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/*
 * H.26L/H.264/AVC/JVT/14496-10/... encoder/decoder
 * Copyright (c) 2003 Michael Niedermayer <michaelni@gmx.at>
 *
 * This file is part of Libav.
 *
 * Libav is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * Libav is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with Libav; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
 */

/**
 * @file
 * H.264 / AVC / MPEG4 part10 codec.
 * @author Michael Niedermayer <michaelni@gmx.at>
 */

#ifndef AVCODEC_H264_H
#define AVCODEC_H264_H

#include "libavutil/intreadwrite.h"
#include "dsputil.h"
#include "cabac.h"
#include "mpegvideo.h"
#include "h264dsp.h"
#include "h264pred.h"
#include "rectangle.h"

#define interlaced_dct interlaced_dct_is_a_bad_name
#define mb_intra mb_intra_is_not_initialized_see_mb_type

#define CHROMA_DC_COEFF_TOKEN_VLC_BITS 8
#define COEFF_TOKEN_VLC_BITS           8
#define TOTAL_ZEROS_VLC_BITS           9
#define CHROMA_DC_TOTAL_ZEROS_VLC_BITS 3
#define RUN_VLC_BITS                   3
#define RUN7_VLC_BITS                  6

#define MAX_SPS_COUNT 32
#define MAX_PPS_COUNT 256

#define MAX_MMCO_COUNT 66

#define MAX_DELAYED_PIC_COUNT 16

/* Compiling in interlaced support reduces the speed
 * of progressive decoding by about 2%. */
#define ALLOW_INTERLACE

#define FMO 0

/**
 * The maximum number of slices supported by the decoder.
 * must be a power of 2
 */
#define MAX_SLICES 16

#ifdef ALLOW_INTERLACE
#define MB_MBAFF h->mb_mbaff
#define MB_FIELD h->mb_field_decoding_flag
#define FRAME_MBAFF h->mb_aff_frame
#define FIELD_PICTURE (s->picture_structure != PICT_FRAME)
#define LEFT_MBS 2
#define LTOP 0
#define LBOT 1
#define LEFT(i) (i)
#else
#define MB_MBAFF 0
#define MB_FIELD 0
#define FRAME_MBAFF 0
#define FIELD_PICTURE 0
#undef  IS_INTERLACED
#define IS_INTERLACED(mb_type) 0
#define LEFT_MBS 1
#define LTOP 0
#define LBOT 0
#define LEFT(i) 0
#endif
#define FIELD_OR_MBAFF_PICTURE (FRAME_MBAFF || FIELD_PICTURE)

#ifndef CABAC
#define CABAC h->pps.cabac
#endif

#define CHROMA444 (h->sps.chroma_format_idc == 3)

#define EXTENDED_SAR          255

#define MB_TYPE_REF0       MB_TYPE_ACPRED //dirty but it fits in 16 bit
#define MB_TYPE_8x8DCT     0x01000000
#define IS_REF0(a)         ((a) & MB_TYPE_REF0)
#define IS_8x8DCT(a)       ((a) & MB_TYPE_8x8DCT)

/**
 * Value of Picture.reference when Picture is not a reference picture, but
 * is held for delayed output.
 */
#define DELAYED_PIC_REF 4

#define QP_MAX_NUM (51 + 2*6)           // The maximum supported qp

/* NAL unit types */
enum {
    NAL_SLICE=1,
    NAL_DPA,
    NAL_DPB,
    NAL_DPC,
    NAL_IDR_SLICE,
    NAL_SEI,
    NAL_SPS,
    NAL_PPS,
    NAL_AUD,
    NAL_END_SEQUENCE,
    NAL_END_STREAM,
    NAL_FILLER_DATA,
    NAL_SPS_EXT,
    NAL_AUXILIARY_SLICE=19
};

/**
 * SEI message types
 */
typedef enum {
    SEI_BUFFERING_PERIOD             =  0, ///< buffering period (H.264, D.1.1)
    SEI_TYPE_PIC_TIMING              =  1, ///< picture timing
    SEI_TYPE_USER_DATA_UNREGISTERED  =  5, ///< unregistered user data
    SEI_TYPE_RECOVERY_POINT          =  6  ///< recovery point (frame # to decoder sync)
} SEI_Type;

/**
 * pic_struct in picture timing SEI message
 */
typedef enum {
    SEI_PIC_STRUCT_FRAME             = 0, ///<  0: %frame
    SEI_PIC_STRUCT_TOP_FIELD         = 1, ///<  1: top field
    SEI_PIC_STRUCT_BOTTOM_FIELD      = 2, ///<  2: bottom field
    SEI_PIC_STRUCT_TOP_BOTTOM        = 3, ///<  3: top field, bottom field, in that order
    SEI_PIC_STRUCT_BOTTOM_TOP        = 4, ///<  4: bottom field, top field, in that order
    SEI_PIC_STRUCT_TOP_BOTTOM_TOP    = 5, ///<  5: top field, bottom field, top field repeated, in that order
    SEI_PIC_STRUCT_BOTTOM_TOP_BOTTOM = 6, ///<  6: bottom field, top field, bottom field repeated, in that order
    SEI_PIC_STRUCT_FRAME_DOUBLING    = 7, ///<  7: %frame doubling
    SEI_PIC_STRUCT_FRAME_TRIPLING    = 8  ///<  8: %frame tripling
} SEI_PicStructType;

/**
 * Sequence parameter set
 */
typedef struct SPS{

    int profile_idc;
    int level_idc;
    int chroma_format_idc;
    int transform_bypass;              ///< qpprime_y_zero_transform_bypass_flag
    int log2_max_frame_num;            ///< log2_max_frame_num_minus4 + 4
    int poc_type;                      ///< pic_order_cnt_type
    int log2_max_poc_lsb;              ///< log2_max_pic_order_cnt_lsb_minus4
    int delta_pic_order_always_zero_flag;
    int offset_for_non_ref_pic;
    int offset_for_top_to_bottom_field;
    int poc_cycle_length;              ///< num_ref_frames_in_pic_order_cnt_cycle
    int ref_frame_count;               ///< num_ref_frames
    int gaps_in_frame_num_allowed_flag;
    int mb_width;                      ///< pic_width_in_mbs_minus1 + 1
    int mb_height;                     ///< pic_height_in_map_units_minus1 + 1
    int frame_mbs_only_flag;
    int mb_aff;                        ///<mb_adaptive_frame_field_flag
    int direct_8x8_inference_flag;
    int crop;                   ///< frame_cropping_flag
    unsigned int crop_left;            ///< frame_cropping_rect_left_offset
    unsigned int crop_right;           ///< frame_cropping_rect_right_offset
    unsigned int crop_top;             ///< frame_cropping_rect_top_offset
    unsigned int crop_bottom;          ///< frame_cropping_rect_bottom_offset
    int vui_parameters_present_flag;
    AVRational sar;
    int video_signal_type_present_flag;
    int full_range;
    int colour_description_present_flag;
    enum AVColorPrimaries color_primaries;
    enum AVColorTransferCharacteristic color_trc;
    enum AVColorSpace colorspace;
    int timing_info_present_flag;
    uint32_t num_units_in_tick;
    uint32_t time_scale;
    int fixed_frame_rate_flag;
    short offset_for_ref_frame[256]; //FIXME dyn aloc?
    int bitstream_restriction_flag;
    int num_reorder_frames;
    int scaling_matrix_present;
    uint8_t scaling_matrix4[6][16];
    uint8_t scaling_matrix8[6][64];
    int nal_hrd_parameters_present_flag;
    int vcl_hrd_parameters_present_flag;
    int pic_struct_present_flag;
    int time_offset_length;
    int cpb_cnt;                       ///< See H.264 E.1.2
    int initial_cpb_removal_delay_length; ///< initial_cpb_removal_delay_length_minus1 +1
    int cpb_removal_delay_length;      ///< cpb_removal_delay_length_minus1 + 1
    int dpb_output_delay_length;       ///< dpb_output_delay_length_minus1 + 1
    int bit_depth_luma;                ///< bit_depth_luma_minus8 + 8
    int bit_depth_chroma;              ///< bit_depth_chroma_minus8 + 8
    int residual_color_transform_flag; ///< residual_colour_transform_flag
    int constraint_set_flags;          ///< constraint_set[0-3]_flag
}SPS;

