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/*
* H .26 L / H .264 / AVC / JVT / 14496 - 10 / . . . encoder / decoder
* Copyright ( c ) 2003 Michael Niedermayer < michaelni @ gmx . at >
*
* This file is part of FFmpeg .
*
* FFmpeg 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 .
*
* FFmpeg 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 FFmpeg ; if not , write to the Free Software
* Foundation , Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
*/
/**
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* @ file
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* H .264 / AVC / MPEG4 part10 codec .
* @ author Michael Niedermayer < michaelni @ gmx . at >
*/
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# ifndef AVCODEC_H264_H
# define AVCODEC_H264_H
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# include "libavutil/intreadwrite.h"
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# include "dsputil.h"
# include "cabac.h"
# include "mpegvideo.h"
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# include "h264dsp.h"
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# include "h264pred.h"
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# include "rectangle.h"
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# define interlaced_dct interlaced_dct_is_a_bad_name
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# define mb_intra mb_intra_is_not_initialized_see_mb_type
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# define LUMA_DC_BLOCK_INDEX 25
# define CHROMA_DC_BLOCK_INDEX 26
# 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
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# define MAX_DELAYED_PIC_COUNT 16
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/* Compiling in interlaced support reduces the speed
* of progressive decoding by about 2 % . */
# define ALLOW_INTERLACE
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# define ALLOW_NOCHROMA
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# define FMO 0
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/**
* The maximum number of slices supported by the decoder .
* must be a power of 2
*/
# define MAX_SLICES 16
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# ifdef ALLOW_INTERLACE
# define MB_MBAFF h->mb_mbaff
# define MB_FIELD h->mb_field_decoding_flag
# define FRAME_MBAFF h->mb_aff_frame
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# define FIELD_PICTURE (s->picture_structure != PICT_FRAME)
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# else
# define MB_MBAFF 0
# define MB_FIELD 0
# define FRAME_MBAFF 0
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# define FIELD_PICTURE 0
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# undef IS_INTERLACED
# define IS_INTERLACED(mb_type) 0
# endif
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# define FIELD_OR_MBAFF_PICTURE (FRAME_MBAFF || FIELD_PICTURE)
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# ifdef ALLOW_NOCHROMA
# define CHROMA h->sps.chroma_format_idc
# else
# define CHROMA 1
# endif
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# ifndef CABAC
# define CABAC h->pps.cabac
# endif
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# define EXTENDED_SAR 255
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# 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)
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/**
* Value of Picture . reference when Picture is not a reference picture , but
* is held for delayed output .
*/
# define DELAYED_PIC_REF 4
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/* NAL unit types */
enum {
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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
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} ;
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/**
* SEI message types
*/
typedef enum {
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SEI_BUFFERING_PERIOD = 0 , ///< buffering period (H.264, D.1.1)
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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 ;
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/**
* 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 ;
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/**
* Sequence parameter set
*/
typedef struct SPS {
int profile_idc ;
int level_idc ;
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int chroma_format_idc ;
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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 ;
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int mb_width ; ///< pic_width_in_mbs_minus1 + 1
int mb_height ; ///< pic_height_in_map_units_minus1 + 1
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int frame_mbs_only_flag ;
int mb_aff ; ///<mb_adaptive_frame_field_flag
int direct_8x8_inference_flag ;
int crop ; ///< frame_cropping_flag
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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
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int vui_parameters_present_flag ;
AVRational sar ;
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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 ;
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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 [ 2 ] [ 64 ] ;
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int nal_hrd_parameters_present_flag ;
int vcl_hrd_parameters_present_flag ;
int pic_struct_present_flag ;
int time_offset_length ;
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int cpb_cnt ; ///< See H.264 E.1.2
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int initial_cpb_removal_delay_length ; ///< initial_cpb_removal_delay_length_minus1 +1
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int cpb_removal_delay_length ; ///< cpb_removal_delay_length_minus1 + 1
int dpb_output_delay_length ; ///< dpb_output_delay_length_minus1 + 1
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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
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} 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
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int chroma_qp_index_offset [ 2 ] ;
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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 [ 2 ] [ 64 ] ;
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uint8_t chroma_qp_table [ 2 ] [ 64 ] ; ///< pre-scaled (with chroma_qp_index_offset) version of qp_table
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int chroma_qp_diff ;
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} 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 ;
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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
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} MMCO ;
/**
* H264Context
*/
typedef struct H264Context {
MpegEncContext s ;
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H264DSPContext h264dsp ;
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int chroma_qp [ 2 ] ; //QPc
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int qp_thresh ; ///< QP threshold to skip loopfilter
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int prev_mb_skipped ;
int next_mb_skipped ;
//prediction stuff
int chroma_pred_mode ;
int intra16x16_pred_mode ;
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int topleft_mb_xy ;
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int top_mb_xy ;
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int topright_mb_xy ;
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int left_mb_xy [ 2 ] ;
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int topleft_type ;
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int top_type ;
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int topright_type ;
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int left_type [ 2 ] ;
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const uint8_t * left_block ;
int topleft_partition ;
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int8_t intra4x4_pred_mode_cache [ 5 * 8 ] ;
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int8_t ( * intra4x4_pred_mode ) ;
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H264PredContext hpc ;
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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 + 2 * 8 ] ;
/**
* non zero coeff count cache .
* is 64 if not available .
*/
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DECLARE_ALIGNED ( 8 , uint8_t , non_zero_count_cache ) [ 6 * 8 ] ;
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/*
. UU . YYYY
. UU . YYYY
. vv . YYYY
. VV . YYYY
*/
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uint8_t ( * non_zero_count ) [ 32 ] ;
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/**
* Motion vector cache .
*/
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DECLARE_ALIGNED ( 16 , int16_t , mv_cache ) [ 2 ] [ 5 * 8 ] [ 2 ] ;
DECLARE_ALIGNED ( 8 , int8_t , ref_cache ) [ 2 ] [ 5 * 8 ] ;
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# define LIST_NOT_USED -1 //FIXME rename?
