!v->res_rtm_flag)
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    {
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//            av_log(avctx, AV_LOG_ERROR,
//                   "0 for reserved RES_RTM_FLAG is forbidden\n");
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        av_log(avctx, AV_LOG_ERROR,
               "Old WMV3 version detected, only I-frames will be decoded\n");
        //return -1;
    }
    av_log(avctx, AV_LOG_DEBUG,
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               "Profile %i:\nfrmrtq_postproc=%i, bitrtq_postproc=%i\n"
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               "LoopFilter=%i, MultiRes=%i, FastUVMC=%i, Extended MV=%i\n"
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               "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,
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               v->s.loop_filter, v->multires, v->fastuvmc, v->extended_mv,
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               v->rangered, v->vstransform, v->overlap, v->s.resync_marker,
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               v->dquant, v->quantizer_mode, avctx->max_b_frames
               );
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    return 0;
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}

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static int decode_sequence_header_adv(VC1Context *v, GetBitContext *gb)
{
    v->res_rtm_flag = 1;
    v->level = get_bits(gb, 3);
    if(v->level >= 5)
    {
        av_log(v->s.avctx, AV_LOG_ERROR, "Reserved LEVEL %i\n",v->level);
    }
    v->chromaformat = get_bits(gb, 2);
    if (v->chromaformat != 1)
    {
        av_log(v->s.avctx, AV_LOG_ERROR,
               "Only 4:2:0 chroma format supported\n");
        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->postprocflag = get_bits(gb, 1); //common

    v->s.avctx->coded_width = (get_bits(gb, 12) + 1) << 1;
    v->s.avctx->coded_height = (get_bits(gb, 12) + 1) << 1;
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    v->s.avctx->width = v->s.avctx->coded_width;
    v->s.avctx->height = v->s.avctx->coded_height;
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    v->broadcast = get_bits1(gb);
    v->interlace = get_bits1(gb);
    v->tfcntrflag = get_bits1(gb);
    v->finterpflag = get_bits1(gb);
    get_bits1(gb); // reserved
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    v->s.h_edge_pos = v->s.avctx->coded_width;
    v->s.v_edge_pos = v->s.avctx->coded_height;

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    av_log(v->s.avctx, AV_LOG_DEBUG,
               "Advanced Profile level %i:\nfrmrtq_postproc=%i, bitrtq_postproc=%i\n"
               "LoopFilter=%i, ChromaFormat=%i, Pulldown=%i, Interlace: %i\n"
               "TFCTRflag=%i, FINTERPflag=%i\n",
               v->level, v->frmrtq_postproc, v->bitrtq_postproc,
               v->s.loop_filter, v->chromaformat, v->broadcast, v->interlace,
               v->tfcntrflag, v->finterpflag
               );

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    v->psf = get_bits1(gb);
    if(v->psf) { //PsF, 6.1.13
        av_log(v->s.avctx, AV_LOG_ERROR, "Progressive Segmented Frame mode: not supported (yet)\n");
        return -1;
    }
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    v->s.max_b_frames = v->s.avctx->max_b_frames = 7;
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    if(get_bits1(gb)) { //Display Info - decoding is not affected by it
        int w, h, ar = 0;
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        av_log(v->s.avctx, AV_LOG_DEBUG, "Display extended info:\n");
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        v->s.avctx->width  = v->s.width  = w = get_bits(gb, 14) + 1;
        v->s.avctx->height = v->s.height = h = get_bits(gb, 14) + 1;
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        av_log(v->s.avctx, AV_LOG_DEBUG, "Display dimensions: %ix%i\n", w, h);
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        if(get_bits1(gb))
            ar = get_bits(gb, 4);
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        if(ar && ar < 14){
            v->s.avctx->sample_aspect_ratio = vc1_pixel_aspect[ar];
        }else if(ar == 15){
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            w = get_bits(gb, 8);
            h = get_bits(gb, 8);
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            v->s.avctx->sample_aspect_ratio = (AVRational){w, h};
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        }

        if(get_bits1(gb)){ //framerate stuff
            if(get_bits1(gb)) {
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                v->s.avctx->time_base.num = 32;
                v->s.avctx->time_base.den = get_bits(gb, 16) + 1;
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            } else {
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                int nr, dr;
                nr = get_bits(gb, 8);
                dr = get_bits(gb, 4);
                if(nr && nr < 8 && dr && dr < 3){
                    v->s.avctx->time_base.num = fps_dr[dr - 1];
                    v->s.avctx->time_base.den = fps_nr[nr - 1] * 1000;
                }
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            }
        }

        if(get_bits1(gb)){
            v->color_prim = get_bits(gb, 8);
            v->transfer_char = get_bits(gb, 8);
            v->matrix_coef = get_bits(gb, 8);
        }
    }

    v->hrd_param_flag = get_bits1(gb);
    if(v->hrd_param_flag) {
        int i;
        v->hrd_num_leaky_buckets = get_bits(gb, 5);
        get_bits(gb, 4); //bitrate exponent
        get_bits(gb, 4); //buffer size exponent
        for(i = 0; i < v->hrd_num_leaky_buckets; i++) {
            get_bits(gb, 16); //hrd_rate[n]
            get_bits(gb, 16); //hrd_buffer[n]
        }
    }
    return 0;
}

static int decode_entry_point(AVCodecContext *avctx, GetBitContext *gb)
{
    VC1Context *v = avctx->priv_data;
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    int i, blink, clentry, refdist;
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    av_log(avctx, AV_LOG_DEBUG, "Entry point: %08X\n", show_bits_long(gb, 32));
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    blink = get_bits1(gb); // broken link
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    clentry = get_bits1(gb); // closed entry
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    v->panscanflag = get_bits1(gb);
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    refdist = get_bits1(gb); // refdist flag
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    v->s.loop_filter = get_bits1(gb);
    v->fastuvmc = get_bits1(gb);
    v->extended_mv = get_bits1(gb);
    v->dquant = get_bits(gb, 2);
    v->vstransform = get_bits1(gb);
    v->overlap = get_bits1(gb);
    v->quantizer_mode = get_bits(gb, 2);

    if(v->hrd_param_flag){
        for(i = 0; i < v->hrd_num_leaky_buckets; i++) {
            get_bits(gb, 8); //hrd_full[n]
        }
    }

    if(get_bits1(gb)){
        avctx->coded_width = (get_bits(gb, 12)+1)<<1;
        avctx->coded_height = (get_bits(gb, 12)+1)<<1;
    }
    if(v->extended_mv)
        v->extended_dmv = get_bits1(gb);
    if(get_bits1(gb)) {
        av_log(avctx, AV_LOG_ERROR, "Luma scaling is not supported, expect wrong picture\n");
        skip_bits(gb, 3); // Y range, ignored for now
    }
    if(get_bits1(gb)) {
        av_log(avctx, AV_LOG_ERROR, "Chroma scaling is not supported, expect wrong picture\n");
        skip_bits(gb, 3); // UV range, ignored for now
    }

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    av_log(avctx, AV_LOG_DEBUG, "Entry point info:\n"
        "BrokenLink=%i, ClosedEntry=%i, PanscanFlag=%i\n"
        "RefDist=%i, Postproc=%i, FastUVMC=%i, ExtMV=%i\n"
        "DQuant=%i, VSTransform=%i, Overlap=%i, Qmode=%i\n",
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        blink, clentry, v->panscanflag, refdist, v->s.loop_filter,
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        v->fastuvmc, v->extended_mv, v->dquant, v->vstransform, v->overlap, v->quantizer_mode);

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    return 0;
}
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static int vc1_parse_frame_header(VC1Context *v, GetBitContext* gb)
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{
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    int pqindex, lowquant, status;

    if(v->finterpflag) v->interpfrm = get_bits(gb, 1);
    skip_bits(gb, 2); //framecnt unused
    v->rangeredfrm = 0;
    if (v->rangered) v->rangeredfrm = get_bits(gb, 1);
    v->s.pict_type = get_bits(gb, 1);
    if (v->s.avctx->max_b_frames) {
        if (!v->s.pict_type) {
            if (get_bits(gb, 1)) v->s.pict_type = I_TYPE;
            else v->s.pict_type = B_TYPE;
        } else v->s.pict_type = P_TYPE;
    } else v->s.pict_type = v->s.pict_type ? P_TYPE : I_TYPE;

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    v->bi_type = 0;
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    if(v->s.pict_type == B_TYPE) {
        v->bfraction = get_vlc2(gb, vc1_bfraction_vlc.table, VC1_BFRACTION_VLC_BITS, 1);
        v->bfraction = vc1_bfraction_lut[v->bfraction];
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        if(v->bfraction == 0) {
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            v->s.pict_type = BI_TYPE;
        }
    }
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    if(v->s.pict_type == I_TYPE || v->s.pict_type == BI_TYPE)
        get_bits(gb, 7); // skip buffer fullness
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    /* calculate RND */
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    if(v->s.pict_type == I_TYPE || v->s.pict_type == BI_TYPE)
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        v->rnd = 1;
    if(v->s.pict_type == P_TYPE)
        v->rnd ^= 1;

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    /* Quantizer stuff */
    pqindex = get_bits(gb, 5);
    if (v->quantizer_mode == QUANT_FRAME_IMPLICIT)
        v->pq = pquant_table[0][pqindex];
    else
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        v->pq = pquant_table[1][pqindex];
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    v->pquantizer = 1;
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    if (v->quantizer_mode == QUANT_FRAME_IMPLICIT)
        v->pquantizer = pqindex < 9;
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    if (v->quantizer_mode == QUANT_NON_UNIFORM)
        v->pquantizer = 0;
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    v->pqindex = pqindex;
    if (pqindex < 9) v->halfpq = get_bits(gb, 1);
    else v->halfpq = 0;
    if (v->quantizer_mode == QUANT_FRAME_EXPLICIT)
        v->pquantizer = get_bits(gb, 1);
    v->dquantfrm = 0;
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    if (v->extended_mv == 1) v->mvrange = get_prefix(gb, 0, 3);
    v->k_x = v->mvrange + 9 + (v->mvrange >> 1); //k_x can be 9 10 12 13
    v->k_y = v->mvrange + 8; //k_y can be 8 9 10 11
    v->range_x = 1 << (v->k_x - 1);
    v->range_y = 1 << (v->k_y - 1);
    if (v->profile == PROFILE_ADVANCED)
    {
        if (v->postprocflag) v->postproc = get_bits(gb, 1);
    }
    else
        if (v->multires && v->s.pict_type != B_TYPE) v->respic = get_bits(gb, 2);
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    if(v->res_x8 && (v->s.pict_type == I_TYPE || v->s.pict_type == BI_TYPE)){
        if(get_bits1(gb))return -1;
    }
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//av_log(v->s.avctx, AV_LOG_INFO, "%c Frame: QP=[%i]%i (+%i/2) %i\n",
//        (v->s.pict_type == P_TYPE) ? 'P' : ((v->s.pict_type == I_TYPE) ? 'I' : 'B'), pqindex, v->pq, v->halfpq, v->rangeredfrm);

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    if(v->s.pict_type == I_TYPE || v->s.pict_type == P_TYPE) v->use_ic = 0;

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    switch(v->s.pict_type) {
    case P_TYPE:
        if (v->pq < 5) v->tt_index = 0;
        else if(v->pq < 13) v->tt_index = 1;
        else v->tt_index = 2;

        lowquant = (v->pq > 12) ? 0 : 1;
        v->mv_mode = mv_pmode_table[lowquant][get_prefix(gb, 1, 4)];
        if (v->mv_mode == MV_PMODE_INTENSITY_COMP)
        {
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            int scale, shift, i;
            v->mv_mode2 = mv_pmode_table2[lowquant][get_prefix(gb, 1, 3)];
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            v->lumscale = get_bits(gb, 6);
            v->lumshift = get_bits(gb, 6);
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            v->use_ic = 1;
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            /* fill lookup tables for intensity compensation */
            if(!v->lumscale) {
                scale = -64;
                shift = (255 - v->lumshift * 2) << 6;
                if(v->lumshift > 31)
                    shift += 128 << 6;
            } else {
                scale = v->lumscale + 32;
                if(v->lumshift > 31)
                    shift = (v->lumshift - 64) << 6;
                else
                    shift = v->lumshift << 6;
            }
            for(i = 0; i < 256; i++) {
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                v->luty[i] = av_clip_uint8((scale * i + shift + 32) >> 6);
                v->lutuv[i] = av_clip_uint8((scale * (i - 128) + 128*64 + 32) >> 6);
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            }
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        }
        if(v->mv_mode == MV_PMODE_1MV_HPEL || v->mv_mode == MV_PMODE_1MV_HPEL_BILIN)
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            v->s.quarter_sample = 0;
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        else if(v->mv_mode == MV_PMODE_INTENSITY_COMP) {
            if(v->mv_mode2 == MV_PMODE_1MV_HPEL || v->mv_mode2 == MV_PMODE_1MV_HPEL_BILIN)
                v->s.quarter_sample = 0;
            else
                v->s.quarter_sample = 1;
        } else
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            v->s.quarter_sample = 1;
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        v->s.mspel = !(v->mv_mode == MV_PMODE_1MV_HPEL_BILIN || (v->mv_mode == MV_PMODE_INTENSITY_COMP && v->mv_mode2 == MV_PMODE_1MV_HPEL_BILIN));
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        if ((v->mv_mode == MV_PMODE_INTENSITY_COMP &&
                 v->mv_mode2 == MV_PMODE_MIXED_MV)
                || v->mv_mode == MV_PMODE_MIXED_MV)
        {
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            status = bitplane_decoding(v->mv_type_mb_plane, &v->mv_type_is_raw, v);
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            if (status < 0) return -1;
            av_log(v->s.avctx, AV_LOG_DEBUG, "MB MV Type plane encoding: "
                   "Imode: %i, Invert: %i\n", status>>1, status&1);
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        } else {
            v->mv_type_is_raw = 0;
            memset(v->mv_type_mb_plane, 0, v->s.mb_stride * v->s.mb_height);
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        }
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        status = bitplane_decoding(v->s.mbskip_table, &v->skip_is_raw, v);
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        if (status < 0) return -1;
        av_log(v->s.avctx, AV_LOG_DEBUG, "MB Skip plane encoding: "
               "Imode: %i, Invert: %i\n", status>>1, status&1);

        /* Hopefully this is correct for P frames */
        v->s.mv_table_index = get_bits(gb, 2); //but using vc1_ tables
        v->cbpcy_vlc = &vc1_cbpcy_p_vlc[get_bits(gb, 2)];

        if (v->dquant)
        {
            av_log(v->s.avctx, AV_LOG_DEBUG, "VOP DQuant info\n");
            vop_dquant_decoding(v);
        }

        v->ttfrm = 0; //FIXME Is that so ?
        if (v->vstransform)
        {
            v->ttmbf = get_bits(gb, 1);
            if (v->ttmbf)
            {
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                v->ttfrm = ttfrm_to_tt[get_bits(gb, 2)];
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            }
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        } else {
            v->ttmbf = 1;
            v->ttfrm = TT_8X8;
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        }
        break;
    case B_TYPE:
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        if (v->pq < 5) v->tt_index = 0;
        else if(v->pq < 13) v->tt_index = 1;
        else v->tt_index = 2;

        lowquant = (v->pq > 12) ? 0 : 1;
        v->mv_mode = get_bits1(gb) ? MV_PMODE_1MV : MV_PMODE_1MV_HPEL_BILIN;
        v->s.quarter_sample = (v->mv_mode == MV_PMODE_1MV);
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        v->s.mspel = v->s.quarter_sample;
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        status = bitplane_decoding(v->direct_mb_plane, &v->dmb_is_raw, v);
        if (status < 0) return -1;
        av_log(v->s.avctx, AV_LOG_DEBUG, "MB Direct Type plane encoding: "
               "Imode: %i, Invert: %i\n", status>>1, status&1);
        status = bitplane_decoding(v->s.mbskip_table, &v->skip_is_raw, v);
        if (status < 0) return -1;
        av_log(v->s.avctx, AV_LOG_DEBUG, "MB Skip plane encoding: "
               "Imode: %i, Invert: %i\n", status>>1, status&1);

        v->s.mv_table_index = get_bits(gb, 2);
        v->cbpcy_vlc = &vc1_cbpcy_p_vlc[get_bits(gb, 2)];

        if (v->dquant)
        {
            av_log(v->s.avctx, AV_LOG_DEBUG, "VOP DQuant info\n");
            vop_dquant_decoding(v);
        }

        v->ttfrm = 0;
        if (v->vstransform)
        {
            v->ttmbf = get_bits(gb, 1);
            if (v->ttmbf)
            {
                v->ttfrm = ttfrm_to_tt[get_bits(gb, 2)];
            }
        } else {
            v->ttmbf = 1;
            v->ttfrm = TT_8X8;
        }
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        break;
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    }
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    /* AC Syntax */
    v->c_ac_table_index = decode012(gb);
    if (v->s.pict_type == I_TYPE || v->s.pict_type == BI_TYPE)
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    {
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        v->y_ac_table_index = decode012(gb);
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    }
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    /* DC Syntax */
    v->s.dc_table_index = get_bits(gb, 1);