/**
 * Picture parameter set
 */
typedef struct PPS{
    unsigned int sps_id;
    int cabac;                  ///< entropy_coding_mode_flag
    int pic_order_present;      ///< pic_order_present_flag
    int slice_group_count;      ///< num_slice_groups_minus1 + 1
    int mb_slice_group_map_type;
    unsigned int ref_count[2];  ///< num_ref_idx_l0/1_active_minus1 + 1
    int weighted_pred;          ///< weighted_pred_flag
    int weighted_bipred_idc;
    int init_qp;                ///< pic_init_qp_minus26 + 26
    int init_qs;                ///< pic_init_qs_minus26 + 26
    int chroma_qp_index_offset[2];
    int deblocking_filter_parameters_present; ///< deblocking_filter_parameters_present_flag
    int constrained_intra_pred; ///< constrained_intra_pred_flag
    int redundant_pic_cnt_present; ///< redundant_pic_cnt_present_flag
    int transform_8x8_mode;     ///< transform_8x8_mode_flag
    uint8_t scaling_matrix4[6][16];
    uint8_t scaling_matrix8[6][64];
    uint8_t chroma_qp_table[2][64];  ///< pre-scaled (with chroma_qp_index_offset) version of qp_table
    int chroma_qp_diff;
}PPS;

/**
 * Memory management control operation opcode.
 */
typedef enum MMCOOpcode{
    MMCO_END=0,
    MMCO_SHORT2UNUSED,
    MMCO_LONG2UNUSED,
    MMCO_SHORT2LONG,
    MMCO_SET_MAX_LONG,
    MMCO_RESET,
    MMCO_LONG,
} MMCOOpcode;

/**
 * Memory management control operation.
 */
typedef struct MMCO{
    MMCOOpcode opcode;
    int short_pic_num;  ///< pic_num without wrapping (pic_num & max_pic_num)
    int long_arg;       ///< index, pic_num, or num long refs depending on opcode
} MMCO;

/**
 * H264Context
 */
typedef struct H264Context{
    MpegEncContext s;
    H264DSPContext h264dsp;
    int pixel_shift;    ///< 0 for 8-bit H264, 1 for high-bit-depth H264
    int chroma_qp[2]; //QPc

    int qp_thresh;      ///< QP threshold to skip loopfilter

    int prev_mb_skipped;
    int next_mb_skipped;

    //prediction stuff
    int chroma_pred_mode;
    int intra16x16_pred_mode;

    int topleft_mb_xy;
    int top_mb_xy;
    int topright_mb_xy;
    int left_mb_xy[LEFT_MBS];

    int topleft_type;
    int top_type;
    int topright_type;
    int left_type[LEFT_MBS];

    const uint8_t * left_block;
    int topleft_partition;

    int8_t intra4x4_pred_mode_cache[5*8];
    int8_t (*intra4x4_pred_mode);
    H264PredContext hpc;
    unsigned int topleft_samples_available;
    unsigned int top_samples_available;
    unsigned int topright_samples_available;
    unsigned int left_samples_available;
    uint8_t (*top_borders[2])[(16*3)*2];

    /**
     * non zero coeff count cache.
     * is 64 if not available.
     */
    DECLARE_ALIGNED(8, uint8_t, non_zero_count_cache)[15*8];

    uint8_t (*non_zero_count)[48];

    /**
     * Motion vector cache.
     */
    DECLARE_ALIGNED(16, int16_t, mv_cache)[2][5*8][2];
    DECLARE_ALIGNED(8, int8_t, ref_cache)[2][5*8];
#define LIST_NOT_USED -1 //FIXME rename?
#define PART_NOT_AVAILABLE -2

    /**
     * number of neighbors (top and/or left) that used 8x8 dct
     */
    int neighbor_transform_size;

    /**
     * block_offset[ 0..23] for frame macroblocks
     * block_offset[24..47] for field macroblocks
     */
    int block_offset[2*(16*3)];

    uint32_t *mb2b_xy; //FIXME are these 4 a good idea?
    uint32_t *mb2br_xy;
    int b_stride; //FIXME use s->b4_stride

    int mb_linesize;   ///< may be equal to s->linesize or s->linesize*2, for mbaff
    int mb_uvlinesize;

    int emu_edge_width;
    int emu_edge_height;

    SPS sps; ///< current sps

    /**
     * current pps
     */
    PPS pps; //FIXME move to Picture perhaps? (->no) do we need that?

    uint32_t dequant4_buffer[6][QP_MAX_NUM+1][16]; //FIXME should these be moved down?
    uint32_t dequant8_buffer[6][QP_MAX_NUM+1][64];
    uint32_t (*dequant4_coeff[6])[16];
    uint32_t (*dequant8_coeff[6])[64];

    int slice_num;
    uint16_t *slice_table;     ///< slice_table_base + 2*mb_stride + 1
    int slice_type;
    int slice_type_nos;        ///< S free slice type (SI/SP are remapped to I/P)
    int slice_type_fixed;

    //interlacing specific flags
    int mb_aff_frame;
    int mb_field_decoding_flag;
    int mb_mbaff;              ///< mb_aff_frame && mb_field_decoding_flag

    DECLARE_ALIGNED(8, uint16_t, sub_mb_type)[4];

    //Weighted pred stuff
    int use_weight;
    int use_weight_chroma;
    int luma_log2_weight_denom;
    int chroma_log2_weight_denom;
    //The following 2 can be changed to int8_t but that causes 10cpu cycles speedloss
    int luma_weight[48][2][2];
    int chroma_weight[48][2][2][2];
    int implicit_weight[48][48][2];

    int direct_spatial_mv_pred;
    int col_parity;
    int col_fieldoff;
    int dist_scale_factor[16];
    int dist_scale_factor_field[2][32];
    int map_col_to_list0[2][16+32];
    int map_col_to_list0_field[2][2][16+32];

    /**
     * num_ref_idx_l0/1_active_minus1 + 1
     */
    unsigned int ref_count[2];   ///< counts frames or fields, depending on current mb mode
    unsigned int list_count;
    uint8_t *list_counts;            ///< Array of list_count per MB specifying the slice type
    Picture ref_list[2][48];         /**< 0..15: frame refs, 16..47: mbaff field refs.
                                          Reordered version of default_ref_list
                                          according to picture reordering in slice header */
    int ref2frm[MAX_SLICES][2][64];  ///< reference to frame number lists, used in the loop filter, the first 2 are for -2,-1

