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/*
* H .26 L / H .264 / AVC / JVT / 14496 - 10 / . . . encoder / decoder
* Copyright ( c ) 2003 Michael Niedermayer < michaelni @ gmx . at >
*
* This library is free software ; you can redistribute it and / or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation ; either
* version 2 of the License , or ( at your option ) any later version .
*
* This library is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the GNU
* Lesser General Public License for more details .
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library ; if not , write to the Free Software
* Foundation , Inc . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307 USA
*
*/
/**
* @ file h264 . c
* H .264 / AVC / MPEG4 part10 codec .
* @ author Michael Niedermayer < michaelni @ gmx . at >
*/
# include "common.h"
# include "dsputil.h"
# include "avcodec.h"
# include "mpegvideo.h"
# include "h264data.h"
# include "golomb.h"
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# include "cabac.h"
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# undef NDEBUG
# include <assert.h>
# define interlaced_dct interlaced_dct_is_a_bad_name
# define mb_intra mb_intra_isnt_initalized_see_mb_type
# 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
/**
* Sequence parameter set
*/
typedef struct SPS {
int profile_idc ;
int level_idc ;
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
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int gaps_in_frame_num_allowed_flag ;
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int mb_width ; ///< frame_width_in_mbs_minus1 + 1
int mb_height ; ///< frame_height_in_mbs_minus1 + 1
int frame_mbs_only_flag ;
int mb_aff ; ///<mb_adaptive_frame_field_flag
int direct_8x8_inference_flag ;
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int crop ; ///< frame_cropping_flag
int crop_left ; ///< frame_cropping_rect_left_offset
int crop_right ; ///< frame_cropping_rect_right_offset
int crop_top ; ///< frame_cropping_rect_top_offset
int crop_bottom ; ///< frame_cropping_rect_bottom_offset
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int vui_parameters_present_flag ;
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AVRational sar ;
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int timing_info_present_flag ;
uint32_t num_units_in_tick ;
uint32_t time_scale ;
int fixed_frame_rate_flag ;
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short offset_for_ref_frame [ 256 ] ; //FIXME dyn aloc?
} SPS ;
/**
* Picture parameter set
*/
typedef struct PPS {
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 ;
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 ;
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
} 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_frame_num ;
int long_index ;
} MMCO ;
/**
* H264Context
*/
typedef struct H264Context {
MpegEncContext s ;
int nal_ref_idc ;
int nal_unit_type ;
# define NAL_SLICE 1
# define NAL_DPA 2
# define NAL_DPB 3
# define NAL_DPC 4
# define NAL_IDR_SLICE 5
# define NAL_SEI 6
# define NAL_SPS 7
# define NAL_PPS 8
# define NAL_PICTURE_DELIMITER 9
# define NAL_FILTER_DATA 10
uint8_t * rbsp_buffer ;
int rbsp_buffer_size ;
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/**
* Used to parse AVC variant of h264
*/
int is_avc ; ///< this flag is != 0 if codec is avc1
int got_avcC ; ///< flag used to parse avcC data only once
int nal_length_size ; ///< Number of bytes used for nal length (1, 2 or 4)
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int chroma_qp ; //QPc
int prev_mb_skiped ; //FIXME remove (IMHO not used)
//prediction stuff
int chroma_pred_mode ;
int intra16x16_pred_mode ;
int8_t intra4x4_pred_mode_cache [ 5 * 8 ] ;
int8_t ( * intra4x4_pred_mode ) [ 8 ] ;
void ( * pred4x4 [ 9 + 3 ] ) ( uint8_t * src , uint8_t * topright , int stride ) ; //FIXME move to dsp?
void ( * pred8x8 [ 4 + 3 ] ) ( uint8_t * src , int stride ) ;
void ( * pred16x16 [ 4 + 3 ] ) ( uint8_t * src , int stride ) ;
unsigned int topleft_samples_available ;
unsigned int top_samples_available ;
unsigned int topright_samples_available ;
unsigned int left_samples_available ;
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uint8_t ( * top_border ) [ 16 + 2 * 8 ] ;
uint8_t left_border [ 17 + 2 * 9 ] ;
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/**
* non zero coeff count cache .
* is 64 if not available .
*/
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uint8_t non_zero_count_cache [ 6 * 8 ] __align8 ;
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uint8_t ( * non_zero_count ) [ 16 ] ;
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/**
* Motion vector cache .
*/
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int16_t mv_cache [ 2 ] [ 5 * 8 ] [ 2 ] __align8 ;
int8_t ref_cache [ 2 ] [ 5 * 8 ] __align8 ;
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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 ] ;
int block_offset [ 16 + 8 ] ;
int chroma_subblock_offset [ 16 ] ; //FIXME remove
uint16_t * mb2b_xy ; //FIXME are these 4 a good idea?
uint16_t * mb2b8_xy ;
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int b_stride ; //FIXME use s->b4_stride
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int b8_stride ;
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int halfpel_flag ;
int thirdpel_flag ;
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int unknown_svq3_flag ;
int next_slice_index ;
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SPS sps_buffer [ MAX_SPS_COUNT ] ;
SPS sps ; ///< current sps
PPS pps_buffer [ MAX_PPS_COUNT ] ;
/**
* current pps
*/
PPS pps ; //FIXME move tp Picture perhaps? (->no) do we need that?
int slice_num ;
uint8_t * slice_table_base ;
uint8_t * slice_table ; ///< slice_table_base + mb_stride + 1
int slice_type ;
int slice_type_fixed ;
//interlacing specific flags
int mb_field_decoding_flag ;
int sub_mb_type [ 4 ] ;
//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 for field pics .
*/
int curr_pic_num ;
/**
* max_frame_num or 2 * max_frame_num for field pics .
*/
int max_pic_num ;
//Weighted pred stuff
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int use_weight ;
int use_weight_chroma ;
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int luma_log2_weight_denom ;
int chroma_log2_weight_denom ;
int luma_weight [ 2 ] [ 16 ] ;
int luma_offset [ 2 ] [ 16 ] ;
int chroma_weight [ 2 ] [ 16 ] [ 2 ] ;
int chroma_offset [ 2 ] [ 16 ] [ 2 ] ;
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int implicit_weight [ 16 ] [ 16 ] ;
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//deblock
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int deblocking_filter ; ///< disable_deblocking_filter_idc with 1<->0
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int slice_alpha_c0_offset ;
int slice_beta_offset ;
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int redundant_pic_count ;
int direct_spatial_mv_pred ;
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int dist_scale_factor [ 16 ] ;
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/**
* num_ref_idx_l0 / 1 _active_minus1 + 1
*/
int ref_count [ 2 ] ; // FIXME split for AFF
Picture * short_ref [ 16 ] ;
Picture * long_ref [ 16 ] ;
Picture default_ref_list [ 2 ] [ 32 ] ;
Picture ref_list [ 2 ] [ 32 ] ; //FIXME size?
Picture field_ref_list [ 2 ] [ 32 ] ; //FIXME size?
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Picture * delayed_pic [ 16 ] ; //FIXME size?
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/**
* 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
//data partitioning
GetBitContext intra_gb ;
GetBitContext inter_gb ;
GetBitContext * intra_gb_ptr ;
GetBitContext * inter_gb_ptr ;
DCTELEM mb [ 16 * 24 ] __align8 ;
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/**
* Cabac
*/
CABACContext cabac ;
uint8_t cabac_state [ 399 ] ;
int cabac_init_idc ;
/* 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 ;
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int top_cbp ;
int left_cbp ;
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/* chroma_pred_mode for i4x4 or i16x16, else 0 */
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uint8_t * chroma_pred_mode_table ;
int last_qscale_diff ;
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int16_t ( * mvd_table [ 2 ] ) [ 2 ] ;
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int16_t mvd_cache [ 2 ] [ 5 * 8 ] [ 2 ] __align8 ;
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uint8_t * direct_table ;
uint8_t direct_cache [ 5 * 8 ] ;
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} H264Context ;
static VLC coeff_token_vlc [ 4 ] ;
static VLC chroma_dc_coeff_token_vlc ;
static VLC total_zeros_vlc [ 15 ] ;
static VLC chroma_dc_total_zeros_vlc [ 3 ] ;
static VLC run_vlc [ 6 ] ;
static VLC run7_vlc ;
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static void svq3_luma_dc_dequant_idct_c ( DCTELEM * block , int qp ) ;
static void svq3_add_idct_c ( uint8_t * dst , DCTELEM * block , int stride , int qp , int dc ) ;
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static void filter_mb ( H264Context * h , int mb_x , int mb_y , uint8_t * img_y , uint8_t * img_cb , uint8_t * img_cr ) ;
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static inline uint32_t pack16to32 ( int a , int b ) {
# ifdef WORDS_BIGENDIAN
return ( b & 0xFFFF ) + ( a < < 16 ) ;
# else
return ( a & 0xFFFF ) + ( b < < 16 ) ;
# endif
}
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/**
* fill a rectangle .
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* @ param h height of the rectangle , should be a constant
* @ param w width of the rectangle , should be a constant
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* @ param size the size of val ( 1 or 4 ) , should be a constant
*/
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static inline void fill_rectangle ( void * vp , int w , int h , int stride , uint32_t val , int size ) { //FIXME ensure this IS inlined
uint8_t * p = ( uint8_t * ) vp ;
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assert ( size = = 1 | | size = = 4 ) ;
w * = size ;
stride * = size ;
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assert ( ( ( ( int ) vp ) & ( FFMIN ( w , STRIDE_ALIGN ) - 1 ) ) = = 0 ) ;
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//FIXME check what gcc generates for 64 bit on x86 and possible write a 32 bit ver of it
if ( w = = 2 & & h = = 2 ) {
* ( uint16_t * ) ( p + 0 ) =
* ( uint16_t * ) ( p + stride ) = size = = 4 ? val : val * 0x0101 ;
} else if ( w = = 2 & & h = = 4 ) {
* ( uint16_t * ) ( p + 0 * stride ) =
* ( uint16_t * ) ( p + 1 * stride ) =
* ( uint16_t * ) ( p + 2 * stride ) =
* ( uint16_t * ) ( p + 3 * stride ) = size = = 4 ? val : val * 0x0101 ;
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} else if ( w = = 4 & & h = = 1 ) {
* ( uint32_t * ) ( p + 0 * stride ) = size = = 4 ? val : val * 0x01010101 ;
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} else if ( w = = 4 & & h = = 2 ) {
* ( uint32_t * ) ( p + 0 * stride ) =
* ( uint32_t * ) ( p + 1 * stride ) = size = = 4 ? val : val * 0x01010101 ;
} else if ( w = = 4 & & h = = 4 ) {
* ( uint32_t * ) ( p + 0 * stride ) =
* ( uint32_t * ) ( p + 1 * stride ) =
* ( uint32_t * ) ( p + 2 * stride ) =
* ( uint32_t * ) ( p + 3 * stride ) = size = = 4 ? val : val * 0x01010101 ;
} else if ( w = = 8 & & h = = 1 ) {
* ( uint32_t * ) ( p + 0 ) =
* ( uint32_t * ) ( p + 4 ) = size = = 4 ? val : val * 0x01010101 ;
} else if ( w = = 8 & & h = = 2 ) {
* ( uint32_t * ) ( p + 0 + 0 * stride ) =
* ( uint32_t * ) ( p + 4 + 0 * stride ) =
* ( uint32_t * ) ( p + 0 + 1 * stride ) =
* ( uint32_t * ) ( p + 4 + 1 * stride ) = size = = 4 ? val : val * 0x01010101 ;
} else if ( w = = 8 & & h = = 4 ) {
* ( uint64_t * ) ( p + 0 * stride ) =
* ( uint64_t * ) ( p + 1 * stride ) =
* ( uint64_t * ) ( p + 2 * stride ) =
* ( uint64_t * ) ( p + 3 * stride ) = size = = 4 ? val * 0x0100000001ULL : val * 0x0101010101010101ULL ;
} else if ( w = = 16 & & h = = 2 ) {
* ( uint64_t * ) ( p + 0 + 0 * stride ) =
* ( uint64_t * ) ( p + 8 + 0 * stride ) =
* ( uint64_t * ) ( p + 0 + 1 * stride ) =
* ( uint64_t * ) ( p + 8 + 1 * stride ) = size = = 4 ? val * 0x0100000001ULL : val * 0x0101010101010101ULL ;
} else if ( w = = 16 & & h = = 4 ) {
* ( uint64_t * ) ( p + 0 + 0 * stride ) =
* ( uint64_t * ) ( p + 8 + 0 * stride ) =
* ( uint64_t * ) ( p + 0 + 1 * stride ) =
* ( uint64_t * ) ( p + 8 + 1 * stride ) =
* ( uint64_t * ) ( p + 0 + 2 * stride ) =
* ( uint64_t * ) ( p + 8 + 2 * stride ) =
* ( uint64_t * ) ( p + 0 + 3 * stride ) =
* ( uint64_t * ) ( p + 8 + 3 * stride ) = size = = 4 ? val * 0x0100000001ULL : val * 0x0101010101010101ULL ;
} else
assert ( 0 ) ;
}
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static inline void fill_caches ( H264Context * h , int mb_type , int for_deblock ) {
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MpegEncContext * const s = & h - > s ;
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const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
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int topleft_xy , top_xy , topright_xy , left_xy [ 2 ] ;
int topleft_type , top_type , topright_type , left_type [ 2 ] ;
int left_block [ 4 ] ;
int i ;
//wow what a mess, why didnt they simplify the interlacing&intra stuff, i cant imagine that these complex rules are worth it
if ( h - > sps . mb_aff ) {
//FIXME
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topleft_xy = 0 ; /* avoid warning */
top_xy = 0 ; /* avoid warning */
topright_xy = 0 ; /* avoid warning */
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} else {
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topleft_xy = mb_xy - 1 - s - > mb_stride ;
top_xy = mb_xy - s - > mb_stride ;
topright_xy = mb_xy + 1 - s - > mb_stride ;
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left_xy [ 0 ] = mb_xy - 1 ;
left_xy [ 1 ] = mb_xy - 1 ;
left_block [ 0 ] = 0 ;
left_block [ 1 ] = 1 ;
left_block [ 2 ] = 2 ;
left_block [ 3 ] = 3 ;
}
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if ( for_deblock ) {
topleft_type = h - > slice_table [ topleft_xy ] < 255 ? s - > current_picture . mb_type [ topleft_xy ] : 0 ;
top_type = h - > slice_table [ top_xy ] < 255 ? s - > current_picture . mb_type [ top_xy ] : 0 ;
topright_type = h - > slice_table [ topright_xy ] < 255 ? s - > current_picture . mb_type [ topright_xy ] : 0 ;
left_type [ 0 ] = h - > slice_table [ left_xy [ 0 ] ] < 255 ? s - > current_picture . mb_type [ left_xy [ 0 ] ] : 0 ;
left_type [ 1 ] = h - > slice_table [ left_xy [ 1 ] ] < 255 ? s - > current_picture . mb_type [ left_xy [ 1 ] ] : 0 ;
} else {
topleft_type = h - > slice_table [ topleft_xy ] = = h - > slice_num ? s - > current_picture . mb_type [ topleft_xy ] : 0 ;
top_type = h - > slice_table [ top_xy ] = = h - > slice_num ? s - > current_picture . mb_type [ top_xy ] : 0 ;
topright_type = h - > slice_table [ topright_xy ] = = h - > slice_num ? s - > current_picture . mb_type [ topright_xy ] : 0 ;
left_type [ 0 ] = h - > slice_table [ left_xy [ 0 ] ] = = h - > slice_num ? s - > current_picture . mb_type [ left_xy [ 0 ] ] : 0 ;
left_type [ 1 ] = h - > slice_table [ left_xy [ 1 ] ] = = h - > slice_num ? s - > current_picture . mb_type [ left_xy [ 1 ] ] : 0 ;
}
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if ( IS_INTRA ( mb_type ) ) {
h - > topleft_samples_available =
h - > top_samples_available =
h - > left_samples_available = 0xFFFF ;
h - > topright_samples_available = 0xEEEA ;
if ( ! IS_INTRA ( top_type ) & & ( top_type = = 0 | | h - > pps . constrained_intra_pred ) ) {
h - > topleft_samples_available = 0xB3FF ;
h - > top_samples_available = 0x33FF ;
h - > topright_samples_available = 0x26EA ;
}
for ( i = 0 ; i < 2 ; i + + ) {
if ( ! IS_INTRA ( left_type [ i ] ) & & ( left_type [ i ] = = 0 | | h - > pps . constrained_intra_pred ) ) {
h - > topleft_samples_available & = 0xDF5F ;
h - > left_samples_available & = 0x5F5F ;
}
}
if ( ! IS_INTRA ( topleft_type ) & & ( topleft_type = = 0 | | h - > pps . constrained_intra_pred ) )
h - > topleft_samples_available & = 0x7FFF ;
if ( ! IS_INTRA ( topright_type ) & & ( topright_type = = 0 | | h - > pps . constrained_intra_pred ) )
h - > topright_samples_available & = 0xFBFF ;
if ( IS_INTRA4x4 ( mb_type ) ) {
if ( IS_INTRA4x4 ( top_type ) ) {
h - > intra4x4_pred_mode_cache [ 4 + 8 * 0 ] = h - > intra4x4_pred_mode [ top_xy ] [ 4 ] ;
h - > intra4x4_pred_mode_cache [ 5 + 8 * 0 ] = h - > intra4x4_pred_mode [ top_xy ] [ 5 ] ;
h - > intra4x4_pred_mode_cache [ 6 + 8 * 0 ] = h - > intra4x4_pred_mode [ top_xy ] [ 6 ] ;
h - > intra4x4_pred_mode_cache [ 7 + 8 * 0 ] = h - > intra4x4_pred_mode [ top_xy ] [ 3 ] ;
} else {
int pred ;
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if ( ! top_type | | ( IS_INTER ( top_type ) & & h - > pps . constrained_intra_pred ) )
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pred = - 1 ;