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    if(v->s.pict_type == BI_TYPE) {
        v->s.pict_type = B_TYPE;
        v->bi_type = 1;
    }
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    return 0;
}

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static int vc1_parse_frame_header_adv(VC1Context *v, GetBitContext* gb)
{
    int pqindex, lowquant;
    int status;

    v->p_frame_skipped = 0;

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    if(v->interlace){
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        v->fcm = decode012(gb);
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        if(v->fcm) return -1; // interlaced frames/fields are not implemented
    }
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    switch(get_prefix(gb, 0, 4)) {
    case 0:
        v->s.pict_type = P_TYPE;
        break;
    case 1:
        v->s.pict_type = B_TYPE;
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        break;
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    case 2:
        v->s.pict_type = I_TYPE;
        break;
    case 3:
        v->s.pict_type = BI_TYPE;
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        break;
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    case 4:
        v->s.pict_type = P_TYPE; // skipped pic
        v->p_frame_skipped = 1;
        return 0;
    }
    if(v->tfcntrflag)
        get_bits(gb, 8);
    if(v->broadcast) {
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        if(!v->interlace || v->psf) {
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            v->rptfrm = get_bits(gb, 2);
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        } else {
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            v->tff = get_bits1(gb);
            v->rptfrm = get_bits1(gb);
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        }
    }
    if(v->panscanflag) {
        //...
    }
    v->rnd = get_bits1(gb);
    if(v->interlace)
        v->uvsamp = get_bits1(gb);
    if(v->finterpflag) v->interpfrm = get_bits(gb, 1);
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    if(v->s.pict_type == B_TYPE) {
        v->bfraction = get_vlc2(gb, vc1_bfraction_vlc.table, VC1_BFRACTION_VLC_BITS, 1);
        v->bfraction = vc1_bfraction_lut[v->bfraction];
        if(v->bfraction == 0) {
            v->s.pict_type = BI_TYPE; /* XXX: should not happen here */
        }
    }
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    pqindex = get_bits(gb, 5);
    v->pqindex = pqindex;
    if (v->quantizer_mode == QUANT_FRAME_IMPLICIT)
        v->pq = pquant_table[0][pqindex];
    else
        v->pq = pquant_table[1][pqindex];

    v->pquantizer = 1;
    if (v->quantizer_mode == QUANT_FRAME_IMPLICIT)
        v->pquantizer = pqindex < 9;
    if (v->quantizer_mode == QUANT_NON_UNIFORM)
        v->pquantizer = 0;
    v->pqindex = pqindex;
    if (pqindex < 9) v->halfpq = get_bits(gb, 1);
    else v->halfpq = 0;
    if (v->quantizer_mode == QUANT_FRAME_EXPLICIT)
        v->pquantizer = get_bits(gb, 1);

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    if(v->s.pict_type == I_TYPE || v->s.pict_type == P_TYPE) v->use_ic = 0;

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    switch(v->s.pict_type) {
    case I_TYPE:
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    case BI_TYPE:
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        status = bitplane_decoding(v->acpred_plane, &v->acpred_is_raw, v);
        if (status < 0) return -1;
        av_log(v->s.avctx, AV_LOG_DEBUG, "ACPRED plane encoding: "
                "Imode: %i, Invert: %i\n", status>>1, status&1);
        v->condover = CONDOVER_NONE;
        if(v->overlap && v->pq <= 8) {
            v->condover = decode012(gb);
            if(v->condover == CONDOVER_SELECT) {
                status = bitplane_decoding(v->over_flags_plane, &v->overflg_is_raw, v);
                if (status < 0) return -1;
                av_log(v->s.avctx, AV_LOG_DEBUG, "CONDOVER plane encoding: "
                        "Imode: %i, Invert: %i\n", status>>1, status&1);
            }
        }
        break;
    case P_TYPE:
        if(v->postprocflag)
            v->postproc = get_bits1(gb);
        if (v->extended_mv) v->mvrange = get_prefix(gb, 0, 3);
        else v->mvrange = 0;
        v->k_x = v->mvrange + 9 + (v->mvrange >> 1); //k_x can be 9 10 12 13
        v->k_y = v->mvrange + 8; //k_y can be 8 9 10 11
        v->range_x = 1 << (v->k_x - 1);
        v->range_y = 1 << (v->k_y - 1);

        if (v->pq < 5) v->tt_index = 0;
        else if(v->pq < 13) v->tt_index = 1;
        else v->tt_index = 2;

        lowquant = (v->pq > 12) ? 0 : 1;
        v->mv_mode = mv_pmode_table[lowquant][get_prefix(gb, 1, 4)];
        if (v->mv_mode == MV_PMODE_INTENSITY_COMP)
        {
            int scale, shift, i;
            v->mv_mode2 = mv_pmode_table2[lowquant][get_prefix(gb, 1, 3)];
            v->lumscale = get_bits(gb, 6);
            v->lumshift = get_bits(gb, 6);
            /* fill lookup tables for intensity compensation */
            if(!v->lumscale) {
                scale = -64;
                shift = (255 - v->lumshift * 2) << 6;
                if(v->lumshift > 31)
                    shift += 128 << 6;
            } else {
                scale = v->lumscale + 32;
                if(v->lumshift > 31)
                    shift = (v->lumshift - 64) << 6;
                else
                    shift = v->lumshift << 6;
            }
            for(i = 0; i < 256; i++) {
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                v->luty[i] = av_clip_uint8((scale * i + shift + 32) >> 6);
                v->lutuv[i] = av_clip_uint8((scale * (i - 128) + 128*64 + 32) >> 6);
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            }
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            v->use_ic = 1;
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        }
        if(v->mv_mode == MV_PMODE_1MV_HPEL || v->mv_mode == MV_PMODE_1MV_HPEL_BILIN)
            v->s.quarter_sample = 0;
        else if(v->mv_mode == MV_PMODE_INTENSITY_COMP) {
            if(v->mv_mode2 == MV_PMODE_1MV_HPEL || v->mv_mode2 == MV_PMODE_1MV_HPEL_BILIN)
                v->s.quarter_sample = 0;
            else
                v->s.quarter_sample = 1;
        } else
            v->s.quarter_sample = 1;
        v->s.mspel = !(v->mv_mode == MV_PMODE_1MV_HPEL_BILIN || (v->mv_mode == MV_PMODE_INTENSITY_COMP && v->mv_mode2 == MV_PMODE_1MV_HPEL_BILIN));

        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->mv_type_is_raw, v);
            if (status < 0) return -1;
            av_log(v->s.avctx, AV_LOG_DEBUG, "MB MV Type plane encoding: "
                   "Imode: %i, Invert: %i\n", status>>1, status&1);
        } else {
            v->mv_type_is_raw = 0;
            memset(v->mv_type_mb_plane, 0, v->s.mb_stride * v->s.mb_height);
        }
        status = bitplane_decoding(v->s.mbskip_table, &v->skip_is_raw, v);
        if (status < 0) return -1;
        av_log(v->s.avctx, AV_LOG_DEBUG, "MB Skip plane encoding: "
               "Imode: %i, Invert: %i\n", status>>1, status&1);

        /* Hopefully this is correct for P frames */
        v->s.mv_table_index = get_bits(gb, 2); //but using vc1_ tables
        v->cbpcy_vlc = &vc1_cbpcy_p_vlc[get_bits(gb, 2)];
        if (v->dquant)
        {
            av_log(v->s.avctx, AV_LOG_DEBUG, "VOP DQuant info\n");
            vop_dquant_decoding(v);
        }

        v->ttfrm = 0; //FIXME Is that so ?
        if (v->vstransform)
        {
            v->ttmbf = get_bits(gb, 1);
            if (v->ttmbf)
            {
                v->ttfrm = ttfrm_to_tt[get_bits(gb, 2)];
            }
        } else {
            v->ttmbf = 1;
            v->ttfrm = TT_8X8;
        }
        break;
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    case B_TYPE:
        if(v->postprocflag)
            v->postproc = get_bits1(gb);
        if (v->extended_mv) v->mvrange = get_prefix(gb, 0, 3);
        else v->mvrange = 0;
        v->k_x = v->mvrange + 9 + (v->mvrange >> 1); //k_x can be 9 10 12 13
        v->k_y = v->mvrange + 8; //k_y can be 8 9 10 11
        v->range_x = 1 << (v->k_x - 1);
        v->range_y = 1 << (v->k_y - 1);

        if (v->pq < 5) v->tt_index = 0;
        else if(v->pq < 13) v->tt_index = 1;
        else v->tt_index = 2;

        lowquant = (v->pq > 12) ? 0 : 1;
        v->mv_mode = get_bits1(gb) ? MV_PMODE_1MV : MV_PMODE_1MV_HPEL_BILIN;
        v->s.quarter_sample = (v->mv_mode == MV_PMODE_1MV);
        v->s.mspel = v->s.quarter_sample;

        status = bitplane_decoding(v->direct_mb_plane, &v->dmb_is_raw, v);
        if (status < 0) return -1;
        av_log(v->s.avctx, AV_LOG_DEBUG, "MB Direct Type plane encoding: "
               "Imode: %i, Invert: %i\n", status>>1, status&1);
        status = bitplane_decoding(v->s.mbskip_table, &v->skip_is_raw, v);
        if (status < 0) return -1;
        av_log(v->s.avctx, AV_LOG_DEBUG, "MB Skip plane encoding: "
               "Imode: %i, Invert: %i\n", status>>1, status&1);

        v->s.mv_table_index = get_bits(gb, 2);
        v->cbpcy_vlc = &vc1_cbpcy_p_vlc[get_bits(gb, 2)];

        if (v->dquant)
        {
            av_log(v->s.avctx, AV_LOG_DEBUG, "VOP DQuant info\n");
            vop_dquant_decoding(v);
        }

        v->ttfrm = 0;
        if (v->vstransform)
        {
            v->ttmbf = get_bits(gb, 1);
            if (v->ttmbf)
            {
                v->ttfrm = ttfrm_to_tt[get_bits(gb, 2)];
            }
        } else {
            v->ttmbf = 1;
            v->ttfrm = TT_8X8;
        }
        break;
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    }

    /* AC Syntax */
    v->c_ac_table_index = decode012(gb);
    if (v->s.pict_type == I_TYPE || v->s.pict_type == BI_TYPE)
    {
        v->y_ac_table_index = decode012(gb);
    }
    /* DC Syntax */
    v->s.dc_table_index = get_bits(gb, 1);
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    if ((v->s.pict_type == I_TYPE || v->s.pict_type == BI_TYPE) && v->dquant) {
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        av_log(v->s.avctx, AV_LOG_DEBUG, "VOP DQuant info\n");
        vop_dquant_decoding(v);
    }

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    v->bi_type = 0;
    if(v->s.pict_type == BI_TYPE) {
        v->s.pict_type = B_TYPE;
        v->bi_type = 1;
    }
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    return 0;
}

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/***********************************************************************/
/**
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 * @defgroup block VC-1 Block-level functions
 * @see 7.1.4, p91 and 8.1.1.7, p(1)04
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 * @{
 */

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/**
 * @def GET_MQUANT
 * @brief Get macroblock-level quantizer scale
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 */
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#define GET_MQUANT()                                           \
  if (v->dquantfrm)                                            \
  {                                                            \
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    int edges = 0;                                             \
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    if (v->dqprofile == DQPROFILE_ALL_MBS)                     \
    {                                                          \
      if (v->dqbilevel)                                        \
      {                                                        \
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        mquant = (get_bits(gb, 1)) ? v->altpq : v->pq;         \
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      }                                                        \
      else                                                     \
      {                                                        \
        mqdiff = get_bits(gb, 3);                              \
        if (mqdiff != 7) mquant = v->pq + mqdiff;              \
        else mquant = get_bits(gb, 5);                         \
      }                                                        \
    }                                                          \
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    if(v->dqprofile == DQPROFILE_SINGLE_EDGE)                  \
        edges = 1 << v->dqsbedge;                              \
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    else if(v->dqprofile == DQPROFILE_DOUBLE_EDGES)            \
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        edges = (3 << v->dqsbedge) % 15;                       \
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    else if(v->dqprofile == DQPROFILE_FOUR_EDGES)              \
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        edges = 15;                                            \
    if((edges&1) && !s->mb_x)                                  \
        mquant = v->altpq;                                     \
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    if((edges&2) && s->first_slice_line)                       \
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        mquant = v->altpq;                                     \
    if((edges&4) && s->mb_x == (s->mb_width - 1))              \
        mquant = v->altpq;                                     \
    if((edges&8) && s->mb_y == (s->mb_height - 1))             \
        mquant = v->altpq;                                     \
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  }
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/**
 * @def GET_MVDATA(_dmv_x, _dmv_y)
 * @brief Get MV differentials
 * @see MVDATA decoding from 8.3.5.2, p(1)20
 * @param _dmv_x Horizontal differential for decoded MV
 * @param _dmv_y Vertical differential for decoded MV
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 */
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#define GET_MVDATA(_dmv_x, _dmv_y)                                  \
  index = 1 + get_vlc2(gb, vc1_mv_diff_vlc[s->mv_table_index].table,\
                       VC1_MV_DIFF_VLC_BITS, 2);                    \
  if (index > 36)                                                   \
  {                                                                 \
    mb_has_coeffs = 1;                                              \
    index -= 37;                                                    \
  }                                                                 \
  else mb_has_coeffs = 0;                                           \
  s->mb_intra = 0;                                                  \
  if (!index) { _dmv_x = _dmv_y = 0; }                              \
  else if (index == 35)                                             \
  {                                                                 \
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    _dmv_x = get_bits(gb, v->k_x - 1 + s->quarter_sample);          \
    _dmv_y = get_bits(gb, v->k_y - 1 + s->quarter_sample);          \
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  }                                                                 \
  else if (index == 36)                                             \
  {                                                                 \
    _dmv_x = 0;                                                     \
    _dmv_y = 0;                                                     \
    s->mb_intra = 1;                                                \
  }                                                                 \
  else                                                              \
  {                                                                 \
    index1 = index%6;                                               \
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    if (!s->quarter_sample && index1 == 5) val = 1;                 \
    else                                   val = 0;                 \
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    if(size_table[index1] - val > 0)                                \
        val = get_bits(gb, size_table[index1] - val);               \
    else                                   val = 0;                 \
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    sign = 0 - (val&1);                                             \
    _dmv_x = (sign ^ ((val>>1) + offset_table[index1])) - sign;     \
                                                                    \
    index1 = index/6;                                               \
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    if (!s->quarter_sample && index1 == 5) val = 1;                 \
    else                                   val = 0;                 \
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    if(size_table[index1] - val > 0)                                \
        val = get_bits(gb, size_table[index1] - val);               \
    else                                   val = 0;                 \
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    sign = 0 - (val&1);                                             \
    _dmv_y = (sign ^ ((val>>1) + offset_table[index1])) - sign;     \
  }
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/** Predict and set motion vector
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 */
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static inline void vc1_pred_mv(MpegEncContext *s, int n, int dmv_x, int dmv_y, int mv1, int r_x, int r_y, uint8_t* is_intra)
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{
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    int xy, wrap, off = 0;
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    int16_t *A, *B, *C;
    int px, py;
    int sum;
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    /* scale MV difference to be quad-pel */
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    dmv_x <<= 1 - s->quarter_sample;
    dmv_y <<= 1 - s->quarter_sample;
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    wrap = s->b8_stride;
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    xy = s->block_index[n];
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    if(s->mb_intra){
        s->mv[0][n][0] = s->current_picture.motion_val[0][xy][0] = 0;
        s->mv[0][n][1] = s->current_picture.motion_val[0][xy][1] = 0;
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        s->current_picture.motion_val[1][xy][0] = 0;
        s->current_picture.motion_val[1][xy][1] = 0;
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        if(mv1) { /* duplicate motion data for 1-MV block */
            s->current_picture.motion_val[0][xy + 1][0] = 0;
            s->current_picture.motion_val[0][xy + 1][1] = 0;
            s->current_picture.motion_val[0][xy + wrap][0] = 0;
            s->current_picture.motion_val[0][xy + wrap][1] = 0;
            s->current_picture.motion_val[0][xy + wrap + 1][0] = 0;
            s->current_picture.motion_val[0][xy + wrap + 1][1] = 0;
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            s->current_picture.motion_val[1][xy + 1][0] = 0;
            s->current_picture.motion_val[1][xy + 1][1] = 0;
            s->current_picture.motion_val[1][xy + wrap][0] = 0;
            s->current_picture.motion_val[1][xy + wrap][1] = 0;
            s->current_picture.motion_val[1][xy + wrap + 1][0] = 0;
            s->current_picture.motion_val[1][xy + wrap + 1][1] = 0;
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        }
        return;
    }