    //data partitioning
    GetBitContext intra_gb;
    GetBitContext inter_gb;
    GetBitContext *intra_gb_ptr;
    GetBitContext *inter_gb_ptr;

    DECLARE_ALIGNED(16, DCTELEM, mb)[16*48*2]; ///< as a dct coeffecient is int32_t in high depth, we need to reserve twice the space.
    DECLARE_ALIGNED(16, DCTELEM, mb_luma_dc)[3][16*2];
    DCTELEM mb_padding[256*2];        ///< as mb is addressed by scantable[i] and scantable is uint8_t we can either check that i is not too large or ensure that there is some unused stuff after mb

    /**
     * Cabac
     */
    CABACContext cabac;
    uint8_t      cabac_state[1024];

    /* 0x100 -> non null luma_dc, 0x80/0x40 -> non null chroma_dc (cb/cr), 0x?0 -> chroma_cbp(0,1,2), 0x0? luma_cbp */
    uint16_t     *cbp_table;
    int cbp;
    int top_cbp;
    int left_cbp;
    /* chroma_pred_mode for i4x4 or i16x16, else 0 */
    uint8_t     *chroma_pred_mode_table;
    int         last_qscale_diff;
    uint8_t     (*mvd_table[2])[2];
    DECLARE_ALIGNED(16, uint8_t, mvd_cache)[2][5*8][2];
    uint8_t     *direct_table;
    uint8_t     direct_cache[5*8];

    uint8_t zigzag_scan[16];
    uint8_t zigzag_scan8x8[64];
    uint8_t zigzag_scan8x8_cavlc[64];
    uint8_t field_scan[16];
    uint8_t field_scan8x8[64];
    uint8_t field_scan8x8_cavlc[64];
    const uint8_t *zigzag_scan_q0;
    const uint8_t *zigzag_scan8x8_q0;
    const uint8_t *zigzag_scan8x8_cavlc_q0;
    const uint8_t *field_scan_q0;
    const uint8_t *field_scan8x8_q0;
    const uint8_t *field_scan8x8_cavlc_q0;

    int x264_build;

    int mb_xy;

    int is_complex;

    //deblock
    int deblocking_filter;         ///< disable_deblocking_filter_idc with 1<->0
    int slice_alpha_c0_offset;
    int slice_beta_offset;

//=============================================================
    //Things below are not used in the MB or more inner code

    int nal_ref_idc;
    int nal_unit_type;
    uint8_t *rbsp_buffer[2];
    unsigned int rbsp_buffer_size[2];

    /**
     * Used to parse AVC variant of h264
     */
    int is_avc; ///< this flag is != 0 if codec is avc1
    int nal_length_size; ///< Number of bytes used for nal length (1, 2 or 4)
    int got_first; ///< this flag is != 0 if we've parsed a frame

    SPS *sps_buffers[MAX_SPS_COUNT];
    PPS *pps_buffers[MAX_PPS_COUNT];

    int dequant_coeff_pps;     ///< reinit tables when pps changes

    uint16_t *slice_table_base;


    //POC stuff
    int poc_lsb;
    int poc_msb;
    int delta_poc_bottom;
    int delta_poc[2];
    int frame_num;
    int prev_poc_msb;             ///< poc_msb of the last reference pic for POC type 0
    int prev_poc_lsb;             ///< poc_lsb of the last reference pic for POC type 0
    int frame_num_offset;         ///< for POC type 2
    int prev_frame_num_offset;    ///< for POC type 2
    int prev_frame_num;           ///< frame_num of the last pic for POC type 1/2

    /**
     * frame_num for frames or 2*frame_num+1 for field pics.
     */
    int curr_pic_num;

    /**
     * max_frame_num or 2*max_frame_num for field pics.
     */
    int max_pic_num;

    int redundant_pic_count;

    Picture *short_ref[32];
    Picture *long_ref[32];
    Picture default_ref_list[2][32]; ///< base reference list for all slices of a coded picture
    Picture *delayed_pic[MAX_DELAYED_PIC_COUNT+2]; //FIXME size?
    Picture *next_output_pic;
    int outputed_poc;
    int next_outputed_poc;

    /**
     * memory management control operations buffer.
     */
    MMCO mmco[MAX_MMCO_COUNT];
    int mmco_index;

    int long_ref_count;  ///< number of actual long term references
    int short_ref_count; ///< number of actual short term references

    int          cabac_init_idc;

    /**
     * @name Members for slice based multithreading
     * @{
     */
    struct H264Context *thread_context[MAX_THREADS];

    /**
     * current slice number, used to initalize slice_num of each thread/context
     */
    int current_slice;

    /**
     * Max number of threads / contexts.
     * This is equal to AVCodecContext.thread_count unless
     * multithreaded decoding is impossible, in which case it is
     * reduced to 1.
     */
    int max_contexts;

    /**
     *  1 if the single thread fallback warning has already been
     *  displayed, 0 otherwise.
     */
    int single_decode_warning;

    int last_slice_type;
    /** @} */

    /**
     * pic_struct in picture timing SEI message
     */
    SEI_PicStructType sei_pic_struct;

    /**
     * Complement sei_pic_struct
     * SEI_PIC_STRUCT_TOP_BOTTOM and SEI_PIC_STRUCT_BOTTOM_TOP indicate interlaced frames.
     * However, soft telecined frames may have these values.
     * This is used in an attempt to flag soft telecine progressive.
     */
    int prev_interlaced_frame;

    /**
     * Bit set of clock types for fields/frames in picture timing SEI message.
     * For each found ct_type, appropriate bit is set (e.g., bit 1 for
     * interlaced).
     */
    int sei_ct_type;

    /**
     * dpb_output_delay in picture timing SEI message, see H.264 C.2.2
     */
    int sei_dpb_output_delay;

    /**
     * cpb_removal_delay in picture timing SEI message, see H.264 C.1.2
     */
    int sei_cpb_removal_delay;

    /**
     * recovery_frame_cnt from SEI message
     *
     * Set to -1 if no recovery point SEI message found or to number of frames
     * before playback synchronizes. Frames having recovery point are key
     * frames.
     */
    int sei_recovery_frame_cnt;

    int luma_weight_flag[2];   ///< 7.4.3.2 luma_weight_lX_flag
    int chroma_weight_flag[2]; ///< 7.4.3.2 chroma_weight_lX_flag

    // Timestamp stuff
    int sei_buffering_period_present;  ///< Buffering period SEI flag
    int initial_cpb_removal_delay[32]; ///< Initial timestamps for CPBs
}H264Context;


extern const uint8_t ff_h264_chroma_qp[3][QP_MAX_NUM+1]; ///< One chroma qp table for each supported bit depth (8, 9, 10).