# define PART_NOT_AVAILABLE -2
/**
* is 1 if the specific list MV & references are set to 0 , 0 , - 2.
*/
int mv_cache_clean [ 2 ] ;
/**
* number of neighbors ( top and / or left ) that used 8 x8 dct
*/
int neighbor_transform_size ;
/**
* block_offset [ 0. .23 ] for frame macroblocks
* block_offset [ 24. .47 ] for field macroblocks
*/
int block_offset [ 2 * ( 16 + 8 ) ] ;
uint32_t * mb2b_xy ; //FIXME are these 4 a good idea?
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uint32_t * mb2br_xy ;
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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?
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uint32_t dequant4_buffer [ 6 ] [ 52 ] [ 16 ] ; //FIXME should these be moved down?
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uint32_t dequant8_buffer [ 2 ] [ 52 ] [ 64 ] ;
uint32_t ( * dequant4_coeff [ 6 ] ) [ 16 ] ;
uint32_t ( * dequant8_coeff [ 2 ] ) [ 64 ] ;
int slice_num ;
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uint16_t * slice_table ; ///< slice_table_base + 2*mb_stride + 1
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int slice_type ;
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int slice_type_nos ; ///< S free slice type (SI/SP are remapped to I/P)
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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
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DECLARE_ALIGNED ( 8 , uint16_t , sub_mb_type ) [ 4 ] ;
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//Weighted pred stuff
int use_weight ;
int use_weight_chroma ;
int luma_log2_weight_denom ;
int chroma_log2_weight_denom ;
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//The following 2 can be changed to int8_t but that causes 10cpu cycles speedloss
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int luma_weight [ 48 ] [ 2 ] [ 2 ] ;
int chroma_weight [ 48 ] [ 2 ] [ 2 ] [ 2 ] ;
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int implicit_weight [ 48 ] [ 48 ] [ 2 ] ;
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int direct_spatial_mv_pred ;
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int col_parity ;
int col_fieldoff ;
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int dist_scale_factor [ 16 ] ;
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int dist_scale_factor_field [ 2 ] [ 32 ] ;
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int map_col_to_list0 [ 2 ] [ 16 + 32 ] ;
int map_col_to_list0_field [ 2 ] [ 2 ] [ 16 + 32 ] ;
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/**
* 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 ;
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uint8_t * list_counts ; ///< Array of list_count per MB specifying the slice type
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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 */
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int ref2frm [ MAX_SLICES ] [ 2 ] [ 64 ] ; ///< reference to frame number lists, used in the loop filter, the first 2 are for -2,-1
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//data partitioning
GetBitContext intra_gb ;
GetBitContext inter_gb ;
GetBitContext * intra_gb_ptr ;
GetBitContext * inter_gb_ptr ;
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DECLARE_ALIGNED ( 16 , DCTELEM , mb ) [ 16 * 24 ] ;
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DCTELEM mb_padding [ 256 ] ; ///< 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
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/**
* Cabac
*/
CABACContext cabac ;
uint8_t cabac_state [ 460 ] ;
/* 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 ;
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uint8_t ( * mvd_table [ 2 ] ) [ 2 ] ;
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DECLARE_ALIGNED ( 16 , uint8_t , mvd_cache ) [ 2 ] [ 5 * 8 ] [ 2 ] ;
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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 ;
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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)
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int got_first ; ///< this flag is != 0 if we've parsed a frame
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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?
int 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 ;
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/**
* @ defgroup multithreading 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 ;
/** @} */
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/**
* pic_struct in picture timing SEI message
*/
SEI_PicStructType sei_pic_struct ;
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/**
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* 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 ;
/**
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* 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 ;
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/**
* dpb_output_delay in picture timing SEI message , see H .264 C .2 .2
*/
int sei_dpb_output_delay ;
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/**
* cpb_removal_delay in picture timing SEI message , see H .264 C .1 .2
*/
int sei_cpb_removal_delay ;
2009-02-10 01:04:16 +02:00
/**
* 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 ;
2009-02-03 22:49:02 +02:00
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
2009-02-19 01:33:30 +02:00
// Timestamp stuff
int sei_buffering_period_present ; ///< Buffering period SEI flag
int initial_cpb_removal_delay [ 32 ] ; ///< Initial timestamps for CPBs
2010-03-03 18:47:40 +02:00
//SVQ3 specific fields
int halfpel_flag ;
int thirdpel_flag ;
int unknown_svq3_flag ;
int next_slice_index ;
uint32_t svq3_watermark_key ;
2007-05-11 01:26:44 +03:00
} H264Context ;
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extern const uint8_t ff_h264_chroma_qp [ 52 ] ;
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void ff_svq3_luma_dc_dequant_idct_c ( DCTELEM * block , int qp ) ;
void ff_svq3_add_idct_c ( uint8_t * dst , DCTELEM * block , int stride , int qp , int dc ) ;
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2009-02-21 21:54:14 +02:00
/**
* Decode SEI
*/
int ff_h264_decode_sei ( H264Context * h ) ;
/**
* Decode SPS
*/
int ff_h264_decode_seq_parameter_set ( H264Context * h ) ;
/**
* Decode PPS
*/
int ff_h264_decode_picture_parameter_set ( H264Context * h , int bit_length ) ;
/**
* Decodes 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 ?
2010-03-30 18:50:57 +03:00
* @ return decoded bytes , might be src + 1 if no escapes
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*/
const uint8_t * ff_h264_decode_nal ( H264Context * h , const uint8_t * src , int * dst_length , int * consumed , int length ) ;
/**
* identifies the exact end of the bitstream
* @ return the length of the trailing , or 0 if damaged
*/
int ff_h264_decode_rbsp_trailing ( H264Context * h , const uint8_t * src ) ;
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/**
* frees any data that may have been allocated in the H264 context like SPS , PPS etc .