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else {
pred = 2 ;
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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 ] =
h - > intra4x4_pred_mode_cache [ 7 + 8 * 0 ] = pred ;
}
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_INTRA4x4 ( left_type [ i ] ) ) {
h - > intra4x4_pred_mode_cache [ 3 + 8 * 1 + 2 * 8 * i ] = h - > intra4x4_pred_mode [ left_xy [ i ] ] [ left_block [ 0 + 2 * i ] ] ;
h - > intra4x4_pred_mode_cache [ 3 + 8 * 2 + 2 * 8 * i ] = h - > intra4x4_pred_mode [ left_xy [ i ] ] [ left_block [ 1 + 2 * i ] ] ;
} else {
int pred ;
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if ( ! left_type [ i ] | | ( IS_INTER ( left_type [ i ] ) & & h - > pps . constrained_intra_pred ) )
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pred = - 1 ;
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else {
pred = 2 ;
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}
h - > intra4x4_pred_mode_cache [ 3 + 8 * 1 + 2 * 8 * i ] =
h - > intra4x4_pred_mode_cache [ 3 + 8 * 2 + 2 * 8 * i ] = pred ;
}
}
}
}
/*
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 (lets hope this is just a typo in the spec)
if ( top_type ) {
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h - > non_zero_count_cache [ 4 + 8 * 0 ] = h - > non_zero_count [ top_xy ] [ 0 ] ;
h - > non_zero_count_cache [ 5 + 8 * 0 ] = h - > non_zero_count [ top_xy ] [ 1 ] ;
h - > non_zero_count_cache [ 6 + 8 * 0 ] = h - > non_zero_count [ top_xy ] [ 2 ] ;
h - > non_zero_count_cache [ 7 + 8 * 0 ] = h - > non_zero_count [ top_xy ] [ 3 ] ;
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h - > non_zero_count_cache [ 1 + 8 * 0 ] = h - > non_zero_count [ top_xy ] [ 7 ] ;
h - > non_zero_count_cache [ 2 + 8 * 0 ] = h - > non_zero_count [ top_xy ] [ 8 ] ;
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h - > non_zero_count_cache [ 1 + 8 * 3 ] = h - > non_zero_count [ top_xy ] [ 10 ] ;
h - > non_zero_count_cache [ 2 + 8 * 3 ] = h - > non_zero_count [ top_xy ] [ 11 ] ;
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h - > top_cbp = h - > cbp_table [ top_xy ] ;
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} else {
h - > non_zero_count_cache [ 4 + 8 * 0 ] =
h - > non_zero_count_cache [ 5 + 8 * 0 ] =
h - > non_zero_count_cache [ 6 + 8 * 0 ] =
h - > non_zero_count_cache [ 7 + 8 * 0 ] =
h - > non_zero_count_cache [ 1 + 8 * 0 ] =
h - > non_zero_count_cache [ 2 + 8 * 0 ] =
h - > non_zero_count_cache [ 1 + 8 * 3 ] =
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h - > non_zero_count_cache [ 2 + 8 * 3 ] = h - > pps . cabac & & ! IS_INTRA ( mb_type ) ? 0 : 64 ;
if ( IS_INTRA ( mb_type ) ) h - > top_cbp = 0x1C0 ;
else h - > top_cbp = 0 ;
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}
if ( left_type [ 0 ] ) {
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h - > non_zero_count_cache [ 3 + 8 * 1 ] = h - > non_zero_count [ left_xy [ 0 ] ] [ 6 ] ;
h - > non_zero_count_cache [ 3 + 8 * 2 ] = h - > non_zero_count [ left_xy [ 0 ] ] [ 5 ] ;
h - > non_zero_count_cache [ 0 + 8 * 1 ] = h - > non_zero_count [ left_xy [ 0 ] ] [ 9 ] ; //FIXME left_block
h - > non_zero_count_cache [ 0 + 8 * 4 ] = h - > non_zero_count [ left_xy [ 0 ] ] [ 12 ] ;
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h - > left_cbp = h - > cbp_table [ left_xy [ 0 ] ] ; //FIXME interlacing
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} else {
h - > non_zero_count_cache [ 3 + 8 * 1 ] =
h - > non_zero_count_cache [ 3 + 8 * 2 ] =
h - > non_zero_count_cache [ 0 + 8 * 1 ] =
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h - > non_zero_count_cache [ 0 + 8 * 4 ] = h - > pps . cabac & & ! IS_INTRA ( mb_type ) ? 0 : 64 ;
if ( IS_INTRA ( mb_type ) ) h - > left_cbp = 0x1C0 ; //FIXME interlacing
else h - > left_cbp = 0 ;
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}
if ( left_type [ 1 ] ) {
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h - > non_zero_count_cache [ 3 + 8 * 3 ] = h - > non_zero_count [ left_xy [ 1 ] ] [ 4 ] ;
h - > non_zero_count_cache [ 3 + 8 * 4 ] = h - > non_zero_count [ left_xy [ 1 ] ] [ 3 ] ;
h - > non_zero_count_cache [ 0 + 8 * 2 ] = h - > non_zero_count [ left_xy [ 1 ] ] [ 8 ] ;
h - > non_zero_count_cache [ 0 + 8 * 5 ] = h - > non_zero_count [ left_xy [ 1 ] ] [ 11 ] ;
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} else {
h - > non_zero_count_cache [ 3 + 8 * 3 ] =
h - > non_zero_count_cache [ 3 + 8 * 4 ] =
h - > non_zero_count_cache [ 0 + 8 * 2 ] =
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h - > non_zero_count_cache [ 0 + 8 * 5 ] = h - > pps . cabac & & ! IS_INTRA ( mb_type ) ? 0 : 64 ;
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}
# if 1
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//FIXME direct mb can skip much of this
if ( IS_INTER ( mb_type ) | | ( IS_DIRECT ( mb_type ) & & h - > direct_spatial_mv_pred ) ) {
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int list ;
for ( list = 0 ; list < 2 ; list + + ) {
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if ( ( ! IS_8X8 ( mb_type ) ) & & ! USES_LIST ( mb_type , list ) & & ! IS_DIRECT ( mb_type ) ) {
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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 ;
} */
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continue ;
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}
h - > mv_cache_clean [ list ] = 0 ;
if ( IS_INTER ( topleft_type ) ) {
const int b_xy = h - > mb2b_xy [ topleft_xy ] + 3 + 3 * h - > b_stride ;
const int b8_xy = h - > mb2b8_xy [ topleft_xy ] + 1 + h - > b8_stride ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] = * ( uint32_t * ) 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 {
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] = 0 ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] = topleft_type ? LIST_NOT_USED : PART_NOT_AVAILABLE ;
}
if ( IS_INTER ( top_type ) ) {
const int b_xy = h - > mb2b_xy [ top_xy ] + 3 * h - > b_stride ;
const int b8_xy = h - > mb2b8_xy [ top_xy ] + h - > b8_stride ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy + 0 ] ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 1 - 1 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy + 1 ] ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 2 - 1 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy + 2 ] ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 3 - 1 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy + 3 ] ;
h - > ref_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] =
h - > ref_cache [ list ] [ scan8 [ 0 ] + 1 - 1 * 8 ] = s - > current_picture . ref_index [ list ] [ b8_xy + 0 ] ;
h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 - 1 * 8 ] =
h - > ref_cache [ list ] [ scan8 [ 0 ] + 3 - 1 * 8 ] = s - > current_picture . ref_index [ list ] [ b8_xy + 1 ] ;
} else {
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] =
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 1 - 1 * 8 ] =
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 2 - 1 * 8 ] =
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 3 - 1 * 8 ] = 0 ;
* ( uint32_t * ) & h - > ref_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] = ( ( top_type ? LIST_NOT_USED : PART_NOT_AVAILABLE ) & 0xFF ) * 0x01010101 ;
}
if ( IS_INTER ( topright_type ) ) {
const int b_xy = h - > mb2b_xy [ topright_xy ] + 3 * h - > b_stride ;
const int b8_xy = h - > mb2b8_xy [ topright_xy ] + h - > b8_stride ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy ] ;
h - > ref_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] = s - > current_picture . ref_index [ list ] [ b8_xy ] ;
} else {
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] = 0 ;
h - > ref_cache [ list ] [ scan8 [ 0 ] + 4 - 1 * 8 ] = topright_type ? LIST_NOT_USED : PART_NOT_AVAILABLE ;
}
//FIXME unify cleanup or sth
if ( IS_INTER ( left_type [ 0 ] ) ) {
const int b_xy = h - > mb2b_xy [ left_xy [ 0 ] ] + 3 ;
const int b8_xy = h - > mb2b8_xy [ left_xy [ 0 ] ] + 1 ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 + 0 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy + h - > b_stride * left_block [ 0 ] ] ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 + 1 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy + h - > b_stride * left_block [ 1 ] ] ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 + 0 * 8 ] =
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 + 1 * 8 ] = s - > current_picture . ref_index [ list ] [ b8_xy + h - > b8_stride * ( left_block [ 0 ] > > 1 ) ] ;
} else {
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 + 0 * 8 ] =
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 + 1 * 8 ] = 0 ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 + 0 * 8 ] =
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 + 1 * 8 ] = left_type [ 0 ] ? LIST_NOT_USED : PART_NOT_AVAILABLE ;
}
if ( IS_INTER ( left_type [ 1 ] ) ) {
const int b_xy = h - > mb2b_xy [ left_xy [ 1 ] ] + 3 ;
const int b8_xy = h - > mb2b8_xy [ left_xy [ 1 ] ] + 1 ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 + 2 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy + h - > b_stride * left_block [ 2 ] ] ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 + 3 * 8 ] = * ( uint32_t * ) s - > current_picture . motion_val [ list ] [ b_xy + h - > b_stride * left_block [ 3 ] ] ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 + 2 * 8 ] =
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 + 3 * 8 ] = s - > current_picture . ref_index [ list ] [ b8_xy + h - > b8_stride * ( left_block [ 2 ] > > 1 ) ] ;
} else {
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 + 2 * 8 ] =
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 + 3 * 8 ] = 0 ;
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 + 2 * 8 ] =
h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 + 3 * 8 ] = left_type [ 0 ] ? LIST_NOT_USED : PART_NOT_AVAILABLE ;
}
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if ( for_deblock )
continue ;
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h - > ref_cache [ list ] [ scan8 [ 5 ] + 1 ] =
h - > ref_cache [ list ] [ scan8 [ 7 ] + 1 ] =
h - > ref_cache [ list ] [ scan8 [ 13 ] + 1 ] = //FIXME remove past 3 (init somewher else)
h - > ref_cache [ list ] [ scan8 [ 4 ] ] =
h - > ref_cache [ list ] [ scan8 [ 12 ] ] = PART_NOT_AVAILABLE ;
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 5 ] + 1 ] =
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 7 ] + 1 ] =
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 13 ] + 1 ] = //FIXME remove past 3 (init somewher else)
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 4 ] ] =
* ( uint32_t * ) h - > mv_cache [ list ] [ scan8 [ 12 ] ] = 0 ;
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if ( h - > pps . cabac ) {
/* XXX beurk, Load mvd */
if ( IS_INTER ( topleft_type ) ) {
const int b_xy = h - > mb2b_xy [ topleft_xy ] + 3 + 3 * h - > b_stride ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy ] ;
} else {
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 - 1 * 8 ] = 0 ;
}
if ( IS_INTER ( top_type ) ) {
const int b_xy = h - > mb2b_xy [ top_xy ] + 3 * h - > b_stride ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy + 0 ] ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 1 - 1 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy + 1 ] ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 2 - 1 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy + 2 ] ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 3 - 1 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy + 3 ] ;
} else {
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 0 - 1 * 8 ] =
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 1 - 1 * 8 ] =
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 2 - 1 * 8 ] =
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 3 - 1 * 8 ] = 0 ;
}
if ( IS_INTER ( left_type [ 0 ] ) ) {
const int b_xy = h - > mb2b_xy [ left_xy [ 0 ] ] + 3 ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 0 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy + h - > b_stride * left_block [ 0 ] ] ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 1 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy + h - > b_stride * left_block [ 1 ] ] ;
} else {
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 0 * 8 ] =
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 1 * 8 ] = 0 ;
}
if ( IS_INTER ( left_type [ 1 ] ) ) {
const int b_xy = h - > mb2b_xy [ left_xy [ 1 ] ] + 3 ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 2 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy + h - > b_stride * left_block [ 2 ] ] ;
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 3 * 8 ] = * ( uint32_t * ) h - > mvd_table [ list ] [ b_xy + h - > b_stride * left_block [ 3 ] ] ;
} else {
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 2 * 8 ] =
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] - 1 + 3 * 8 ] = 0 ;
}
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 5 ] + 1 ] =
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 7 ] + 1 ] =
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 13 ] + 1 ] = //FIXME remove past 3 (init somewher else)
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 4 ] ] =
* ( uint32_t * ) h - > mvd_cache [ list ] [ scan8 [ 12 ] ] = 0 ;
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if ( h - > slice_type = = B_TYPE ) {
fill_rectangle ( & h - > direct_cache [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 1 ) ;
if ( IS_DIRECT ( top_type ) ) {
* ( uint32_t * ) & h - > direct_cache [ scan8 [ 0 ] - 1 * 8 ] = 0x01010101 ;
} else if ( IS_8X8 ( top_type ) ) {
int b8_xy = h - > mb2b8_xy [ top_xy ] + h - > b8_stride ;
h - > direct_cache [ scan8 [ 0 ] + 0 - 1 * 8 ] = h - > direct_table [ b8_xy ] ;
h - > direct_cache [ scan8 [ 0 ] + 2 - 1 * 8 ] = h - > direct_table [ b8_xy + 1 ] ;
} else {
* ( uint32_t * ) & h - > direct_cache [ scan8 [ 0 ] - 1 * 8 ] = 0 ;
}
//FIXME interlacing
if ( IS_DIRECT ( left_type [ 0 ] ) ) {
h - > direct_cache [ scan8 [ 0 ] - 1 + 0 * 8 ] =
h - > direct_cache [ scan8 [ 0 ] - 1 + 2 * 8 ] = 1 ;
} else if ( IS_8X8 ( left_type [ 0 ] ) ) {
int b8_xy = h - > mb2b8_xy [ left_xy [ 0 ] ] + 1 ;
h - > direct_cache [ scan8 [ 0 ] - 1 + 0 * 8 ] = h - > direct_table [ b8_xy ] ;
h - > direct_cache [ scan8 [ 0 ] - 1 + 2 * 8 ] = h - > direct_table [ b8_xy + h - > b8_stride ] ;
} else {
h - > direct_cache [ scan8 [ 0 ] - 1 + 0 * 8 ] =
h - > direct_cache [ scan8 [ 0 ] - 1 + 2 * 8 ] = 0 ;
}
}
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}
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}
}
# endif
}
static inline void write_back_intra_pred_mode ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
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const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
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h - > intra4x4_pred_mode [ mb_xy ] [ 0 ] = h - > intra4x4_pred_mode_cache [ 7 + 8 * 1 ] ;
h - > intra4x4_pred_mode [ mb_xy ] [ 1 ] = h - > intra4x4_pred_mode_cache [ 7 + 8 * 2 ] ;
h - > intra4x4_pred_mode [ mb_xy ] [ 2 ] = h - > intra4x4_pred_mode_cache [ 7 + 8 * 3 ] ;
h - > intra4x4_pred_mode [ mb_xy ] [ 3 ] = h - > intra4x4_pred_mode_cache [ 7 + 8 * 4 ] ;
h - > intra4x4_pred_mode [ mb_xy ] [ 4 ] = h - > intra4x4_pred_mode_cache [ 4 + 8 * 4 ] ;
h - > intra4x4_pred_mode [ mb_xy ] [ 5 ] = h - > intra4x4_pred_mode_cache [ 5 + 8 * 4 ] ;
h - > intra4x4_pred_mode [ mb_xy ] [ 6 ] = h - > intra4x4_pred_mode_cache [ 6 + 8 * 4 ] ;
}
/**
* checks if the top & left blocks are available if needed & changes the dc mode so it only uses the available blocks .
*/
static inline int check_intra4x4_pred_mode ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
static const int8_t top [ 12 ] = { - 1 , 0 , LEFT_DC_PRED , - 1 , - 1 , - 1 , - 1 , - 1 , 0 } ;
static const int8_t left [ 12 ] = { 0 , - 1 , TOP_DC_PRED , 0 , - 1 , - 1 , - 1 , 0 , - 1 , DC_128_PRED } ;
int i ;
if ( ! ( h - > top_samples_available & 0x8000 ) ) {
for ( i = 0 ; i < 4 ; i + + ) {
int status = top [ h - > intra4x4_pred_mode_cache [ scan8 [ 0 ] + i ] ] ;
if ( status < 0 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " top block unavailable for requested intra4x4 mode %d at %d %d \n " , status , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
} else if ( status ) {
h - > intra4x4_pred_mode_cache [ scan8 [ 0 ] + i ] = status ;
}
}
}
if ( ! ( h - > left_samples_available & 0x8000 ) ) {
for ( i = 0 ; i < 4 ; i + + ) {
int status = left [ h - > intra4x4_pred_mode_cache [ scan8 [ 0 ] + 8 * i ] ] ;
if ( status < 0 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " left block unavailable for requested intra4x4 mode %d at %d %d \n " , status , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
} else if ( status ) {
h - > intra4x4_pred_mode_cache [ scan8 [ 0 ] + 8 * i ] = status ;
}
}
}
return 0 ;
} //FIXME cleanup like next
/**
* checks if the top & left blocks are available if needed & changes the dc mode so it only uses the available blocks .