/**
 * Decode SEI
 */
int ff_h264_decode_sei(H264Context *h);

/**
 * Decode SPS
 */
int ff_h264_decode_seq_parameter_set(H264Context *h);

/**
 * compute profile from sps
 */
int ff_h264_get_profile(SPS *sps);

/**
 * Decode PPS
 */
int ff_h264_decode_picture_parameter_set(H264Context *h, int bit_length);

/**
 * Decode a network abstraction layer unit.
 * @param consumed is the number of bytes used as input
 * @param length is the length of the array
 * @param dst_length is the number of decoded bytes FIXME here or a decode rbsp tailing?
 * @return decoded bytes, might be src+1 if no escapes
 */
const uint8_t *ff_h264_decode_nal(H264Context *h, const uint8_t *src, int *dst_length, int *consumed, int length);

/**
 * Free any data that may have been allocated in the H264 context like SPS, PPS etc.
 */
av_cold void ff_h264_free_context(H264Context *h);

/**
 * Reconstruct bitstream slice_type.
 */
int ff_h264_get_slice_type(const H264Context *h);

/**
 * Allocate tables.
 * needs width/height
 */
int ff_h264_alloc_tables(H264Context *h);

/**
 * Fill the default_ref_list.
 */
int ff_h264_fill_default_ref_list(H264Context *h);

int ff_h264_decode_ref_pic_list_reordering(H264Context *h);
void ff_h264_fill_mbaff_ref_list(H264Context *h);
void ff_h264_remove_all_refs(H264Context *h);

/**
 * Execute the reference picture marking (memory management control operations).
 */
int ff_h264_execute_ref_pic_marking(H264Context *h, MMCO *mmco, int mmco_count);

int ff_h264_decode_ref_pic_marking(H264Context *h, GetBitContext *gb);

void ff_generate_sliding_window_mmcos(H264Context *h);


/**
 * Check if the top & left blocks are available if needed & change the dc mode so it only uses the available blocks.
 */
int ff_h264_check_intra4x4_pred_mode(H264Context *h);

/**
 * Check if the top & left blocks are available if needed & change the dc mode so it only uses the available blocks.
 */
int ff_h264_check_intra_pred_mode(H264Context *h, int mode);

void ff_h264_hl_decode_mb(H264Context *h);
int ff_h264_frame_start(H264Context *h);
int ff_h264_decode_extradata(H264Context *h);
av_cold int ff_h264_decode_init(AVCodecContext *avctx);
av_cold int ff_h264_decode_end(AVCodecContext *avctx);
av_cold void ff_h264_decode_init_vlc(void);

/**
 * Decode a macroblock
 * @return 0 if OK, AC_ERROR / DC_ERROR / MV_ERROR if an error is noticed
 */
int ff_h264_decode_mb_cavlc(H264Context *h);

/**
 * Decode a CABAC coded macroblock
 * @return 0 if OK, AC_ERROR / DC_ERROR / MV_ERROR if an error is noticed
 */
int ff_h264_decode_mb_cabac(H264Context *h);

void ff_h264_init_cabac_states(H264Context *h);

void ff_h264_direct_dist_scale_factor(H264Context * const h);
void ff_h264_direct_ref_list_init(H264Context * const h);
void ff_h264_pred_direct_motion(H264Context * const h, int *mb_type);

void ff_h264_filter_mb_fast( H264Context *h, int mb_x, int mb_y, uint8_t *img_y, uint8_t *img_cb, uint8_t *img_cr, unsigned int linesize, unsigned int uvlinesize);
void ff_h264_filter_mb( H264Context *h, int mb_x, int mb_y, uint8_t *img_y, uint8_t *img_cb, uint8_t *img_cr, unsigned int linesize, unsigned int uvlinesize);

/**
 * Reset SEI values at the beginning of the frame.
 *
 * @param h H.264 context.
 */
void ff_h264_reset_sei(H264Context *h);


/*
o-o o-o
 / / /
o-o o-o
 ,---'
o-o o-o
 / / /
o-o o-o
*/

/* Scan8 organization:
 *    0 1 2 3 4 5 6 7
 * 0  DY    y y y y y
 * 1        y Y Y Y Y
 * 2        y Y Y Y Y
 * 3        y Y Y Y Y
 * 4        y Y Y Y Y
 * 5  DU    u u u u u
 * 6        u U U U U
 * 7        u U U U U
 * 8        u U U U U
 * 9        u U U U U
 * 10 DV    v v v v v
 * 11       v V V V V
 * 12       v V V V V
 * 13       v V V V V
 * 14       v V V V V
 * DY/DU/DV are for luma/chroma DC.
 */

#define LUMA_DC_BLOCK_INDEX   48
#define CHROMA_DC_BLOCK_INDEX 49

//This table must be here because scan8[constant] must be known at compiletime
static const uint8_t scan8[16*3 + 3]={
 4+ 1*8, 5+ 1*8, 4+ 2*8, 5+ 2*8,
 6+ 1*8, 7+ 1*8, 6+ 2*8, 7+ 2*8,
 4+ 3*8, 5+ 3*8, 4+ 4*8, 5+ 4*8,
 6+ 3*8, 7+ 3*8, 6+ 4*8, 7+ 4*8,
 4+ 6*8, 5+ 6*8, 4+ 7*8, 5+ 7*8,
 6+ 6*8, 7+ 6*8, 6+ 7*8, 7+ 7*8,
 4+ 8*8, 5+ 8*8, 4+ 9*8, 5+ 9*8,
 6+ 8*8, 7+ 8*8, 6+ 9*8, 7+ 9*8,
 4+11*8, 5+11*8, 4+12*8, 5+12*8,
 6+11*8, 7+11*8, 6+12*8, 7+12*8,
 4+13*8, 5+13*8, 4+14*8, 5+14*8,
 6+13*8, 7+13*8, 6+14*8, 7+14*8,
 0+ 0*8, 0+ 5*8, 0+10*8
};

static av_always_inline uint32_t pack16to32(int a, int b){
#if HAVE_BIGENDIAN
   return (b&0xFFFF) + (a<<16);
#else
   return (a&0xFFFF) + (b<<16);
#endif
}

static av_always_inline uint16_t pack8to16(int a, int b){
#if HAVE_BIGENDIAN
   return (b&0xFF) + (a<<8);
#else
   return (a&0xFF) + (b<<8);
#endif
}

/**
 * gets the chroma qp.
 */
static av_always_inline int get_chroma_qp(H264Context *h, int t, int qscale){
    return h->pps.chroma_qp_table[t][qscale];
}

static av_always_inline void pred_pskip_motion(H264Context * const h);

static void fill_decode_neighbors(H264Context *h, int mb_type){
    MpegEncContext * const s = &h->s;
    const int mb_xy= h->mb_xy;
    int topleft_xy, top_xy, topright_xy, left_xy[LEFT_MBS];
    static const uint8_t left_block_options[4][32]={
        {0,1,2,3,7,10,8,11,3+0*4, 3+1*4, 3+2*4, 3+3*4, 1+4*4, 1+8*4, 1+5*4, 1+9*4},
        {2,2,3,3,8,11,8,11,3+2*4, 3+2*4, 3+3*4, 3+3*4, 1+5*4, 1+9*4, 1+5*4, 1+9*4},
        {0,0,1,1,7,10,7,10,3+0*4, 3+0*4, 3+1*4, 3+1*4, 1+4*4, 1+8*4, 1+4*4, 1+8*4},
        {0,2,0,2,7,10,7,10,3+0*4, 3+2*4, 3+0*4, 3+2*4, 1+4*4, 1+8*4, 1+4*4, 1+8*4}
    };

    h->topleft_partition= -1;

    top_xy     = mb_xy  - (s->mb_stride << MB_FIELD);