*/
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av_cold void ff_h264_free_context ( H264Context * h ) ;
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/**
* reconstructs bitstream slice_type .
*/
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int ff_h264_get_slice_type ( const H264Context * h ) ;
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2010-01-12 07:30:31 +02:00
/**
* allocates tables .
* needs width / height
*/
int ff_h264_alloc_tables ( H264Context * h ) ;
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/**
* fills 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 ) ;
/**
* Executes 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 ) ;
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/**
* checks if the top & left blocks are available if needed & changes the dc mode so it only uses the available blocks .
*/
int ff_h264_check_intra4x4_pred_mode ( H264Context * h ) ;
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/**
* checks if the top & left blocks are available if needed & changes the dc mode so it only uses the available blocks .
*/
int ff_h264_check_intra_pred_mode ( H264Context * h , int mode ) ;
void ff_h264_write_back_intra_pred_mode ( H264Context * h ) ;
void ff_h264_hl_decode_mb ( H264Context * h ) ;
int ff_h264_frame_start ( H264Context * h ) ;
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int ff_h264_decode_extradata ( H264Context * h ) ;
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av_cold int ff_h264_decode_init ( AVCodecContext * avctx ) ;
av_cold int ff_h264_decode_end ( AVCodecContext * avctx ) ;
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av_cold void ff_h264_decode_init_vlc ( void ) ;
/**
* decodes a macroblock
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* @ return 0 if OK , AC_ERROR / DC_ERROR / MV_ERROR if an error is noticed
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*/
int ff_h264_decode_mb_cavlc ( H264Context * h ) ;
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/**
* decodes a CABAC coded macroblock
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* @ return 0 if OK , AC_ERROR / DC_ERROR / MV_ERROR if an error is noticed
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*/
int ff_h264_decode_mb_cabac ( H264Context * h ) ;
void ff_h264_init_cabac_states ( H264Context * h ) ;
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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 ) ;
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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 ) ;
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/**
* Reset SEI values at the beginning of the frame .
*
* @ param h H .264 context .
*/
void ff_h264_reset_sei ( H264Context * h ) ;
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/*
o - o o - o
/ / /
o - o o - o
, - - - '
o - o o - o
/ / /
o - o o - o
*/
//This table must be here because scan8[constant] must be known at compiletime
static const uint8_t scan8 [ 16 + 2 * 4 ] = {
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 ,
1 + 1 * 8 , 2 + 1 * 8 ,
1 + 2 * 8 , 2 + 2 * 8 ,
1 + 4 * 8 , 2 + 4 * 8 ,
1 + 5 * 8 , 2 + 5 * 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
}
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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
}
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/**
* gets the chroma qp .
*/
static inline int get_chroma_qp ( H264Context * h , int t , int qscale ) {
return h - > pps . chroma_qp_table [ t ] [ qscale ] ;
}
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static inline void pred_pskip_motion ( H264Context * const h , int * const mx , int * const my ) ;
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static void fill_decode_neighbors ( H264Context * h , int mb_type ) {
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MpegEncContext * const s = & h - > s ;
const int mb_xy = h - > mb_xy ;
int topleft_xy , top_xy , topright_xy , left_xy [ 2 ] ;
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static const uint8_t left_block_options [ 4 ] [ 16 ] = {
{ 0 , 1 , 2 , 3 , 7 , 10 , 8 , 11 , 7 + 0 * 8 , 7 + 1 * 8 , 7 + 2 * 8 , 7 + 3 * 8 , 2 + 0 * 8 , 2 + 3 * 8 , 2 + 1 * 8 , 2 + 2 * 8 } ,
{ 2 , 2 , 3 , 3 , 8 , 11 , 8 , 11 , 7 + 2 * 8 , 7 + 2 * 8 , 7 + 3 * 8 , 7 + 3 * 8 , 2 + 1 * 8 , 2 + 2 * 8 , 2 + 1 * 8 , 2 + 2 * 8 } ,
{ 0 , 0 , 1 , 1 , 7 , 10 , 7 , 10 , 7 + 0 * 8 , 7 + 0 * 8 , 7 + 1 * 8 , 7 + 1 * 8 , 2 + 0 * 8 , 2 + 3 * 8 , 2 + 0 * 8 , 2 + 3 * 8 } ,
{ 0 , 2 , 0 , 2 , 7 , 10 , 7 , 10 , 7 + 0 * 8 , 7 + 2 * 8 , 7 + 0 * 8 , 7 + 2 * 8 , 2 + 0 * 8 , 2 + 3 * 8 , 2 + 0 * 8 , 2 + 3 * 8 }
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} ;
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h - > topleft_partition = - 1 ;
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top_xy = mb_xy - ( s - > mb_stride < < MB_FIELD ) ;
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/* 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 [ 1 ] = left_xy [ 0 ] = mb_xy - 1 ;
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h - > left_block = left_block_options [ 0 ] ;
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if ( FRAME_MBAFF ) {
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const int left_mb_field_flag = IS_INTERLACED ( s - > current_picture . mb_type [ mb_xy - 1 ] ) ;
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const int curr_mb_field_flag = IS_INTERLACED ( mb_type ) ;
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if ( s - > mb_y & 1 ) {
if ( left_mb_field_flag ! = curr_mb_field_flag ) {
left_xy [ 1 ] = left_xy [ 0 ] = mb_xy - s - > mb_stride - 1 ;
if ( curr_mb_field_flag ) {
left_xy [ 1 ] + = s - > mb_stride ;
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h - > left_block = left_block_options [ 3 ] ;
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} 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
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h - > topleft_partition = 0 ;
h - > left_block = left_block_options [ 1 ] ;
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}
}
} 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 [ 1 ] + = s - > mb_stride ;
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h - > left_block = left_block_options [ 3 ] ;
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} else {
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h - > left_block = left_block_options [ 2 ] ;
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}
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}
}
}
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h - > topleft_mb_xy = topleft_xy ;
h - > top_mb_xy = top_xy ;
h - > topright_mb_xy = topright_xy ;
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h - > left_mb_xy [ 0 ] = left_xy [ 0 ] ;
h - > left_mb_xy [ 1 ] = left_xy [ 1 ] ;
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//FIXME do we need all in the context?