*/
static inline int check_intra_pred_mode ( H264Context * h , int mode ) {
MpegEncContext * const s = & h - > s ;
static const int8_t top [ 7 ] = { LEFT_DC_PRED8x8 , 1 , - 1 , - 1 } ;
static const int8_t left [ 7 ] = { TOP_DC_PRED8x8 , - 1 , 2 , - 1 , DC_128_PRED8x8 } ;
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if ( mode < 0 | | mode > 6 ) {
av_log ( h - > s . avctx , AV_LOG_ERROR , " out of range intra chroma pred mode at %d %d \n " , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
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}
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if ( ! ( h - > top_samples_available & 0x8000 ) ) {
mode = top [ mode ] ;
if ( mode < 0 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " top block unavailable for requested intra mode at %d %d \n " , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
}
}
if ( ! ( h - > left_samples_available & 0x8000 ) ) {
mode = left [ mode ] ;
if ( mode < 0 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " left block unavailable for requested intra mode at %d %d \n " , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
}
}
return mode ;
}
/**
* 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 ) ;
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tprintf ( " mode:%d %d min:%d \n " , left , top , min ) ;
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if ( min < 0 ) return DC_PRED ;
else return min ;
}
static inline void write_back_non_zero_count ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
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const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
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h - > non_zero_count [ mb_xy ] [ 0 ] = h - > non_zero_count_cache [ 4 + 8 * 4 ] ;
h - > non_zero_count [ mb_xy ] [ 1 ] = h - > non_zero_count_cache [ 5 + 8 * 4 ] ;
h - > non_zero_count [ mb_xy ] [ 2 ] = h - > non_zero_count_cache [ 6 + 8 * 4 ] ;
h - > non_zero_count [ mb_xy ] [ 3 ] = h - > non_zero_count_cache [ 7 + 8 * 4 ] ;
h - > non_zero_count [ mb_xy ] [ 4 ] = h - > non_zero_count_cache [ 7 + 8 * 3 ] ;
h - > non_zero_count [ mb_xy ] [ 5 ] = h - > non_zero_count_cache [ 7 + 8 * 2 ] ;
h - > non_zero_count [ mb_xy ] [ 6 ] = h - > non_zero_count_cache [ 7 + 8 * 1 ] ;
h - > non_zero_count [ mb_xy ] [ 7 ] = h - > non_zero_count_cache [ 1 + 8 * 2 ] ;
h - > non_zero_count [ mb_xy ] [ 8 ] = h - > non_zero_count_cache [ 2 + 8 * 2 ] ;
h - > non_zero_count [ mb_xy ] [ 9 ] = h - > non_zero_count_cache [ 2 + 8 * 1 ] ;
h - > non_zero_count [ mb_xy ] [ 10 ] = h - > non_zero_count_cache [ 1 + 8 * 5 ] ;
h - > non_zero_count [ mb_xy ] [ 11 ] = h - > non_zero_count_cache [ 2 + 8 * 5 ] ;
h - > non_zero_count [ mb_xy ] [ 12 ] = h - > non_zero_count_cache [ 2 + 8 * 4 ] ;
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}
/**
* gets the predicted number of non zero coefficients .
* @ param n block index
*/
static inline int pred_non_zero_count ( H264Context * h , int n ) {
const int index8 = scan8 [ n ] ;
const int left = h - > non_zero_count_cache [ index8 - 1 ] ;
const int top = h - > non_zero_count_cache [ index8 - 8 ] ;
int i = left + top ;
if ( i < 64 ) i = ( i + 1 ) > > 1 ;
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tprintf ( " pred_nnz L%X T%X n%d s%d P%X \n " , left , top , n , scan8 [ n ] , i & 31 ) ;
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return i & 31 ;
}
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static inline int fetch_diagonal_mv ( H264Context * h , const int16_t * * C , int i , int list , int part_width ) {
const int topright_ref = h - > ref_cache [ list ] [ i - 8 + part_width ] ;
if ( topright_ref ! = PART_NOT_AVAILABLE ) {
* C = h - > mv_cache [ list ] [ i - 8 + part_width ] ;
return topright_ref ;
} else {
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tprintf ( " topright MV not available \n " ) ;
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* C = h - > mv_cache [ list ] [ i - 8 - 1 ] ;
return h - > ref_cache [ list ] [ i - 8 - 1 ] ;
}
}
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/**
* gets the predicted MV .
* @ param n the block index
* @ param part_width the width of the partition ( 4 , 8 , 16 ) - > ( 1 , 2 , 4 )
* @ param mx the x component of the predicted motion vector
* @ param my the y component of the predicted motion vector
*/
static inline void pred_motion ( H264Context * const h , int n , int part_width , int list , int ref , int * const mx , int * const my ) {
const int index8 = scan8 [ n ] ;
const int top_ref = h - > ref_cache [ list ] [ index8 - 8 ] ;
const int left_ref = h - > ref_cache [ list ] [ index8 - 1 ] ;
const int16_t * const A = h - > mv_cache [ list ] [ index8 - 1 ] ;
const int16_t * const B = h - > mv_cache [ list ] [ index8 - 8 ] ;
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const int16_t * C ;
int diagonal_ref , match_count ;
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assert ( part_width = = 1 | | part_width = = 2 | | part_width = = 4 ) ;
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/* mv_cache
B . . A T T T T
U . . L . . , .
U . . L . . . .
U . . L . . , .
. . . L . . . .
*/
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diagonal_ref = fetch_diagonal_mv ( h , & C , index8 , list , part_width ) ;
match_count = ( diagonal_ref = = ref ) + ( top_ref = = ref ) + ( left_ref = = ref ) ;
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tprintf ( " pred_motion match_count=%d \n " , match_count ) ;
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if ( match_count > 1 ) { //most common
* mx = mid_pred ( A [ 0 ] , B [ 0 ] , C [ 0 ] ) ;
* my = mid_pred ( A [ 1 ] , B [ 1 ] , C [ 1 ] ) ;
} else if ( match_count = = 1 ) {
if ( left_ref = = ref ) {
* mx = A [ 0 ] ;
* my = A [ 1 ] ;
} else if ( top_ref = = ref ) {
* mx = B [ 0 ] ;
* my = B [ 1 ] ;
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} else {
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* mx = C [ 0 ] ;
* my = C [ 1 ] ;
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}
} else {
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if ( top_ref = = PART_NOT_AVAILABLE & & diagonal_ref = = PART_NOT_AVAILABLE & & left_ref ! = PART_NOT_AVAILABLE ) {
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* mx = A [ 0 ] ;
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* my = A [ 1 ] ;
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} else {
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* mx = mid_pred ( A [ 0 ] , B [ 0 ] , C [ 0 ] ) ;
* my = mid_pred ( A [ 1 ] , B [ 1 ] , C [ 1 ] ) ;
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}
}
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tprintf ( " pred_motion (%2d %2d %2d) (%2d %2d %2d) (%2d %2d %2d) -> (%2d %2d %2d) at %2d %2d %d list %d \n " , top_ref , B [ 0 ] , B [ 1 ] , diagonal_ref , C [ 0 ] , C [ 1 ] , left_ref , A [ 0 ] , A [ 1 ] , ref , * mx , * my , h - > s . mb_x , h - > s . mb_y , n , list ) ;
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}
/**
* gets the directionally predicted 16 x8 MV .
* @ param n the block index
* @ param mx the x component of the predicted motion vector
* @ param my the y component of the predicted motion vector
*/
static inline void pred_16x8_motion ( H264Context * const h , int n , int list , int ref , int * const mx , int * const my ) {
if ( n = = 0 ) {
const int top_ref = h - > ref_cache [ list ] [ scan8 [ 0 ] - 8 ] ;
const int16_t * const B = h - > mv_cache [ list ] [ scan8 [ 0 ] - 8 ] ;
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tprintf ( " pred_16x8: (%2d %2d %2d) at %2d %2d %d list %d \n " , top_ref , B [ 0 ] , B [ 1 ] , h - > s . mb_x , h - > s . mb_y , n , list ) ;
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if ( top_ref = = ref ) {
* mx = B [ 0 ] ;
* my = B [ 1 ] ;
return ;
}
} else {
const int left_ref = h - > ref_cache [ list ] [ scan8 [ 8 ] - 1 ] ;
const int16_t * const A = h - > mv_cache [ list ] [ scan8 [ 8 ] - 1 ] ;
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tprintf ( " pred_16x8: (%2d %2d %2d) at %2d %2d %d list %d \n " , left_ref , A [ 0 ] , A [ 1 ] , h - > s . mb_x , h - > s . mb_y , n , list ) ;
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if ( left_ref = = ref ) {
* mx = A [ 0 ] ;
* my = A [ 1 ] ;
return ;
}
}
//RARE
pred_motion ( h , n , 4 , list , ref , mx , my ) ;
}
/**
* gets the directionally predicted 8 x16 MV .
* @ param n the block index
* @ param mx the x component of the predicted motion vector
* @ param my the y component of the predicted motion vector
*/
static inline void pred_8x16_motion ( H264Context * const h , int n , int list , int ref , int * const mx , int * const my ) {
if ( n = = 0 ) {
const int left_ref = h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 ] ;
const int16_t * const A = h - > mv_cache [ list ] [ scan8 [ 0 ] - 1 ] ;
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tprintf ( " pred_8x16: (%2d %2d %2d) at %2d %2d %d list %d \n " , left_ref , A [ 0 ] , A [ 1 ] , h - > s . mb_x , h - > s . mb_y , n , list ) ;
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if ( left_ref = = ref ) {
* mx = A [ 0 ] ;
* my = A [ 1 ] ;
return ;
}
} else {
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const int16_t * C ;
int diagonal_ref ;
diagonal_ref = fetch_diagonal_mv ( h , & C , scan8 [ 4 ] , list , 2 ) ;
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tprintf ( " pred_8x16: (%2d %2d %2d) at %2d %2d %d list %d \n " , diagonal_ref , C [ 0 ] , C [ 1 ] , h - > s . mb_x , h - > s . mb_y , n , list ) ;
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if ( diagonal_ref = = ref ) {
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* mx = C [ 0 ] ;
* my = C [ 1 ] ;
return ;
}
}
//RARE
pred_motion ( h , n , 2 , list , ref , mx , my ) ;
}
static inline void pred_pskip_motion ( H264Context * const h , int * const mx , int * const my ) {
const int top_ref = h - > ref_cache [ 0 ] [ scan8 [ 0 ] - 8 ] ;
const int left_ref = h - > ref_cache [ 0 ] [ scan8 [ 0 ] - 1 ] ;
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tprintf ( " pred_pskip: (%d) (%d) at %2d %2d \n " , top_ref , left_ref , h - > s . mb_x , h - > s . mb_y ) ;
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if ( top_ref = = PART_NOT_AVAILABLE | | left_ref = = PART_NOT_AVAILABLE
| | ( top_ref = = 0 & & * ( uint32_t * ) h - > mv_cache [ 0 ] [ scan8 [ 0 ] - 8 ] = = 0 )
| | ( left_ref = = 0 & & * ( uint32_t * ) h - > mv_cache [ 0 ] [ scan8 [ 0 ] - 1 ] = = 0 ) ) {
* mx = * my = 0 ;
return ;
}
pred_motion ( h , 0 , 4 , 0 , 0 , mx , my ) ;
return ;
}
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static inline void direct_dist_scale_factor ( H264Context * const h ) {
const int poc = h - > s . current_picture_ptr - > poc ;
const int poc1 = h - > ref_list [ 1 ] [ 0 ] . poc ;
int i ;
for ( i = 0 ; i < h - > ref_count [ 0 ] ; i + + ) {
int poc0 = h - > ref_list [ 0 ] [ i ] . poc ;
int td = clip ( poc1 - poc0 , - 128 , 127 ) ;
if ( td = = 0 /* FIXME || pic0 is a long-term ref */ ) {
h - > dist_scale_factor [ i ] = 256 ;
} else {
int tb = clip ( poc - poc0 , - 128 , 127 ) ;
int tx = ( 16384 + ( ABS ( td ) > > 1 ) ) / td ;
h - > dist_scale_factor [ i ] = clip ( ( tb * tx + 32 ) > > 6 , - 1024 , 1023 ) ;
}
}
}
static inline void pred_direct_motion ( H264Context * const h , int * mb_type ) {
MpegEncContext * const s = & h - > s ;
const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
const int b8_xy = 2 * s - > mb_x + 2 * s - > mb_y * h - > b8_stride ;
const int b4_xy = 4 * s - > mb_x + 4 * s - > mb_y * h - > b_stride ;
const int mb_type_col = h - > ref_list [ 1 ] [ 0 ] . mb_type [ mb_xy ] ;
const int16_t ( * l1mv0 ) [ 2 ] = ( const int16_t ( * ) [ 2 ] ) & h - > ref_list [ 1 ] [ 0 ] . motion_val [ 0 ] [ b4_xy ] ;
const int8_t * l1ref0 = & h - > ref_list [ 1 ] [ 0 ] . ref_index [ 0 ] [ b8_xy ] ;
const int is_b8x8 = IS_8X8 ( * mb_type ) ;
int sub_mb_type ;
int i8 , i4 ;
if ( IS_8X8 ( mb_type_col ) & & ! h - > sps . direct_8x8_inference_flag ) {
/* FIXME save sub mb types from previous frames (or derive from MVs)
* so we know exactly what block size to use */
sub_mb_type = MB_TYPE_8x8 | MB_TYPE_P0L0 | MB_TYPE_P0L1 | MB_TYPE_DIRECT2 ; /* B_SUB_4x4 */
* mb_type = MB_TYPE_8x8 ;
} else if ( ! is_b8x8 & & ( IS_16X16 ( mb_type_col ) | | IS_INTRA ( mb_type_col ) ) ) {
sub_mb_type = MB_TYPE_16x16 | MB_TYPE_P0L0 | MB_TYPE_P0L1 | MB_TYPE_DIRECT2 ; /* B_SUB_8x8 */
* mb_type = MB_TYPE_16x16 | MB_TYPE_P0L0 | MB_TYPE_P0L1 | MB_TYPE_DIRECT2 ; /* B_16x16 */
} else {
sub_mb_type = MB_TYPE_16x16 | MB_TYPE_P0L0 | MB_TYPE_P0L1 | MB_TYPE_DIRECT2 ; /* B_SUB_8x8 */
* mb_type = MB_TYPE_8x8 ;
}
if ( ! is_b8x8 )
* mb_type | = MB_TYPE_DIRECT2 ;
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tprintf ( " mb_type = %08x, sub_mb_type = %08x, is_b8x8 = %d, mb_type_col = %08x \n " , * mb_type , sub_mb_type , is_b8x8 , mb_type_col ) ;
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if ( h - > direct_spatial_mv_pred ) {
int ref [ 2 ] ;
int mv [ 2 ] [ 2 ] ;
int list ;
/* ref = min(neighbors) */
for ( list = 0 ; list < 2 ; list + + ) {
int refa = h - > ref_cache [ list ] [ scan8 [ 0 ] - 1 ] ;
int refb = h - > ref_cache [ list ] [ scan8 [ 0 ] - 8 ] ;
int refc = h - > ref_cache [ list ] [ scan8 [ 0 ] - 8 + 4 ] ;
if ( refc = = - 2 )
refc = h - > ref_cache [ list ] [ scan8 [ 0 ] - 8 - 1 ] ;
ref [ list ] = refa ;
if ( ref [ list ] < 0 | | ( refb < ref [ list ] & & refb > = 0 ) )
ref [ list ] = refb ;
if ( ref [ list ] < 0 | | ( refc < ref [ list ] & & refc > = 0 ) )
ref [ list ] = refc ;
if ( ref [ list ] < 0 )
ref [ list ] = - 1 ;
}
if ( ref [ 0 ] < 0 & & ref [ 1 ] < 0 ) {
ref [ 0 ] = ref [ 1 ] = 0 ;
mv [ 0 ] [ 0 ] = mv [ 0 ] [ 1 ] =
mv [ 1 ] [ 0 ] = mv [ 1 ] [ 1 ] = 0 ;
} else {
for ( list = 0 ; list < 2 ; list + + ) {
if ( ref [ list ] > = 0 )
pred_motion ( h , 0 , 4 , list , ref [ list ] , & mv [ list ] [ 0 ] , & mv [ list ] [ 1 ] ) ;
else
mv [ list ] [ 0 ] = mv [ list ] [ 1 ] = 0 ;
}
}
if ( ref [ 1 ] < 0 ) {
* mb_type & = ~ MB_TYPE_P0L1 ;
sub_mb_type & = ~ MB_TYPE_P0L1 ;
} else if ( ref [ 0 ] < 0 ) {
* mb_type & = ~ MB_TYPE_P0L0 ;
sub_mb_type & = ~ MB_TYPE_P0L0 ;
}
if ( IS_16X16 ( * mb_type ) ) {
fill_rectangle ( & h - > ref_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , ref [ 0 ] , 1 ) ;
fill_rectangle ( & h - > ref_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , ref [ 1 ] , 1 ) ;
if ( ! IS_INTRA ( mb_type_col ) & & l1ref0 [ 0 ] = = 0 & &
ABS ( l1mv0 [ 0 ] [ 0 ] ) < = 1 & & ABS ( l1mv0 [ 0 ] [ 1 ] ) < = 1 ) {
if ( ref [ 0 ] > 0 )
fill_rectangle ( & h - > mv_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mv [ 0 ] [ 0 ] , mv [ 0 ] [ 1 ] ) , 4 ) ;
else
fill_rectangle ( & h - > mv_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
if ( ref [ 1 ] > 0 )
fill_rectangle ( & h - > mv_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mv [ 1 ] [ 0 ] , mv [ 1 ] [ 1 ] ) , 4 ) ;
else
fill_rectangle ( & h - > mv_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
} else {
fill_rectangle ( & h - > mv_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mv [ 0 ] [ 0 ] , mv [ 0 ] [ 1 ] ) , 4 ) ;
fill_rectangle ( & h - > mv_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mv [ 1 ] [ 0 ] , mv [ 1 ] [ 1 ] ) , 4 ) ;
}
} else {
for ( i8 = 0 ; i8 < 4 ; i8 + + ) {
const int x8 = i8 & 1 ;
const int y8 = i8 > > 1 ;
if ( is_b8x8 & & ! IS_DIRECT ( h - > sub_mb_type [ i8 ] ) )
continue ;
h - > sub_mb_type [ i8 ] = sub_mb_type ;
fill_rectangle ( & h - > mv_cache [ 0 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , pack16to32 ( mv [ 0 ] [ 0 ] , mv [ 0 ] [ 1 ] ) , 4 ) ;
fill_rectangle ( & h - > mv_cache [ 1 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , pack16to32 ( mv [ 1 ] [ 0 ] , mv [ 1 ] [ 1 ] ) , 4 ) ;