    /* Wow, what a mess, why didn't they simplify the interlacing & intra
     * stuff, I can't imagine that these complex rules are worth it. */

    topleft_xy = top_xy - 1;
    topright_xy= top_xy + 1;
    left_xy[LBOT] = left_xy[LTOP] = mb_xy-1;
    h->left_block = left_block_options[0];
    if(FRAME_MBAFF){
        const int left_mb_field_flag     = IS_INTERLACED(s->current_picture.mb_type[mb_xy-1]);
        const int curr_mb_field_flag     = IS_INTERLACED(mb_type);
        if(s->mb_y&1){
            if (left_mb_field_flag != curr_mb_field_flag) {
                left_xy[LBOT] = left_xy[LTOP] = mb_xy - s->mb_stride - 1;
                if (curr_mb_field_flag) {
                    left_xy[LBOT] += s->mb_stride;
                    h->left_block = left_block_options[3];
                } else {
                    topleft_xy += s->mb_stride;
                    // take top left mv from the middle of the mb, as opposed to all other modes which use the bottom right partition
                    h->topleft_partition = 0;
                    h->left_block = left_block_options[1];
                }
            }
        }else{
            if(curr_mb_field_flag){
                topleft_xy  += s->mb_stride & (((s->current_picture.mb_type[top_xy - 1]>>7)&1)-1);
                topright_xy += s->mb_stride & (((s->current_picture.mb_type[top_xy + 1]>>7)&1)-1);
                top_xy      += s->mb_stride & (((s->current_picture.mb_type[top_xy    ]>>7)&1)-1);
            }
            if (left_mb_field_flag != curr_mb_field_flag) {
                if (curr_mb_field_flag) {
                    left_xy[LBOT] += s->mb_stride;
                    h->left_block = left_block_options[3];
                } else {
                    h->left_block = left_block_options[2];
                }
            }
        }
    }

    h->topleft_mb_xy = topleft_xy;
    h->top_mb_xy     = top_xy;
    h->topright_mb_xy= topright_xy;
    h->left_mb_xy[LTOP] = left_xy[LTOP];
    h->left_mb_xy[LBOT] = left_xy[LBOT];
    //FIXME do we need all in the context?

    h->topleft_type = s->current_picture.mb_type[topleft_xy] ;
    h->top_type     = s->current_picture.mb_type[top_xy]     ;
    h->topright_type= s->current_picture.mb_type[topright_xy];
    h->left_type[LTOP] = s->current_picture.mb_type[left_xy[LTOP]] ;
    h->left_type[LBOT] = s->current_picture.mb_type[left_xy[LBOT]] ;

    if(FMO){
    if(h->slice_table[topleft_xy    ] != h->slice_num) h->topleft_type = 0;
    if(h->slice_table[top_xy        ] != h->slice_num) h->top_type     = 0;
    if(h->slice_table[left_xy[LTOP] ] != h->slice_num) h->left_type[LTOP] = h->left_type[LBOT] = 0;
    }else{
        if(h->slice_table[topleft_xy ] != h->slice_num){
            h->topleft_type = 0;
            if(h->slice_table[top_xy        ] != h->slice_num) h->top_type     = 0;
            if(h->slice_table[left_xy[LTOP] ] != h->slice_num) h->left_type[LTOP] = h->left_type[LBOT] = 0;
        }
    }
    if(h->slice_table[topright_xy] != h->slice_num) h->topright_type= 0;
}

static void fill_decode_caches(H264Context *h, int mb_type){
    MpegEncContext * const s = &h->s;
    int topleft_xy, top_xy, topright_xy, left_xy[LEFT_MBS];
    int topleft_type, top_type, topright_type, left_type[LEFT_MBS];
    const uint8_t * left_block= h->left_block;
    int i;
    uint8_t *nnz;
    uint8_t *nnz_cache;

    topleft_xy     = h->topleft_mb_xy;
    top_xy         = h->top_mb_xy;
    topright_xy    = h->topright_mb_xy;
    left_xy[LTOP]  = h->left_mb_xy[LTOP];
    left_xy[LBOT]  = h->left_mb_xy[LBOT];
    topleft_type   = h->topleft_type;
    top_type       = h->top_type;
    topright_type  = h->topright_type;
    left_type[LTOP]= h->left_type[LTOP];
    left_type[LBOT]= h->left_type[LBOT];

    if(!IS_SKIP(mb_type)){
        if(IS_INTRA(mb_type)){
            int type_mask= h->pps.constrained_intra_pred ? IS_INTRA(-1) : -1;
            h->topleft_samples_available=
            h->top_samples_available=
            h->left_samples_available= 0xFFFF;
            h->topright_samples_available= 0xEEEA;

            if(!(top_type & type_mask)){
                h->topleft_samples_available= 0xB3FF;
                h->top_samples_available= 0x33FF;
                h->topright_samples_available= 0x26EA;
            }
            if(IS_INTERLACED(mb_type) != IS_INTERLACED(left_type[LTOP])){
                if(IS_INTERLACED(mb_type)){
                    if(!(left_type[LTOP] & type_mask)){
                        h->topleft_samples_available&= 0xDFFF;
                        h->left_samples_available&= 0x5FFF;
                    }
                    if(!(left_type[LBOT] & type_mask)){
                        h->topleft_samples_available&= 0xFF5F;
                        h->left_samples_available&= 0xFF5F;
                    }
                }else{
                    int left_typei = s->current_picture.mb_type[left_xy[LTOP] + s->mb_stride];

                    assert(left_xy[LTOP] == left_xy[LBOT]);
                    if(!((left_typei & type_mask) && (left_type[LTOP] & type_mask))){
                        h->topleft_samples_available&= 0xDF5F;
                        h->left_samples_available&= 0x5F5F;
                    }
                }
            }else{
                if(!(left_type[LTOP] & type_mask)){
                    h->topleft_samples_available&= 0xDF5F;
                    h->left_samples_available&= 0x5F5F;
                }
            }

            if(!(topleft_type & type_mask))
                h->topleft_samples_available&= 0x7FFF;

            if(!(topright_type & type_mask))
                h->topright_samples_available&= 0xFBFF;

            if(IS_INTRA4x4(mb_type)){
                if(IS_INTRA4x4(top_type)){
                    AV_COPY32(h->intra4x4_pred_mode_cache+4+8*0, h->intra4x4_pred_mode + h->mb2br_xy[top_xy]);
                }else{
                    h->intra4x4_pred_mode_cache[4+8*0]=
                    h->intra4x4_pred_mode_cache[5+8*0]=
                    h->intra4x4_pred_mode_cache[6+8*0]=
                    h->intra4x4_pred_mode_cache[7+8*0]= 2 - 3*!(top_type & type_mask);
                }
                for(i=0; i<2; i++){
                    if(IS_INTRA4x4(left_type[LEFT(i)])){
                        int8_t *mode= h->intra4x4_pred_mode + h->mb2br_xy[left_xy[LEFT(i)]];
                        h->intra4x4_pred_mode_cache[3+8*1 + 2*8*i]= mode[6-left_block[0+2*i]];
                        h->intra4x4_pred_mode_cache[3+8*2 + 2*8*i]= mode[6-left_block[1+2*i]];
                    }else{
                        h->intra4x4_pred_mode_cache[3+8*1 + 2*8*i]=
                        h->intra4x4_pred_mode_cache[3+8*2 + 2*8*i]= 2 - 3*!(left_type[LEFT(i)] & type_mask);
                    }
                }
            }
        }