2010-02-27 05:46:16 +02:00
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 [ 0 ] = s - > current_picture . mb_type [ left_xy [ 0 ] ] ;
h - > left_type [ 1 ] = s - > current_picture . mb_type [ left_xy [ 1 ] ] ;
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if ( FMO ) {
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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 ;
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if ( h - > slice_table [ left_xy [ 0 ] ] ! = h - > slice_num ) h - > left_type [ 0 ] = h - > left_type [ 1 ] = 0 ;
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} 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 [ 0 ] ] ! = h - > slice_num ) h - > left_type [ 0 ] = h - > left_type [ 1 ] = 0 ;
}
}
if ( h - > slice_table [ topright_xy ] ! = h - > slice_num ) h - > topright_type = 0 ;
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}
static void fill_decode_caches ( H264Context * h , int mb_type ) {
MpegEncContext * const s = & h - > s ;
int topleft_xy , top_xy , topright_xy , left_xy [ 2 ] ;
int topleft_type , top_type , topright_type , left_type [ 2 ] ;
const uint8_t * left_block = h - > left_block ;
int i ;
topleft_xy = h - > topleft_mb_xy ;
top_xy = h - > top_mb_xy ;
topright_xy = h - > topright_mb_xy ;
left_xy [ 0 ] = h - > left_mb_xy [ 0 ] ;
left_xy [ 1 ] = h - > left_mb_xy [ 1 ] ;
topleft_type = h - > topleft_type ;
top_type = h - > top_type ;
topright_type = h - > topright_type ;
left_type [ 0 ] = h - > left_type [ 0 ] ;
left_type [ 1 ] = h - > left_type [ 1 ] ;
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if ( ! IS_SKIP ( mb_type ) ) {
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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 [ 0 ] ) ) {
if ( IS_INTERLACED ( mb_type ) ) {
if ( ! ( left_type [ 0 ] & type_mask ) ) {
h - > topleft_samples_available & = 0xDFFF ;
h - > left_samples_available & = 0x5FFF ;
}
if ( ! ( left_type [ 1 ] & type_mask ) ) {
h - > topleft_samples_available & = 0xFF5F ;
h - > left_samples_available & = 0xFF5F ;
}
} else {
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int left_typei = s - > current_picture . mb_type [ left_xy [ 0 ] + s - > mb_stride ] ;
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assert ( left_xy [ 0 ] = = left_xy [ 1 ] ) ;
if ( ! ( ( left_typei & type_mask ) & & ( left_type [ 0 ] & type_mask ) ) ) {
h - > topleft_samples_available & = 0xDF5F ;
h - > left_samples_available & = 0x5F5F ;
}
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}
} else {
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if ( ! ( left_type [ 0 ] & type_mask ) ) {
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h - > topleft_samples_available & = 0xDF5F ;
h - > left_samples_available & = 0x5F5F ;
}
}
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if ( ! ( topleft_type & type_mask ) )
h - > topleft_samples_available & = 0x7FFF ;
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if ( ! ( topright_type & type_mask ) )
h - > topright_samples_available & = 0xFBFF ;
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if ( IS_INTRA4x4 ( mb_type ) ) {
if ( IS_INTRA4x4 ( top_type ) ) {
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AV_COPY32 ( h - > intra4x4_pred_mode_cache + 4 + 8 * 0 , h - > intra4x4_pred_mode + h - > mb2br_xy [ top_xy ] ) ;
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} else {
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h - > intra4x4_pred_mode_cache [ 4 + 8 * 0 ] =
h - > intra4x4_pred_mode_cache [ 5 + 8 * 0 ] =
h - > intra4x4_pred_mode_cache [ 6 + 8 * 0 ] =
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h - > intra4x4_pred_mode_cache [ 7 + 8 * 0 ] = 2 - 3 * ! ( top_type & type_mask ) ;
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}
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_INTRA4x4 ( left_type [ i ] ) ) {
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int8_t * mode = h - > intra4x4_pred_mode + h - > mb2br_xy [ left_xy [ i ] ] ;
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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 ] ] ;
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} else {
h - > intra4x4_pred_mode_cache [ 3 + 8 * 1 + 2 * 8 * i ] =
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h - > intra4x4_pred_mode_cache [ 3 + 8 * 2 + 2 * 8 * i ] = 2 - 3 * ! ( left_type [ i ] & type_mask ) ;
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}
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}
}
}
/*
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)
if ( top_type ) {
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AV_COPY32 ( & h - > non_zero_count_cache [ 4 + 8 * 0 ] , & h - > non_zero_count [ top_xy ] [ 4 + 3 * 8 ] ) ;
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h - > non_zero_count_cache [ 1 + 8 * 0 ] = h - > non_zero_count [ top_xy ] [ 1 + 1 * 8 ] ;
h - > non_zero_count_cache [ 2 + 8 * 0 ] = h - > non_zero_count [ top_xy ] [ 2 + 1 * 8 ] ;
2010-01-13 03:59:19 +02:00