fill_rectangle ( & h - > ref_cache [ 0 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , ref [ 0 ] , 1 ) ;
fill_rectangle ( & h - > ref_cache [ 1 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , ref [ 1 ] , 1 ) ;
/* col_zero_flag */
if ( ! IS_INTRA ( mb_type_col ) & & l1ref0 [ x8 + y8 * h - > b8_stride ] = = 0 ) {
for ( i4 = 0 ; i4 < 4 ; i4 + + ) {
const int16_t * mv_col = l1mv0 [ x8 * 2 + ( i4 & 1 ) + ( y8 * 2 + ( i4 > > 1 ) ) * h - > b_stride ] ;
if ( ABS ( mv_col [ 0 ] ) < = 1 & & ABS ( mv_col [ 1 ] ) < = 1 ) {
if ( ref [ 0 ] = = 0 )
* ( uint32_t * ) h - > mv_cache [ 0 ] [ scan8 [ i8 * 4 + i4 ] ] = 0 ;
if ( ref [ 1 ] = = 0 )
* ( uint32_t * ) h - > mv_cache [ 1 ] [ scan8 [ i8 * 4 + i4 ] ] = 0 ;
}
}
}
}
}
} else { /* direct temporal mv pred */
/* FIXME assumes that L1ref0 used the same ref lists as current frame */
if ( IS_16X16 ( * mb_type ) ) {
fill_rectangle ( & h - > ref_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 1 ) ;
if ( IS_INTRA ( mb_type_col ) ) {
fill_rectangle ( & h - > ref_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 1 ) ;
fill_rectangle ( & h - > mv_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
fill_rectangle ( & h - > mv_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
} else {
const int ref0 = l1ref0 [ 0 ] ;
const int dist_scale_factor = h - > dist_scale_factor [ ref0 ] ;
const int16_t * mv_col = l1mv0 [ 0 ] ;
int mv_l0 [ 2 ] ;
mv_l0 [ 0 ] = ( dist_scale_factor * mv_col [ 0 ] + 128 ) > > 8 ;
mv_l0 [ 1 ] = ( dist_scale_factor * mv_col [ 1 ] + 128 ) > > 8 ;
fill_rectangle ( & h - > ref_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , ref0 , 1 ) ;
fill_rectangle ( & h - > mv_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mv_l0 [ 0 ] , mv_l0 [ 1 ] ) , 4 ) ;
fill_rectangle ( & h - > mv_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mv_l0 [ 0 ] - mv_col [ 0 ] , mv_l0 [ 1 ] - mv_col [ 1 ] ) , 4 ) ;
}
} else {
for ( i8 = 0 ; i8 < 4 ; i8 + + ) {
const int x8 = i8 & 1 ;
const int y8 = i8 > > 1 ;
int ref0 , dist_scale_factor ;
if ( is_b8x8 & & ! IS_DIRECT ( h - > sub_mb_type [ i8 ] ) )
continue ;
h - > sub_mb_type [ i8 ] = sub_mb_type ;
if ( IS_INTRA ( mb_type_col ) ) {
fill_rectangle ( & h - > ref_cache [ 0 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , 0 , 1 ) ;
fill_rectangle ( & h - > ref_cache [ 1 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , 0 , 1 ) ;
fill_rectangle ( & h - > mv_cache [ 0 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , 0 , 4 ) ;
fill_rectangle ( & h - > mv_cache [ 1 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , 0 , 4 ) ;
continue ;
}
ref0 = l1ref0 [ x8 + y8 * h - > b8_stride ] ;
dist_scale_factor = h - > dist_scale_factor [ ref0 ] ;
fill_rectangle ( & h - > ref_cache [ 0 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , ref0 , 1 ) ;
fill_rectangle ( & h - > ref_cache [ 1 ] [ scan8 [ i8 * 4 ] ] , 2 , 2 , 8 , 0 , 1 ) ;
for ( i4 = 0 ; i4 < 4 ; i4 + + ) {
const int16_t * mv_col = l1mv0 [ x8 * 2 + ( i4 & 1 ) + ( y8 * 2 + ( i4 > > 1 ) ) * h - > b_stride ] ;
int16_t * mv_l0 = h - > mv_cache [ 0 ] [ scan8 [ i8 * 4 + i4 ] ] ;
mv_l0 [ 0 ] = ( dist_scale_factor * mv_col [ 0 ] + 128 ) > > 8 ;
mv_l0 [ 1 ] = ( dist_scale_factor * mv_col [ 1 ] + 128 ) > > 8 ;
* ( uint32_t * ) h - > mv_cache [ 1 ] [ scan8 [ i8 * 4 + i4 ] ] =
pack16to32 ( mv_l0 [ 0 ] - mv_col [ 0 ] , mv_l0 [ 1 ] - mv_col [ 1 ] ) ;
}
}
}
}
}
2003-04-04 16:42:28 +02:00
static inline void write_back_motion ( H264Context * h , int mb_type ) {
MpegEncContext * const s = & h - > s ;
const int b_xy = 4 * s - > mb_x + 4 * s - > mb_y * h - > b_stride ;
const int b8_xy = 2 * s - > mb_x + 2 * s - > mb_y * h - > b8_stride ;
int list ;
for ( list = 0 ; list < 2 ; list + + ) {
int y ;
if ( ( ! IS_8X8 ( mb_type ) ) & & ! USES_LIST ( mb_type , list ) ) {
if ( 1 ) { //FIXME skip or never read if mb_type doesnt use it
for ( y = 0 ; y < 4 ; y + + ) {
* ( uint64_t * ) s - > current_picture . motion_val [ list ] [ b_xy + 0 + y * h - > b_stride ] =
* ( uint64_t * ) s - > current_picture . motion_val [ list ] [ b_xy + 2 + y * h - > b_stride ] = 0 ;
}
2004-04-11 18:28:31 +02:00
if ( h - > pps . cabac ) {
/* FIXME needed ? */
for ( y = 0 ; y < 4 ; y + + ) {
* ( uint64_t * ) h - > mvd_table [ list ] [ b_xy + 0 + y * h - > b_stride ] =
* ( uint64_t * ) h - > mvd_table [ list ] [ b_xy + 2 + y * h - > b_stride ] = 0 ;
}
}
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for ( y = 0 ; y < 2 ; y + + ) {
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* ( uint16_t * ) & s - > current_picture . ref_index [ list ] [ b8_xy + y * h - > b8_stride ] = ( LIST_NOT_USED & 0xFF ) * 0x0101 ;
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}
}
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continue ;
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}
for ( y = 0 ; y < 4 ; y + + ) {
* ( uint64_t * ) s - > current_picture . motion_val [ list ] [ b_xy + 0 + y * h - > b_stride ] = * ( uint64_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 0 + 8 * y ] ;
* ( uint64_t * ) s - > current_picture . motion_val [ list ] [ b_xy + 2 + y * h - > b_stride ] = * ( uint64_t * ) h - > mv_cache [ list ] [ scan8 [ 0 ] + 2 + 8 * y ] ;
}
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if ( h - > pps . cabac ) {
for ( y = 0 ; y < 4 ; y + + ) {
* ( uint64_t * ) h - > mvd_table [ list ] [ b_xy + 0 + y * h - > b_stride ] = * ( uint64_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 0 + 8 * y ] ;
* ( uint64_t * ) h - > mvd_table [ list ] [ b_xy + 2 + y * h - > b_stride ] = * ( uint64_t * ) h - > mvd_cache [ list ] [ scan8 [ 0 ] + 2 + 8 * y ] ;
}
}
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for ( y = 0 ; y < 2 ; y + + ) {
s - > current_picture . ref_index [ list ] [ b8_xy + 0 + y * h - > b8_stride ] = h - > ref_cache [ list ] [ scan8 [ 0 ] + 0 + 16 * y ] ;
s - > current_picture . ref_index [ list ] [ b8_xy + 1 + y * h - > b8_stride ] = h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 + 16 * y ] ;
}
}
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if ( h - > slice_type = = B_TYPE & & h - > pps . cabac ) {
if ( IS_8X8 ( mb_type ) ) {
h - > direct_table [ b8_xy + 1 + 0 * h - > b8_stride ] = IS_DIRECT ( h - > sub_mb_type [ 1 ] ) ? 1 : 0 ;
h - > direct_table [ b8_xy + 0 + 1 * h - > b8_stride ] = IS_DIRECT ( h - > sub_mb_type [ 2 ] ) ? 1 : 0 ;
h - > direct_table [ b8_xy + 1 + 1 * h - > b8_stride ] = IS_DIRECT ( h - > sub_mb_type [ 3 ] ) ? 1 : 0 ;
}
}
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}
/**
* 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 ttailing ?
* @ returns decoded bytes , might be src + 1 if no escapes
*/
static uint8_t * decode_nal ( H264Context * h , uint8_t * src , int * dst_length , int * consumed , int length ) {
int i , si , di ;
uint8_t * dst ;
// src[0]&0x80; //forbidden bit
h - > nal_ref_idc = src [ 0 ] > > 5 ;
h - > nal_unit_type = src [ 0 ] & 0x1F ;
src + + ; length - - ;
#if 0
for ( i = 0 ; i < length ; i + + )
printf ( " %2X " , src [ i ] ) ;
# endif
for ( i = 0 ; i + 1 < length ; i + = 2 ) {
if ( src [ i ] ) continue ;
if ( i > 0 & & src [ i - 1 ] = = 0 ) i - - ;
if ( i + 2 < length & & src [ i + 1 ] = = 0 & & src [ i + 2 ] < = 3 ) {
if ( src [ i + 2 ] ! = 3 ) {
/* startcode, so we must be past the end */
length = i ;
}
break ;
}
}
if ( i > = length - 1 ) { //no escaped 0
* dst_length = length ;
* consumed = length + 1 ; //+1 for the header
return src ;
}
h - > rbsp_buffer = av_fast_realloc ( h - > rbsp_buffer , & h - > rbsp_buffer_size , length ) ;
dst = h - > rbsp_buffer ;
//printf("deoding esc\n");
si = di = 0 ;
while ( si < length ) {
//remove escapes (very rare 1:2^22)
if ( si + 2 < length & & src [ si ] = = 0 & & src [ si + 1 ] = = 0 & & src [ si + 2 ] < = 3 ) {
if ( src [ si + 2 ] = = 3 ) { //escape
dst [ di + + ] = 0 ;
dst [ di + + ] = 0 ;
si + = 3 ;
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continue ;
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} else //next start code
break ;
}
dst [ di + + ] = src [ si + + ] ;
}
* dst_length = di ;
* consumed = si + 1 ; //+1 for the header
//FIXME store exact number of bits in the getbitcontext (its needed for decoding)
return dst ;
}
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#if 0
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/**
* @ param src the data which should be escaped
* @ param dst the target buffer , dst + 1 = = src is allowed as a special case
* @ param length the length of the src data
* @ param dst_length the length of the dst array
* @ returns length of escaped data in bytes or - 1 if an error occured
*/
static int encode_nal ( H264Context * h , uint8_t * dst , uint8_t * src , int length , int dst_length ) {
int i , escape_count , si , di ;
uint8_t * temp ;
assert ( length > = 0 ) ;
assert ( dst_length > 0 ) ;
dst [ 0 ] = ( h - > nal_ref_idc < < 5 ) + h - > nal_unit_type ;
if ( length = = 0 ) return 1 ;
escape_count = 0 ;
for ( i = 0 ; i < length ; i + = 2 ) {
if ( src [ i ] ) continue ;
if ( i > 0 & & src [ i - 1 ] = = 0 )
i - - ;
if ( i + 2 < length & & src [ i + 1 ] = = 0 & & src [ i + 2 ] < = 3 ) {
escape_count + + ;
i + = 2 ;
}
}
if ( escape_count = = 0 ) {
if ( dst + 1 ! = src )
memcpy ( dst + 1 , src , length ) ;
return length + 1 ;
}
if ( length + escape_count + 1 > dst_length )
return - 1 ;
//this should be damn rare (hopefully)
h - > rbsp_buffer = av_fast_realloc ( h - > rbsp_buffer , & h - > rbsp_buffer_size , length + escape_count ) ;
temp = h - > rbsp_buffer ;
//printf("encoding esc\n");
si = 0 ;
di = 0 ;
while ( si < length ) {
if ( si + 2 < length & & src [ si ] = = 0 & & src [ si + 1 ] = = 0 & & src [ si + 2 ] < = 3 ) {
temp [ di + + ] = 0 ; si + + ;
temp [ di + + ] = 0 ; si + + ;
temp [ di + + ] = 3 ;
temp [ di + + ] = src [ si + + ] ;
}
else
temp [ di + + ] = src [ si + + ] ;
}
memcpy ( dst + 1 , temp , length + escape_count ) ;
assert ( di = = length + escape_count ) ;
return di + 1 ;
}
/**
* write 1 , 10 , 100 , 1000 , . . . for alignment , yes its exactly inverse to mpeg4
*/
static void encode_rbsp_trailing ( PutBitContext * pb ) {
int length ;
put_bits ( pb , 1 , 1 ) ;
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length = ( - put_bits_count ( pb ) ) & 7 ;
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if ( length ) put_bits ( pb , length , 0 ) ;
}
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# endif
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/**
* identifies the exact end of the bitstream
* @ return the length of the trailing , or 0 if damaged
*/
static int decode_rbsp_trailing ( uint8_t * src ) {
int v = * src ;
int r ;
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tprintf ( " rbsp trailing %X \n " , v ) ;
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for ( r = 1 ; r < 9 ; r + + ) {
if ( v & 1 ) return r ;
v > > = 1 ;
}
return 0 ;
}
/**
* idct tranforms the 16 dc values and dequantize them .
* @ param qp quantization parameter
*/
static void h264_luma_dc_dequant_idct_c ( DCTELEM * block , int qp ) {
const int qmul = dequant_coeff [ qp ] [ 0 ] ;
# define stride 16
int i ;
int temp [ 16 ] ; //FIXME check if this is a good idea
static const int x_offset [ 4 ] = { 0 , 1 * stride , 4 * stride , 5 * stride } ;
static const int y_offset [ 4 ] = { 0 , 2 * stride , 8 * stride , 10 * stride } ;
//memset(block, 64, 2*256);
//return;
for ( i = 0 ; i < 4 ; i + + ) {
const int offset = y_offset [ i ] ;
const int z0 = block [ offset + stride * 0 ] + block [ offset + stride * 4 ] ;
const int z1 = block [ offset + stride * 0 ] - block [ offset + stride * 4 ] ;
const int z2 = block [ offset + stride * 1 ] - block [ offset + stride * 5 ] ;
const int z3 = block [ offset + stride * 1 ] + block [ offset + stride * 5 ] ;
temp [ 4 * i + 0 ] = z0 + z3 ;
temp [ 4 * i + 1 ] = z1 + z2 ;
temp [ 4 * i + 2 ] = z1 - z2 ;
temp [ 4 * i + 3 ] = z0 - z3 ;
}
for ( i = 0 ; i < 4 ; i + + ) {
const int offset = x_offset [ i ] ;
const int z0 = temp [ 4 * 0 + i ] + temp [ 4 * 2 + i ] ;
const int z1 = temp [ 4 * 0 + i ] - temp [ 4 * 2 + i ] ;
const int z2 = temp [ 4 * 1 + i ] - temp [ 4 * 3 + i ] ;
const int z3 = temp [ 4 * 1 + i ] + temp [ 4 * 3 + i ] ;
block [ stride * 0 + offset ] = ( ( z0 + z3 ) * qmul + 2 ) > > 2 ; //FIXME think about merging this into decode_resdual
block [ stride * 2 + offset ] = ( ( z1 + z2 ) * qmul + 2 ) > > 2 ;
block [ stride * 8 + offset ] = ( ( z1 - z2 ) * qmul + 2 ) > > 2 ;
block [ stride * 10 + offset ] = ( ( z0 - z3 ) * qmul + 2 ) > > 2 ;
}
}
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#if 0
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/**
* dct tranforms the 16 dc values .
* @ param qp quantization parameter ? ? ? FIXME
*/
static void h264_luma_dc_dct_c ( DCTELEM * block /*, int qp*/ ) {
// const int qmul= dequant_coeff[qp][0];
int i ;
int temp [ 16 ] ; //FIXME check if this is a good idea
static const int x_offset [ 4 ] = { 0 , 1 * stride , 4 * stride , 5 * stride } ;
static const int y_offset [ 4 ] = { 0 , 2 * stride , 8 * stride , 10 * stride } ;
for ( i = 0 ; i < 4 ; i + + ) {
const int offset = y_offset [ i ] ;
const int z0 = block [ offset + stride * 0 ] + block [ offset + stride * 4 ] ;
const int z1 = block [ offset + stride * 0 ] - block [ offset + stride * 4 ] ;
const int z2 = block [ offset + stride * 1 ] - block [ offset + stride * 5 ] ;
const int z3 = block [ offset + stride * 1 ] + block [ offset + stride * 5 ] ;
temp [ 4 * i + 0 ] = z0 + z3 ;
temp [ 4 * i + 1 ] = z1 + z2 ;
temp [ 4 * i + 2 ] = z1 - z2 ;
temp [ 4 * i + 3 ] = z0 - z3 ;
}
for ( i = 0 ; i < 4 ; i + + ) {
const int offset = x_offset [ i ] ;
const int z0 = temp [ 4 * 0 + i ] + temp [ 4 * 2 + i ] ;
const int z1 = temp [ 4 * 0 + i ] - temp [ 4 * 2 + i ] ;
const int z2 = temp [ 4 * 1 + i ] - temp [ 4 * 3 + i ] ;
const int z3 = temp [ 4 * 1 + i ] + temp [ 4 * 3 + i ] ;
block [ stride * 0 + offset ] = ( z0 + z3 ) > > 1 ;
block [ stride * 2 + offset ] = ( z1 + z2 ) > > 1 ;
block [ stride * 8 + offset ] = ( z1 - z2 ) > > 1 ;
block [ stride * 10 + offset ] = ( z0 - z3 ) > > 1 ;
}
}
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# endif
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# undef xStride
# undef stride
static void chroma_dc_dequant_idct_c ( DCTELEM * block , int qp ) {
const int qmul = dequant_coeff [ qp ] [ 0 ] ;
const int stride = 16 * 2 ;
const int xStride = 16 ;
int a , b , c , d , e ;
a = block [ stride * 0 + xStride * 0 ] ;
b = block [ stride * 0 + xStride * 1 ] ;
c = block [ stride * 1 + xStride * 0 ] ;
d = block [ stride * 1 + xStride * 1 ] ;
e = a - b ;
a = a + b ;
b = c - d ;
c = c + d ;
block [ stride * 0 + xStride * 0 ] = ( ( a + c ) * qmul + 0 ) > > 1 ;
block [ stride * 0 + xStride * 1 ] = ( ( e + b ) * qmul + 0 ) > > 1 ;
block [ stride * 1 + xStride * 0 ] = ( ( a - c ) * qmul + 0 ) > > 1 ;
block [ stride * 1 + xStride * 1 ] = ( ( e - b ) * qmul + 0 ) > > 1 ;
}
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#if 0
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static void chroma_dc_dct_c ( DCTELEM * block ) {
const int stride = 16 * 2 ;
const int xStride = 16 ;
int a , b , c , d , e ;
a = block [ stride * 0 + xStride * 0 ] ;
b = block [ stride * 0 + xStride * 1 ] ;
c = block [ stride * 1 + xStride * 0 ] ;
d = block [ stride * 1 + xStride * 1 ] ;
e = a - b ;
a = a + b ;
b = c - d ;
c = c + d ;
block [ stride * 0 + xStride * 0 ] = ( a + c ) ;
block [ stride * 0 + xStride * 1 ] = ( e + b ) ;
block [ stride * 1 + xStride * 0 ] = ( a - c ) ;
block [ stride * 1 + xStride * 1 ] = ( e - b ) ;
}
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# endif
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/**
* gets the chroma qp .