/*
0 . T T. T T T T
1 L . .L . . . .
2 L . .L . . . .
3 . T TL . . . .
4 L . .L . . . .
5 L . .. . . . .
*/
//FIXME constraint_intra_pred & partitioning & nnz (let us hope this is just a typo in the spec)
    nnz_cache = h->non_zero_count_cache;
    if(top_type){
        nnz = h->non_zero_count[top_xy];
        AV_COPY32(&nnz_cache[4+8* 0], &nnz[4*3]);
        if(CHROMA444){
            AV_COPY32(&nnz_cache[4+8* 5], &nnz[4* 7]);
            AV_COPY32(&nnz_cache[4+8*10], &nnz[4*11]);
        }else{
            AV_COPY32(&nnz_cache[4+8* 5], &nnz[4* 5]);
            AV_COPY32(&nnz_cache[4+8*10], &nnz[4* 9]);
        }
    }else{
        uint32_t top_empty = CABAC && !IS_INTRA(mb_type) ? 0 : 0x40404040;
        AV_WN32A(&nnz_cache[4+8* 0], top_empty);
        AV_WN32A(&nnz_cache[4+8* 5], top_empty);
        AV_WN32A(&nnz_cache[4+8*10], top_empty);
    }

    for (i=0; i<2; i++) {
        if(left_type[LEFT(i)]){
            nnz = h->non_zero_count[left_xy[LEFT(i)]];
            nnz_cache[3+8* 1 + 2*8*i]= nnz[left_block[8+0+2*i]];
            nnz_cache[3+8* 2 + 2*8*i]= nnz[left_block[8+1+2*i]];
            if(CHROMA444){
                nnz_cache[3+8* 6 + 2*8*i]= nnz[left_block[8+0+2*i]+4*4];
                nnz_cache[3+8* 7 + 2*8*i]= nnz[left_block[8+1+2*i]+4*4];
                nnz_cache[3+8*11 + 2*8*i]= nnz[left_block[8+0+2*i]+8*4];
                nnz_cache[3+8*12 + 2*8*i]= nnz[left_block[8+1+2*i]+8*4];
            }else{
                nnz_cache[3+8* 6 +   8*i]= nnz[left_block[8+4+2*i]];
                nnz_cache[3+8*11 +   8*i]= nnz[left_block[8+5+2*i]];
            }
        }else{
            nnz_cache[3+8* 1 + 2*8*i]=
            nnz_cache[3+8* 2 + 2*8*i]=
            nnz_cache[3+8* 6 + 2*8*i]=
            nnz_cache[3+8* 7 + 2*8*i]=
            nnz_cache[3+8*11 + 2*8*i]=
            nnz_cache[3+8*12 + 2*8*i]= CABAC && !IS_INTRA(mb_type) ? 0 : 64;
        }
    }

    if( CABAC ) {
        // top_cbp
        if(top_type) {
            h->top_cbp = h->cbp_table[top_xy];
        } else {
            h->top_cbp = IS_INTRA(mb_type) ? 0x7CF : 0x00F;
        }
        // left_cbp
        if (left_type[LTOP]) {
            h->left_cbp =   (h->cbp_table[left_xy[LTOP]] & 0x7F0)
                        |  ((h->cbp_table[left_xy[LTOP]]>>(left_block[0]&(~1)))&2)
                        | (((h->cbp_table[left_xy[LBOT]]>>(left_block[2]&(~1)))&2) << 2);
        } else {
            h->left_cbp = IS_INTRA(mb_type) ? 0x7CF : 0x00F;
        }
    }
    }

    if(IS_INTER(mb_type) || (IS_DIRECT(mb_type) && h->direct_spatial_mv_pred)){
        int list;
        int b_stride = h->b_stride;
        for(list=0; list<h->list_count; list++){
            int8_t *ref_cache = &h->ref_cache[list][scan8[0]];
            int8_t *ref = s->current_picture.ref_index[list];
            int16_t (*mv_cache)[2] = &h->mv_cache[list][scan8[0]];
            int16_t (*mv)[2] = s->current_picture.motion_val[list];
            if(!USES_LIST(mb_type, list)){
                continue;
            }
            assert(!(IS_DIRECT(mb_type) && !h->direct_spatial_mv_pred));

            if(USES_LIST(top_type, list)){
                const int b_xy= h->mb2b_xy[top_xy] + 3*b_stride;
                AV_COPY128(mv_cache[0 - 1*8], mv[b_xy + 0]);
                ref_cache[0 - 1*8]=
                ref_cache[1 - 1*8]= ref[4*top_xy + 2];
                ref_cache[2 - 1*8]=
                ref_cache[3 - 1*8]= ref[4*top_xy + 3];
            }else{
                AV_ZERO128(mv_cache[0 - 1*8]);
                AV_WN32A(&ref_cache[0 - 1*8], ((top_type ? LIST_NOT_USED : PART_NOT_AVAILABLE)&0xFF)*0x01010101);
            }

            if(mb_type & (MB_TYPE_16x8|MB_TYPE_8x8)){
            for(i=0; i<2; i++){
                int cache_idx = -1 + i*2*8;
                if(USES_LIST(left_type[LEFT(i)], list)){
                    const int b_xy= h->mb2b_xy[left_xy[LEFT(i)]] + 3;
                    const int b8_xy= 4*left_xy[LEFT(i)] + 1;
                    AV_COPY32(mv_cache[cache_idx  ], mv[b_xy + b_stride*left_block[0+i*2]]);
                    AV_COPY32(mv_cache[cache_idx+8], mv[b_xy + b_stride*left_block[1+i*2]]);
                    ref_cache[cache_idx  ]= ref[b8_xy + (left_block[0+i*2]&~1)];
                    ref_cache[cache_idx+8]= ref[b8_xy + (left_block[1+i*2]&~1)];
                }else{
                    AV_ZERO32(mv_cache[cache_idx  ]);
                    AV_ZERO32(mv_cache[cache_idx+8]);
                    ref_cache[cache_idx  ]=
                    ref_cache[cache_idx+8]= (left_type[LEFT(i)]) ? LIST_NOT_USED : PART_NOT_AVAILABLE;
                }
            }
            }else{
                if(USES_LIST(left_type[LTOP], list)){
                    const int b_xy= h->mb2b_xy[left_xy[LTOP]] + 3;
                    const int b8_xy= 4*left_xy[LTOP] + 1;
                    AV_COPY32(mv_cache[-1], mv[b_xy + b_stride*left_block[0]]);
                    ref_cache[-1]= ref[b8_xy + (left_block[0]&~1)];
                }else{
                    AV_ZERO32(mv_cache[-1]);
                    ref_cache[-1]= left_type[LTOP] ? LIST_NOT_USED : PART_NOT_AVAILABLE;
                }
            }