    C = s->current_picture.motion_val[0][xy - 1];
    A = s->current_picture.motion_val[0][xy - wrap];
    if(mv1)
        off = (s->mb_x == (s->mb_width - 1)) ? -1 : 2;
    else {
        //in 4-MV mode different blocks have different B predictor position
        switch(n){
        case 0:
            off = (s->mb_x > 0) ? -1 : 1;
            break;
        case 1:
            off = (s->mb_x == (s->mb_width - 1)) ? -1 : 1;
            break;
        case 2:
            off = 1;
            break;
        case 3:
            off = -1;
        }
    }
    B = s->current_picture.motion_val[0][xy - wrap + off];
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    if(!s->first_slice_line || (n==2 || n==3)) { // predictor A is not out of bounds
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        if(s->mb_width == 1) {
            px = A[0];
            py = A[1];
        } else {
            px = mid_pred(A[0], B[0], C[0]);
            py = mid_pred(A[1], B[1], C[1]);
        }
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    } else if(s->mb_x || (n==1 || n==3)) { // predictor C is not out of bounds
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        px = C[0];
        py = C[1];
    } else {
        px = py = 0;
    }
    /* Pullback MV as specified in 8.3.5.3.4 */
    {
        int qx, qy, X, Y;
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        qx = (s->mb_x << 6) + ((n==1 || n==3) ? 32 : 0);
        qy = (s->mb_y << 6) + ((n==2 || n==3) ? 32 : 0);
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        X = (s->mb_width << 6) - 4;
        Y = (s->mb_height << 6) - 4;
        if(mv1) {
            if(qx + px < -60) px = -60 - qx;
            if(qy + py < -60) py = -60 - qy;
        } else {
            if(qx + px < -28) px = -28 - qx;
            if(qy + py < -28) py = -28 - qy;
        }
        if(qx + px > X) px = X - qx;
        if(qy + py > Y) py = Y - qy;
    }
    /* Calculate hybrid prediction as specified in 8.3.5.3.5 */
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    if((!s->first_slice_line || (n==2 || n==3)) && (s->mb_x || (n==1 || n==3))) {
        if(is_intra[xy - wrap])
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            sum = FFABS(px) + FFABS(py);
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        else
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            sum = FFABS(px - A[0]) + FFABS(py - A[1]);
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        if(sum > 32) {
            if(get_bits1(&s->gb)) {
                px = A[0];
                py = A[1];
            } else {
                px = C[0];
                py = C[1];
            }
        } else {
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            if(is_intra[xy - 1])
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                sum = FFABS(px) + FFABS(py);
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            else
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                sum = FFABS(px - C[0]) + FFABS(py - C[1]);
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            if(sum > 32) {
                if(get_bits1(&s->gb)) {
                    px = A[0];
                    py = A[1];
                } else {
                    px = C[0];
                    py = C[1];
                }
            }
        }
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    }
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    /* store MV using signed modulus of MV range defined in 4.11 */
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    s->mv[0][n][0] = s->current_picture.motion_val[0][xy][0] = ((px + dmv_x + r_x) & ((r_x << 1) - 1)) - r_x;
    s->mv[0][n][1] = s->current_picture.motion_val[0][xy][1] = ((py + dmv_y + r_y) & ((r_y << 1) - 1)) - r_y;
    if(mv1) { /* duplicate motion data for 1-MV block */
        s->current_picture.motion_val[0][xy + 1][0] = s->current_picture.motion_val[0][xy][0];
        s->current_picture.motion_val[0][xy + 1][1] = s->current_picture.motion_val[0][xy][1];
        s->current_picture.motion_val[0][xy + wrap][0] = s->current_picture.motion_val[0][xy][0];
        s->current_picture.motion_val[0][xy + wrap][1] = s->current_picture.motion_val[0][xy][1];
        s->current_picture.motion_val[0][xy + wrap + 1][0] = s->current_picture.motion_val[0][xy][0];
        s->current_picture.motion_val[0][xy + wrap + 1][1] = s->current_picture.motion_val[0][xy][1];
    }
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}

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/** Motion compensation for direct or interpolated blocks in B-frames
 */
static void vc1_interp_mc(VC1Context *v)
{
    MpegEncContext *s = &v->s;
    DSPContext *dsp = &v->s.dsp;
    uint8_t *srcY, *srcU, *srcV;
    int dxy, uvdxy, mx, my, uvmx, uvmy, src_x, src_y, uvsrc_x, uvsrc_y;

    if(!v->s.next_picture.data[0])return;

    mx = s->mv[1][0][0];
    my = s->mv[1][0][1];
    uvmx = (mx + ((mx & 3) == 3)) >> 1;
    uvmy = (my + ((my & 3) == 3)) >> 1;
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    if(v->fastuvmc) {
        uvmx = uvmx + ((uvmx<0)?-(uvmx&1):(uvmx&1));
        uvmy = uvmy + ((uvmy<0)?-(uvmy&1):(uvmy&1));
    }
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    srcY = s->next_picture.data[0];
    srcU = s->next_picture.data[1];
    srcV = s->next_picture.data[2];

    src_x = s->mb_x * 16 + (mx >> 2);
    src_y = s->mb_y * 16 + (my >> 2);
    uvsrc_x = s->mb_x * 8 + (uvmx >> 2);
    uvsrc_y = s->mb_y * 8 + (uvmy >> 2);

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    if(v->profile != PROFILE_ADVANCED){
        src_x   = av_clip(  src_x, -16, s->mb_width  * 16);
        src_y   = av_clip(  src_y, -16, s->mb_height * 16);
        uvsrc_x = av_clip(uvsrc_x,  -8, s->mb_width  *  8);
        uvsrc_y = av_clip(uvsrc_y,  -8, s->mb_height *  8);
    }else{
        src_x   = av_clip(  src_x, -17, s->avctx->coded_width);
        src_y   = av_clip(  src_y, -18, s->avctx->coded_height + 1);
        uvsrc_x = av_clip(uvsrc_x,  -8, s->avctx->coded_width  >> 1);
        uvsrc_y = av_clip(uvsrc_y,  -8, s->avctx->coded_height >> 1);
    }
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    srcY += src_y * s->linesize + src_x;
    srcU += uvsrc_y * s->uvlinesize + uvsrc_x;
    srcV += uvsrc_y * s->uvlinesize + uvsrc_x;

    /* for grayscale we should not try to read from unknown area */
    if(s->flags & CODEC_FLAG_GRAY) {
        srcU = s->edge_emu_buffer + 18 * s->linesize;
        srcV = s->edge_emu_buffer + 18 * s->linesize;
    }

    if(v->rangeredfrm
       || (unsigned)src_x > s->h_edge_pos - (mx&3) - 16
       || (unsigned)src_y > s->v_edge_pos - (my&3) - 16){
        uint8_t *uvbuf= s->edge_emu_buffer + 19 * s->linesize;

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        srcY -= s->mspel * (1 + s->linesize);
        ff_emulated_edge_mc(s->edge_emu_buffer, srcY, s->linesize, 17+s->mspel*2, 17+s->mspel*2,
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                            src_x - s->mspel, src_y - s->mspel, s->h_edge_pos, s->v_edge_pos);
        srcY = s->edge_emu_buffer;
        ff_emulated_edge_mc(uvbuf     , srcU, s->uvlinesize, 8+1, 8+1,
                            uvsrc_x, uvsrc_y, s->h_edge_pos >> 1, s->v_edge_pos >> 1);
        ff_emulated_edge_mc(uvbuf + 16, srcV, s->uvlinesize, 8+1, 8+1,
                            uvsrc_x, uvsrc_y, s->h_edge_pos >> 1, s->v_edge_pos >> 1);
        srcU = uvbuf;
        srcV = uvbuf + 16;
        /* if we deal with range reduction we need to scale source blocks */
        if(v->rangeredfrm) {
            int i, j;
            uint8_t *src, *src2;

            src = srcY;
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            for(j = 0; j < 17 + s->mspel*2; j++) {
                for(i = 0; i < 17 + s->mspel*2; i++) src[i] = ((src[i] - 128) >> 1) + 128;
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                src += s->linesize;
            }
            src = srcU; src2 = srcV;
            for(j = 0; j < 9; j++) {
                for(i = 0; i < 9; i++) {
                    src[i] = ((src[i] - 128) >> 1) + 128;
                    src2[i] = ((src2[i] - 128) >> 1) + 128;
                }
                src += s->uvlinesize;
                src2 += s->uvlinesize;
            }
        }
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        srcY += s->mspel * (1 + s->linesize);
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    }

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    mx >>= 1;
    my >>= 1;
    dxy = ((my & 1) << 1) | (mx & 1);
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    dsp->avg_pixels_tab[0][dxy](s->dest[0], srcY, s->linesize, 16);
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    if(s->flags & CODEC_FLAG_GRAY) return;
    /* Chroma MC always uses qpel blilinear */
    uvdxy = ((uvmy & 3) << 2) | (uvmx & 3);
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    uvmx = (uvmx&3)<<1;
    uvmy = (uvmy&3)<<1;
    dsp->avg_h264_chroma_pixels_tab[0](s->dest[1], srcU, s->uvlinesize, 8, uvmx, uvmy);
    dsp->avg_h264_chroma_pixels_tab[0](s->dest[2], srcV, s->uvlinesize, 8, uvmx, uvmy);
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}

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static av_always_inline int scale_mv(int value, int bfrac, int inv, int qs)
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{
    int n = bfrac;

#if B_FRACTION_DEN==256
    if(inv)
        n -= 256;
    if(!qs)
        return 2 * ((value * n + 255) >> 9);
    return (value * n + 128) >> 8;
#else
    if(inv)
        n -= B_FRACTION_DEN;
    if(!qs)
        return 2 * ((value * n + B_FRACTION_DEN - 1) / (2 * B_FRACTION_DEN));
    return (value * n + B_FRACTION_DEN/2) / B_FRACTION_DEN;
#endif
}

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/** Reconstruct motion vector for B-frame and do motion compensation
 */
static inline void vc1_b_mc(VC1Context *v, int dmv_x[2], int dmv_y[2], int direct, int mode)
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{
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    if(v->use_ic) {
        v->mv_mode2 = v->mv_mode;
        v->mv_mode = MV_PMODE_INTENSITY_COMP;
    }
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    if(direct) {
        vc1_mc_1mv(v, 0);
        vc1_interp_mc(v);
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        if(v->use_ic) v->mv_mode = v->mv_mode2;
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        return;
    }
    if(mode == BMV_TYPE_INTERPOLATED) {
        vc1_mc_1mv(v, 0);
        vc1_interp_mc(v);
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        if(v->use_ic) v->mv_mode = v->mv_mode2;
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        return;
    }

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    if(v->use_ic && (mode == BMV_TYPE_BACKWARD)) v->mv_mode = v->mv_mode2;
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    vc1_mc_1mv(v, (mode == BMV_TYPE_BACKWARD));
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    if(v->use_ic) v->mv_mode = v->mv_mode2;
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}

static inline void vc1_pred_b_mv(VC1Context *v, int dmv_x[2], int dmv_y[2], int direct, int mvtype)
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{
    MpegEncContext *s = &v->s;
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    int xy, wrap, off = 0;
    int16_t *A, *B, *C;
    int px, py;
    int sum;
    int r_x, r_y;
    const uint8_t *is_intra = v->mb_type[0];
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    r_x = v->range_x;
    r_y = v->range_y;
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    /* scale MV difference to be quad-pel */
    dmv_x[0] <<= 1 - s->quarter_sample;
    dmv_y[0] <<= 1 - s->quarter_sample;
    dmv_x[1] <<= 1 - s->quarter_sample;
    dmv_y[1] <<= 1 - s->quarter_sample;

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    wrap = s->b8_stride;
    xy = s->block_index[0];
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    if(s->mb_intra) {
        s->current_picture.motion_val[0][xy][0] =
        s->current_picture.motion_val[0][xy][1] =
        s->current_picture.motion_val[1][xy][0] =
        s->current_picture.motion_val[1][xy][1] = 0;
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        return;
    }
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    s->mv[0][0][0] = scale_mv(s->next_picture.motion_val[1][xy][0], v->bfraction, 0, s->quarter_sample);
    s->mv[0][0][1] = scale_mv(s->next_picture.motion_val[1][xy][1], v->bfraction, 0, s->quarter_sample);
    s->mv[1][0][0] = scale_mv(s->next_picture.motion_val[1][xy][0], v->bfraction, 1, s->quarter_sample);
    s->mv[1][0][1] = scale_mv(s->next_picture.motion_val[1][xy][1], v->bfraction, 1, s->quarter_sample);
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    if(direct) {
        s->current_picture.motion_val[0][xy][0] = s->mv[0][0][0];
        s->current_picture.motion_val[0][xy][1] = s->mv[0][0][1];
        s->current_picture.motion_val[1][xy][0] = s->mv[1][0][0];
        s->current_picture.motion_val[1][xy][1] = s->mv[1][0][1];
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        return;
    }

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    if((mvtype == BMV_TYPE_FORWARD) || (mvtype == BMV_TYPE_INTERPOLATED)) {
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        C = s->current_picture.motion_val[0][xy - 2];
        A = s->current_picture.motion_val[0][xy - wrap*2];
        off = (s->mb_x == (s->mb_width - 1)) ? -2 : 2;
        B = s->current_picture.motion_val[0][xy - wrap*2 + off];

        if(!s->first_slice_line) { // predictor A is not out of bounds
            if(s->mb_width == 1) {
                px = A[0];
                py = A[1];
            } else {
                px = mid_pred(A[0], B[0], C[0]);
                py = mid_pred(A[1], B[1], C[1]);
            }
        } else if(s->mb_x) { // predictor C is not out of bounds
            px = C[0];
            py = C[1];
        } else {
            px = py = 0;
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        }
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        /* Pullback MV as specified in 8.3.5.3.4 */
        {
            int qx, qy, X, Y;
            if(v->profile < PROFILE_ADVANCED) {
                qx = (s->mb_x << 5);
                qy = (s->mb_y << 5);
                X = (s->mb_width << 5) - 4;
                Y = (s->mb_height << 5) - 4;
                if(qx + px < -28) px = -28 - qx;
                if(qy + py < -28) py = -28 - qy;
                if(qx + px > X) px = X - qx;
                if(qy + py > Y) py = Y - qy;
            } else {
                qx = (s->mb_x << 6);
                qy = (s->mb_y << 6);
                X = (s->mb_width << 6) - 4;
                Y = (s->mb_height << 6) - 4;
                if(qx + px < -60) px = -60 - qx;
                if(qy + py < -60) py = -60 - qy;
                if(qx + px > X) px = X - qx;
                if(qy + py > Y) py = Y - qy;
            }
        }
        /* Calculate hybrid prediction as specified in 8.3.5.3.5 */
        if(0 && !s->first_slice_line && s->mb_x) {
            if(is_intra[xy - wrap])
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                sum = FFABS(px) + FFABS(py);
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            else
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                sum = FFABS(px - A[0]) + FFABS(py - A[1]);
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            if(sum > 32) {
                if(get_bits1(&s->gb)) {
                    px = A[0];
                    py = A[1];
                } else {
                    px = C[0];
                    py = C[1];
                }
            } else {
                if(is_intra[xy - 2])
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                    sum = FFABS(px) + FFABS(py);
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                else
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                    sum = FFABS(px - C[0]) + FFABS(py - C[1]);
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                if(sum > 32) {
                    if(get_bits1(&s->gb)) {
                        px = A[0];
                        py = A[1];
                    } else {
                        px = C[0];
                        py = C[1];
                    }
                }
            }
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        }
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        /* store MV using signed modulus of MV range defined in 4.11 */
        s->mv[0][0][0] = ((px + dmv_x[0] + r_x) & ((r_x << 1) - 1)) - r_x;
        s->mv[0][0][1] = ((py + dmv_y[0] + r_y) & ((r_y << 1) - 1)) - r_y;
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    }
2390
    if((mvtype == BMV_TYPE_BACKWARD) || (mvtype == BMV_TYPE_INTERPOLATED)) {
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        C = s->current_picture.motion_val[1][xy - 2];
        A = s->current_picture.motion_val[1][xy - wrap*2];
        off = (s->mb_x == (s->mb_width - 1)) ? -2 : 2;
        B = s->current_picture.motion_val[1][xy - wrap*2 + off];
2395