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h - > non_zero_count_cache [ 1 + 8 * 3 ] = h - > non_zero_count [ top_xy ] [ 1 + 2 * 8 ] ;
h - > non_zero_count_cache [ 2 + 8 * 3 ] = h - > non_zero_count [ top_xy ] [ 2 + 2 * 8 ] ;
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} else {
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h - > non_zero_count_cache [ 1 + 8 * 0 ] =
h - > non_zero_count_cache [ 2 + 8 * 0 ] =
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h - > non_zero_count_cache [ 1 + 8 * 3 ] =
h - > non_zero_count_cache [ 2 + 8 * 3 ] =
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AV_WN32A ( & h - > non_zero_count_cache [ 4 + 8 * 0 ] , CABAC & & ! IS_INTRA ( mb_type ) ? 0 : 0x40404040 ) ;
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}
for ( i = 0 ; i < 2 ; i + + ) {
if ( left_type [ i ] ) {
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h - > non_zero_count_cache [ 3 + 8 * 1 + 2 * 8 * i ] = h - > non_zero_count [ left_xy [ i ] ] [ left_block [ 8 + 0 + 2 * i ] ] ;
h - > non_zero_count_cache [ 3 + 8 * 2 + 2 * 8 * i ] = h - > non_zero_count [ left_xy [ i ] ] [ left_block [ 8 + 1 + 2 * i ] ] ;
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h - > non_zero_count_cache [ 0 + 8 * 1 + 8 * i ] = h - > non_zero_count [ left_xy [ i ] ] [ left_block [ 8 + 4 + 2 * i ] ] ;
h - > non_zero_count_cache [ 0 + 8 * 4 + 8 * i ] = h - > non_zero_count [ left_xy [ i ] ] [ left_block [ 8 + 5 + 2 * i ] ] ;
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} else {
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h - > non_zero_count_cache [ 3 + 8 * 1 + 2 * 8 * i ] =
h - > non_zero_count_cache [ 3 + 8 * 2 + 2 * 8 * i ] =
h - > non_zero_count_cache [ 0 + 8 * 1 + 8 * i ] =
h - > non_zero_count_cache [ 0 + 8 * 4 + 8 * i ] = CABAC & & ! IS_INTRA ( mb_type ) ? 0 : 64 ;
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}
}
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if ( CABAC ) {
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// top_cbp
if ( top_type ) {
h - > top_cbp = h - > cbp_table [ top_xy ] ;
} else {
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h - > top_cbp = IS_INTRA ( mb_type ) ? 0x1CF : 0x00F ;
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}
// left_cbp
if ( left_type [ 0 ] ) {
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h - > left_cbp = ( h - > cbp_table [ left_xy [ 0 ] ] & 0x1f0 )
| ( ( h - > cbp_table [ left_xy [ 0 ] ] > > ( left_block [ 0 ] & ( ~ 1 ) ) ) & 2 )
| ( ( ( h - > cbp_table [ left_xy [ 1 ] ] > > ( left_block [ 2 ] & ( ~ 1 ) ) ) & 2 ) < < 2 ) ;
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} else {
h - > left_cbp = IS_INTRA ( mb_type ) ? 0x1CF : 0x00F ;
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}
}
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}
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# if 1
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if ( IS_INTER ( mb_type ) | | ( IS_DIRECT ( mb_type ) & & h - > direct_spatial_mv_pred ) ) {
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int list ;
for ( list = 0 ; list < h - > list_count ; list + + ) {
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if ( ! USES_LIST ( mb_type , list ) ) {
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/*if(!h->mv_cache_clean[list]){
memset ( h - > mv_cache [ list ] , 0 , 8 * 5 * 2 * sizeof ( int16_t ) ) ; //FIXME clean only input? clean at all?
memset ( h - > ref_cache [ list ] , PART_NOT_AVAILABLE , 8 * 5 * sizeof ( int8_t ) ) ;
h - > mv_cache_clean [ list ] = 1 ;
} */
continue ;
}
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assert ( ! ( IS_DIRECT ( mb_type ) & & ! h - > direct_spatial_mv_pred ) ) ;
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h - > mv_cache_clean [ list ] = 0 ;
if ( USES_LIST ( top_type , list ) ) {
const int b_xy = h - > mb2b_xy [ top_xy ] + 3 * h - > b_stride ;
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AV_COPY128 ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] , s - > current_picture . motion_val [ list ] [ b_xy + 0 ] ) ;
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h - > ref_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] =
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h - > ref_cache [ list ] [ scan8 [ 0 ] + 1 - 1 * 8 ] = s - > current_picture . ref_index [ list ] [ 4 * top_xy + 2 ] ;
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h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 - 1 * 8 ] =
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h - > ref_cache [ list ] [ scan8 [ 0 ] + 3 - 1 * 8 ] = s - > current_picture . ref_index [ list ] [ 4 * top_xy + 3 ] ;
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} else {
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AV_ZERO128 ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] ) ;
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AV_WN32A ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] , ( ( top_type ? LIST_NOT_USED : PART_NOT_AVAILABLE ) & 0xFF ) * 0x01010101 ) ;