            if(USES_LIST(topright_type, list)){
                const int b_xy= h->mb2b_xy[topright_xy] + 3*b_stride;
                AV_COPY32(mv_cache[4 - 1*8], mv[b_xy]);
                ref_cache[4 - 1*8]= ref[4*topright_xy + 2];
            }else{
                AV_ZERO32(mv_cache[4 - 1*8]);
                ref_cache[4 - 1*8]= topright_type ? LIST_NOT_USED : PART_NOT_AVAILABLE;
            }
            if(ref_cache[4 - 1*8] < 0){
                if(USES_LIST(topleft_type, list)){
                    const int b_xy = h->mb2b_xy[topleft_xy] + 3 + b_stride + (h->topleft_partition & 2*b_stride);
                    const int b8_xy= 4*topleft_xy + 1 + (h->topleft_partition & 2);
                    AV_COPY32(mv_cache[-1 - 1*8], mv[b_xy]);
                    ref_cache[-1 - 1*8]= ref[b8_xy];
                }else{
                    AV_ZERO32(mv_cache[-1 - 1*8]);
                    ref_cache[-1 - 1*8]= topleft_type ? LIST_NOT_USED : PART_NOT_AVAILABLE;
                }
            }

            if((mb_type&(MB_TYPE_SKIP|MB_TYPE_DIRECT2)) && !FRAME_MBAFF)
                continue;

            if(!(mb_type&(MB_TYPE_SKIP|MB_TYPE_DIRECT2))){
                uint8_t (*mvd_cache)[2] = &h->mvd_cache[list][scan8[0]];
                uint8_t (*mvd)[2] = h->mvd_table[list];
                ref_cache[2+8*0] =
                ref_cache[2+8*2] = PART_NOT_AVAILABLE;
                AV_ZERO32(mv_cache[2+8*0]);
                AV_ZERO32(mv_cache[2+8*2]);

                if( CABAC ) {
                    if(USES_LIST(top_type, list)){
                        const int b_xy= h->mb2br_xy[top_xy];
                        AV_COPY64(mvd_cache[0 - 1*8], mvd[b_xy + 0]);
                    }else{
                        AV_ZERO64(mvd_cache[0 - 1*8]);
                    }
                    if(USES_LIST(left_type[LTOP], list)){
                        const int b_xy= h->mb2br_xy[left_xy[LTOP]] + 6;
                        AV_COPY16(mvd_cache[-1 + 0*8], mvd[b_xy - left_block[0]]);
                        AV_COPY16(mvd_cache[-1 + 1*8], mvd[b_xy - left_block[1]]);
                    }else{
                        AV_ZERO16(mvd_cache[-1 + 0*8]);
                        AV_ZERO16(mvd_cache[-1 + 1*8]);
                    }
                    if(USES_LIST(left_type[LBOT], list)){
                        const int b_xy= h->mb2br_xy[left_xy[LBOT]] + 6;
                        AV_COPY16(mvd_cache[-1 + 2*8], mvd[b_xy - left_block[2]]);
                        AV_COPY16(mvd_cache[-1 + 3*8], mvd[b_xy - left_block[3]]);
                    }else{
                        AV_ZERO16(mvd_cache[-1 + 2*8]);
                        AV_ZERO16(mvd_cache[-1 + 3*8]);
                    }
                    AV_ZERO16(mvd_cache[2+8*0]);
                    AV_ZERO16(mvd_cache[2+8*2]);
                    if(h->slice_type_nos == AV_PICTURE_TYPE_B){
                        uint8_t *direct_cache = &h->direct_cache[scan8[0]];
                        uint8_t *direct_table = h->direct_table;
                        fill_rectangle(direct_cache, 4, 4, 8, MB_TYPE_16x16>>1, 1);

                        if(IS_DIRECT(top_type)){
                            AV_WN32A(&direct_cache[-1*8], 0x01010101u*(MB_TYPE_DIRECT2>>1));
                        }else if(IS_8X8(top_type)){
                            int b8_xy = 4*top_xy;
                            direct_cache[0 - 1*8]= direct_table[b8_xy + 2];
                            direct_cache[2 - 1*8]= direct_table[b8_xy + 3];
                        }else{
                            AV_WN32A(&direct_cache[-1*8], 0x01010101*(MB_TYPE_16x16>>1));
                        }

                        if(IS_DIRECT(left_type[LTOP]))
                            direct_cache[-1 + 0*8]= MB_TYPE_DIRECT2>>1;
                        else if(IS_8X8(left_type[LTOP]))
                            direct_cache[-1 + 0*8]= direct_table[4*left_xy[LTOP] + 1 + (left_block[0]&~1)];
                        else
                            direct_cache[-1 + 0*8]= MB_TYPE_16x16>>1;

                        if(IS_DIRECT(left_type[LBOT]))
                            direct_cache[-1 + 2*8]= MB_TYPE_DIRECT2>>1;
                        else if(IS_8X8(left_type[LBOT]))
                            direct_cache[-1 + 2*8]= direct_table[4*left_xy[LBOT] + 1 + (left_block[2]&~1)];
                        else
                            direct_cache[-1 + 2*8]= MB_TYPE_16x16>>1;
                    }
                }
            }
            if(FRAME_MBAFF){
#define MAP_MVS\
                    MAP_F2F(scan8[0] - 1 - 1*8, topleft_type)\
                    MAP_F2F(scan8[0] + 0 - 1*8, top_type)\
                    MAP_F2F(scan8[0] + 1 - 1*8, top_type)\
                    MAP_F2F(scan8[0] + 2 - 1*8, top_type)\
                    MAP_F2F(scan8[0] + 3 - 1*8, top_type)\
                    MAP_F2F(scan8[0] + 4 - 1*8, topright_type)\
                    MAP_F2F(scan8[0] - 1 + 0*8, left_type[LTOP])\
                    MAP_F2F(scan8[0] - 1 + 1*8, left_type[LTOP])\
                    MAP_F2F(scan8[0] - 1 + 2*8, left_type[LBOT])\
                    MAP_F2F(scan8[0] - 1 + 3*8, left_type[LBOT])
                if(MB_FIELD){
#define MAP_F2F(idx, mb_type)\
                    if(!IS_INTERLACED(mb_type) && h->ref_cache[list][idx] >= 0){\
                        h->ref_cache[list][idx] <<= 1;\
                        h->mv_cache[list][idx][1] /= 2;\
                        h->mvd_cache[list][idx][1] >>=1;\
                    }
                    MAP_MVS
#undef MAP_F2F
                }else{
#define MAP_F2F(idx, mb_type)\
                    if(IS_INTERLACED(mb_type) && h->ref_cache[list][idx] >= 0){\
                        h->ref_cache[list][idx] >>= 1;\
                        h->mv_cache[list][idx][1] <<= 1;\
                        h->mvd_cache[list][idx][1] <<= 1;\
                    }
                    MAP_MVS
#undef MAP_F2F
                }
            }
        }
    }

        h->neighbor_transform_size= !!IS_8x8DCT(top_type) + !!IS_8x8DCT(left_type[LTOP]);
}