*/
static inline int get_chroma_qp ( H264Context * h , int qscale ) {
return chroma_qp [ clip ( qscale + h - > pps . chroma_qp_index_offset , 0 , 51 ) ] ;
}
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#if 0
2003-04-04 16:42:28 +02:00
static void h264_diff_dct_c ( DCTELEM * block , uint8_t * src1 , uint8_t * src2 , int stride ) {
int i ;
//FIXME try int temp instead of block
for ( i = 0 ; i < 4 ; i + + ) {
const int d0 = src1 [ 0 + i * stride ] - src2 [ 0 + i * stride ] ;
const int d1 = src1 [ 1 + i * stride ] - src2 [ 1 + i * stride ] ;
const int d2 = src1 [ 2 + i * stride ] - src2 [ 2 + i * stride ] ;
const int d3 = src1 [ 3 + i * stride ] - src2 [ 3 + i * stride ] ;
const int z0 = d0 + d3 ;
const int z3 = d0 - d3 ;
const int z1 = d1 + d2 ;
const int z2 = d1 - d2 ;
block [ 0 + 4 * i ] = z0 + z1 ;
block [ 1 + 4 * i ] = 2 * z3 + z2 ;
block [ 2 + 4 * i ] = z0 - z1 ;
block [ 3 + 4 * i ] = z3 - 2 * z2 ;
}
for ( i = 0 ; i < 4 ; i + + ) {
const int z0 = block [ 0 * 4 + i ] + block [ 3 * 4 + i ] ;
const int z3 = block [ 0 * 4 + i ] - block [ 3 * 4 + i ] ;
const int z1 = block [ 1 * 4 + i ] + block [ 2 * 4 + i ] ;
const int z2 = block [ 1 * 4 + i ] - block [ 2 * 4 + i ] ;
block [ 0 * 4 + i ] = z0 + z1 ;
block [ 1 * 4 + i ] = 2 * z3 + z2 ;
block [ 2 * 4 + i ] = z0 - z1 ;
block [ 3 * 4 + i ] = z3 - 2 * z2 ;
}
}
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# endif
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//FIXME need to check that this doesnt overflow signed 32 bit for low qp, iam not sure, its very close
//FIXME check that gcc inlines this (and optimizes intra & seperate_dc stuff away)
static inline int quantize_c ( DCTELEM * block , uint8_t * scantable , int qscale , int intra , int seperate_dc ) {
int i ;
const int * const quant_table = quant_coeff [ qscale ] ;
const int bias = intra ? ( 1 < < QUANT_SHIFT ) / 3 : ( 1 < < QUANT_SHIFT ) / 6 ;
const unsigned int threshold1 = ( 1 < < QUANT_SHIFT ) - bias - 1 ;
const unsigned int threshold2 = ( threshold1 < < 1 ) ;
int last_non_zero ;
if ( seperate_dc ) {
if ( qscale < = 18 ) {
//avoid overflows
const int dc_bias = intra ? ( 1 < < ( QUANT_SHIFT - 2 ) ) / 3 : ( 1 < < ( QUANT_SHIFT - 2 ) ) / 6 ;
const unsigned int dc_threshold1 = ( 1 < < ( QUANT_SHIFT - 2 ) ) - dc_bias - 1 ;
const unsigned int dc_threshold2 = ( dc_threshold1 < < 1 ) ;
int level = block [ 0 ] * quant_coeff [ qscale + 18 ] [ 0 ] ;
if ( ( ( unsigned ) ( level + dc_threshold1 ) ) > dc_threshold2 ) {
if ( level > 0 ) {
level = ( dc_bias + level ) > > ( QUANT_SHIFT - 2 ) ;
block [ 0 ] = level ;
} else {
level = ( dc_bias - level ) > > ( QUANT_SHIFT - 2 ) ;
block [ 0 ] = - level ;
}
// last_non_zero = i;
} else {
block [ 0 ] = 0 ;
}
} else {
const int dc_bias = intra ? ( 1 < < ( QUANT_SHIFT + 1 ) ) / 3 : ( 1 < < ( QUANT_SHIFT + 1 ) ) / 6 ;
const unsigned int dc_threshold1 = ( 1 < < ( QUANT_SHIFT + 1 ) ) - dc_bias - 1 ;
const unsigned int dc_threshold2 = ( dc_threshold1 < < 1 ) ;
int level = block [ 0 ] * quant_table [ 0 ] ;
if ( ( ( unsigned ) ( level + dc_threshold1 ) ) > dc_threshold2 ) {
if ( level > 0 ) {
level = ( dc_bias + level ) > > ( QUANT_SHIFT + 1 ) ;
block [ 0 ] = level ;
} else {
level = ( dc_bias - level ) > > ( QUANT_SHIFT + 1 ) ;
block [ 0 ] = - level ;
}
// last_non_zero = i;
} else {
block [ 0 ] = 0 ;
}
}
last_non_zero = 0 ;
i = 1 ;
} else {
last_non_zero = - 1 ;
i = 0 ;
}
for ( ; i < 16 ; i + + ) {
const int j = scantable [ i ] ;
int level = block [ j ] * quant_table [ j ] ;
// if( bias+level >= (1<<(QMAT_SHIFT - 3))
// || bias-level >= (1<<(QMAT_SHIFT - 3))){
if ( ( ( unsigned ) ( level + threshold1 ) ) > threshold2 ) {
if ( level > 0 ) {
level = ( bias + level ) > > QUANT_SHIFT ;
block [ j ] = level ;
} else {
level = ( bias - level ) > > QUANT_SHIFT ;
block [ j ] = - level ;
}
last_non_zero = i ;
} else {
block [ j ] = 0 ;
}
}
return last_non_zero ;
}
static void pred4x4_vertical_c ( uint8_t * src , uint8_t * topright , int stride ) {
const uint32_t a = ( ( uint32_t * ) ( src - stride ) ) [ 0 ] ;
( ( uint32_t * ) ( src + 0 * stride ) ) [ 0 ] = a ;
( ( uint32_t * ) ( src + 1 * stride ) ) [ 0 ] = a ;
( ( uint32_t * ) ( src + 2 * stride ) ) [ 0 ] = a ;
( ( uint32_t * ) ( src + 3 * stride ) ) [ 0 ] = a ;
}
static void pred4x4_horizontal_c ( uint8_t * src , uint8_t * topright , int stride ) {
( ( uint32_t * ) ( src + 0 * stride ) ) [ 0 ] = src [ - 1 + 0 * stride ] * 0x01010101 ;
( ( uint32_t * ) ( src + 1 * stride ) ) [ 0 ] = src [ - 1 + 1 * stride ] * 0x01010101 ;
( ( uint32_t * ) ( src + 2 * stride ) ) [ 0 ] = src [ - 1 + 2 * stride ] * 0x01010101 ;
( ( uint32_t * ) ( src + 3 * stride ) ) [ 0 ] = src [ - 1 + 3 * stride ] * 0x01010101 ;
}
static void pred4x4_dc_c ( uint8_t * src , uint8_t * topright , int stride ) {
const int dc = ( src [ - stride ] + src [ 1 - stride ] + src [ 2 - stride ] + src [ 3 - stride ]
+ src [ - 1 + 0 * stride ] + src [ - 1 + 1 * stride ] + src [ - 1 + 2 * stride ] + src [ - 1 + 3 * stride ] + 4 ) > > 3 ;
( ( uint32_t * ) ( src + 0 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 1 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 2 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 3 * stride ) ) [ 0 ] = dc * 0x01010101 ;
}
static void pred4x4_left_dc_c ( uint8_t * src , uint8_t * topright , int stride ) {
const int dc = ( src [ - 1 + 0 * stride ] + src [ - 1 + 1 * stride ] + src [ - 1 + 2 * stride ] + src [ - 1 + 3 * stride ] + 2 ) > > 2 ;
( ( uint32_t * ) ( src + 0 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 1 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 2 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 3 * stride ) ) [ 0 ] = dc * 0x01010101 ;
}
static void pred4x4_top_dc_c ( uint8_t * src , uint8_t * topright , int stride ) {
const int dc = ( src [ - stride ] + src [ 1 - stride ] + src [ 2 - stride ] + src [ 3 - stride ] + 2 ) > > 2 ;
( ( uint32_t * ) ( src + 0 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 1 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 2 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 3 * stride ) ) [ 0 ] = dc * 0x01010101 ;
}
static void pred4x4_128_dc_c ( uint8_t * src , uint8_t * topright , int stride ) {
( ( uint32_t * ) ( src + 0 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 1 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 2 * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + 3 * stride ) ) [ 0 ] = 128U * 0x01010101U ;
}
# define LOAD_TOP_RIGHT_EDGE\
const int t4 = topright [ 0 ] ; \
const int t5 = topright [ 1 ] ; \
const int t6 = topright [ 2 ] ; \
const int t7 = topright [ 3 ] ; \
# define LOAD_LEFT_EDGE\
const int l0 = src [ - 1 + 0 * stride ] ; \
const int l1 = src [ - 1 + 1 * stride ] ; \
const int l2 = src [ - 1 + 2 * stride ] ; \
const int l3 = src [ - 1 + 3 * stride ] ; \
# define LOAD_TOP_EDGE\
const int t0 = src [ 0 - 1 * stride ] ; \
const int t1 = src [ 1 - 1 * stride ] ; \
const int t2 = src [ 2 - 1 * stride ] ; \
const int t3 = src [ 3 - 1 * stride ] ; \
static void pred4x4_down_right_c ( uint8_t * src , uint8_t * topright , int stride ) {
const int lt = src [ - 1 - 1 * stride ] ;
LOAD_TOP_EDGE
LOAD_LEFT_EDGE
src [ 0 + 3 * stride ] = ( l3 + 2 * l2 + l1 + 2 ) > > 2 ;
src [ 0 + 2 * stride ] =
src [ 1 + 3 * stride ] = ( l2 + 2 * l1 + l0 + 2 ) > > 2 ;
src [ 0 + 1 * stride ] =
src [ 1 + 2 * stride ] =
src [ 2 + 3 * stride ] = ( l1 + 2 * l0 + lt + 2 ) > > 2 ;
src [ 0 + 0 * stride ] =
src [ 1 + 1 * stride ] =
src [ 2 + 2 * stride ] =
src [ 3 + 3 * stride ] = ( l0 + 2 * lt + t0 + 2 ) > > 2 ;
src [ 1 + 0 * stride ] =
src [ 2 + 1 * stride ] =
src [ 3 + 2 * stride ] = ( lt + 2 * t0 + t1 + 2 ) > > 2 ;
src [ 2 + 0 * stride ] =
src [ 3 + 1 * stride ] = ( t0 + 2 * t1 + t2 + 2 ) > > 2 ;
src [ 3 + 0 * stride ] = ( t1 + 2 * t2 + t3 + 2 ) > > 2 ;
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}
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static void pred4x4_down_left_c ( uint8_t * src , uint8_t * topright , int stride ) {
LOAD_TOP_EDGE
LOAD_TOP_RIGHT_EDGE
// LOAD_LEFT_EDGE
src [ 0 + 0 * stride ] = ( t0 + t2 + 2 * t1 + 2 ) > > 2 ;
src [ 1 + 0 * stride ] =
src [ 0 + 1 * stride ] = ( t1 + t3 + 2 * t2 + 2 ) > > 2 ;
src [ 2 + 0 * stride ] =
src [ 1 + 1 * stride ] =
src [ 0 + 2 * stride ] = ( t2 + t4 + 2 * t3 + 2 ) > > 2 ;
src [ 3 + 0 * stride ] =
src [ 2 + 1 * stride ] =
src [ 1 + 2 * stride ] =
src [ 0 + 3 * stride ] = ( t3 + t5 + 2 * t4 + 2 ) > > 2 ;
src [ 3 + 1 * stride ] =
src [ 2 + 2 * stride ] =
src [ 1 + 3 * stride ] = ( t4 + t6 + 2 * t5 + 2 ) > > 2 ;
src [ 3 + 2 * stride ] =
src [ 2 + 3 * stride ] = ( t5 + t7 + 2 * t6 + 2 ) > > 2 ;
src [ 3 + 3 * stride ] = ( t6 + 3 * t7 + 2 ) > > 2 ;
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}
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static void pred4x4_vertical_right_c ( uint8_t * src , uint8_t * topright , int stride ) {
const int lt = src [ - 1 - 1 * stride ] ;
LOAD_TOP_EDGE
LOAD_LEFT_EDGE
const __attribute__ ( ( unused ) ) int unu = l3 ;
src [ 0 + 0 * stride ] =
src [ 1 + 2 * stride ] = ( lt + t0 + 1 ) > > 1 ;
src [ 1 + 0 * stride ] =
src [ 2 + 2 * stride ] = ( t0 + t1 + 1 ) > > 1 ;
src [ 2 + 0 * stride ] =
src [ 3 + 2 * stride ] = ( t1 + t2 + 1 ) > > 1 ;
src [ 3 + 0 * stride ] = ( t2 + t3 + 1 ) > > 1 ;
src [ 0 + 1 * stride ] =
src [ 1 + 3 * stride ] = ( l0 + 2 * lt + t0 + 2 ) > > 2 ;
src [ 1 + 1 * stride ] =
src [ 2 + 3 * stride ] = ( lt + 2 * t0 + t1 + 2 ) > > 2 ;
src [ 2 + 1 * stride ] =
src [ 3 + 3 * stride ] = ( t0 + 2 * t1 + t2 + 2 ) > > 2 ;
src [ 3 + 1 * stride ] = ( t1 + 2 * t2 + t3 + 2 ) > > 2 ;
src [ 0 + 2 * stride ] = ( lt + 2 * l0 + l1 + 2 ) > > 2 ;
src [ 0 + 3 * stride ] = ( l0 + 2 * l1 + l2 + 2 ) > > 2 ;
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}
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static void pred4x4_vertical_left_c ( uint8_t * src , uint8_t * topright , int stride ) {
LOAD_TOP_EDGE
LOAD_TOP_RIGHT_EDGE
const __attribute__ ( ( unused ) ) int unu = t7 ;
src [ 0 + 0 * stride ] = ( t0 + t1 + 1 ) > > 1 ;
src [ 1 + 0 * stride ] =
src [ 0 + 2 * stride ] = ( t1 + t2 + 1 ) > > 1 ;
src [ 2 + 0 * stride ] =
src [ 1 + 2 * stride ] = ( t2 + t3 + 1 ) > > 1 ;
src [ 3 + 0 * stride ] =
src [ 2 + 2 * stride ] = ( t3 + t4 + 1 ) > > 1 ;
src [ 3 + 2 * stride ] = ( t4 + t5 + 1 ) > > 1 ;
src [ 0 + 1 * stride ] = ( t0 + 2 * t1 + t2 + 2 ) > > 2 ;
src [ 1 + 1 * stride ] =
src [ 0 + 3 * stride ] = ( t1 + 2 * t2 + t3 + 2 ) > > 2 ;
src [ 2 + 1 * stride ] =
src [ 1 + 3 * stride ] = ( t2 + 2 * t3 + t4 + 2 ) > > 2 ;
src [ 3 + 1 * stride ] =
src [ 2 + 3 * stride ] = ( t3 + 2 * t4 + t5 + 2 ) > > 2 ;
src [ 3 + 3 * stride ] = ( t4 + 2 * t5 + t6 + 2 ) > > 2 ;
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}
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static void pred4x4_horizontal_up_c ( uint8_t * src , uint8_t * topright , int stride ) {
LOAD_LEFT_EDGE
src [ 0 + 0 * stride ] = ( l0 + l1 + 1 ) > > 1 ;
src [ 1 + 0 * stride ] = ( l0 + 2 * l1 + l2 + 2 ) > > 2 ;
src [ 2 + 0 * stride ] =
src [ 0 + 1 * stride ] = ( l1 + l2 + 1 ) > > 1 ;
src [ 3 + 0 * stride ] =
src [ 1 + 1 * stride ] = ( l1 + 2 * l2 + l3 + 2 ) > > 2 ;
src [ 2 + 1 * stride ] =
src [ 0 + 2 * stride ] = ( l2 + l3 + 1 ) > > 1 ;
src [ 3 + 1 * stride ] =
src [ 1 + 2 * stride ] = ( l2 + 2 * l3 + l3 + 2 ) > > 2 ;
src [ 3 + 2 * stride ] =
src [ 1 + 3 * stride ] =
src [ 0 + 3 * stride ] =
src [ 2 + 2 * stride ] =
src [ 2 + 3 * stride ] =
src [ 3 + 3 * stride ] = l3 ;
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}
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static void pred4x4_horizontal_down_c ( uint8_t * src , uint8_t * topright , int stride ) {
const int lt = src [ - 1 - 1 * stride ] ;
LOAD_TOP_EDGE
LOAD_LEFT_EDGE
const __attribute__ ( ( unused ) ) int unu = t3 ;
src [ 0 + 0 * stride ] =
src [ 2 + 1 * stride ] = ( lt + l0 + 1 ) > > 1 ;
src [ 1 + 0 * stride ] =
src [ 3 + 1 * stride ] = ( l0 + 2 * lt + t0 + 2 ) > > 2 ;
src [ 2 + 0 * stride ] = ( lt + 2 * t0 + t1 + 2 ) > > 2 ;
src [ 3 + 0 * stride ] = ( t0 + 2 * t1 + t2 + 2 ) > > 2 ;
src [ 0 + 1 * stride ] =
src [ 2 + 2 * stride ] = ( l0 + l1 + 1 ) > > 1 ;
src [ 1 + 1 * stride ] =
src [ 3 + 2 * stride ] = ( lt + 2 * l0 + l1 + 2 ) > > 2 ;
src [ 0 + 2 * stride ] =
src [ 2 + 3 * stride ] = ( l1 + l2 + 1 ) > > 1 ;
src [ 1 + 2 * stride ] =
src [ 3 + 3 * stride ] = ( l0 + 2 * l1 + l2 + 2 ) > > 2 ;
src [ 0 + 3 * stride ] = ( l2 + l3 + 1 ) > > 1 ;
src [ 1 + 3 * stride ] = ( l1 + 2 * l2 + l3 + 2 ) > > 2 ;
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}
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static void pred16x16_vertical_c ( uint8_t * src , int stride ) {
int i ;
const uint32_t a = ( ( uint32_t * ) ( src - stride ) ) [ 0 ] ;
const uint32_t b = ( ( uint32_t * ) ( src - stride ) ) [ 1 ] ;
const uint32_t c = ( ( uint32_t * ) ( src - stride ) ) [ 2 ] ;
const uint32_t d = ( ( uint32_t * ) ( src - stride ) ) [ 3 ] ;
for ( i = 0 ; i < 16 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] = a ;
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = b ;
( ( uint32_t * ) ( src + i * stride ) ) [ 2 ] = c ;
( ( uint32_t * ) ( src + i * stride ) ) [ 3 ] = d ;
}
}
static void pred16x16_horizontal_c ( uint8_t * src , int stride ) {
int i ;
for ( i = 0 ; i < 16 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 2 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 3 ] = src [ - 1 + i * stride ] * 0x01010101 ;
}
}
static void pred16x16_dc_c ( uint8_t * src , int stride ) {
int i , dc = 0 ;
for ( i = 0 ; i < 16 ; i + + ) {
dc + = src [ - 1 + i * stride ] ;
}
for ( i = 0 ; i < 16 ; i + + ) {
dc + = src [ i - stride ] ;
}
dc = 0x01010101 * ( ( dc + 16 ) > > 5 ) ;
for ( i = 0 ; i < 16 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 2 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 3 ] = dc ;
}
}
static void pred16x16_left_dc_c ( uint8_t * src , int stride ) {
int i , dc = 0 ;
for ( i = 0 ; i < 16 ; i + + ) {
dc + = src [ - 1 + i * stride ] ;
}
dc = 0x01010101 * ( ( dc + 8 ) > > 4 ) ;
for ( i = 0 ; i < 16 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 2 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 3 ] = dc ;
}
}
static void pred16x16_top_dc_c ( uint8_t * src , int stride ) {
int i , dc = 0 ;
for ( i = 0 ; i < 16 ; i + + ) {
dc + = src [ i - stride ] ;
}
dc = 0x01010101 * ( ( dc + 8 ) > > 4 ) ;
for ( i = 0 ; i < 16 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 2 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 3 ] = dc ;
}
}
static void pred16x16_128_dc_c ( uint8_t * src , int stride ) {