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}
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if ( mb_type & ( MB_TYPE_16x8 | MB_TYPE_8x8 ) ) {
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for ( i = 0 ; i < 2 ; i + + ) {
int cache_idx = scan8 [ 0 ] - 1 + i * 2 * 8 ;
if ( USES_LIST ( left_type [ i ] , list ) ) {
const int b_xy = h - > mb2b_xy [ left_xy [ i ] ] + 3 ;
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const int b8_xy = 4 * left_xy [ i ] + 1 ;
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AV_COPY32 ( h - > mv_cache [ list ] [ cache_idx ] , s - > current_picture . motion_val [ list ] [ b_xy + h - > b_stride * left_block [ 0 + i * 2 ] ] ) ;
AV_COPY32 ( h - > mv_cache [ list ] [ cache_idx + 8 ] , s - > current_picture . motion_val [ list ] [ b_xy + h - > b_stride * left_block [ 1 + i * 2 ] ] ) ;
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h - > ref_cache [ list ] [ cache_idx ] = s - > current_picture . ref_index [ list ] [ b8_xy + ( left_block [ 0 + i * 2 ] & ~ 1 ) ] ;
h - > ref_cache [ list ] [ cache_idx + 8 ] = s - > current_picture . ref_index [ list ] [ b8_xy + ( left_block [ 1 + i * 2 ] & ~ 1 ) ] ;
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} else {
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AV_ZERO32 ( h - > mv_cache [ list ] [ cache_idx ] ) ;
AV_ZERO32 ( h - > mv_cache [ list ] [ cache_idx + 8 ] ) ;
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h - > ref_cache [ list ] [ cache_idx ] =
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h - > ref_cache [ list ] [ cache_idx + 8 ] = ( left_type [ i ] ) ? LIST_NOT_USED : PART_NOT_AVAILABLE ;
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}
}
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} else {
if ( USES_LIST ( left_type [ 0 ] , list ) ) {
const int b_xy = h - > mb2b_xy [ left_xy [ 0 ] ] + 3 ;
const int b8_xy = 4 * left_xy [ 0 ] + 1 ;
AV_COPY32 ( h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 ] , s - > current_picture . motion_val [ list ] [ b_xy + h - > b_stride * left_block [ 0 ] ] ) ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 ] = s - > current_picture . ref_index [ list ] [ b8_xy + ( left_block [ 0 ] & ~ 1 ) ] ;
} else {
AV_ZERO32 ( h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 ] ) ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 ] = left_type [ 0 ] ? LIST_NOT_USED : PART_NOT_AVAILABLE ;
}
}
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if ( USES_LIST ( topright_type , list ) ) {
const int b_xy = h - > mb2b_xy [ topright_xy ] + 3 * h - > b_stride ;
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AV_COPY32 ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] , s - > current_picture . motion_val [ list ] [ b_xy ] ) ;
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h - > ref_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] = s - > current_picture . ref_index [ list ] [ 4 * topright_xy + 2 ] ;
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} else {
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AV_ZERO32 ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] ) ;
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h - > ref_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] = topright_type ? LIST_NOT_USED : PART_NOT_AVAILABLE ;
}
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if ( h - > ref_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] < 0 ) {
if ( USES_LIST ( topleft_type , list ) ) {
const int b_xy = h - > mb2b_xy [ topleft_xy ] + 3 + h - > b_stride + ( h - > topleft_partition & 2 * h - > b_stride ) ;
const int b8_xy = 4 * topleft_xy + 1 + ( h - > topleft_partition & 2 ) ;
AV_COPY32 ( h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] , s - > current_picture . motion_val [ list ] [ b_xy ] ) ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] = s - > current_picture . ref_index [ list ] [ b8_xy ] ;
} else {
AV_ZERO32 ( h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] ) ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] = topleft_type ? LIST_NOT_USED : PART_NOT_AVAILABLE ;
}
}
2010-01-13 03:59:19 +02:00
2010-02-13 22:13:54 +02:00
if ( ( mb_type & ( MB_TYPE_SKIP | MB_TYPE_DIRECT2 ) ) & & ! FRAME_MBAFF )
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continue ;
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if ( ! ( mb_type & ( MB_TYPE_SKIP | MB_TYPE_DIRECT2 ) ) ) {
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h - > ref_cache [ list ] [ scan8 [ 4 ] ] =
h - > ref_cache [ list ] [ scan8 [ 12 ] ] = PART_NOT_AVAILABLE ;
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AV_ZERO32 ( h - > mv_cache [ list ] [ scan8 [ 4 ] ] ) ;
AV_ZERO32 ( h - > mv_cache [ list ] [ scan8 [ 12 ] ] ) ;
2010-01-13 03:59:19 +02:00
2010-02-13 21:00:51 +02:00
if ( CABAC ) {
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/* XXX beurk, Load mvd */
if ( USES_LIST ( top_type , list ) ) {