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        if(!s->first_slice_line) { // predictor A is not out of bounds
            if(s->mb_width == 1) {
                px = A[0];
                py = A[1];
            } else {
                px = mid_pred(A[0], B[0], C[0]);
                py = mid_pred(A[1], B[1], C[1]);
            }
        } else if(s->mb_x) { // predictor C is not out of bounds
            px = C[0];
            py = C[1];
        } else {
            px = py = 0;
        }
        /* Pullback MV as specified in 8.3.5.3.4 */
        {
            int qx, qy, X, Y;
            if(v->profile < PROFILE_ADVANCED) {
                qx = (s->mb_x << 5);
                qy = (s->mb_y << 5);
                X = (s->mb_width << 5) - 4;
                Y = (s->mb_height << 5) - 4;
                if(qx + px < -28) px = -28 - qx;
                if(qy + py < -28) py = -28 - qy;
                if(qx + px > X) px = X - qx;
                if(qy + py > Y) py = Y - qy;
            } else {
                qx = (s->mb_x << 6);
                qy = (s->mb_y << 6);
                X = (s->mb_width << 6) - 4;
                Y = (s->mb_height << 6) - 4;
                if(qx + px < -60) px = -60 - qx;
                if(qy + py < -60) py = -60 - qy;
                if(qx + px > X) px = X - qx;
                if(qy + py > Y) py = Y - qy;
            }
        }
        /* Calculate hybrid prediction as specified in 8.3.5.3.5 */
        if(0 && !s->first_slice_line && s->mb_x) {
            if(is_intra[xy - wrap])
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                sum = FFABS(px) + FFABS(py);
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            else
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                sum = FFABS(px - A[0]) + FFABS(py - A[1]);
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            if(sum > 32) {
                if(get_bits1(&s->gb)) {
                    px = A[0];
                    py = A[1];
                } else {
                    px = C[0];
                    py = C[1];
                }
            } else {
                if(is_intra[xy - 2])
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                    sum = FFABS(px) + FFABS(py);
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                else
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                    sum = FFABS(px - C[0]) + FFABS(py - C[1]);
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                if(sum > 32) {
                    if(get_bits1(&s->gb)) {
                        px = A[0];
                        py = A[1];
                    } else {
                        px = C[0];
                        py = C[1];
                    }
                }
            }
        }
        /* store MV using signed modulus of MV range defined in 4.11 */
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        s->mv[1][0][0] = ((px + dmv_x[1] + r_x) & ((r_x << 1) - 1)) - r_x;
        s->mv[1][0][1] = ((py + dmv_y[1] + r_y) & ((r_y << 1) - 1)) - r_y;
    }
    s->current_picture.motion_val[0][xy][0] = s->mv[0][0][0];
    s->current_picture.motion_val[0][xy][1] = s->mv[0][0][1];
    s->current_picture.motion_val[1][xy][0] = s->mv[1][0][0];
    s->current_picture.motion_val[1][xy][1] = s->mv[1][0][1];
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}

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/** Get predicted DC value for I-frames only
 * prediction dir: left=0, top=1
 * @param s MpegEncContext
 * @param[in] n block index in the current MB
 * @param dc_val_ptr Pointer to DC predictor
 * @param dir_ptr Prediction direction for use in AC prediction
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 */
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static inline int vc1_i_pred_dc(MpegEncContext *s, int overlap, int pq, int n,
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                              int16_t **dc_val_ptr, int *dir_ptr)
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{
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    int a, b, c, wrap, pred, scale;
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    int16_t *dc_val;
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    static const uint16_t dcpred[32] = {
    -1, 1024,  512,  341,  256,  205,  171,  146,  128,
         114,  102,   93,   85,   79,   73,   68,   64,
          60,   57,   54,   51,   49,   47,   45,   43,
          41,   39,   38,   37,   35,   34,   33
    };
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    /* find prediction - wmv3_dc_scale always used here in fact */
    if (n < 4)     scale = s->y_dc_scale;
    else           scale = s->c_dc_scale;
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    wrap = s->block_wrap[n];
    dc_val= s->dc_val[0] + s->block_index[n];
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    /* B A
     * C X
     */
    c = dc_val[ - 1];
    b = dc_val[ - 1 - wrap];
    a = dc_val[ - wrap];
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    if (pq < 9 || !overlap)
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    {
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        /* Set outer values */
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        if (s->first_slice_line && (n!=2 && n!=3)) b=a=dcpred[scale];
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        if (s->mb_x == 0 && (n!=1 && n!=3)) b=c=dcpred[scale];
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    }
    else
    {
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        /* Set outer values */
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        if (s->first_slice_line && (n!=2 && n!=3)) b=a=0;
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        if (s->mb_x == 0 && (n!=1 && n!=3)) b=c=0;
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    }

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    if (abs(a - b) <= abs(b - c)) {
        pred = c;
        *dir_ptr = 1;//left
    } else {
        pred = a;
        *dir_ptr = 0;//top
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    }

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    /* update predictor */
    *dc_val_ptr = &dc_val[0];
    return pred;
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}

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/** Get predicted DC value
 * prediction dir: left=0, top=1
 * @param s MpegEncContext
 * @param[in] n block index in the current MB
 * @param dc_val_ptr Pointer to DC predictor
 * @param dir_ptr Prediction direction for use in AC prediction
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 */
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static inline int vc1_pred_dc(MpegEncContext *s, int overlap, int pq, int n,
                              int a_avail, int c_avail,
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                              int16_t **dc_val_ptr, int *dir_ptr)
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{
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    int a, b, c, wrap, pred, scale;
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    int16_t *dc_val;
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    int mb_pos = s->mb_x + s->mb_y * s->mb_stride;
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    int q1, q2 = 0;
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    /* find prediction - wmv3_dc_scale always used here in fact */
    if (n < 4)     scale = s->y_dc_scale;
    else           scale = s->c_dc_scale;
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    wrap = s->block_wrap[n];
    dc_val= s->dc_val[0] + s->block_index[n];
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    /* B A
     * C X
     */
    c = dc_val[ - 1];
    b = dc_val[ - 1 - wrap];
    a = dc_val[ - wrap];
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    /* scale predictors if needed */
    q1 = s->current_picture.qscale_table[mb_pos];
    if(c_avail && (n!= 1 && n!=3)) {
        q2 = s->current_picture.qscale_table[mb_pos - 1];
        if(q2 && q2 != q1)
            c = (c * s->y_dc_scale_table[q2] * vc1_dqscale[s->y_dc_scale_table[q1] - 1] + 0x20000) >> 18;
    }
    if(a_avail && (n!= 2 && n!=3)) {
        q2 = s->current_picture.qscale_table[mb_pos - s->mb_stride];
        if(q2 && q2 != q1)
            a = (a * s->y_dc_scale_table[q2] * vc1_dqscale[s->y_dc_scale_table[q1] - 1] + 0x20000) >> 18;
    }
    if(a_avail && c_avail && (n!=3)) {
        int off = mb_pos;
        if(n != 1) off--;
        if(n != 2) off -= s->mb_stride;
        q2 = s->current_picture.qscale_table[off];
        if(q2 && q2 != q1)
            b = (b * s->y_dc_scale_table[q2] * vc1_dqscale[s->y_dc_scale_table[q1] - 1] + 0x20000) >> 18;
    }
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    if(a_avail && c_avail) {
        if(abs(a - b) <= abs(b - c)) {
            pred = c;
            *dir_ptr = 1;//left
        } else {
            pred = a;
            *dir_ptr = 0;//top
        }
    } else if(a_avail) {
        pred = a;
        *dir_ptr = 0;//top
    } else if(c_avail) {
        pred = c;
        *dir_ptr = 1;//left
    } else {
        pred = 0;
        *dir_ptr = 1;//left
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    }

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    /* update predictor */
    *dc_val_ptr = &dc_val[0];
    return pred;
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}
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2608

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/**
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 * @defgroup std_mb VC1 Macroblock-level functions in Simple/Main Profiles
 * @see 7.1.4, p91 and 8.1.1.7, p(1)04
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 * @{
 */
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static inline int vc1_coded_block_pred(MpegEncContext * s, int n, uint8_t **coded_block_ptr)
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{
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    int xy, wrap, pred, a, b, c;
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    xy = s->block_index[n];
    wrap = s->b8_stride;
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    /* B C
     * A X
     */
    a = s->coded_block[xy - 1       ];
    b = s->coded_block[xy - 1 - wrap];
    c = s->coded_block[xy     - wrap];
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    if (b == c) {
        pred = a;
    } else {
        pred = c;
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    }
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    /* store value */
    *coded_block_ptr = &s->coded_block[xy];

    return pred;
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}

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/**
 * Decode one AC coefficient
 * @param v The VC1 context
 * @param last Last coefficient
 * @param skip How much zero coefficients to skip
 * @param value Decoded AC coefficient value
 * @see 8.1.3.4
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 */
2649
static void vc1_decode_ac_coeff(VC1Context *v, int *last, int *skip, int *value, int codingset)
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{
    GetBitContext *gb = &v->s.gb;
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    int index, escape, run = 0, level = 0, lst = 0;

    index = get_vlc2(gb, vc1_ac_coeff_table[codingset].table, AC_VLC_BITS, 3);
    if (index != vc1_ac_sizes[codingset] - 1) {
        run = vc1_index_decode_table[codingset][index][0];
        level = vc1_index_decode_table[codingset][index][1];
        lst = index >= vc1_last_decode_table[codingset];
        if(get_bits(gb, 1))
            level = -level;
    } else {
        escape = decode210(gb);
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        if (escape != 2) {
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            index = get_vlc2(gb, vc1_ac_coeff_table[codingset].table, AC_VLC_BITS, 3);
            run = vc1_index_decode_table[codingset][index][0];
            level = vc1_index_decode_table[codingset][index][1];
            lst = index >= vc1_last_decode_table[codingset];
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            if(escape == 0) {
                if(lst)
                    level += vc1_last_delta_level_table[codingset][run];
                else
                    level += vc1_delta_level_table[codingset][run];
            } else {
                if(lst)
                    run += vc1_last_delta_run_table[codingset][level] + 1;
                else
                    run += vc1_delta_run_table[codingset][level] + 1;
            }
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            if(get_bits(gb, 1))
                level = -level;
        } else {
            int sign;
            lst = get_bits(gb, 1);
            if(v->s.esc3_level_length == 0) {
                if(v->pq < 8 || v->dquantfrm) { // table 59
                    v->s.esc3_level_length = get_bits(gb, 3);
                    if(!v->s.esc3_level_length)
                        v->s.esc3_level_length = get_bits(gb, 2) + 8;
                } else { //table 60
                    v->s.esc3_level_length = get_prefix(gb, 1, 6) + 2;
                }
                v->s.esc3_run_length = 3 + get_bits(gb, 2);
            }
            run = get_bits(gb, v->s.esc3_run_length);
            sign = get_bits(gb, 1);
            level = get_bits(gb, v->s.esc3_level_length);
            if(sign)
                level = -level;
        }
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    }
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    *last = lst;
    *skip = run;
    *value = level;
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}

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/** Decode intra block in intra frames - should be faster than decode_intra_block
 * @param v VC1Context
 * @param block block to decode
 * @param coded are AC coeffs present or not
 * @param codingset set of VLC to decode data
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 */
2713
static int vc1_decode_i_block(VC1Context *v, DCTELEM block[64], int n, int coded, int codingset)
2714
{
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    GetBitContext *gb = &v->s.gb;
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    MpegEncContext *s = &v->s;
    int dc_pred_dir = 0; /* Direction of the DC prediction used */
    int run_diff, i;
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    int16_t *dc_val;
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    int16_t *ac_val, *ac_val2;
    int dcdiff;
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    /* Get DC differential */
    if (n < 4) {
        dcdiff = get_vlc2(&s->gb, ff_msmp4_dc_luma_vlc[s->dc_table_index].table, DC_VLC_BITS, 3);
    } else {
        dcdiff = get_vlc2(&s->gb, ff_msmp4_dc_chroma_vlc[s->dc_table_index].table, DC_VLC_BITS, 3);
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    }
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    if (dcdiff < 0){
        av_log(s->avctx, AV_LOG_ERROR, "Illegal DC VLC\n");
        return -1;
    }
    if (dcdiff)
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    {
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        if (dcdiff == 119 /* ESC index value */)
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        {
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            /* TODO: Optimize */
            if (v->pq == 1) dcdiff = get_bits(gb, 10);
            else if (v->pq == 2) dcdiff = get_bits(gb, 9);
            else dcdiff = get_bits(gb, 8);
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        }
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        else
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        {
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            if (v->pq == 1)
                dcdiff = (dcdiff<<2) + get_bits(gb, 2) - 3;
            else if (v->pq == 2)
                dcdiff = (dcdiff<<1) + get_bits(gb, 1) - 1;
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        }
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        if (get_bits(gb, 1))
            dcdiff = -dcdiff;
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    }

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    /* Prediction */
    dcdiff += vc1_i_pred_dc(&v->s, v->overlap, v->pq, n, &dc_val, &dc_pred_dir);
    *dc_val = dcdiff;
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    /* Store the quantized DC coeff, used for prediction */
    if (n < 4) {
        block[0] = dcdiff * s->y_dc_scale;
    } else {
        block[0] = dcdiff * s->c_dc_scale;
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    }
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    /* Skip ? */
    run_diff = 0;
    i = 0;
    if (!coded) {
        goto not_coded;
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    }
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    //AC Decoding
    i = 1;
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    {
        int last = 0, skip, value;
        const int8_t *zz_table;
        int scale;
        int k;
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        scale = v->pq * 2 + v->halfpq;
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        if(v->s.ac_pred) {
            if(!dc_pred_dir)
                zz_table = vc1_horizontal_zz;
            else
                zz_table = vc1_vertical_zz;
        } else
            zz_table = vc1_normal_zz;

        ac_val = s->ac_val[0][0] + s->block_index[n] * 16;
        ac_val2 = ac_val;
        if(dc_pred_dir) //left
            ac_val -= 16;
        else //top
            ac_val -= 16 * s->block_wrap[n];

        while (!last) {
            vc1_decode_ac_coeff(v, &last, &skip, &value, codingset);
            i += skip;
            if(i > 63)
                break;
            block[zz_table[i++]] = value;
        }
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        /* apply AC prediction if needed */
        if(s->ac_pred) {
            if(dc_pred_dir) { //left
                for(k = 1; k < 8; k++)
                    block[k << 3] += ac_val[k];
            } else { //top
                for(k = 1; k < 8; k++)
                    block[k] += ac_val[k + 8];
            }
        }
        /* save AC coeffs for further prediction */
        for(k = 1; k < 8; k++) {
            ac_val2[k] = block[k << 3];
            ac_val2[k + 8] = block[k];
        }
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        /* scale AC coeffs */
        for(k = 1; k < 64; k++)
            if(block[k]) {
                block[k] *= scale;
                if(!v->pquantizer)
                    block[k] += (block[k] < 0) ? -v->pq : v->pq;
            }
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        if(s->ac_pred) i = 63;
    }

not_coded:
    if(!coded) {
        int k, scale;
        ac_val = s->ac_val[0][0] + s->block_index[n] * 16;
        ac_val2 = ac_val;

        scale = v->pq * 2 + v->halfpq;
        memset(ac_val2, 0, 16 * 2);
        if(dc_pred_dir) {//left
            ac_val -= 16;
            if(s->ac_pred)
                memcpy(ac_val2, ac_val, 8 * 2);
        } else {//top
            ac_val -= 16 * s->block_wrap[n];
            if(s->ac_pred)
                memcpy(ac_val2 + 8, ac_val + 8, 8 * 2);
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        }
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        /* apply AC prediction if needed */
        if(s->ac_pred) {
            if(dc_pred_dir) { //left
                for(k = 1; k < 8; k++) {
                    block[k << 3] = ac_val[k] * scale;
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                    if(!v->pquantizer && block[k << 3])
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                        block[k << 3] += (block[k << 3] < 0) ? -v->pq : v->pq;
                }
            } else { //top
                for(k = 1; k < 8; k++) {
                    block[k] = ac_val[k + 8] * scale;
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                    if(!v->pquantizer && block[k])
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                        block[k] += (block[k] < 0) ? -v->pq : v->pq;
                }
            }
            i = 63;
        }
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    }
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    s->block_last_index[n] = i;
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    return 0;
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}