int i ;
for ( i = 0 ; i < 16 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 2 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 3 ] = 0x01010101U * 128U ;
}
}
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static inline void pred16x16_plane_compat_c ( uint8_t * src , int stride , const int svq3 ) {
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int i , j , k ;
int a ;
uint8_t * cm = cropTbl + MAX_NEG_CROP ;
const uint8_t * const src0 = src + 7 - stride ;
const uint8_t * src1 = src + 8 * stride - 1 ;
const uint8_t * src2 = src1 - 2 * stride ; // == src+6*stride-1;
int H = src0 [ 1 ] - src0 [ - 1 ] ;
int V = src1 [ 0 ] - src2 [ 0 ] ;
for ( k = 2 ; k < = 8 ; + + k ) {
src1 + = stride ; src2 - = stride ;
H + = k * ( src0 [ k ] - src0 [ - k ] ) ;
V + = k * ( src1 [ 0 ] - src2 [ 0 ] ) ;
}
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if ( svq3 ) {
H = ( 5 * ( H / 4 ) ) / 16 ;
V = ( 5 * ( V / 4 ) ) / 16 ;
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/* required for 100% accuracy */
i = H ; H = V ; V = i ;
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} else {
H = ( 5 * H + 32 ) > > 6 ;
V = ( 5 * V + 32 ) > > 6 ;
}
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a = 16 * ( src1 [ 0 ] + src2 [ 16 ] + 1 ) - 7 * ( V + H ) ;
for ( j = 16 ; j > 0 ; - - j ) {
int b = a ;
a + = V ;
for ( i = - 16 ; i < 0 ; i + = 4 ) {
src [ 16 + i ] = cm [ ( b ) > > 5 ] ;
src [ 17 + i ] = cm [ ( b + H ) > > 5 ] ;
src [ 18 + i ] = cm [ ( b + 2 * H ) > > 5 ] ;
src [ 19 + i ] = cm [ ( b + 3 * H ) > > 5 ] ;
b + = 4 * H ;
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}
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src + = stride ;
}
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}
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static void pred16x16_plane_c ( uint8_t * src , int stride ) {
pred16x16_plane_compat_c ( src , stride , 0 ) ;
}
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static void pred8x8_vertical_c ( uint8_t * src , int stride ) {
int i ;
const uint32_t a = ( ( uint32_t * ) ( src - stride ) ) [ 0 ] ;
const uint32_t b = ( ( uint32_t * ) ( src - stride ) ) [ 1 ] ;
for ( i = 0 ; i < 8 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] = a ;
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = b ;
}
}
static void pred8x8_horizontal_c ( uint8_t * src , int stride ) {
int i ;
for ( i = 0 ; i < 8 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = src [ - 1 + i * stride ] * 0x01010101 ;
}
}
static void pred8x8_128_dc_c ( uint8_t * src , int stride ) {
int i ;
for ( i = 0 ; i < 4 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = 0x01010101U * 128U ;
}
for ( i = 4 ; i < 8 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = 0x01010101U * 128U ;
}
}
static void pred8x8_left_dc_c ( uint8_t * src , int stride ) {
int i ;
int dc0 , dc2 ;
dc0 = dc2 = 0 ;
for ( i = 0 ; i < 4 ; i + + ) {
dc0 + = src [ - 1 + i * stride ] ;
dc2 + = src [ - 1 + ( i + 4 ) * stride ] ;
}
dc0 = 0x01010101 * ( ( dc0 + 2 ) > > 2 ) ;
dc2 = 0x01010101 * ( ( dc2 + 2 ) > > 2 ) ;
for ( i = 0 ; i < 4 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = dc0 ;
}
for ( i = 4 ; i < 8 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] =
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = dc2 ;
}
}
static void pred8x8_top_dc_c ( uint8_t * src , int stride ) {
int i ;
int dc0 , dc1 ;
dc0 = dc1 = 0 ;
for ( i = 0 ; i < 4 ; i + + ) {
dc0 + = src [ i - stride ] ;
dc1 + = src [ 4 + i - stride ] ;
}
dc0 = 0x01010101 * ( ( dc0 + 2 ) > > 2 ) ;
dc1 = 0x01010101 * ( ( dc1 + 2 ) > > 2 ) ;
for ( i = 0 ; i < 4 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] = dc0 ;
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = dc1 ;
}
for ( i = 4 ; i < 8 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] = dc0 ;
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = dc1 ;
}
}
static void pred8x8_dc_c ( uint8_t * src , int stride ) {
int i ;
int dc0 , dc1 , dc2 , dc3 ;
dc0 = dc1 = dc2 = 0 ;
for ( i = 0 ; i < 4 ; i + + ) {
dc0 + = src [ - 1 + i * stride ] + src [ i - stride ] ;
dc1 + = src [ 4 + i - stride ] ;
dc2 + = src [ - 1 + ( i + 4 ) * stride ] ;
}
dc3 = 0x01010101 * ( ( dc1 + dc2 + 4 ) > > 3 ) ;
dc0 = 0x01010101 * ( ( dc0 + 4 ) > > 3 ) ;
dc1 = 0x01010101 * ( ( dc1 + 2 ) > > 2 ) ;
dc2 = 0x01010101 * ( ( dc2 + 2 ) > > 2 ) ;
for ( i = 0 ; i < 4 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] = dc0 ;
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = dc1 ;
}
for ( i = 4 ; i < 8 ; i + + ) {
( ( uint32_t * ) ( src + i * stride ) ) [ 0 ] = dc2 ;
( ( uint32_t * ) ( src + i * stride ) ) [ 1 ] = dc3 ;
}
}
static void pred8x8_plane_c ( uint8_t * src , int stride ) {
2003-04-13 00:49:54 +02:00
int j , k ;
int a ;
uint8_t * cm = cropTbl + MAX_NEG_CROP ;
const uint8_t * const src0 = src + 3 - stride ;
const uint8_t * src1 = src + 4 * stride - 1 ;
const uint8_t * src2 = src1 - 2 * stride ; // == src+2*stride-1;
int H = src0 [ 1 ] - src0 [ - 1 ] ;
int V = src1 [ 0 ] - src2 [ 0 ] ;
for ( k = 2 ; k < = 4 ; + + k ) {
src1 + = stride ; src2 - = stride ;
H + = k * ( src0 [ k ] - src0 [ - k ] ) ;
V + = k * ( src1 [ 0 ] - src2 [ 0 ] ) ;
}
H = ( 17 * H + 16 ) > > 5 ;
V = ( 17 * V + 16 ) > > 5 ;
a = 16 * ( src1 [ 0 ] + src2 [ 8 ] + 1 ) - 3 * ( V + H ) ;
for ( j = 8 ; j > 0 ; - - j ) {
int b = a ;
a + = V ;
src [ 0 ] = cm [ ( b ) > > 5 ] ;
src [ 1 ] = cm [ ( b + H ) > > 5 ] ;
src [ 2 ] = cm [ ( b + 2 * H ) > > 5 ] ;
src [ 3 ] = cm [ ( b + 3 * H ) > > 5 ] ;
src [ 4 ] = cm [ ( b + 4 * H ) > > 5 ] ;
src [ 5 ] = cm [ ( b + 5 * H ) > > 5 ] ;
src [ 6 ] = cm [ ( b + 6 * H ) > > 5 ] ;
src [ 7 ] = cm [ ( b + 7 * H ) > > 5 ] ;
src + = stride ;
}
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}
static inline void mc_dir_part ( H264Context * h , Picture * pic , int n , int square , int chroma_height , int delta , int list ,
uint8_t * dest_y , uint8_t * dest_cb , uint8_t * dest_cr ,
int src_x_offset , int src_y_offset ,
qpel_mc_func * qpix_op , h264_chroma_mc_func chroma_op ) {
MpegEncContext * const s = & h - > s ;
const int mx = h - > mv_cache [ list ] [ scan8 [ n ] ] [ 0 ] + src_x_offset * 8 ;
const int my = h - > mv_cache [ list ] [ scan8 [ n ] ] [ 1 ] + src_y_offset * 8 ;
const int luma_xy = ( mx & 3 ) + ( ( my & 3 ) < < 2 ) ;
uint8_t * src_y = pic - > data [ 0 ] + ( mx > > 2 ) + ( my > > 2 ) * s - > linesize ;
uint8_t * src_cb = pic - > data [ 1 ] + ( mx > > 3 ) + ( my > > 3 ) * s - > uvlinesize ;
uint8_t * src_cr = pic - > data [ 2 ] + ( mx > > 3 ) + ( my > > 3 ) * s - > uvlinesize ;
int extra_width = ( s - > flags & CODEC_FLAG_EMU_EDGE ) ? 0 : 16 ; //FIXME increase edge?, IMHO not worth it
int extra_height = extra_width ;
int emu = 0 ;
const int full_mx = mx > > 2 ;
const int full_my = my > > 2 ;
assert ( pic - > data [ 0 ] ) ;
if ( mx & 7 ) extra_width - = 3 ;
if ( my & 7 ) extra_height - = 3 ;
if ( full_mx < 0 - extra_width
| | full_my < 0 - extra_height
| | full_mx + 16 /*FIXME*/ > s - > width + extra_width
| | full_my + 16 /*FIXME*/ > s - > height + extra_height ) {
2003-06-19 00:00:23 +02:00
ff_emulated_edge_mc ( s - > edge_emu_buffer , src_y - 2 - 2 * s - > linesize , s - > linesize , 16 + 5 , 16 + 5 /*FIXME*/ , full_mx - 2 , full_my - 2 , s - > width , s - > height ) ;
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src_y = s - > edge_emu_buffer + 2 + 2 * s - > linesize ;
emu = 1 ;
}
qpix_op [ luma_xy ] ( dest_y , src_y , s - > linesize ) ; //FIXME try variable height perhaps?
if ( ! square ) {
qpix_op [ luma_xy ] ( dest_y + delta , src_y + delta , s - > linesize ) ;
}
if ( s - > flags & CODEC_FLAG_GRAY ) return ;
if ( emu ) {
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ff_emulated_edge_mc ( s - > edge_emu_buffer , src_cb , s - > uvlinesize , 9 , 9 /*FIXME*/ , ( mx > > 3 ) , ( my > > 3 ) , s - > width > > 1 , s - > height > > 1 ) ;
2003-04-04 16:42:28 +02:00
src_cb = s - > edge_emu_buffer ;
}
chroma_op ( dest_cb , src_cb , s - > uvlinesize , chroma_height , mx & 7 , my & 7 ) ;
if ( emu ) {
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ff_emulated_edge_mc ( s - > edge_emu_buffer , src_cr , s - > uvlinesize , 9 , 9 /*FIXME*/ , ( mx > > 3 ) , ( my > > 3 ) , s - > width > > 1 , s - > height > > 1 ) ;
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src_cr = s - > edge_emu_buffer ;
}
chroma_op ( dest_cr , src_cr , s - > uvlinesize , chroma_height , mx & 7 , my & 7 ) ;
}
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static inline void mc_part_std ( H264Context * h , int n , int square , int chroma_height , int delta ,
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uint8_t * dest_y , uint8_t * dest_cb , uint8_t * dest_cr ,
int x_offset , int y_offset ,
qpel_mc_func * qpix_put , h264_chroma_mc_func chroma_put ,
qpel_mc_func * qpix_avg , h264_chroma_mc_func chroma_avg ,
int list0 , int list1 ) {
MpegEncContext * const s = & h - > s ;
qpel_mc_func * qpix_op = qpix_put ;
h264_chroma_mc_func chroma_op = chroma_put ;
dest_y + = 2 * x_offset + 2 * y_offset * s - > linesize ;
dest_cb + = x_offset + y_offset * s - > uvlinesize ;
dest_cr + = x_offset + y_offset * s - > uvlinesize ;
x_offset + = 8 * s - > mb_x ;
y_offset + = 8 * s - > mb_y ;
if ( list0 ) {
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Picture * ref = & h - > ref_list [ 0 ] [ h - > ref_cache [ 0 ] [ scan8 [ n ] ] ] ;
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mc_dir_part ( h , ref , n , square , chroma_height , delta , 0 ,
dest_y , dest_cb , dest_cr , x_offset , y_offset ,
qpix_op , chroma_op ) ;
qpix_op = qpix_avg ;
chroma_op = chroma_avg ;
}
if ( list1 ) {
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Picture * ref = & h - > ref_list [ 1 ] [ h - > ref_cache [ 1 ] [ scan8 [ n ] ] ] ;
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mc_dir_part ( h , ref , n , square , chroma_height , delta , 1 ,
dest_y , dest_cb , dest_cr , x_offset , y_offset ,
qpix_op , chroma_op ) ;
}
}
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static inline void mc_part_weighted ( H264Context * h , int n , int square , int chroma_height , int delta ,
uint8_t * dest_y , uint8_t * dest_cb , uint8_t * dest_cr ,
int x_offset , int y_offset ,
qpel_mc_func * qpix_put , h264_chroma_mc_func chroma_put ,
h264_weight_func luma_weight_op , h264_weight_func chroma_weight_op ,
h264_biweight_func luma_weight_avg , h264_biweight_func chroma_weight_avg ,
int list0 , int list1 ) {
MpegEncContext * const s = & h - > s ;
dest_y + = 2 * x_offset + 2 * y_offset * s - > linesize ;
dest_cb + = x_offset + y_offset * s - > uvlinesize ;
dest_cr + = x_offset + y_offset * s - > uvlinesize ;
x_offset + = 8 * s - > mb_x ;
y_offset + = 8 * s - > mb_y ;
if ( list0 & & list1 ) {
/* don't optimize for luma-only case, since B-frames usually
* use implicit weights = > chroma too . */
uint8_t * tmp_cb = s - > obmc_scratchpad ;
uint8_t * tmp_cr = tmp_cb + 8 * s - > uvlinesize ;
uint8_t * tmp_y = tmp_cr + 8 * s - > uvlinesize ;
int refn0 = h - > ref_cache [ 0 ] [ scan8 [ n ] ] ;
int refn1 = h - > ref_cache [ 1 ] [ scan8 [ n ] ] ;
mc_dir_part ( h , & h - > ref_list [ 0 ] [ refn0 ] , n , square , chroma_height , delta , 0 ,
dest_y , dest_cb , dest_cr ,
x_offset , y_offset , qpix_put , chroma_put ) ;
mc_dir_part ( h , & h - > ref_list [ 1 ] [ refn1 ] , n , square , chroma_height , delta , 1 ,
tmp_y , tmp_cb , tmp_cr ,
x_offset , y_offset , qpix_put , chroma_put ) ;
if ( h - > use_weight = = 2 ) {
int weight0 = h - > implicit_weight [ refn0 ] [ refn1 ] ;
int weight1 = 64 - weight0 ;
luma_weight_avg ( dest_y , tmp_y , s - > linesize , 5 , weight0 , weight1 , 0 , 0 ) ;
chroma_weight_avg ( dest_cb , tmp_cb , s - > uvlinesize , 5 , weight0 , weight1 , 0 , 0 ) ;
chroma_weight_avg ( dest_cr , tmp_cr , s - > uvlinesize , 5 , weight0 , weight1 , 0 , 0 ) ;
} else {
luma_weight_avg ( dest_y , tmp_y , s - > linesize , h - > luma_log2_weight_denom ,
h - > luma_weight [ 0 ] [ refn0 ] , h - > luma_weight [ 1 ] [ refn1 ] ,
h - > luma_offset [ 0 ] [ refn0 ] , h - > luma_offset [ 1 ] [ refn1 ] ) ;
chroma_weight_avg ( dest_cb , tmp_cb , s - > uvlinesize , h - > chroma_log2_weight_denom ,
h - > chroma_weight [ 0 ] [ refn0 ] [ 0 ] , h - > chroma_weight [ 1 ] [ refn1 ] [ 0 ] ,
h - > chroma_offset [ 0 ] [ refn0 ] [ 0 ] , h - > chroma_offset [ 1 ] [ refn1 ] [ 0 ] ) ;
chroma_weight_avg ( dest_cr , tmp_cr , s - > uvlinesize , h - > chroma_log2_weight_denom ,
h - > chroma_weight [ 0 ] [ refn0 ] [ 1 ] , h - > chroma_weight [ 1 ] [ refn1 ] [ 1 ] ,
h - > chroma_offset [ 0 ] [ refn0 ] [ 1 ] , h - > chroma_offset [ 1 ] [ refn1 ] [ 1 ] ) ;
}
} else {
int list = list1 ? 1 : 0 ;
int refn = h - > ref_cache [ list ] [ scan8 [ n ] ] ;
Picture * ref = & h - > ref_list [ list ] [ refn ] ;
mc_dir_part ( h , ref , n , square , chroma_height , delta , list ,
dest_y , dest_cb , dest_cr , x_offset , y_offset ,
qpix_put , chroma_put ) ;
luma_weight_op ( dest_y , s - > linesize , h - > luma_log2_weight_denom ,
h - > luma_weight [ list ] [ refn ] , h - > luma_offset [ list ] [ refn ] ) ;
if ( h - > use_weight_chroma ) {
chroma_weight_op ( dest_cb , s - > uvlinesize , h - > chroma_log2_weight_denom ,
h - > chroma_weight [ list ] [ refn ] [ 0 ] , h - > chroma_offset [ list ] [ refn ] [ 0 ] ) ;
chroma_weight_op ( dest_cr , s - > uvlinesize , h - > chroma_log2_weight_denom ,
h - > chroma_weight [ list ] [ refn ] [ 1 ] , h - > chroma_offset [ list ] [ refn ] [ 1 ] ) ;
}
}
}
static inline void mc_part ( H264Context * h , int n , int square , int chroma_height , int delta ,
uint8_t * dest_y , uint8_t * dest_cb , uint8_t * dest_cr ,
int x_offset , int y_offset ,
qpel_mc_func * qpix_put , h264_chroma_mc_func chroma_put ,
qpel_mc_func * qpix_avg , h264_chroma_mc_func chroma_avg ,
h264_weight_func * weight_op , h264_biweight_func * weight_avg ,
int list0 , int list1 ) {
if ( ( h - > use_weight = = 2 & & list0 & & list1
& & ( h - > implicit_weight [ h - > ref_cache [ 0 ] [ scan8 [ n ] ] ] [ h - > ref_cache [ 1 ] [ scan8 [ n ] ] ] ! = 32 ) )
| | h - > use_weight = = 1 )
mc_part_weighted ( h , n , square , chroma_height , delta , dest_y , dest_cb , dest_cr ,
x_offset , y_offset , qpix_put , chroma_put ,
weight_op [ 0 ] , weight_op [ 3 ] , weight_avg [ 0 ] , weight_avg [ 3 ] , list0 , list1 ) ;
else
mc_part_std ( h , n , square , chroma_height , delta , dest_y , dest_cb , dest_cr ,
x_offset , y_offset , qpix_put , chroma_put , qpix_avg , chroma_avg , list0 , list1 ) ;
}
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static void hl_motion ( H264Context * h , uint8_t * dest_y , uint8_t * dest_cb , uint8_t * dest_cr ,