/**
 * gets the predicted intra4x4 prediction mode.
 */
static av_always_inline int pred_intra_mode(H264Context *h, int n){
    const int index8= scan8[n];
    const int left= h->intra4x4_pred_mode_cache[index8 - 1];
    const int top = h->intra4x4_pred_mode_cache[index8 - 8];
    const int min= FFMIN(left, top);

    tprintf(h->s.avctx, "mode:%d %d min:%d\n", left ,top, min);

    if(min<0) return DC_PRED;
    else      return min;
}

static av_always_inline void write_back_intra_pred_mode(H264Context *h){
    int8_t *i4x4= h->intra4x4_pred_mode + h->mb2br_xy[h->mb_xy];
    int8_t *i4x4_cache= h->intra4x4_pred_mode_cache;

    AV_COPY32(i4x4, i4x4_cache + 4 + 8*4);
    i4x4[4]= i4x4_cache[7+8*3];
    i4x4[5]= i4x4_cache[7+8*2];
    i4x4[6]= i4x4_cache[7+8*1];
}

static av_always_inline void write_back_non_zero_count(H264Context *h){
    const int mb_xy= h->mb_xy;
    uint8_t *nnz = h->non_zero_count[mb_xy];
    uint8_t *nnz_cache = h->non_zero_count_cache;

    AV_COPY32(&nnz[ 0], &nnz_cache[4+8* 1]);
    AV_COPY32(&nnz[ 4], &nnz_cache[4+8* 2]);
    AV_COPY32(&nnz[ 8], &nnz_cache[4+8* 3]);
    AV_COPY32(&nnz[12], &nnz_cache[4+8* 4]);
    AV_COPY32(&nnz[16], &nnz_cache[4+8* 6]);
    AV_COPY32(&nnz[20], &nnz_cache[4+8* 7]);
    AV_COPY32(&nnz[32], &nnz_cache[4+8*11]);
    AV_COPY32(&nnz[36], &nnz_cache[4+8*12]);

    if(CHROMA444){
        AV_COPY32(&nnz[24], &nnz_cache[4+8* 8]);
        AV_COPY32(&nnz[28], &nnz_cache[4+8* 9]);
        AV_COPY32(&nnz[40], &nnz_cache[4+8*13]);
        AV_COPY32(&nnz[44], &nnz_cache[4+8*14]);
    }
}

static av_always_inline void write_back_motion_list(H264Context *h, MpegEncContext * const s, int b_stride,
                                                    int b_xy, int b8_xy, int mb_type, int list )
{
    int16_t (*mv_dst)[2] = &s->current_picture.motion_val[list][b_xy];
    int16_t (*mv_src)[2] = &h->mv_cache[list][scan8[0]];
    AV_COPY128(mv_dst + 0*b_stride, mv_src + 8*0);
    AV_COPY128(mv_dst + 1*b_stride, mv_src + 8*1);
    AV_COPY128(mv_dst + 2*b_stride, mv_src + 8*2);
    AV_COPY128(mv_dst + 3*b_stride, mv_src + 8*3);
    if( CABAC ) {
        uint8_t (*mvd_dst)[2] = &h->mvd_table[list][FMO ? 8*h->mb_xy : h->mb2br_xy[h->mb_xy]];
        uint8_t (*mvd_src)[2] = &h->mvd_cache[list][scan8[0]];
        if(IS_SKIP(mb_type))
            AV_ZERO128(mvd_dst);
        else{
            AV_COPY64(mvd_dst, mvd_src + 8*3);
            AV_COPY16(mvd_dst + 3 + 3, mvd_src + 3 + 8*0);
            AV_COPY16(mvd_dst + 3 + 2, mvd_src + 3 + 8*1);
            AV_COPY16(mvd_dst + 3 + 1, mvd_src + 3 + 8*2);
        }
    }

    {
        int8_t *ref_index = &s->current_picture.ref_index[list][b8_xy];
        int8_t *ref_cache = h->ref_cache[list];
        ref_index[0+0*2]= ref_cache[scan8[0]];
        ref_index[1+0*2]= ref_cache[scan8[4]];
        ref_index[0+1*2]= ref_cache[scan8[8]];
        ref_index[1+1*2]= ref_cache[scan8[12]];
    }
}

static av_always_inline void write_back_motion(H264Context *h, int mb_type){
    MpegEncContext * const s = &h->s;
    const int b_stride = h->b_stride;
    const int b_xy = 4*s->mb_x + 4*s->mb_y*h->b_stride; //try mb2b(8)_xy
    const int b8_xy= 4*h->mb_xy;

    if(USES_LIST(mb_type, 0)){
        write_back_motion_list(h, s, b_stride, b_xy, b8_xy, mb_type, 0);
    }else{
        fill_rectangle(&s->current_picture.ref_index[0][b8_xy], 2, 2, 2, (uint8_t)LIST_NOT_USED, 1);
    }
    if(USES_LIST(mb_type, 1)){
        write_back_motion_list(h, s, b_stride, b_xy, b8_xy, mb_type, 1);
    }

    if(h->slice_type_nos == AV_PICTURE_TYPE_B && CABAC){
        if(IS_8X8(mb_type)){
            uint8_t *direct_table = &h->direct_table[4*h->mb_xy];
            direct_table[1] = h->sub_mb_type[1]>>1;
            direct_table[2] = h->sub_mb_type[2]>>1;
            direct_table[3] = h->sub_mb_type[3]>>1;
        }
    }
}

static av_always_inline int get_dct8x8_allowed(H264Context *h){
    if(h->sps.direct_8x8_inference_flag)
        return !(AV_RN64A(h->sub_mb_type) & ((MB_TYPE_16x8|MB_TYPE_8x16|MB_TYPE_8x8                )*0x0001000100010001ULL));
    else
        return !(AV_RN64A(h->sub_mb_type) & ((MB_TYPE_16x8|MB_TYPE_8x16|MB_TYPE_8x8|MB_TYPE_DIRECT2)*0x0001000100010001ULL));
}

/**
 * decodes a P_SKIP or B_SKIP macroblock
 */
static void av_unused decode_mb_skip(H264Context *h){
    MpegEncContext * const s = &h->s;
    const int mb_xy= h->mb_xy;
    int mb_type=0;

    memset(h->non_zero_count[mb_xy], 0, 48);

    if(MB_FIELD)
        mb_type|= MB_TYPE_INTERLACED;

    if( h->slice_type_nos == AV_PICTURE_TYPE_B )
    {
        // just for fill_caches. pred_direct_motion will set the real mb_type
        mb_type|= MB_TYPE_L0L1|MB_TYPE_DIRECT2|MB_TYPE_SKIP;
        if(h->direct_spatial_mv_pred){
            fill_decode_neighbors(h, mb_type);
        fill_decode_caches(h, mb_type); //FIXME check what is needed and what not ...
        }
        ff_h264_pred_direct_motion(h, &mb_type);
        mb_type|= MB_TYPE_SKIP;
    }
    else
    {
        mb_type|= MB_TYPE_16x16|MB_TYPE_P0L0|MB_TYPE_P1L0|MB_TYPE_SKIP;

        fill_decode_neighbors(h, mb_type);
        pred_pskip_motion(h);
    }

    write_back_motion(h, mb_type);
    s->current_picture.mb_type[mb_xy]= mb_type;
    s->current_picture.qscale_table[mb_xy]= s->qscale;
    h->slice_table[ mb_xy ]= h->slice_num;
    h->prev_mb_skipped= 1;
}

#include "h264_mvpred.h" //For pred_pskip_motion()

#endif /* AVCODEC_H264_H */