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/** Decode intra block in intra frames - should be faster than decode_intra_block
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 * @param v VC1Context
 * @param block block to decode
 * @param coded are AC coeffs present or not
 * @param codingset set of VLC to decode data
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 */
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static int vc1_decode_i_block_adv(VC1Context *v, DCTELEM block[64], int n, int coded, int codingset, int mquant)
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{
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    GetBitContext *gb = &v->s.gb;
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    MpegEncContext *s = &v->s;
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    int dc_pred_dir = 0; /* Direction of the DC prediction used */
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    int run_diff, i;
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    int16_t *dc_val;
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    int16_t *ac_val, *ac_val2;
    int dcdiff;
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    int a_avail = v->a_avail, c_avail = v->c_avail;
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    int use_pred = s->ac_pred;
    int scale;
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    int q1, q2 = 0;
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    int mb_pos = s->mb_x + s->mb_y * s->mb_stride;
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    /* Get DC differential */
    if (n < 4) {
        dcdiff = get_vlc2(&s->gb, ff_msmp4_dc_luma_vlc[s->dc_table_index].table, DC_VLC_BITS, 3);
    } else {
        dcdiff = get_vlc2(&s->gb, ff_msmp4_dc_chroma_vlc[s->dc_table_index].table, DC_VLC_BITS, 3);
    }
    if (dcdiff < 0){
        av_log(s->avctx, AV_LOG_ERROR, "Illegal DC VLC\n");
        return -1;
    }
    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;
    }

    /* Prediction */
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    dcdiff += vc1_pred_dc(&v->s, v->overlap, mquant, n, v->a_avail, v->c_avail, &dc_val, &dc_pred_dir);
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    *dc_val = dcdiff;

    /* Store the quantized DC coeff, used for prediction */
    if (n < 4) {
        block[0] = dcdiff * s->y_dc_scale;
    } else {
        block[0] = dcdiff * s->c_dc_scale;
    }
    /* Skip ? */
    run_diff = 0;
    i = 0;

    //AC Decoding
    i = 1;
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    /* check if AC is needed at all and adjust direction if needed */
    if(!a_avail) dc_pred_dir = 1;
    if(!c_avail) dc_pred_dir = 0;
    if(!a_avail && !c_avail) use_pred = 0;
    ac_val = s->ac_val[0][0] + s->block_index[n] * 16;
    ac_val2 = ac_val;

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    scale = mquant * 2 + v->halfpq;
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    if(dc_pred_dir) //left
        ac_val -= 16;
    else //top
        ac_val -= 16 * s->block_wrap[n];

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    q1 = s->current_picture.qscale_table[mb_pos];
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    if(dc_pred_dir && c_avail && mb_pos) q2 = s->current_picture.qscale_table[mb_pos - 1];
    if(!dc_pred_dir && a_avail && mb_pos >= s->mb_stride) q2 = s->current_picture.qscale_table[mb_pos - s->mb_stride];
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    if(dc_pred_dir && n==1) q2 = q1;
    if(!dc_pred_dir && n==2) q2 = q1;
    if(n==3) q2 = q1;
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    if(coded) {
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        int last = 0, skip, value;
        const int8_t *zz_table;
        int k;

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        if(v->s.ac_pred) {
            if(!dc_pred_dir)
                zz_table = vc1_horizontal_zz;
            else
                zz_table = vc1_vertical_zz;
        } else
            zz_table = vc1_normal_zz;
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        while (!last) {
            vc1_decode_ac_coeff(v, &last, &skip, &value, codingset);
            i += skip;
            if(i > 63)
                break;
            block[zz_table[i++]] = value;
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        }
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        /* apply AC prediction if needed */
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        if(use_pred) {
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            /* scale predictors if needed*/
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            if(q2 && q1!=q2) {
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                q1 = q1 * 2 + ((q1 == v->pq) ? v->halfpq : 0) - 1;
                q2 = q2 * 2 + ((q2 == v->pq) ? v->halfpq : 0) - 1;
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                if(dc_pred_dir) { //left
                    for(k = 1; k < 8; k++)
                        block[k << 3] += (ac_val[k] * q2 * vc1_dqscale[q1 - 1] + 0x20000) >> 18;
                } else { //top
                    for(k = 1; k < 8; k++)
                        block[k] += (ac_val[k + 8] * q2 * vc1_dqscale[q1 - 1] + 0x20000) >> 18;
                }
            } else {
                if(dc_pred_dir) { //left
                    for(k = 1; k < 8; k++)
                        block[k << 3] += ac_val[k];
                } else { //top
                    for(k = 1; k < 8; k++)
                        block[k] += ac_val[k + 8];
                }
            }
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        }
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        /* save AC coeffs for further prediction */
        for(k = 1; k < 8; k++) {
            ac_val2[k] = block[k << 3];
            ac_val2[k + 8] = block[k];
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        }
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        /* scale AC coeffs */
        for(k = 1; k < 64; k++)
            if(block[k]) {
                block[k] *= scale;
                if(!v->pquantizer)
                    block[k] += (block[k] < 0) ? -mquant : mquant;
            }
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        if(use_pred) i = 63;
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    } else { // no AC coeffs
        int k;
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        memset(ac_val2, 0, 16 * 2);
        if(dc_pred_dir) {//left
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            if(use_pred) {
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                memcpy(ac_val2, ac_val, 8 * 2);
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                if(q2 && q1!=q2) {
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                    q1 = q1 * 2 + ((q1 == v->pq) ? v->halfpq : 0) - 1;
                    q2 = q2 * 2 + ((q2 == v->pq) ? v->halfpq : 0) - 1;
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                    for(k = 1; k < 8; k++)
                        ac_val2[k] = (ac_val2[k] * q2 * vc1_dqscale[q1 - 1] + 0x20000) >> 18;
                }
            }
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        } else {//top
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            if(use_pred) {
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                memcpy(ac_val2 + 8, ac_val + 8, 8 * 2);
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                if(q2 && q1!=q2) {
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                    q1 = q1 * 2 + ((q1 == v->pq) ? v->halfpq : 0) - 1;
                    q2 = q2 * 2 + ((q2 == v->pq) ? v->halfpq : 0) - 1;
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                    for(k = 1; k < 8; k++)
                        ac_val2[k + 8] = (ac_val2[k + 8] * q2 * vc1_dqscale[q1 - 1] + 0x20000) >> 18;
                }
            }
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        }
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        /* apply AC prediction if needed */
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        if(use_pred) {
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            if(dc_pred_dir) { //left
                for(k = 1; k < 8; k++) {
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                    block[k << 3] = ac_val2[k] * scale;
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                    if(!v->pquantizer && block[k << 3])
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                        block[k << 3] += (block[k << 3] < 0) ? -mquant : mquant;
                }
            } else { //top
                for(k = 1; k < 8; k++) {
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                    block[k] = ac_val2[k + 8] * scale;
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                    if(!v->pquantizer && block[k])
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                        block[k] += (block[k] < 0) ? -mquant : mquant;
                }
            }
            i = 63;
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        }
    }
    s->block_last_index[n] = i;
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    return 0;
}
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/** Decode intra block in inter frames - more generic version than vc1_decode_i_block
 * @param v VC1Context
 * @param block block to decode
 * @param coded are AC coeffs present or not
 * @param mquant block quantizer
 * @param codingset set of VLC to decode data
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 */
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static int vc1_decode_intra_block(VC1Context *v, DCTELEM block[64], int n, int coded, int mquant, int codingset)
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{
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    GetBitContext *gb = &v->s.gb;
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    MpegEncContext *s = &v->s;
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    int dc_pred_dir = 0; /* Direction of the DC prediction used */
    int run_diff, i;
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    int16_t *dc_val;
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    int16_t *ac_val, *ac_val2;
    int dcdiff;
    int mb_pos = s->mb_x + s->mb_y * s->mb_stride;
    int a_avail = v->a_avail, c_avail = v->c_avail;
    int use_pred = s->ac_pred;
    int scale;
    int q1, q2 = 0;
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    /* XXX: Guard against dumb values of mquant */
    mquant = (mquant < 1) ? 0 : ( (mquant>31) ? 31 : mquant );
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    /* Set DC scale - y and c use the same */
    s->y_dc_scale = s->y_dc_scale_table[mquant];
    s->c_dc_scale = s->c_dc_scale_table[mquant];

    /* Get DC differential */
    if (n < 4) {
        dcdiff = get_vlc2(&s->gb, ff_msmp4_dc_luma_vlc[s->dc_table_index].table, DC_VLC_BITS, 3);
    } else {
        dcdiff = get_vlc2(&s->gb, ff_msmp4_dc_chroma_vlc[s->dc_table_index].table, DC_VLC_BITS, 3);
    }
    if (dcdiff < 0){
        av_log(s->avctx, AV_LOG_ERROR, "Illegal DC VLC\n");
        return -1;
    }
    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;
    }

    /* Prediction */
    dcdiff += vc1_pred_dc(&v->s, v->overlap, mquant, n, a_avail, c_avail, &dc_val, &dc_pred_dir);
    *dc_val = dcdiff;

    /* Store the quantized DC coeff, used for prediction */

    if (n < 4) {
        block[0] = dcdiff * s->y_dc_scale;
    } else {
        block[0] = dcdiff * s->c_dc_scale;
    }
    /* Skip ? */
    run_diff = 0;
    i = 0;

    //AC Decoding
    i = 1;

    /* check if AC is needed at all and adjust direction if needed */
    if(!a_avail) dc_pred_dir = 1;
    if(!c_avail) dc_pred_dir = 0;
    if(!a_avail && !c_avail) use_pred = 0;
    ac_val = s->ac_val[0][0] + s->block_index[n] * 16;
    ac_val2 = ac_val;

    scale = mquant * 2 + v->halfpq;

    if(dc_pred_dir) //left
        ac_val -= 16;
    else //top
        ac_val -= 16 * s->block_wrap[n];

    q1 = s->current_picture.qscale_table[mb_pos];
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    if(dc_pred_dir && c_avail && mb_pos) q2 = s->current_picture.qscale_table[mb_pos - 1];
    if(!dc_pred_dir && a_avail && mb_pos >= s->mb_stride) q2 = s->current_picture.qscale_table[mb_pos - s->mb_stride];
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    if(dc_pred_dir && n==1) q2 = q1;
    if(!dc_pred_dir && n==2) q2 = q1;
    if(n==3) q2 = q1;
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    if(coded) {
        int last = 0, skip, value;
        const int8_t *zz_table;
        int k;

        zz_table = vc1_simple_progressive_8x8_zz;

        while (!last) {
            vc1_decode_ac_coeff(v, &last, &skip, &value, codingset);
            i += skip;
            if(i > 63)
                break;
            block[zz_table[i++]] = value;
        }

        /* apply AC prediction if needed */
        if(use_pred) {
            /* scale predictors if needed*/
            if(q2 && q1!=q2) {
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                q1 = q1 * 2 + ((q1 == v->pq) ? v->halfpq : 0) - 1;
                q2 = q2 * 2 + ((q2 == v->pq) ? v->halfpq : 0) - 1;
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                if(dc_pred_dir) { //left
                    for(k = 1; k < 8; k++)
                        block[k << 3] += (ac_val[k] * q2 * vc1_dqscale[q1 - 1] + 0x20000) >> 18;
                } else { //top
                    for(k = 1; k < 8; k++)
                        block[k] += (ac_val[k + 8] * q2 * vc1_dqscale[q1 - 1] + 0x20000) >> 18;
                }
            } else {
                if(dc_pred_dir) { //left
                    for(k = 1; k < 8; k++)
                        block[k << 3] += ac_val[k];
                } else { //top
                    for(k = 1; k < 8; k++)
                        block[k] += ac_val[k + 8];
                }
            }
        }
        /* save AC coeffs for further prediction */
        for(k = 1; k < 8; k++) {
            ac_val2[k] = block[k << 3];
            ac_val2[k + 8] = block[k];
        }

        /* scale AC coeffs */
        for(k = 1; k < 64; k++)
            if(block[k]) {
                block[k] *= scale;
                if(!v->pquantizer)
                    block[k] += (block[k] < 0) ? -mquant : mquant;
            }

        if(use_pred) i = 63;
    } else { // no AC coeffs
        int k;

        memset(ac_val2, 0, 16 * 2);
        if(dc_pred_dir) {//left
            if(use_pred) {
                memcpy(ac_val2, ac_val, 8 * 2);
                if(q2 && q1!=q2) {
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                    q1 = q1 * 2 + ((q1 == v->pq) ? v->halfpq : 0) - 1;
                    q2 = q2 * 2 + ((q2 == v->pq) ? v->halfpq : 0) - 1;
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                    for(k = 1; k < 8; k++)
                        ac_val2[k] = (ac_val2[k] * q2 * vc1_dqscale[q1 - 1] + 0x20000) >> 18;
                }
            }
        } else {//top
            if(use_pred) {
                memcpy(ac_val2 + 8, ac_val + 8, 8 * 2);
                if(q2 && q1!=q2) {
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                    q1 = q1 * 2 + ((q1 == v->pq) ? v->halfpq : 0) - 1;
                    q2 = q2 * 2 + ((q2 == v->pq) ? v->halfpq : 0) - 1;
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                    for(k = 1; k < 8; k++)
                        ac_val2[k + 8] = (ac_val2[k + 8] * q2 * vc1_dqscale[q1 - 1] + 0x20000) >> 18;
                }
            }
        }

        /* apply AC prediction if needed */
        if(use_pred) {
            if(dc_pred_dir) { //left
                for(k = 1; k < 8; k++) {
                    block[k << 3] = ac_val2[k] * scale;
                    if(!v->pquantizer && block[k << 3])
                        block[k << 3] += (block[k << 3] < 0) ? -mquant : mquant;
                }
            } else { //top
                for(k = 1; k < 8; k++) {
                    block[k] = ac_val2[k + 8] * scale;
                    if(!v->pquantizer && block[k])
                        block[k] += (block[k] < 0) ? -mquant : mquant;
                }
            }
            i = 63;
        }
    }
    s->block_last_index[n] = i;

    return 0;
}

/** Decode P block
 */
static int vc1_decode_p_block(VC1Context *v, DCTELEM block[64], int n, int mquant, int ttmb, int first_block)
{
    MpegEncContext *s = &v->s;
    GetBitContext *gb = &s->gb;
    int i, j;
    int subblkpat = 0;
    int scale, off, idx, last, skip, value;
    int ttblk = ttmb & 7;

    if(ttmb == -1) {
        ttblk = ttblk_to_tt[v->tt_index][get_vlc2(gb, vc1_ttblk_vlc[v->tt_index].table, VC1_TTBLK_VLC_BITS, 1)];
    }
    if(ttblk == TT_4X4) {
        subblkpat = ~(get_vlc2(gb, vc1_subblkpat_vlc[v->tt_index].table, VC1_SUBBLKPAT_VLC_BITS, 1) + 1);
    }
    if((ttblk != TT_8X8 && ttblk != TT_4X4) && (v->ttmbf || (ttmb != -1 && (ttmb & 8) && !first_block))) {
        subblkpat = decode012(gb);
        if(subblkpat) subblkpat ^= 3; //swap decoded pattern bits
        if(ttblk == TT_8X4_TOP || ttblk == TT_8X4_BOTTOM) ttblk = TT_8X4;
        if(ttblk == TT_4X8_RIGHT || ttblk == TT_4X8_LEFT) ttblk = TT_4X8;
    }
    scale = 2 * mquant + v->halfpq;

    // convert transforms like 8X4_TOP to generic TT and SUBBLKPAT
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    if(ttblk == TT_8X4_TOP || ttblk == TT_8X4_BOTTOM) {
        subblkpat = 2 - (ttblk == TT_8X4_TOP);
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        ttblk = TT_8X4;
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    }
    if(ttblk == TT_4X8_RIGHT || ttblk == TT_4X8_LEFT) {
        subblkpat = 2 - (ttblk == TT_4X8_LEFT);
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        ttblk = TT_4X8;
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    }
    switch(ttblk) {
    case TT_8X8:
        i = 0;
        last = 0;
        while (!last) {
            vc1_decode_ac_coeff(v, &last, &skip, &value, v->codingset2);
            i += skip;
            if(i > 63)
                break;
            idx = vc1_simple_progressive_8x8_zz[i++];
            block[idx] = value * scale;
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            if(!v->pquantizer)
                block[idx] += (block[idx] < 0) ? -mquant : mquant;
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        }
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        s->dsp.vc1_inv_trans_8x8(block);
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        break;
    case TT_4X4:
        for(j = 0; j < 4; j++) {
            last = subblkpat & (1 << (3 - j));
            i = 0;
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            off = (j & 1) * 4 + (j & 2) * 16;
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            while (!last) {
                vc1_decode_ac_coeff(v, &last, &skip, &value, v->codingset2);
                i += skip;
                if(i > 15)
                    break;
                idx = vc1_simple_progressive_4x4_zz[i++];
                block[idx + off] = value * scale;
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                if(!v->pquantizer)
                    block[idx + off] += (block[idx + off] < 0) ? -mquant : mquant;
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            }
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            if(!(subblkpat & (1 << (3 - j))))
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                s->dsp.vc1_inv_trans_4x4(block, j);
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        }
        break;
    case TT_8X4:
        for(j = 0; j < 2; j++) {
            last = subblkpat & (1 << (1 - j));
            i = 0;
            off = j * 32;
            while (!last) {
                vc1_decode_ac_coeff(v, &last, &skip, &value, v->codingset2);
                i += skip;
                if(i > 31)
                    break;
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                if(v->profile < PROFILE_ADVANCED)
                    idx = vc1_simple_progressive_8x4_zz[i++];
                else
                    idx = vc1_adv_progressive_8x4_zz[i++];
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                block[idx + off] = value * scale;
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                if(!v->pquantizer)
                    block[idx + off] += (block[idx + off] < 0) ? -mquant : mquant;
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            }
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            if(!(subblkpat & (1 << (1 - j))))
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                s->dsp.vc1_inv_trans_8x4(block, j);
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        }
        break;
    case TT_4X8:
        for(j = 0; j < 2; j++) {
            last = subblkpat & (1 << (1 - j));
            i = 0;
            off = j * 4;
            while (!last) {
                vc1_decode_ac_coeff(v, &last, &skip, &value, v->codingset2);
                i += skip;
                if(i > 31)
                    break;
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                if(v->profile < PROFILE_ADVANCED)
                    idx = vc1_simple_progressive_4x8_zz[i++];
                else
                    idx = vc1_adv_progressive_4x8_zz[i++];
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                block[idx + off] = value * scale;
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                if(!v->pquantizer)
                    block[idx + off] += (block[idx + off] < 0) ? -mquant : mquant;
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            }
3380
            if(!(subblkpat & (1 << (1 - j))))
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                s->dsp.vc1_inv_trans_4x8(block, j);
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        }
3383
        break;
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    }
    return 0;
}