qpel_mc_func ( * qpix_put ) [ 16 ] , h264_chroma_mc_func ( * chroma_put ) ,
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qpel_mc_func ( * qpix_avg ) [ 16 ] , h264_chroma_mc_func ( * chroma_avg ) ,
h264_weight_func * weight_op , h264_biweight_func * weight_avg ) {
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MpegEncContext * const s = & h - > s ;
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const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
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const int mb_type = s - > current_picture . mb_type [ mb_xy ] ;
assert ( IS_INTER ( mb_type ) ) ;
if ( IS_16X16 ( mb_type ) ) {
mc_part ( h , 0 , 1 , 8 , 0 , dest_y , dest_cb , dest_cr , 0 , 0 ,
qpix_put [ 0 ] , chroma_put [ 0 ] , qpix_avg [ 0 ] , chroma_avg [ 0 ] ,
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& weight_op [ 0 ] , & weight_avg [ 0 ] ,
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IS_DIR ( mb_type , 0 , 0 ) , IS_DIR ( mb_type , 0 , 1 ) ) ;
} else if ( IS_16X8 ( mb_type ) ) {
mc_part ( h , 0 , 0 , 4 , 8 , dest_y , dest_cb , dest_cr , 0 , 0 ,
qpix_put [ 1 ] , chroma_put [ 0 ] , qpix_avg [ 1 ] , chroma_avg [ 0 ] ,
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& weight_op [ 1 ] , & weight_avg [ 1 ] ,
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IS_DIR ( mb_type , 0 , 0 ) , IS_DIR ( mb_type , 0 , 1 ) ) ;
mc_part ( h , 8 , 0 , 4 , 8 , dest_y , dest_cb , dest_cr , 0 , 4 ,
qpix_put [ 1 ] , chroma_put [ 0 ] , qpix_avg [ 1 ] , chroma_avg [ 0 ] ,
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& weight_op [ 1 ] , & weight_avg [ 1 ] ,
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IS_DIR ( mb_type , 1 , 0 ) , IS_DIR ( mb_type , 1 , 1 ) ) ;
} else if ( IS_8X16 ( mb_type ) ) {
mc_part ( h , 0 , 0 , 8 , 8 * s - > linesize , dest_y , dest_cb , dest_cr , 0 , 0 ,
qpix_put [ 1 ] , chroma_put [ 1 ] , qpix_avg [ 1 ] , chroma_avg [ 1 ] ,
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& weight_op [ 2 ] , & weight_avg [ 2 ] ,
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IS_DIR ( mb_type , 0 , 0 ) , IS_DIR ( mb_type , 0 , 1 ) ) ;
mc_part ( h , 4 , 0 , 8 , 8 * s - > linesize , dest_y , dest_cb , dest_cr , 4 , 0 ,
qpix_put [ 1 ] , chroma_put [ 1 ] , qpix_avg [ 1 ] , chroma_avg [ 1 ] ,
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& weight_op [ 2 ] , & weight_avg [ 2 ] ,
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IS_DIR ( mb_type , 1 , 0 ) , IS_DIR ( mb_type , 1 , 1 ) ) ;
} else {
int i ;
assert ( IS_8X8 ( mb_type ) ) ;
for ( i = 0 ; i < 4 ; i + + ) {
const int sub_mb_type = h - > sub_mb_type [ i ] ;
const int n = 4 * i ;
int x_offset = ( i & 1 ) < < 2 ;
int y_offset = ( i & 2 ) < < 1 ;
if ( IS_SUB_8X8 ( sub_mb_type ) ) {
mc_part ( h , n , 1 , 4 , 0 , dest_y , dest_cb , dest_cr , x_offset , y_offset ,
qpix_put [ 1 ] , chroma_put [ 1 ] , qpix_avg [ 1 ] , chroma_avg [ 1 ] ,
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& weight_op [ 3 ] , & weight_avg [ 3 ] ,
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IS_DIR ( sub_mb_type , 0 , 0 ) , IS_DIR ( sub_mb_type , 0 , 1 ) ) ;
} else if ( IS_SUB_8X4 ( sub_mb_type ) ) {
mc_part ( h , n , 0 , 2 , 4 , dest_y , dest_cb , dest_cr , x_offset , y_offset ,
qpix_put [ 2 ] , chroma_put [ 1 ] , qpix_avg [ 2 ] , chroma_avg [ 1 ] ,
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& weight_op [ 4 ] , & weight_avg [ 4 ] ,
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IS_DIR ( sub_mb_type , 0 , 0 ) , IS_DIR ( sub_mb_type , 0 , 1 ) ) ;
mc_part ( h , n + 2 , 0 , 2 , 4 , dest_y , dest_cb , dest_cr , x_offset , y_offset + 2 ,
qpix_put [ 2 ] , chroma_put [ 1 ] , qpix_avg [ 2 ] , chroma_avg [ 1 ] ,
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& weight_op [ 4 ] , & weight_avg [ 4 ] ,
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IS_DIR ( sub_mb_type , 0 , 0 ) , IS_DIR ( sub_mb_type , 0 , 1 ) ) ;
} else if ( IS_SUB_4X8 ( sub_mb_type ) ) {
mc_part ( h , n , 0 , 4 , 4 * s - > linesize , dest_y , dest_cb , dest_cr , x_offset , y_offset ,
qpix_put [ 2 ] , chroma_put [ 2 ] , qpix_avg [ 2 ] , chroma_avg [ 2 ] ,
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& weight_op [ 5 ] , & weight_avg [ 5 ] ,
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IS_DIR ( sub_mb_type , 0 , 0 ) , IS_DIR ( sub_mb_type , 0 , 1 ) ) ;
mc_part ( h , n + 1 , 0 , 4 , 4 * s - > linesize , dest_y , dest_cb , dest_cr , x_offset + 2 , y_offset ,
qpix_put [ 2 ] , chroma_put [ 2 ] , qpix_avg [ 2 ] , chroma_avg [ 2 ] ,
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& weight_op [ 5 ] , & weight_avg [ 5 ] ,
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IS_DIR ( sub_mb_type , 0 , 0 ) , IS_DIR ( sub_mb_type , 0 , 1 ) ) ;
} else {
int j ;
assert ( IS_SUB_4X4 ( sub_mb_type ) ) ;
for ( j = 0 ; j < 4 ; j + + ) {
int sub_x_offset = x_offset + 2 * ( j & 1 ) ;
int sub_y_offset = y_offset + ( j & 2 ) ;
mc_part ( h , n + j , 1 , 2 , 0 , dest_y , dest_cb , dest_cr , sub_x_offset , sub_y_offset ,
qpix_put [ 2 ] , chroma_put [ 2 ] , qpix_avg [ 2 ] , chroma_avg [ 2 ] ,
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& weight_op [ 6 ] , & weight_avg [ 6 ] ,
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IS_DIR ( sub_mb_type , 0 , 0 ) , IS_DIR ( sub_mb_type , 0 , 1 ) ) ;
}
}
}
}
}
static void decode_init_vlc ( H264Context * h ) {
static int done = 0 ;
if ( ! done ) {
int i ;
done = 1 ;
init_vlc ( & chroma_dc_coeff_token_vlc , CHROMA_DC_COEFF_TOKEN_VLC_BITS , 4 * 5 ,
& chroma_dc_coeff_token_len [ 0 ] , 1 , 1 ,
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& chroma_dc_coeff_token_bits [ 0 ] , 1 , 1 , 1 ) ;
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for ( i = 0 ; i < 4 ; i + + ) {
init_vlc ( & coeff_token_vlc [ i ] , COEFF_TOKEN_VLC_BITS , 4 * 17 ,
& coeff_token_len [ i ] [ 0 ] , 1 , 1 ,
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& coeff_token_bits [ i ] [ 0 ] , 1 , 1 , 1 ) ;
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}
for ( i = 0 ; i < 3 ; i + + ) {
init_vlc ( & chroma_dc_total_zeros_vlc [ i ] , CHROMA_DC_TOTAL_ZEROS_VLC_BITS , 4 ,
& chroma_dc_total_zeros_len [ i ] [ 0 ] , 1 , 1 ,
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& chroma_dc_total_zeros_bits [ i ] [ 0 ] , 1 , 1 , 1 ) ;
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}
for ( i = 0 ; i < 15 ; i + + ) {
init_vlc ( & total_zeros_vlc [ i ] , TOTAL_ZEROS_VLC_BITS , 16 ,
& total_zeros_len [ i ] [ 0 ] , 1 , 1 ,
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& total_zeros_bits [ i ] [ 0 ] , 1 , 1 , 1 ) ;
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}
for ( i = 0 ; i < 6 ; i + + ) {
init_vlc ( & run_vlc [ i ] , RUN_VLC_BITS , 7 ,
& run_len [ i ] [ 0 ] , 1 , 1 ,
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& run_bits [ i ] [ 0 ] , 1 , 1 , 1 ) ;
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}
init_vlc ( & run7_vlc , RUN7_VLC_BITS , 16 ,
& run_len [ 6 ] [ 0 ] , 1 , 1 ,
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& run_bits [ 6 ] [ 0 ] , 1 , 1 , 1 ) ;
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}
}
/**
* Sets the intra prediction function pointers .
*/
static void init_pred_ptrs ( H264Context * h ) {
// MpegEncContext * const s = &h->s;
h - > pred4x4 [ VERT_PRED ] = pred4x4_vertical_c ;
h - > pred4x4 [ HOR_PRED ] = pred4x4_horizontal_c ;
h - > pred4x4 [ DC_PRED ] = pred4x4_dc_c ;
h - > pred4x4 [ DIAG_DOWN_LEFT_PRED ] = pred4x4_down_left_c ;
h - > pred4x4 [ DIAG_DOWN_RIGHT_PRED ] = pred4x4_down_right_c ;
h - > pred4x4 [ VERT_RIGHT_PRED ] = pred4x4_vertical_right_c ;
h - > pred4x4 [ HOR_DOWN_PRED ] = pred4x4_horizontal_down_c ;
h - > pred4x4 [ VERT_LEFT_PRED ] = pred4x4_vertical_left_c ;
h - > pred4x4 [ HOR_UP_PRED ] = pred4x4_horizontal_up_c ;
h - > pred4x4 [ LEFT_DC_PRED ] = pred4x4_left_dc_c ;
h - > pred4x4 [ TOP_DC_PRED ] = pred4x4_top_dc_c ;
h - > pred4x4 [ DC_128_PRED ] = pred4x4_128_dc_c ;
h - > pred8x8 [ DC_PRED8x8 ] = pred8x8_dc_c ;
h - > pred8x8 [ VERT_PRED8x8 ] = pred8x8_vertical_c ;
h - > pred8x8 [ HOR_PRED8x8 ] = pred8x8_horizontal_c ;
h - > pred8x8 [ PLANE_PRED8x8 ] = pred8x8_plane_c ;
h - > pred8x8 [ LEFT_DC_PRED8x8 ] = pred8x8_left_dc_c ;
h - > pred8x8 [ TOP_DC_PRED8x8 ] = pred8x8_top_dc_c ;
h - > pred8x8 [ DC_128_PRED8x8 ] = pred8x8_128_dc_c ;
h - > pred16x16 [ DC_PRED8x8 ] = pred16x16_dc_c ;
h - > pred16x16 [ VERT_PRED8x8 ] = pred16x16_vertical_c ;
h - > pred16x16 [ HOR_PRED8x8 ] = pred16x16_horizontal_c ;
h - > pred16x16 [ PLANE_PRED8x8 ] = pred16x16_plane_c ;
h - > pred16x16 [ LEFT_DC_PRED8x8 ] = pred16x16_left_dc_c ;
h - > pred16x16 [ TOP_DC_PRED8x8 ] = pred16x16_top_dc_c ;
h - > pred16x16 [ DC_128_PRED8x8 ] = pred16x16_128_dc_c ;
}
static void free_tables ( H264Context * h ) {
av_freep ( & h - > intra4x4_pred_mode ) ;
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av_freep ( & h - > chroma_pred_mode_table ) ;
av_freep ( & h - > cbp_table ) ;
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av_freep ( & h - > mvd_table [ 0 ] ) ;
av_freep ( & h - > mvd_table [ 1 ] ) ;
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av_freep ( & h - > direct_table ) ;
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av_freep ( & h - > non_zero_count ) ;
av_freep ( & h - > slice_table_base ) ;
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av_freep ( & h - > top_border ) ;
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h - > slice_table = NULL ;
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av_freep ( & h - > mb2b_xy ) ;
av_freep ( & h - > mb2b8_xy ) ;
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av_freep ( & h - > s . obmc_scratchpad ) ;
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}
/**
* allocates tables .
* needs widzh / height
*/
static int alloc_tables ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
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const int big_mb_num = s - > mb_stride * ( s - > mb_height + 1 ) ;
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int x , y ;
CHECKED_ALLOCZ ( h - > intra4x4_pred_mode , big_mb_num * 8 * sizeof ( uint8_t ) )
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CHECKED_ALLOCZ ( h - > non_zero_count , big_mb_num * 16 * sizeof ( uint8_t ) )
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CHECKED_ALLOCZ ( h - > slice_table_base , big_mb_num * sizeof ( uint8_t ) )
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CHECKED_ALLOCZ ( h - > top_border , s - > mb_width * ( 16 + 8 + 8 ) * sizeof ( uint8_t ) )
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CHECKED_ALLOCZ ( h - > cbp_table , big_mb_num * sizeof ( uint16_t ) )
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if ( h - > pps . cabac ) {
CHECKED_ALLOCZ ( h - > chroma_pred_mode_table , big_mb_num * sizeof ( uint8_t ) )
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CHECKED_ALLOCZ ( h - > mvd_table [ 0 ] , 32 * big_mb_num * sizeof ( uint16_t ) ) ;
CHECKED_ALLOCZ ( h - > mvd_table [ 1 ] , 32 * big_mb_num * sizeof ( uint16_t ) ) ;
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CHECKED_ALLOCZ ( h - > direct_table , 32 * big_mb_num * sizeof ( uint8_t ) ) ;
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}
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memset ( h - > slice_table_base , - 1 , big_mb_num * sizeof ( uint8_t ) ) ;
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h - > slice_table = h - > slice_table_base + s - > mb_stride + 1 ;
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CHECKED_ALLOCZ ( h - > mb2b_xy , big_mb_num * sizeof ( uint16_t ) ) ;
CHECKED_ALLOCZ ( h - > mb2b8_xy , big_mb_num * sizeof ( uint16_t ) ) ;
for ( y = 0 ; y < s - > mb_height ; y + + ) {
for ( x = 0 ; x < s - > mb_width ; x + + ) {
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const int mb_xy = x + y * s - > mb_stride ;
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const int b_xy = 4 * x + 4 * y * h - > b_stride ;
const int b8_xy = 2 * x + 2 * y * h - > b8_stride ;
h - > mb2b_xy [ mb_xy ] = b_xy ;
h - > mb2b8_xy [ mb_xy ] = b8_xy ;
}
}
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s - > obmc_scratchpad = NULL ;
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return 0 ;
fail :
free_tables ( h ) ;
return - 1 ;
}
static void common_init ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
s - > width = s - > avctx - > width ;
s - > height = s - > avctx - > height ;
s - > codec_id = s - > avctx - > codec - > id ;
init_pred_ptrs ( h ) ;
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s - > unrestricted_mv = 1 ;
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s - > decode = 1 ; //FIXME
}
static int decode_init ( AVCodecContext * avctx ) {
H264Context * h = avctx - > priv_data ;
MpegEncContext * const s = & h - > s ;
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MPV_decode_defaults ( s ) ;
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s - > avctx = avctx ;
common_init ( h ) ;
s - > out_format = FMT_H264 ;
s - > workaround_bugs = avctx - > workaround_bugs ;
// set defaults
// s->decode_mb= ff_h263_decode_mb;
s - > low_delay = 1 ;
avctx - > pix_fmt = PIX_FMT_YUV420P ;
decode_init_vlc ( h ) ;
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if ( avctx - > codec_tag ! = 0x31637661 & & avctx - > codec_tag ! = 0x31435641 ) // avc1
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h - > is_avc = 0 ;
else {
if ( ( avctx - > extradata_size = = 0 ) | | ( avctx - > extradata = = NULL ) ) {
av_log ( avctx , AV_LOG_ERROR , " AVC codec requires avcC data \n " ) ;
return - 1 ;
}
h - > is_avc = 1 ;
h - > got_avcC = 0 ;
}
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return 0 ;
}
static void frame_start ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int i ;
MPV_frame_start ( s , s - > avctx ) ;
ff_er_frame_start ( s ) ;
assert ( s - > linesize & & s - > uvlinesize ) ;
for ( i = 0 ; i < 16 ; i + + ) {
h - > block_offset [ i ] = 4 * ( ( scan8 [ i ] - scan8 [ 0 ] ) & 7 ) + 4 * s - > linesize * ( ( scan8 [ i ] - scan8 [ 0 ] ) > > 3 ) ;
h - > chroma_subblock_offset [ i ] = 2 * ( ( scan8 [ i ] - scan8 [ 0 ] ) & 7 ) + 2 * s - > uvlinesize * ( ( scan8 [ i ] - scan8 [ 0 ] ) > > 3 ) ;
}
for ( i = 0 ; i < 4 ; i + + ) {
h - > block_offset [ 16 + i ] =
h - > block_offset [ 20 + i ] = 4 * ( ( scan8 [ i ] - scan8 [ 0 ] ) & 7 ) + 4 * s - > uvlinesize * ( ( scan8 [ i ] - scan8 [ 0 ] ) > > 3 ) ;
}
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/* can't be in alloc_tables because linesize isn't known there.