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const int b_xy = h - > mb2br_xy [ top_xy ] ;
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AV_COPY64 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] , h - > mvd_table [ list ] [ b_xy + 0 ] ) ;
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} else {
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AV_ZERO64 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] ) ;
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}
if ( USES_LIST ( left_type [ 0 ] , list ) ) {
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const int b_xy = h - > mb2br_xy [ left_xy [ 0 ] ] + 6 ;
AV_COPY16 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 0 * 8 ] , h - > mvd_table [ list ] [ b_xy - left_block [ 0 ] ] ) ;
AV_COPY16 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 1 * 8 ] , h - > mvd_table [ list ] [ b_xy - left_block [ 1 ] ] ) ;
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} else {
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AV_ZERO16 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 0 * 8 ] ) ;
AV_ZERO16 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 1 * 8 ] ) ;
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}
if ( USES_LIST ( left_type [ 1 ] , list ) ) {
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const int b_xy = h - > mb2br_xy [ left_xy [ 1 ] ] + 6 ;
AV_COPY16 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 2 * 8 ] , h - > mvd_table [ list ] [ b_xy - left_block [ 2 ] ] ) ;
AV_COPY16 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 3 * 8 ] , h - > mvd_table [ list ] [ b_xy - left_block [ 3 ] ] ) ;
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} else {
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AV_ZERO16 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 2 * 8 ] ) ;
AV_ZERO16 ( h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 3 * 8 ] ) ;
2010-01-13 03:59:19 +02:00
}
2010-02-24 22:43:06 +02:00
AV_ZERO16 ( h - > mvd_cache [ list ] [ scan8 [ 4 ] ] ) ;
AV_ZERO16 ( h - > mvd_cache [ list ] [ scan8 [ 12 ] ] ) ;
2010-01-13 03:59:19 +02:00
if ( h - > slice_type_nos = = FF_B_TYPE ) {
2010-02-14 16:41:27 +02:00
fill_rectangle ( & h - > direct_cache [ scan8 [ 0 ] ] , 4 , 4 , 8 , MB_TYPE_16x16 > > 1 , 1 ) ;
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if ( IS_DIRECT ( top_type ) ) {
2010-03-16 01:00:53 +02:00
AV_WN32A ( & h - > direct_cache [ scan8 [ 0 ] - 1 * 8 ] , 0x01010101u * ( MB_TYPE_DIRECT2 > > 1 ) ) ;
2010-01-13 03:59:19 +02:00
} else if ( IS_8X8 ( top_type ) ) {
2010-02-25 17:27:55 +02:00
int b8_xy = 4 * top_xy ;
h - > direct_cache [ scan8 [ 0 ] + 0 - 1 * 8 ] = h - > direct_table [ b8_xy + 2 ] ;
h - > direct_cache [ scan8 [ 0 ] + 2 - 1 * 8 ] = h - > direct_table [ b8_xy + 3 ] ;
2010-01-13 03:59:19 +02:00
} else {
2010-02-18 18:24:31 +02:00
AV_WN32A ( & h - > direct_cache [ scan8 [ 0 ] - 1 * 8 ] , 0x01010101 * ( MB_TYPE_16x16 > > 1 ) ) ;
2010-01-13 03:59:19 +02:00
}
if ( IS_DIRECT ( left_type [ 0 ] ) )
2010-02-14 16:41:27 +02:00
h - > direct_cache [ scan8 [ 0 ] - 1 + 0 * 8 ] = MB_TYPE_DIRECT2 > > 1 ;
2010-01-13 03:59:19 +02:00
else if ( IS_8X8 ( left_type [ 0 ] ) )
2010-02-25 17:27:55 +02:00
h - > direct_cache [ scan8 [ 0 ] - 1 + 0 * 8 ] = h - > direct_table [ 4 * left_xy [ 0 ] + 1 + ( left_block [ 0 ] & ~ 1 ) ] ;
2010-01-13 03:59:19 +02:00
else
2010-02-14 16:41:27 +02:00
h - > direct_cache [ scan8 [ 0 ] - 1 + 0 * 8 ] = MB_TYPE_16x16 > > 1 ;
2010-01-13 03:59:19 +02:00
if ( IS_DIRECT ( left_type [ 1 ] ) )
2010-02-14 16:41:27 +02:00
h - > direct_cache [ scan8 [ 0 ] - 1 + 2 * 8 ] = MB_TYPE_DIRECT2 > > 1 ;
2010-01-13 03:59:19 +02:00
else if ( IS_8X8 ( left_type [ 1 ] ) )
2010-02-25 17:27:55 +02:00
h - > direct_cache [ scan8 [ 0 ] - 1 + 2 * 8 ] = h - > direct_table [ 4 * left_xy [ 1 ] + 1 + ( left_block [ 2 ] & ~ 1 ) ] ;
2010-01-13 03:59:19 +02:00
else
2010-02-14 16:41:27 +02:00
h - > direct_cache [ scan8 [ 0 ] - 1 + 2 * 8 ] = MB_TYPE_16x16 > > 1 ;
2010-01-13 03:59:19 +02:00
}
}
2010-02-13 21:00:51 +02:00
}
2010-01-13 03:59:19 +02:00
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 [ 0 ] ) \
MAP_F2F ( scan8 [ 0 ] - 1 + 1 * 8 , left_type [ 0 ] ) \
MAP_F2F ( scan8 [ 0 ] - 1 + 2 * 8 , left_type [ 1 ] ) \
MAP_F2F ( scan8 [ 0 ] - 1 + 3 * 8 , left_type [ 1 ] )
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 ; \
2010-02-24 03:57:31 +02:00
h - > mvd_cache [ list ] [ idx ] [ 1 ] > > = 1 ; \
2010-01-13 03:59:19 +02:00
}
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
}
}
}
}
# endif
2010-01-19 01:34:37 +02:00
h - > neighbor_transform_size = ! ! IS_8x8DCT ( top_type ) + ! ! IS_8x8DCT ( left_type [ 0 ] ) ;
2010-01-17 23:43:08 +02:00
}
2010-01-13 03:59:19 +02:00
/**
* gets the predicted intra4x4 prediction mode .
*/
static 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 inline void write_back_non_zero_count ( H264Context * h ) {
const int mb_xy = h - > mb_xy ;
2010-01-25 02:30:44 +02:00
AV_COPY64 ( & h - > non_zero_count [ mb_xy ] [ 0 ] , & h - > non_zero_count_cache [ 0 + 8 * 1 ] ) ;