3388

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/** Decode one P-frame MB (in Simple/Main profile)
 */
3391
static int vc1_decode_p_mb(VC1Context *v)
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{
    MpegEncContext *s = &v->s;
    GetBitContext *gb = &s->gb;
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    int i, j;
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    int mb_pos = s->mb_x + s->mb_y * s->mb_stride;
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    int cbp; /* cbp decoding stuff */
    int mqdiff, mquant; /* MB quantization */
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    int ttmb = v->ttfrm; /* MB Transform type */
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    int status;

    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 */
    int dmv_x, dmv_y; /* Differential MV components */
    int index, index1; /* LUT indices */
    int val, sign; /* temp values */
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    int first_block = 1;
    int dst_idx, off;
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    int skipped, fourmv;
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    mquant = v->pq; /* Loosy initialization */

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    if (v->mv_type_is_raw)
        fourmv = get_bits1(gb);
    else
        fourmv = v->mv_type_mb_plane[mb_pos];
    if (v->skip_is_raw)
        skipped = get_bits1(gb);
    else
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        skipped = v->s.mbskip_table[mb_pos];
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    s->dsp.clear_blocks(s->block[0]);

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    if (!fourmv) /* 1MV mode */
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    {
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        if (!skipped)
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        {
            GET_MVDATA(dmv_x, dmv_y);
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            if (s->mb_intra) {
                s->current_picture.motion_val[1][s->block_index[0]][0] = 0;
                s->current_picture.motion_val[1][s->block_index[0]][1] = 0;
            }
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            s->current_picture.mb_type[mb_pos] = s->mb_intra ? MB_TYPE_INTRA : MB_TYPE_16x16;
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            vc1_pred_mv(s, 0, dmv_x, dmv_y, 1, v->range_x, v->range_y, v->mb_type[0]);
3437

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            /* FIXME Set DC val for inter block ? */
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            if (s->mb_intra && !mb_has_coeffs)
            {
                GET_MQUANT();
                s->ac_pred = get_bits(gb, 1);
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                cbp = 0;
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            }
            else if (mb_has_coeffs)
            {
                if (s->mb_intra) s->ac_pred = get_bits(gb, 1);
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                cbp = get_vlc2(&v->s.gb, v->cbpcy_vlc->table, VC1_CBPCY_P_VLC_BITS, 2);
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                GET_MQUANT();
            }
            else
            {
                mquant = v->pq;
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                cbp = 0;
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            }
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            s->current_picture.qscale_table[mb_pos] = mquant;
3457

3458
            if (!v->ttmbf && !s->mb_intra && mb_has_coeffs)
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                ttmb = get_vlc2(gb, vc1_ttmb_vlc[v->tt_index].table,
3460
                                VC1_TTMB_VLC_BITS, 2);
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            if(!s->mb_intra) vc1_mc_1mv(v, 0);
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            dst_idx = 0;
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            for (i=0; i<6; i++)
            {
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                s->dc_val[0][s->block_index[i]] = 0;
                dst_idx += i >> 2;
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                val = ((cbp >> (5 - i)) & 1);
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                off = (i & 4) ? 0 : ((i & 1) * 8 + (i & 2) * 4 * s->linesize);
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                v->mb_type[0][s->block_index[i]] = s->mb_intra;
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                if(s->mb_intra) {
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                    /* check if prediction blocks A and C are available */
                    v->a_avail = v->c_avail = 0;
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                    if(i == 2 || i == 3 || !s->first_slice_line)
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                        v->a_avail = v->mb_type[0][s->block_index[i] - s->block_wrap[i]];
                    if(i == 1 || i == 3 || s->mb_x)
                        v->c_avail = v->mb_type[0][s->block_index[i] - 1];
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                    vc1_decode_intra_block(v, s->block[i], i, val, mquant, (i&4)?v->codingset2:v->codingset);
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                    if((i>3) && (s->flags & CODEC_FLAG_GRAY)) continue;
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                    s->dsp.vc1_inv_trans_8x8(s->block[i]);
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                    if(v->rangeredfrm) for(j = 0; j < 64; j++) s->block[i][j] <<= 1;
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                    for(j = 0; j < 64; j++) s->block[i][j] += 128;
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                    if(!v->res_fasttx && v->res_x8) for(j = 0; j < 64; j++) s->block[i][j] += 16;
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                    s->dsp.put_pixels_clamped(s->block[i], s->dest[dst_idx] + off, s->linesize >> ((i & 4) >> 2));
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                    if(v->pq >= 9 && v->overlap) {
                        if(v->c_avail)
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                            s->dsp.vc1_h_overlap(s->dest[dst_idx] + off, s->linesize >> ((i & 4) >> 2));
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                        if(v->a_avail)
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                            s->dsp.vc1_v_overlap(s->dest[dst_idx] + off, s->linesize >> ((i & 4) >> 2));
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                    }
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                } else if(val) {
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                    vc1_decode_p_block(v, s->block[i], i, mquant, ttmb, first_block);
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                    if(!v->ttmbf && ttmb < 8) ttmb = -1;
                    first_block = 0;
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                    if((i<4) || !(s->flags & CODEC_FLAG_GRAY))
                        s->dsp.add_pixels_clamped(s->block[i], s->dest[dst_idx] + off, (i&4)?s->uvlinesize:s->linesize);
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                }
            }
        }
        else //Skipped
        {
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            s->mb_intra = 0;
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            for(i = 0; i < 6; i++) {
                v->mb_type[0][s->block_index[i]] = 0;
                s->dc_val[0][s->block_index[i]] = 0;
            }
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            s->current_picture.mb_type[mb_pos] = MB_TYPE_SKIP;
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            s->current_picture.qscale_table[mb_pos] = 0;
            vc1_pred_mv(s, 0, 0, 0, 1, v->range_x, v->range_y, v->mb_type[0]);
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            vc1_mc_1mv(v, 0);
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            return 0;
        }
    } //1MV mode
    else //4MV mode
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    {
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        if (!skipped /* unskipped MB */)
3517
        {
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            int intra_count = 0, coded_inter = 0;
            int is_intra[6], is_coded[6];
3520
            /* Get CBPCY */
3521
            cbp = get_vlc2(&v->s.gb, v->cbpcy_vlc->table, VC1_CBPCY_P_VLC_BITS, 2);
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            for (i=0; i<6; i++)
3523 3524
            {
                val = ((cbp >> (5 - i)) & 1);
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                s->dc_val[0][s->block_index[i]] = 0;
                s->mb_intra = 0;
                if(i < 4) {
                    dmv_x = dmv_y = 0;
                    s->mb_intra = 0;
                    mb_has_coeffs = 0;
                    if(val) {
                        GET_MVDATA(dmv_x, dmv_y);
                    }
                    vc1_pred_mv(s, i, dmv_x, dmv_y, 0, v->range_x, v->range_y, v->mb_type[0]);
                    if(!s->mb_intra) vc1_mc_4mv_luma(v, i);
                    intra_count += s->mb_intra;
                    is_intra[i] = s->mb_intra;
                    is_coded[i] = mb_has_coeffs;
                }
                if(i&4){
                    is_intra[i] = (intra_count >= 3);
                    is_coded[i] = val;
3543
                }
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                if(i == 4) vc1_mc_4mv_chroma(v);
                v->mb_type[0][s->block_index[i]] = is_intra[i];
                if(!coded_inter) coded_inter = !is_intra[i] & is_coded[i];
3547
            }
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            // if there are no coded blocks then don't do anything more
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            if(!intra_count && !coded_inter) return 0;
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            dst_idx = 0;
            GET_MQUANT();
            s->current_picture.qscale_table[mb_pos] = mquant;
            /* test if block is intra and has pred */
            {
                int intrapred = 0;
                for(i=0; i<6; i++)
                    if(is_intra[i]) {
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                        if(((!s->first_slice_line || (i==2 || i==3)) && v->mb_type[0][s->block_index[i] - s->block_wrap[i]])
                            || ((s->mb_x || (i==1 || i==3)) && v->mb_type[0][s->block_index[i] - 1])) {
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                            intrapred = 1;
                            break;
                        }
                    }
                if(intrapred)s->ac_pred = get_bits(gb, 1);
                else s->ac_pred = 0;
            }
            if (!v->ttmbf && coded_inter)
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                ttmb = get_vlc2(gb, vc1_ttmb_vlc[v->tt_index].table, VC1_TTMB_VLC_BITS, 2);
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            for (i=0; i<6; i++)
            {
                dst_idx += i >> 2;
                off = (i & 4) ? 0 : ((i & 1) * 8 + (i & 2) * 4 * s->linesize);
                s->mb_intra = is_intra[i];
                if (is_intra[i]) {
                    /* check if prediction blocks A and C are available */
                    v->a_avail = v->c_avail = 0;
3577
                    if(i == 2 || i == 3 || !s->first_slice_line)
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                        v->a_avail = v->mb_type[0][s->block_index[i] - s->block_wrap[i]];
                    if(i == 1 || i == 3 || s->mb_x)
                        v->c_avail = v->mb_type[0][s->block_index[i] - 1];
3581

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3582
                    vc1_decode_intra_block(v, s->block[i], i, is_coded[i], mquant, (i&4)?v->codingset2:v->codingset);
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3583
                    if((i>3) && (s->flags & CODEC_FLAG_GRAY)) continue;
3584
                    s->dsp.vc1_inv_trans_8x8(s->block[i]);
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                    if(v->rangeredfrm) for(j = 0; j < 64; j++) s->block[i][j] <<= 1;
3586
                    for(j = 0; j < 64; j++) s->block[i][j] += 128;
3587
                    if(!v->res_fasttx && v->res_x8) for(j = 0; j < 64; j++) s->block[i][j] += 16;
3588
                    s->dsp.put_pixels_clamped(s->block[i], s->dest[dst_idx] + off, (i&4)?s->uvlinesize:s->linesize);
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3589 3590
                    if(v->pq >= 9 && v->overlap) {
                        if(v->c_avail)
3591
                            s->dsp.vc1_h_overlap(s->dest[dst_idx] + off, s->linesize >> ((i & 4) >> 2));
3592
                        if(v->a_avail)
3593
                            s->dsp.vc1_v_overlap(s->dest[dst_idx] + off, s->linesize >> ((i & 4) >> 2));
3594
                    }
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3595 3596 3597 3598
                } else if(is_coded[i]) {
                    status = vc1_decode_p_block(v, s->block[i], i, mquant, ttmb, first_block);
                    if(!v->ttmbf && ttmb < 8) ttmb = -1;
                    first_block = 0;
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3599 3600
                    if((i<4) || !(s->flags & CODEC_FLAG_GRAY))
                        s->dsp.add_pixels_clamped(s->block[i], s->dest[dst_idx] + off, (i&4)?s->uvlinesize:s->linesize);
3601
                }
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            }
            return status;
        }
        else //Skipped MB
        {
3607
            s->mb_intra = 0;
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            s->current_picture.qscale_table[mb_pos] = 0;
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            for (i=0; i<6; i++) {
                v->mb_type[0][s->block_index[i]] = 0;
                s->dc_val[0][s->block_index[i]] = 0;
            }
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            for (i=0; i<4; i++)
            {
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                vc1_pred_mv(s, i, 0, 0, 0, v->range_x, v->range_y, v->mb_type[0]);
                vc1_mc_4mv_luma(v, i);
3617
            }
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3618 3619
            vc1_mc_4mv_chroma(v);
            s->current_picture.qscale_table[mb_pos] = 0;
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            return 0;
        }
    }
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3623

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    /* Should never happen */
    return -1;
}

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/** Decode one B-frame MB (in Main profile)
 */
static void vc1_decode_b_mb(VC1Context *v)
{
    MpegEncContext *s = &v->s;
    GetBitContext *gb = &s->gb;
    int i, j;
    int mb_pos = s->mb_x + s->mb_y * s->mb_stride;
3636
    int cbp = 0; /* cbp decoding stuff */
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    int mqdiff, mquant; /* MB quantization */
    int ttmb = v->ttfrm; /* 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 = 0; /* last_flag */
    int index, index1; /* LUT indices */
    int val, sign; /* temp values */
    int first_block = 1;
    int dst_idx, off;
    int skipped, direct;
    int dmv_x[2], dmv_y[2];
3649
    int bmvtype = BMV_TYPE_BACKWARD;
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    mquant = v->pq; /* Loosy initialization */
    s->mb_intra = 0;

    if (v->dmb_is_raw)
        direct = get_bits1(gb);
    else
        direct = v->direct_mb_plane[mb_pos];
    if (v->skip_is_raw)
        skipped = get_bits1(gb);
    else
        skipped = v->s.mbskip_table[mb_pos];

    s->dsp.clear_blocks(s->block[0]);
    dmv_x[0] = dmv_x[1] = dmv_y[0] = dmv_y[1] = 0;
    for(i = 0; i < 6; i++) {
        v->mb_type[0][s->block_index[i]] = 0;
        s->dc_val[0][s->block_index[i]] = 0;
    }
    s->current_picture.qscale_table[mb_pos] = 0;

    if (!direct) {
        if (!skipped) {
            GET_MVDATA(dmv_x[0], dmv_y[0]);
3674 3675
            dmv_x[1] = dmv_x[0];
            dmv_y[1] = dmv_y[0];
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        }
        if(skipped || !s->mb_intra) {
            bmvtype = decode012(gb);
            switch(bmvtype) {
            case 0:
                bmvtype = (v->bfraction >= (B_FRACTION_DEN/2)) ? BMV_TYPE_BACKWARD : BMV_TYPE_FORWARD;
                break;
            case 1:
                bmvtype = (v->bfraction >= (B_FRACTION_DEN/2)) ? BMV_TYPE_FORWARD : BMV_TYPE_BACKWARD;
                break;
            case 2:
                bmvtype = BMV_TYPE_INTERPOLATED;
3688
                dmv_x[0] = dmv_y[0] = 0;
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            }
        }
    }
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    for(i = 0; i < 6; i++)
        v->mb_type[0][s->block_index[i]] = s->mb_intra;