AV_COPY64 ( & h - > non_zero_count [ mb_xy ] [ 8 ] , & h - > non_zero_count_cache [ 0 + 8 * 2 ] ) ;
2010-02-18 18:24:31 +02:00
AV_COPY32 ( & h - > non_zero_count [ mb_xy ] [ 16 ] , & h - > non_zero_count_cache [ 0 + 8 * 5 ] ) ;
AV_COPY32 ( & h - > non_zero_count [ mb_xy ] [ 20 ] , & h - > non_zero_count_cache [ 4 + 8 * 3 ] ) ;
2010-01-25 02:30:44 +02:00
AV_COPY64 ( & h - > non_zero_count [ mb_xy ] [ 24 ] , & h - > non_zero_count_cache [ 0 + 8 * 4 ] ) ;
2010-01-13 03:59:19 +02:00
}
static inline void write_back_motion ( H264Context * h , int mb_type ) {
MpegEncContext * const s = & h - > s ;
2010-02-26 01:44:42 +02:00
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 ;
2010-01-13 03:59:19 +02:00
int list ;
if ( ! USES_LIST ( mb_type , 0 ) )
2010-02-26 01:44:42 +02:00
fill_rectangle ( & s - > current_picture . ref_index [ 0 ] [ b8_xy ] , 2 , 2 , 2 , ( uint8_t ) LIST_NOT_USED , 1 ) ;
2010-01-13 03:59:19 +02:00
for ( list = 0 ; list < h - > list_count ; list + + ) {
2010-01-25 02:30:44 +02:00
int y , b_stride ;
int16_t ( * mv_dst ) [ 2 ] ;
int16_t ( * mv_src ) [ 2 ] ;
2010-01-13 03:59:19 +02:00
if ( ! USES_LIST ( mb_type , list ) )
continue ;
2010-01-25 02:30:44 +02:00
b_stride = h - > b_stride ;
mv_dst = & s - > current_picture . motion_val [ list ] [ b_xy ] ;
mv_src = & h - > mv_cache [ list ] [ scan8 [ 0 ] ] ;
2010-01-13 03:59:19 +02:00
for ( y = 0 ; y < 4 ; y + + ) {
2010-01-25 02:30:44 +02:00
AV_COPY128 ( mv_dst + y * b_stride , mv_src + 8 * y ) ;
2010-01-13 03:59:19 +02:00
}
2010-01-16 07:41:33 +02:00
if ( CABAC ) {
2010-02-25 06:11:33 +02:00
uint8_t ( * mvd_dst ) [ 2 ] = & h - > mvd_table [ list ] [ FMO ? 8 * h - > mb_xy : h - > mb2br_xy [ h - > mb_xy ] ] ;
2010-02-24 22:43:06 +02:00
uint8_t ( * mvd_src ) [ 2 ] = & h - > mvd_cache [ list ] [ scan8 [ 0 ] ] ;
2010-01-13 03:59:19 +02:00
if ( IS_SKIP ( mb_type ) )
2010-02-25 06:11:33 +02:00
AV_ZERO128 ( mvd_dst ) ;
else {
AV_COPY64 ( mvd_dst , mvd_src + 8 * 3 ) ;
2010-02-25 14:51:32 +02:00
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 ) ;
2010-01-13 03:59:19 +02:00
}
}
{
int8_t * ref_index = & s - > current_picture . ref_index [ list ] [ b8_xy ] ;
2010-02-26 01:44:42 +02:00
ref_index [ 0 + 0 * 2 ] = h - > ref_cache [ list ] [ scan8 [ 0 ] ] ;
ref_index [ 1 + 0 * 2 ] = h - > ref_cache [ list ] [ scan8 [ 4 ] ] ;
ref_index [ 0 + 1 * 2 ] = h - > ref_cache [ list ] [ scan8 [ 8 ] ] ;
ref_index [ 1 + 1 * 2 ] = h - > ref_cache [ list ] [ scan8 [ 12 ] ] ;
2010-01-13 03:59:19 +02:00
}
}
2010-01-16 07:41:33 +02:00
if ( h - > slice_type_nos = = FF_B_TYPE & & CABAC ) {
2010-01-13 03:59:19 +02:00
if ( IS_8X8 ( mb_type ) ) {
2010-02-25 17:27:55 +02:00
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 ;
2010-01-13 03:59:19 +02:00
}
}
}
static inline int get_dct8x8_allowed ( H264Context * h ) {
if ( h - > sps . direct_8x8_inference_flag )
2010-02-18 18:24:31 +02:00
return ! ( AV_RN64A ( h - > sub_mb_type ) & ( ( MB_TYPE_16x8 | MB_TYPE_8x16 | MB_TYPE_8x8 ) * 0x0001000100010001ULL ) ) ;
2010-01-13 03:59:19 +02:00
else
2010-02-18 18:24:31 +02:00
return ! ( AV_RN64A ( h - > sub_mb_type ) & ( ( MB_TYPE_16x8 | MB_TYPE_8x16 | MB_TYPE_8x8 | MB_TYPE_DIRECT2 ) * 0x0001000100010001ULL ) ) ;
2010-01-13 03:59:19 +02:00
}
/**
* decodes a P_SKIP or B_SKIP macroblock
*/
static void decode_mb_skip ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int mb_xy = h - > mb_xy ;
int mb_type = 0 ;
2010-01-17 22:35:55 +02:00
memset ( h - > non_zero_count [ mb_xy ] , 0 , 32 ) ;
2010-01-13 03:59:19 +02:00
memset ( h - > non_zero_count_cache + 8 , 0 , 8 * 5 ) ; //FIXME ugly, remove pfui
if ( MB_FIELD )
mb_type | = MB_TYPE_INTERLACED ;
if ( h - > slice_type_nos = = FF_B_TYPE )
{
// just for fill_caches. pred_direct_motion will set the real mb_type
2010-02-13 17:57:49 +02:00
mb_type | = MB_TYPE_L0L1 | MB_TYPE_DIRECT2 | MB_TYPE_SKIP ;
2010-02-16 00:07:02 +02:00
if ( h - > direct_spatial_mv_pred ) {
fill_decode_neighbors ( h , mb_type ) ;
2010-01-17 23:43:08 +02:00
fill_decode_caches ( h , mb_type ) ; //FIXME check what is needed and what not ...
2010-02-16 00:07:02 +02:00
}
2010-01-13 03:59:19 +02:00
ff_h264_pred_direct_motion ( h , & mb_type ) ;
mb_type | = MB_TYPE_SKIP ;
}
else
{
int mx , my ;
mb_type | = MB_TYPE_16x16 | MB_TYPE_P0L0 | MB_TYPE_P1L0 | MB_TYPE_SKIP ;
2010-02-16 00:07:02 +02:00
fill_decode_neighbors ( h , mb_type ) ;
2010-01-17 23:43:08 +02:00
fill_decode_caches ( h , mb_type ) ; //FIXME check what is needed and what not ...
2010-01-13 03:59:19 +02:00
pred_pskip_motion ( h , & mx , & my ) ;
fill_rectangle ( & h - > ref_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 1 ) ;
fill_rectangle ( h - > mv_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mx , my ) , 4 ) ;
}
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 ;
}
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# include "h264_mvpred.h" //For pred_pskip_motion()
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# endif /* AVCODEC_H264_H */