3695
    if (skipped) {
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        if(direct) bmvtype = BMV_TYPE_INTERPOLATED;
        vc1_pred_b_mv(v, dmv_x, dmv_y, direct, bmvtype);
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        vc1_b_mc(v, dmv_x, dmv_y, direct, bmvtype);
        return;
    }
    if (direct) {
        cbp = get_vlc2(&v->s.gb, v->cbpcy_vlc->table, VC1_CBPCY_P_VLC_BITS, 2);
        GET_MQUANT();
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        s->mb_intra = 0;
        mb_has_coeffs = 0;
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        s->current_picture.qscale_table[mb_pos] = mquant;
3707
        if(!v->ttmbf)
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            ttmb = get_vlc2(gb, vc1_ttmb_vlc[v->tt_index].table, VC1_TTMB_VLC_BITS, 2);
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        dmv_x[0] = dmv_y[0] = dmv_x[1] = dmv_y[1] = 0;
        vc1_pred_b_mv(v, dmv_x, dmv_y, direct, bmvtype);
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        vc1_b_mc(v, dmv_x, dmv_y, direct, bmvtype);
    } else {
        if(!mb_has_coeffs && !s->mb_intra) {
            /* no coded blocks - effectively skipped */
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            vc1_pred_b_mv(v, dmv_x, dmv_y, direct, bmvtype);
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            vc1_b_mc(v, dmv_x, dmv_y, direct, bmvtype);
            return;
        }
        if(s->mb_intra && !mb_has_coeffs) {
            GET_MQUANT();
            s->current_picture.qscale_table[mb_pos] = mquant;
            s->ac_pred = get_bits1(gb);
            cbp = 0;
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            vc1_pred_b_mv(v, dmv_x, dmv_y, direct, bmvtype);
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        } else {
            if(bmvtype == BMV_TYPE_INTERPOLATED) {
3727
                GET_MVDATA(dmv_x[0], dmv_y[0]);
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                if(!mb_has_coeffs) {
                    /* interpolated skipped block */
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                    vc1_pred_b_mv(v, dmv_x, dmv_y, direct, bmvtype);
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                    vc1_b_mc(v, dmv_x, dmv_y, direct, bmvtype);
                    return;
                }
            }
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            vc1_pred_b_mv(v, dmv_x, dmv_y, direct, bmvtype);
            if(!s->mb_intra) {
3737
                vc1_b_mc(v, dmv_x, dmv_y, direct, bmvtype);
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            }
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            if(s->mb_intra)
                s->ac_pred = get_bits1(gb);
            cbp = get_vlc2(&v->s.gb, v->cbpcy_vlc->table, VC1_CBPCY_P_VLC_BITS, 2);
            GET_MQUANT();
            s->current_picture.qscale_table[mb_pos] = mquant;
            if(!v->ttmbf && !s->mb_intra && mb_has_coeffs)
                ttmb = get_vlc2(gb, vc1_ttmb_vlc[v->tt_index].table, VC1_TTMB_VLC_BITS, 2);
        }
    }
    dst_idx = 0;
    for (i=0; i<6; i++)
    {
        s->dc_val[0][s->block_index[i]] = 0;
        dst_idx += i >> 2;
        val = ((cbp >> (5 - i)) & 1);
        off = (i & 4) ? 0 : ((i & 1) * 8 + (i & 2) * 4 * s->linesize);
        v->mb_type[0][s->block_index[i]] = s->mb_intra;
        if(s->mb_intra) {
            /* check if prediction blocks A and C are available */
            v->a_avail = v->c_avail = 0;
            if(i == 2 || i == 3 || !s->first_slice_line)
                v->a_avail = v->mb_type[0][s->block_index[i] - s->block_wrap[i]];
            if(i == 1 || i == 3 || s->mb_x)
                v->c_avail = v->mb_type[0][s->block_index[i] - 1];

            vc1_decode_intra_block(v, s->block[i], i, val, mquant, (i&4)?v->codingset2:v->codingset);
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3765
            if((i>3) && (s->flags & CODEC_FLAG_GRAY)) continue;
3766
            s->dsp.vc1_inv_trans_8x8(s->block[i]);
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3767
            if(v->rangeredfrm) for(j = 0; j < 64; j++) s->block[i][j] <<= 1;
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            for(j = 0; j < 64; j++) s->block[i][j] += 128;
            s->dsp.put_pixels_clamped(s->block[i], s->dest[dst_idx] + off, s->linesize >> ((i & 4) >> 2));
        } else if(val) {
            vc1_decode_p_block(v, s->block[i], i, mquant, ttmb, first_block);
            if(!v->ttmbf && ttmb < 8) ttmb = -1;
            first_block = 0;
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            if((i<4) || !(s->flags & CODEC_FLAG_GRAY))
                s->dsp.add_pixels_clamped(s->block[i], s->dest[dst_idx] + off, (i&4)?s->uvlinesize:s->linesize);
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        }
    }
}

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/** Decode blocks of I-frame
3781
 */
3782
static void vc1_decode_i_blocks(VC1Context *v)
3783
{
3784
    int k, j;
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    MpegEncContext *s = &v->s;
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    int cbp, val;
    uint8_t *coded_val;
    int mb_pos;
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    /* select codingmode used for VLC tables selection */
    switch(v->y_ac_table_index){
    case 0:
        v->codingset = (v->pqindex <= 8) ? CS_HIGH_RATE_INTRA : CS_LOW_MOT_INTRA;
        break;
    case 1:
        v->codingset = CS_HIGH_MOT_INTRA;
        break;
    case 2:
        v->codingset = CS_MID_RATE_INTRA;
        break;
    }
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    switch(v->c_ac_table_index){
    case 0:
        v->codingset2 = (v->pqindex <= 8) ? CS_HIGH_RATE_INTER : CS_LOW_MOT_INTER;
        break;
    case 1:
        v->codingset2 = CS_HIGH_MOT_INTER;
        break;
    case 2:
        v->codingset2 = CS_MID_RATE_INTER;
        break;
    }
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    /* Set DC scale - y and c use the same */
    s->y_dc_scale = s->y_dc_scale_table[v->pq];
    s->c_dc_scale = s->c_dc_scale_table[v->pq];

    //do frame decode
    s->mb_x = s->mb_y = 0;
    s->mb_intra = 1;
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    s->first_slice_line = 1;
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    ff_er_add_slice(s, 0, 0, s->mb_width - 1, s->mb_height - 1, (AC_END|DC_END|MV_END));
    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++) {
            ff_init_block_index(s);
            ff_update_block_index(s);
            s->dsp.clear_blocks(s->block[0]);
            mb_pos = s->mb_x + s->mb_y * s->mb_width;
            s->current_picture.mb_type[mb_pos] = MB_TYPE_INTRA;
            s->current_picture.qscale_table[mb_pos] = v->pq;
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            s->current_picture.motion_val[1][s->block_index[0]][0] = 0;
            s->current_picture.motion_val[1][s->block_index[0]][1] = 0;
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            // do actual MB decoding and displaying
            cbp = get_vlc2(&v->s.gb, ff_msmp4_mb_i_vlc.table, MB_INTRA_VLC_BITS, 2);
            v->s.ac_pred = get_bits(&v->s.gb, 1);

            for(k = 0; k < 6; k++) {
                val = ((cbp >> (5 - k)) & 1);
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                if (k < 4) {
                    int pred = vc1_coded_block_pred(&v->s, k, &coded_val);
                    val = val ^ pred;
                    *coded_val = val;
                }
                cbp |= val << (5 - k);
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                vc1_decode_i_block(v, s->block[k], k, val, (k<4)? v->codingset : v->codingset2);

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                s->dsp.vc1_inv_trans_8x8(s->block[k]);
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                if(v->pq >= 9 && v->overlap) {
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                    for(j = 0; j < 64; j++) s->block[k][j] += 128;
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                }
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            }

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            vc1_put_block(v, s->block);
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            if(v->pq >= 9 && v->overlap) {
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                if(s->mb_x) {
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                    s->dsp.vc1_h_overlap(s->dest[0], s->linesize);
                    s->dsp.vc1_h_overlap(s->dest[0] + 8 * s->linesize, s->linesize);
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                    if(!(s->flags & CODEC_FLAG_GRAY)) {
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                        s->dsp.vc1_h_overlap(s->dest[1], s->uvlinesize);
                        s->dsp.vc1_h_overlap(s->dest[2], s->uvlinesize);
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                    }
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                }
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                s->dsp.vc1_h_overlap(s->dest[0] + 8, s->linesize);
                s->dsp.vc1_h_overlap(s->dest[0] + 8 * s->linesize + 8, s->linesize);
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                if(!s->first_slice_line) {
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                    s->dsp.vc1_v_overlap(s->dest[0], s->linesize);
                    s->dsp.vc1_v_overlap(s->dest[0] + 8, s->linesize);
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                    if(!(s->flags & CODEC_FLAG_GRAY)) {
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                        s->dsp.vc1_v_overlap(s->dest[1], s->uvlinesize);
                        s->dsp.vc1_v_overlap(s->dest[2], s->uvlinesize);
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                    }
                }
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                s->dsp.vc1_v_overlap(s->dest[0] + 8 * s->linesize, s->linesize);
                s->dsp.vc1_v_overlap(s->dest[0] + 8 * s->linesize + 8, s->linesize);
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            }
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            if(get_bits_count(&s->gb) > v->bits) {
                av_log(s->avctx, AV_LOG_ERROR, "Bits overconsumption: %i > %i\n", get_bits_count(&s->gb), v->bits);
                return;
            }
        }
        ff_draw_horiz_band(s, s->mb_y * 16, 16);
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        s->first_slice_line = 0;
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    }
}

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/** Decode blocks of I-frame for advanced profile
 */
static void vc1_decode_i_blocks_adv(VC1Context *v)
{
    int k, j;
    MpegEncContext *s = &v->s;
    int cbp, val;
    uint8_t *coded_val;
    int mb_pos;
    int mquant = v->pq;
    int mqdiff;
    int overlap;
    GetBitContext *gb = &s->gb;

    /* select codingmode used for VLC tables selection */
    switch(v->y_ac_table_index){
    case 0:
        v->codingset = (v->pqindex <= 8) ? CS_HIGH_RATE_INTRA : CS_LOW_MOT_INTRA;
        break;
    case 1:
        v->codingset = CS_HIGH_MOT_INTRA;
        break;
    case 2:
        v->codingset = CS_MID_RATE_INTRA;
        break;
    }

    switch(v->c_ac_table_index){
    case 0:
        v->codingset2 = (v->pqindex <= 8) ? CS_HIGH_RATE_INTER : CS_LOW_MOT_INTER;
        break;
    case 1:
        v->codingset2 = CS_HIGH_MOT_INTER;
        break;
    case 2:
        v->codingset2 = CS_MID_RATE_INTER;
        break;
    }

    //do frame decode
    s->mb_x = s->mb_y = 0;
    s->mb_intra = 1;
    s->first_slice_line = 1;
    ff_er_add_slice(s, 0, 0, s->mb_width - 1, s->mb_height - 1, (AC_END|DC_END|MV_END));
    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++) {
            ff_init_block_index(s);
            ff_update_block_index(s);
            s->dsp.clear_blocks(s->block[0]);
            mb_pos = s->mb_x + s->mb_y * s->mb_stride;
            s->current_picture.mb_type[mb_pos] = MB_TYPE_INTRA;
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            s->current_picture.motion_val[1][s->block_index[0]][0] = 0;
            s->current_picture.motion_val[1][s->block_index[0]][1] = 0;
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            // do actual MB decoding and displaying
            cbp = get_vlc2(&v->s.gb, ff_msmp4_mb_i_vlc.table, MB_INTRA_VLC_BITS, 2);
            if(v->acpred_is_raw)
                v->s.ac_pred = get_bits(&v->s.gb, 1);
            else
                v->s.ac_pred = v->acpred_plane[mb_pos];

            if(v->condover == CONDOVER_SELECT) {
                if(v->overflg_is_raw)
                    overlap = get_bits(&v->s.gb, 1);
                else
                    overlap = v->over_flags_plane[mb_pos];
            } else
                overlap = (v->condover == CONDOVER_ALL);

            GET_MQUANT();

            s->current_picture.qscale_table[mb_pos] = mquant;
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            /* Set DC scale - y and c use the same */
            s->y_dc_scale = s->y_dc_scale_table[mquant];
            s->c_dc_scale = s->c_dc_scale_table[mquant];
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            for(k = 0; k < 6; k++) {
                val = ((cbp >> (5 - k)) & 1);

                if (k < 4) {
                    int pred = vc1_coded_block_pred(&v->s, k, &coded_val);
                    val = val ^ pred;
                    *coded_val = val;
                }
                cbp |= val << (5 - k);

                v->a_avail = !s->first_slice_line || (k==2 || k==3);
                v->c_avail = !!s->mb_x || (k==1 || k==3);

                vc1_decode_i_block_adv(v, s->block[k], k, val, (k<4)? v->codingset : v->codingset2, mquant);

                s->dsp.vc1_inv_trans_8x8(s->block[k]);
                for(j = 0; j < 64; j++) s->block[k][j] += 128;
            }

            vc1_put_block(v, s->block);
            if(overlap) {
                if(s->mb_x) {
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                    s->dsp.vc1_h_overlap(s->dest[0], s->linesize);
                    s->dsp.vc1_h_overlap(s->dest[0] + 8 * s->linesize, s->linesize);
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                    if(!(s->flags & CODEC_FLAG_GRAY)) {
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                        s->dsp.vc1_h_overlap(s->dest[1], s->uvlinesize);
                        s->dsp.vc1_h_overlap(s->dest[2], s->uvlinesize);
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                    }
                }
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                s->dsp.vc1_h_overlap(s->dest[0] + 8, s->linesize);
                s->dsp.vc1_h_overlap(s->dest[0] + 8 * s->linesize + 8, s->linesize);
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                if(!s->first_slice_line) {
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                    s->dsp.vc1_v_overlap(s->dest[0], s->linesize);
                    s->dsp.vc1_v_overlap(s->dest[0] + 8, s->linesize);
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                    if(!(s->flags & CODEC_FLAG_GRAY)) {
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                        s->dsp.vc1_v_overlap(s->dest[1], s->uvlinesize);
                        s->dsp.vc1_v_overlap(s->dest[2], s->uvlinesize);
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                    }
                }
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                s->dsp.vc1_v_overlap(s->dest[0] + 8 * s->linesize, s->linesize);
                s->dsp.vc1_v_overlap(s->dest[0] + 8 * s->linesize + 8, s->linesize);
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            }

            if(get_bits_count(&s->gb) > v->bits) {
                av_log(s->avctx, AV_LOG_ERROR, "Bits overconsumption: %i > %i\n", get_bits_count(&s->gb), v->bits);
                return;
            }
        }
        ff_draw_horiz_band(s, s->mb_y * 16, 16);
        s->first_slice_line = 0;
    }
}

4020
static void vc1_decode_p_blocks(VC1Context *v)
4021 4022
{
    MpegEncContext *s = &v->s;
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    /* select codingmode used for VLC tables selection */
    switch(v->c_ac_table_index){
    case 0:
        v->codingset = (v->pqindex <= 8) ? CS_HIGH_RATE_INTRA : CS_LOW_MOT_INTRA;
        break;
    case 1:
        v->codingset = CS_HIGH_MOT_INTRA;
        break;
    case 2:
        v->codingset = CS_MID_RATE_INTRA;
        break;
4035
    }
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    switch(v->c_ac_table_index){
    case 0:
        v->codingset2 = (v->pqindex <= 8) ? CS_HIGH_RATE_INTER : CS_LOW_MOT_INTER;
        break;
    case 1:
        v->codingset2 = CS_HIGH_MOT_INTER;
        break;
    case 2:
        v->codingset2 = CS_MID_RATE_INTER;
        break;
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    }

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    ff_er_add_slice(s, 0, 0, s->mb_width - 1, s->mb_height - 1, (AC_END|DC_END|MV_END));
    s->first_slice_line = 1;
    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++) {
            ff_init_block_index(s);
            ff_update_block_index(s);
            s->dsp.clear_blocks(s->block[0]);

4057
            vc1_decode_p_mb(v);
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            if(get_bits_count(&s->gb) > v->bits || get_bits_count(&s->gb) < 0) {
                av_log(s->avctx, AV_LOG_ERROR, "Bits overconsumption: %i > %i at %ix%i\n", get_bits_count(&s->gb), v->bits,s->mb_x,s->mb_y);
                return;
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            }
        }
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        ff_draw_horiz_band(s, s->mb_y * 16, 16);
        s->first_slice_line = 0;
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    }
}
4067

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static void vc1_decode_b_blocks(VC1Context *v)
{
    MpegEncContext *s = &v->s;

    /* select codingmode used for VLC tables selection */
    switch(v->c_ac_table_index){
    case 0:
        v->codingset = (v->pqindex <= 8) ? CS_HIGH_RATE_INTRA : CS_LOW_MOT_INTRA;
        break;
    case 1:
        v->codingset = CS_HIGH_MOT_INTRA;
        break;
    case 2:
        v->codingset = CS_MID_RATE_INTRA;
        break;
    }

    switch(v->c_ac_table_index){
    case 0:
        v->codingset2 = (v->pqindex <= 8) ? CS_HIGH_RATE_INTER : CS_LOW_MOT_INTER;
        break;
    case 1:
        v->codingset2 = CS_HIGH_MOT_INTER;
        break;
    case 2:
        v->codingset2 = CS_MID_RATE_INTER;
        break;
    }

    ff_er_add_slice(s, 0, 0, s->mb_width - 1, s->mb_height - 1, (AC_END|DC_END|MV_END));
    s->first_slice_line = 1;
    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++) {
            ff_init_block_index(s);
            ff_update_block_index(s);
            s->dsp.clear_blocks(s->block[0]);

            vc1_decode_b_mb(v);
            if(get_bits_count(&s->gb) > v->bits || get_bits_count(&s->gb) < 0) {
                av_log(s->avctx, AV_LOG_ERROR, "Bits overconsumption: %i > %i at %ix%i\n", get_bits_count(&s->gb), v->bits,s->mb_x,s->mb_y);
                return;
            }
        }
        ff_draw_horiz_band(s, s->mb_y * 16, 16);
        s->first_slice_line = 0;
    }
}

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static void vc1_decode_skip_blocks(VC1Context *v)
{
    MpegEncContext *s = &v->s;

    ff_er_add_slice(s, 0, 0, s->mb_width - 1, s->mb_height - 1, (AC_END|DC_END|MV_END));
    s->first_slice_line = 1;
    for(s->mb_y = 0; s->mb_y < s->mb_height; s->mb_y++) {
        s->mb_x = 0;
        ff_init_block_index(s);
        ff_update_block_index(s);
        memcpy(s->dest[0], s->last_picture.data[0] + s->mb_y * 16 * s->linesize, s->linesize * 16);
        memcpy(s->dest[1], s->last_picture.data[1] + s->mb_y * 8 * s->uvlinesize, s->uvlinesize * 8);
        memcpy(s->dest[2], s->last_picture.data[2] + s->mb_y * 8 * s->uvlinesize, s->uvlinesize * 8);
        ff_draw_horiz_band(s, s->mb_y * 16, 16);
        s->first_slice_line = 0;
    }
    s->pict_type = P_TYPE;
}

4135
static void vc1_decode_blocks(VC1Context *v)
4136 4137
{

4138
    v->s.esc3_level_length = 0;
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4139

4140 4141
    switch(v->s.pict_type) {
    case I_TYPE:
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        if(v->profile == PROFILE_ADVANCED)
            vc1_decode_i_blocks_adv(v);
        else
            vc1_decode_i_blocks(v);
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        break;
    case P_TYPE:
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        if(v->p_frame_skipped)
            vc1_decode_skip_blocks(v);
        else
            vc1_decode_p_blocks(v);
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        break;
4153
    case B_TYPE:
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        if(v->bi_type){
            if(v->profile == PROFILE_ADVANCED)
                vc1_decode_i_blocks_adv(v);
            else
                vc1_decode_i_blocks(v);
        }else
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4160
            vc1_decode_b_blocks(v);
4161
        break;
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    }
}
4164

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4165
#define IS_MARKER(x) (((x) & ~0xFF) == VC1_CODE_RES0)
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/** Find VC-1 marker in buffer
 * @return position where next marker starts or end of buffer if no marker found
 */
static av_always_inline uint8_t* find_next_marker(uint8_t *src, uint8_t *end)
{
    uint32_t mrk = 0xFFFFFFFF;

    if(end-src < 4) return end;
    while(src < end){
        mrk = (mrk << 8) | *src++;
        if(IS_MARKER(mrk))
            return src-4;
    }
    return end;
}

static av_always_inline int vc1_unescape_buffer(uint8_t *src, int size, uint8_t *dst)
{
    int dsize = 0, i;

    if(size < 4){
        for(dsize = 0; dsize < size; dsize++) *dst++ = *src++;
        return size;
    }
    for(i = 0; i < size; i++, src++) {
        if(src[0] == 3 && i >= 2 && !src[-1] && !src[-2] && i < size-1 && src[1] < 4) {
            dst[dsize++] = src[1];
            src++;
            i++;
        } else
            dst[dsize++] = *src;
    }
    return dsize;
}
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/** Initialize a VC1/WMV3 decoder
 * @todo TODO: Handle VC-1 IDUs (Transport level?)
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 * @todo TODO: Decypher remaining bits in extra_data
 */
4206
static int vc1_decode_init(AVCodecContext *avctx)
4207
{
4208
    VC1Context *v = avctx->priv_data;
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4209
    MpegEncContext *s = &v->s;
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    GetBitContext gb;

    if (!avctx->extradata_size || !avctx->extradata) return -1;
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    if (!(avctx->flags & CODEC_FLAG_GRAY))
        avctx->pix_fmt = PIX_FMT_YUV420P;
    else
        avctx->pix_fmt = PIX_FMT_GRAY8;
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    v->s.avctx = avctx;
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    avctx->flags |= CODEC_FLAG_EMU_EDGE;
    v->s.flags |= CODEC_FLAG_EMU_EDGE;
4220

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    if(ff_h263_decode_init(avctx) < 0)
        return -1;
4223
    if (vc1_init_common(v) < 0) return -1;
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    avctx->coded_width = avctx->width;
    avctx->coded_height = avctx->height;
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    if (avctx->codec_id == CODEC_ID_WMV3)
    {
        int count = 0;

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        // 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
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        init_get_bits(&gb, avctx->extradata, avctx->extradata_size*8);
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        if (decode_sequence_header(avctx, &gb) < 0)
          return -1;
4240

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        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));
        }
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        else if (count < 0)
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        {
            av_log(avctx, AV_LOG_INFO, "Read %i bits in overflow\n", -count);
        }
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    } else { // VC1/WVC1
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        uint8_t *start = avctx->extradata, *end = avctx->extradata + avctx->extradata_size;
        uint8_t *next; int size, buf2_size;
        uint8_t *buf2 = NULL;
        int seq_inited = 0, ep_inited = 0;
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        if(avctx->extradata_size < 16) {
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            av_log(avctx, AV_LOG_ERROR, "Extradata size too small: %i\n", avctx->extradata_size);
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            return -1;
        }

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        buf2 = av_mallocz(avctx->extradata_size + FF_INPUT_BUFFER_PADDING_SIZE);
        if(start[0]) start++; // in WVC1 extradata first byte is its size
        next = start;
        for(; next < end; start = next){
            next = find_next_marker(start + 4, end);
            size = next - start - 4;
            if(size <= 0) continue;
            buf2_size = vc1_unescape_buffer(start + 4, size, buf2);
            init_get_bits(&gb, buf2, buf2_size * 8);
            switch(AV_RB32(start)){
            case VC1_CODE_SEQHDR:
                if(decode_sequence_header(avctx, &gb) < 0){
                    av_free(buf2);
                    return -1;
                }
                seq_inited = 1;
                break;
            case VC1_CODE_ENTRYPOINT:
                if(decode_entry_point(avctx, &gb) < 0){
                    av_free(buf2);
                    return -1;
                }
                ep_inited = 1;
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                break;
            }
        }
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        av_free(buf2);
        if(!seq_inited || !ep_inited){
            av_log(avctx, AV_LOG_ERROR, "Incomplete extradata\n");
            return -1;
        }
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    }
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    avctx->has_b_frames= !!(avctx->max_b_frames);
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    s->low_delay = !avctx->has_b_frames;
4296

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    s->mb_width = (avctx->coded_width+15)>>4;
    s->mb_height = (avctx->coded_height+15)>>4;
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    /* Allocate mb bitplanes */
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    v->mv_type_mb_plane = av_malloc(s->mb_stride * s->mb_height);
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    v->direct_mb_plane = av_malloc(s->mb_stride * s->mb_height);
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    v->acpred_plane = av_malloc(s->mb_stride * s->mb_height);
    v->over_flags_plane = av_malloc(s->mb_stride * s->mb_height);
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    /* allocate block type info in that way so it could be used with s->block_index[] */
    v->mb_type_base = av_malloc(s->b8_stride * (s->mb_height * 2 + 1) + s->mb_stride * (s->mb_height + 1) * 2);
    v->mb_type[0] = v->mb_type_base + s->b8_stride + 1;
    v->mb_type[1] = v->mb_type_base + s->b8_stride * (s->mb_height * 2 + 1) + s->mb_stride + 1;
    v->mb_type[2] = v->mb_type[1] + s->mb_stride * (s->mb_height + 1);

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    /* Init coded blocks info */
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    if (v->profile == PROFILE_ADVANCED)
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    {
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//        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;
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    }

    return 0;
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}

4324

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/** Decode a VC1/WMV3 frame
 * @todo TODO: Handle VC-1 IDUs (Transport level?)
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 */
4328
static int vc1_decode_frame(AVCodecContext *avctx,
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                            void *data, int *data_size,
                            uint8_t *buf, int buf_size)
{
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    VC1Context *v = avctx->priv_data;
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    MpegEncContext *s = &v->s;
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    AVFrame *pict = data;
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    uint8_t *buf2 = NULL;
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    /* 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;
    }

    //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]){
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        int i= ff_find_unused_picture(s, 0);
        s->current_picture_ptr= &s->picture[i];
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    }

4356
    //for advanced profile we may need to parse and unescape data
4357
    if (avctx->codec_id == CODEC_ID_VC1) {
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        int buf_size2 = 0;
        buf2 = av_mallocz(buf_size + FF_INPUT_BUFFER_PADDING_SIZE);

        if(IS_MARKER(AV_RB32(buf))){ /* frame starts with marker and needs to be parsed */
            uint8_t *dst = buf2, *start, *end, *next;
            int size;

            next = buf;
            for(start = buf, end = buf + buf_size; next < end; start = next){
                next = find_next_marker(start + 4, end);
                size = next - start - 4;
                if(size <= 0) continue;
                switch(AV_RB32(start)){
                case VC1_CODE_FRAME:
                    buf_size2 = vc1_unescape_buffer(start + 4, size, buf2);
                    break;
                case VC1_CODE_ENTRYPOINT: /* it should be before frame data */
                    buf_size2 = vc1_unescape_buffer(start + 4, size, buf2);
                    init_get_bits(&s->gb, buf2, buf_size2*8);
                    decode_entry_point(avctx, &s->gb);
                    break;
                case VC1_CODE_SLICE:
                    av_log(avctx, AV_LOG_ERROR, "Sliced decoding is not implemented (yet)\n");
                    av_free(buf2);
                    return -1;
                }
            }
        }else if(v->interlace && ((buf[0] & 0xC0) == 0xC0)){ /* WVC1 interlaced stores both fields divided by marker */
            uint8_t *divider;

            divider = find_next_marker(buf, buf + buf_size);
            if((divider == (buf + buf_size)) || AV_RB32(divider) != VC1_CODE_FIELD){
                av_log(avctx, AV_LOG_ERROR, "Error in WVC1 interlaced frame\n");
                return -1;
            }

            buf_size2 = vc1_unescape_buffer(buf, divider - buf, buf2);
            // TODO
            av_free(buf2);return -1;
        }else{
            buf_size2 = vc1_unescape_buffer(buf, buf_size, buf2);
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        }
        init_get_bits(&s->gb, buf2, buf_size2*8);
    } else
        init_get_bits(&s->gb, buf, buf_size*8);
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    // do parse frame header
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    if(v->profile < PROFILE_ADVANCED) {
        if(vc1_parse_frame_header(v, &s->gb) == -1) {
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            av_free(buf2);
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            return -1;
        }
    } else {
        if(vc1_parse_frame_header_adv(v, &s->gb) == -1) {
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            av_free(buf2);
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            return -1;
        }
    }
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    if(s->pict_type != I_TYPE && !v->res_rtm_flag){
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        av_free(buf2);
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        return -1;
    }
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    // for hurry_up==5
    s->current_picture.pict_type= s->pict_type;
    s->current_picture.key_frame= s->pict_type == I_TYPE;

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    /* skip B-frames if we don't have reference frames */
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    if(s->last_picture_ptr==NULL && (s->pict_type==B_TYPE || s->dropable)){
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        av_free(buf2);
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        return -1;//buf_size;
    }
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    /* skip b frames if we are in a hurry */
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    if(avctx->hurry_up && s->pict_type==B_TYPE) return -1;//buf_size;
    if(   (avctx->skip_frame >= AVDISCARD_NONREF && s->pict_type==B_TYPE)
       || (avctx->skip_frame >= AVDISCARD_NONKEY && s->pict_type!=I_TYPE)
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       ||  avctx->skip_frame >= AVDISCARD_ALL) {
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        av_free(buf2);
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        return buf_size;
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    }
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    /* skip everything if we are in a hurry>=5 */
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    if(avctx->hurry_up>=5) {
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        av_free(buf2);
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        return -1;//buf_size;
    }
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    if(s->next_p_frame_damaged){
        if(s->pict_type==B_TYPE)
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            return buf_size;
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        else
            s->next_p_frame_damaged=0;
    }

4451
    if(MPV_frame_start(s, avctx) < 0) {
4452
        av_free(buf2);
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        return -1;
4454
    }
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    ff_er_frame_start(s);

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    v->bits = buf_size * 8;
    vc1_decode_blocks(v);
//av_log(s->avctx, AV_LOG_INFO, "Consumed %i/%i bits\n", get_bits_count(&s->gb), buf_size*8);
//  if(get_bits_count(&s->gb) > buf_size * 8)
//      return -1;
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    ff_er_frame_end(s);

    MPV_frame_end(s);

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assert(s->current_picture.pict_type == s->current_picture_ptr->pict_type);
assert(s->current_picture.pict_type == s->pict_type);
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    if (s->pict_type == B_TYPE || s->low_delay) {
        *pict= *(AVFrame*)s->current_picture_ptr;
    } else if (s->last_picture_ptr != NULL) {
        *pict= *(AVFrame*)s->last_picture_ptr;
    }

    if(s->last_picture_ptr || s->low_delay){
        *data_size = sizeof(AVFrame);
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        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;

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    av_free(buf2);
4485
    return buf_size;
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}

4488

4489
/** Close a VC1/WMV3 decoder
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 * @warning Initial try at using MpegEncContext stuff
 */
4492
static int vc1_decode_end(AVCodecContext *avctx)
4493
{
4494
    VC1Context *v = avctx->priv_data;
4495

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    av_freep(&v->hrd_rate);
    av_freep(&v->hrd_buffer);
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    MPV_common_end(&v->s);
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    av_freep(&v->mv_type_mb_plane);
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    av_freep(&v->direct_mb_plane);
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    av_freep(&v->acpred_plane);
    av_freep(&v->over_flags_plane);
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    av_freep(&v->mb_type_base);
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    return 0;
}

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AVCodec vc1_decoder = {
    "vc1",
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    CODEC_TYPE_VIDEO,
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    CODEC_ID_VC1,
    sizeof(VC1Context),
    vc1_decode_init,
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    NULL,
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    vc1_decode_end,
    vc1_decode_frame,
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    CODEC_CAP_DELAY,
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    NULL
};

AVCodec wmv3_decoder = {
    "wmv3",
    CODEC_TYPE_VIDEO,
    CODEC_ID_WMV3,
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    sizeof(VC1Context),
    vc1_decode_init,
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    NULL,
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    vc1_decode_end,
    vc1_decode_frame,
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    CODEC_CAP_DELAY,
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    NULL
};
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#ifdef CONFIG_VC1_PARSER
/**
 * finds the end of the current frame in the bitstream.
 * @return the position of the first byte of the next frame, or -1
 */
static int vc1_find_frame_end(ParseContext *pc, const uint8_t *buf,
                               int buf_size) {
    int pic_found, i;
    uint32_t state;

    pic_found= pc->frame_start_found;
    state= pc->state;

    i=0;
    if(!pic_found){
        for(i=0; i<buf_size; i++){
            state= (state<<8) | buf[i];
            if(state == VC1_CODE_FRAME || state == VC1_CODE_FIELD){
                i++;
                pic_found=1;
                break;
            }
        }
    }

    if(pic_found){
        /* EOF considered as end of frame */
        if (buf_size == 0)
            return 0;
        for(; i<buf_size; i++){
            state= (state<<8) | buf[i];
            if(IS_MARKER(state) && state != VC1_CODE_FIELD && state != VC1_CODE_SLICE){
                pc->frame_start_found=0;
                pc->state=-1;
                return i-3;
            }
        }
    }
    pc->frame_start_found= pic_found;
    pc->state= state;
    return END_NOT_FOUND;
}

static int vc1_parse(AVCodecParserContext *s,
                           AVCodecContext *avctx,
                           uint8_t **poutbuf, int *poutbuf_size,
                           const uint8_t *buf, int buf_size)
{
    ParseContext *pc = s->priv_data;
    int next;

    if(s->flags & PARSER_FLAG_COMPLETE_FRAMES){
        next= buf_size;
    }else{
        next= vc1_find_frame_end(pc, buf, buf_size);

        if (ff_combine_frame(pc, next, (uint8_t **)&buf, &buf_size) < 0) {
            *poutbuf = NULL;
            *poutbuf_size = 0;
            return buf_size;
        }
    }
    *poutbuf = (uint8_t *)buf;
    *poutbuf_size = buf_size;
    return next;
}

int vc1_split(AVCodecContext *avctx,
                           const uint8_t *buf, int buf_size)
{
    int i;
    uint32_t state= -1;

    for(i=0; i<buf_size; i++){
        state= (state<<8) | buf[i];
        if(IS_MARKER(state) && state != VC1_CODE_SEQHDR && state != VC1_CODE_ENTRYPOINT)
            return i-3;
    }
    return 0;
}

AVCodecParser vc1_parser = {
    { CODEC_ID_VC1 },
    sizeof(ParseContext1),
    NULL,
    vc1_parse,
    ff_parse1_close,
    vc1_split,
};
#endif /* CONFIG_VC1_PARSER */