* FIXME : redo bipred weight to not require extra buffer ? */
if ( ! s - > obmc_scratchpad )
s - > obmc_scratchpad = av_malloc ( 16 * s - > linesize + 2 * 8 * s - > uvlinesize ) ;
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// s->decode= (s->flags&CODEC_FLAG_PSNR) || !s->encoding || s->current_picture.reference /*|| h->contains_intra*/ || 1;
}
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static inline void backup_mb_border ( H264Context * h , uint8_t * src_y , uint8_t * src_cb , uint8_t * src_cr , int linesize , int uvlinesize ) {
MpegEncContext * const s = & h - > s ;
int i ;
src_y - = linesize ;
src_cb - = uvlinesize ;
src_cr - = uvlinesize ;
h - > left_border [ 0 ] = h - > top_border [ s - > mb_x ] [ 15 ] ;
for ( i = 1 ; i < 17 ; i + + ) {
h - > left_border [ i ] = src_y [ 15 + i * linesize ] ;
}
* ( uint64_t * ) ( h - > top_border [ s - > mb_x ] + 0 ) = * ( uint64_t * ) ( src_y + 16 * linesize ) ;
* ( uint64_t * ) ( h - > top_border [ s - > mb_x ] + 8 ) = * ( uint64_t * ) ( src_y + 8 + 16 * linesize ) ;
if ( ! ( s - > flags & CODEC_FLAG_GRAY ) ) {
h - > left_border [ 17 ] = h - > top_border [ s - > mb_x ] [ 16 + 7 ] ;
h - > left_border [ 17 + 9 ] = h - > top_border [ s - > mb_x ] [ 24 + 7 ] ;
for ( i = 1 ; i < 9 ; i + + ) {
h - > left_border [ i + 17 ] = src_cb [ 7 + i * uvlinesize ] ;
h - > left_border [ i + 17 + 9 ] = src_cr [ 7 + i * uvlinesize ] ;
}
* ( uint64_t * ) ( h - > top_border [ s - > mb_x ] + 16 ) = * ( uint64_t * ) ( src_cb + 8 * uvlinesize ) ;
* ( uint64_t * ) ( h - > top_border [ s - > mb_x ] + 24 ) = * ( uint64_t * ) ( src_cr + 8 * uvlinesize ) ;
}
}
static inline void xchg_mb_border ( H264Context * h , uint8_t * src_y , uint8_t * src_cb , uint8_t * src_cr , int linesize , int uvlinesize , int xchg ) {
MpegEncContext * const s = & h - > s ;
int temp8 , i ;
uint64_t temp64 ;
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int deblock_left = ( s - > mb_x > 0 ) ;
int deblock_top = ( s - > mb_y > 0 ) ;
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src_y - = linesize + 1 ;
src_cb - = uvlinesize + 1 ;
src_cr - = uvlinesize + 1 ;
# define XCHG(a,b,t,xchg)\
t = a ; \
if ( xchg ) \
a = b ; \
b = t ;
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if ( deblock_left ) {
for ( i = ! deblock_top ; i < 17 ; i + + ) {
XCHG ( h - > left_border [ i ] , src_y [ i * linesize ] , temp8 , xchg ) ;
}
}
if ( deblock_top ) {
XCHG ( * ( uint64_t * ) ( h - > top_border [ s - > mb_x ] + 0 ) , * ( uint64_t * ) ( src_y + 1 ) , temp64 , xchg ) ;
XCHG ( * ( uint64_t * ) ( h - > top_border [ s - > mb_x ] + 8 ) , * ( uint64_t * ) ( src_y + 9 ) , temp64 , 1 ) ;
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}
if ( ! ( s - > flags & CODEC_FLAG_GRAY ) ) {
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if ( deblock_left ) {
for ( i = ! deblock_top ; i < 9 ; i + + ) {
XCHG ( h - > left_border [ i + 17 ] , src_cb [ i * uvlinesize ] , temp8 , xchg ) ;
XCHG ( h - > left_border [ i + 17 + 9 ] , src_cr [ i * uvlinesize ] , temp8 , xchg ) ;
}
}
if ( deblock_top ) {
XCHG ( * ( uint64_t * ) ( h - > top_border [ s - > mb_x ] + 16 ) , * ( uint64_t * ) ( src_cb + 1 ) , temp64 , 1 ) ;
XCHG ( * ( uint64_t * ) ( h - > top_border [ s - > mb_x ] + 24 ) , * ( uint64_t * ) ( src_cr + 1 ) , temp64 , 1 ) ;
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}
}
}
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static void hl_decode_mb ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int mb_x = s - > mb_x ;
const int mb_y = s - > mb_y ;
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const int mb_xy = mb_x + mb_y * s - > mb_stride ;
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const int mb_type = s - > current_picture . mb_type [ mb_xy ] ;
uint8_t * dest_y , * dest_cb , * dest_cr ;
int linesize , uvlinesize /*dct_offset*/ ;
int i ;
if ( ! s - > decode )
return ;
if ( s - > mb_skiped ) {
}
dest_y = s - > current_picture . data [ 0 ] + ( mb_y * 16 * s - > linesize ) + mb_x * 16 ;
dest_cb = s - > current_picture . data [ 1 ] + ( mb_y * 8 * s - > uvlinesize ) + mb_x * 8 ;
dest_cr = s - > current_picture . data [ 2 ] + ( mb_y * 8 * s - > uvlinesize ) + mb_x * 8 ;
if ( h - > mb_field_decoding_flag ) {
linesize = s - > linesize * 2 ;
uvlinesize = s - > uvlinesize * 2 ;
if ( mb_y & 1 ) { //FIXME move out of this func?
dest_y - = s - > linesize * 15 ;
dest_cb - = s - > linesize * 7 ;
dest_cr - = s - > linesize * 7 ;
}
} else {
linesize = s - > linesize ;
uvlinesize = s - > uvlinesize ;
// dct_offset = s->linesize * 16;
}
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if ( IS_INTRA_PCM ( mb_type ) ) {
unsigned int x , y ;
// The pixels are stored in h->mb array in the same order as levels,
// copy them in output in the correct order.
for ( i = 0 ; i < 16 ; i + + ) {
for ( y = 0 ; y < 4 ; y + + ) {
for ( x = 0 ; x < 4 ; x + + ) {
* ( dest_y + h - > block_offset [ i ] + y * linesize + x ) = h - > mb [ i * 16 + y * 4 + x ] ;
}
}
}
for ( i = 16 ; i < 16 + 4 ; i + + ) {
for ( y = 0 ; y < 4 ; y + + ) {
for ( x = 0 ; x < 4 ; x + + ) {
* ( dest_cb + h - > block_offset [ i ] + y * uvlinesize + x ) = h - > mb [ i * 16 + y * 4 + x ] ;
}
}
}
for ( i = 20 ; i < 20 + 4 ; i + + ) {
for ( y = 0 ; y < 4 ; y + + ) {
for ( x = 0 ; x < 4 ; x + + ) {
* ( dest_cr + h - > block_offset [ i ] + y * uvlinesize + x ) = h - > mb [ i * 16 + y * 4 + x ] ;
}
}
}
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} else {
if ( IS_INTRA ( mb_type ) ) {
if ( h - > deblocking_filter )
xchg_mb_border ( h , dest_y , dest_cb , dest_cr , linesize , uvlinesize , 1 ) ;
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if ( ! ( s - > flags & CODEC_FLAG_GRAY ) ) {
h - > pred8x8 [ h - > chroma_pred_mode ] ( dest_cb , uvlinesize ) ;
h - > pred8x8 [ h - > chroma_pred_mode ] ( dest_cr , uvlinesize ) ;
}
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if ( IS_INTRA4x4 ( mb_type ) ) {
if ( ! s - > encoding ) {
for ( i = 0 ; i < 16 ; i + + ) {
uint8_t * const ptr = dest_y + h - > block_offset [ i ] ;
uint8_t * topright ;
const int dir = h - > intra4x4_pred_mode_cache [ scan8 [ i ] ] ;
int tr ;
if ( dir = = DIAG_DOWN_LEFT_PRED | | dir = = VERT_LEFT_PRED ) {
const int topright_avail = ( h - > topright_samples_available < < i ) & 0x8000 ;
assert ( mb_y | | linesize < = h - > block_offset [ i ] ) ;
if ( ! topright_avail ) {
tr = ptr [ 3 - linesize ] * 0x01010101 ;
topright = ( uint8_t * ) & tr ;
} else if ( i = = 5 & & h - > deblocking_filter ) {
tr = * ( uint32_t * ) h - > top_border [ mb_x + 1 ] ;
topright = ( uint8_t * ) & tr ;
} else
topright = ptr + 4 - linesize ;
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} else
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topright = NULL ;
h - > pred4x4 [ dir ] ( ptr , topright , linesize ) ;
if ( h - > non_zero_count_cache [ scan8 [ i ] ] ) {
if ( s - > codec_id = = CODEC_ID_H264 )
s - > dsp . h264_idct_add ( ptr , h - > mb + i * 16 , linesize ) ;
else
svq3_add_idct_c ( ptr , h - > mb + i * 16 , linesize , s - > qscale , 0 ) ;
}
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}
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}
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} else {
h - > pred16x16 [ h - > intra16x16_pred_mode ] ( dest_y , linesize ) ;
if ( s - > codec_id = = CODEC_ID_H264 )
h264_luma_dc_dequant_idct_c ( h - > mb , s - > qscale ) ;
else
svq3_luma_dc_dequant_idct_c ( h - > mb , s - > qscale ) ;
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}
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if ( h - > deblocking_filter )
xchg_mb_border ( h , dest_y , dest_cb , dest_cr , linesize , uvlinesize , 0 ) ;
} else if ( s - > codec_id = = CODEC_ID_H264 ) {
hl_motion ( h , dest_y , dest_cb , dest_cr ,
s - > dsp . put_h264_qpel_pixels_tab , s - > dsp . put_h264_chroma_pixels_tab ,
s - > dsp . avg_h264_qpel_pixels_tab , s - > dsp . avg_h264_chroma_pixels_tab ,
s - > dsp . weight_h264_pixels_tab , s - > dsp . biweight_h264_pixels_tab ) ;
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}
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if ( ! IS_INTRA4x4 ( mb_type ) ) {
if ( s - > codec_id = = CODEC_ID_H264 ) {
for ( i = 0 ; i < 16 ; i + + ) {
if ( h - > non_zero_count_cache [ scan8 [ i ] ] | | h - > mb [ i * 16 ] ) { //FIXME benchmark weird rule, & below
uint8_t * const ptr = dest_y + h - > block_offset [ i ] ;
s - > dsp . h264_idct_add ( ptr , h - > mb + i * 16 , linesize ) ;
}
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}
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} else {
for ( i = 0 ; i < 16 ; i + + ) {
if ( h - > non_zero_count_cache [ scan8 [ i ] ] | | h - > mb [ i * 16 ] ) { //FIXME benchmark weird rule, & below
uint8_t * const ptr = dest_y + h - > block_offset [ i ] ;
svq3_add_idct_c ( ptr , h - > mb + i * 16 , linesize , s - > qscale , IS_INTRA ( mb_type ) ? 1 : 0 ) ;
}
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}
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}
}
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if ( ! ( s - > flags & CODEC_FLAG_GRAY ) ) {
chroma_dc_dequant_idct_c ( h - > mb + 16 * 16 , h - > chroma_qp ) ;
chroma_dc_dequant_idct_c ( h - > mb + 16 * 16 + 4 * 16 , h - > chroma_qp ) ;
if ( s - > codec_id = = CODEC_ID_H264 ) {
for ( i = 16 ; i < 16 + 4 ; i + + ) {
if ( h - > non_zero_count_cache [ scan8 [ i ] ] | | h - > mb [ i * 16 ] ) {
uint8_t * const ptr = dest_cb + h - > block_offset [ i ] ;
s - > dsp . h264_idct_add ( ptr , h - > mb + i * 16 , uvlinesize ) ;
}
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}
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for ( i = 20 ; i < 20 + 4 ; i + + ) {
if ( h - > non_zero_count_cache [ scan8 [ i ] ] | | h - > mb [ i * 16 ] ) {
uint8_t * const ptr = dest_cr + h - > block_offset [ i ] ;
s - > dsp . h264_idct_add ( ptr , h - > mb + i * 16 , uvlinesize ) ;
}
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}
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} else {
for ( i = 16 ; i < 16 + 4 ; i + + ) {
if ( h - > non_zero_count_cache [ scan8 [ i ] ] | | h - > mb [ i * 16 ] ) {
uint8_t * const ptr = dest_cb + h - > block_offset [ i ] ;
svq3_add_idct_c ( ptr , h - > mb + i * 16 , uvlinesize , chroma_qp [ s - > qscale + 12 ] - 12 , 2 ) ;
}
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}
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for ( i = 20 ; i < 20 + 4 ; i + + ) {
if ( h - > non_zero_count_cache [ scan8 [ i ] ] | | h - > mb [ i * 16 ] ) {
uint8_t * const ptr = dest_cr + h - > block_offset [ i ] ;
svq3_add_idct_c ( ptr , h - > mb + i * 16 , uvlinesize , chroma_qp [ s - > qscale + 12 ] - 12 , 2 ) ;
}
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}
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}
}
}
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if ( h - > deblocking_filter ) {
backup_mb_border ( h , dest_y , dest_cb , dest_cr , linesize , uvlinesize ) ;
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fill_caches ( h , mb_type , 1 ) ; //FIXME dont fill stuff which isnt used by filter_mb
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filter_mb ( h , mb_x , mb_y , dest_y , dest_cb , dest_cr ) ;
}
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}
/**
* fills the default_ref_list .
*/
static int fill_default_ref_list ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int i ;
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int smallest_poc_greater_than_current = - 1 ;
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Picture sorted_short_ref [ 16 ] ;
if ( h - > slice_type = = B_TYPE ) {
int out_i ;
int limit = - 1 ;
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/* sort frame according to poc in B slice */
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for ( out_i = 0 ; out_i < h - > short_ref_count ; out_i + + ) {
int best_i = - 1 ;
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int best_poc = INT_MAX ;
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for ( i = 0 ; i < h - > short_ref_count ; i + + ) {
const int poc = h - > short_ref [ i ] - > poc ;
if ( poc > limit & & poc < best_poc ) {
best_poc = poc ;
best_i = i ;
}
}
assert ( best_i ! = - 1 ) ;
limit = best_poc ;
sorted_short_ref [ out_i ] = * h - > short_ref [ best_i ] ;
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tprintf ( " sorted poc: %d->%d poc:%d fn:%d \n " , best_i , out_i , sorted_short_ref [ out_i ] . poc , sorted_short_ref [ out_i ] . frame_num ) ;
if ( - 1 = = smallest_poc_greater_than_current ) {
if ( h - > short_ref [ best_i ] - > poc > = s - > current_picture_ptr - > poc ) {
smallest_poc_greater_than_current = out_i ;
}
}
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}
}
if ( s - > picture_structure = = PICT_FRAME ) {
if ( h - > slice_type = = B_TYPE ) {
int list ;
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tprintf ( " current poc: %d, smallest_poc_greater_than_current: %d \n " , s - > current_picture_ptr - > poc , smallest_poc_greater_than_current ) ;
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// find the largest poc
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for ( list = 0 ; list < 2 ; list + + ) {
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int index = 0 ;
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int j = - 99 ;
int step = list ? - 1 : 1 ;
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for ( i = 0 ; i < h - > short_ref_count & & index < h - > ref_count [ list ] ; i + + , j + = step ) {
while ( j < 0 | | j > = h - > short_ref_count ) {
step = - step ;
j = smallest_poc_greater_than_current + ( step > > 1 ) ;
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}
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if ( sorted_short_ref [ j ] . reference ! = 3 ) continue ;
h - > default_ref_list [ list ] [ index ] = sorted_short_ref [ j ] ;
h - > default_ref_list [ list ] [ index + + ] . pic_id = sorted_short_ref [ j ] . frame_num ;
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}
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for ( i = 0 ; i < 16 & & index < h - > ref_count [ list ] ; i + + ) {
if ( h - > long_ref [ i ] = = NULL ) continue ;
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if ( h - > long_ref [ i ] - > reference ! = 3 ) continue ;
h - > default_ref_list [ list ] [ index ] = * h - > long_ref [ i ] ;
h - > default_ref_list [ list ] [ index + + ] . pic_id = i ; ;
}
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if ( list & & ( smallest_poc_greater_than_current < = 0 | | smallest_poc_greater_than_current > = h - > short_ref_count ) & & ( 1 < index ) ) {
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// swap the two first elements of L1 when
// L0 and L1 are identical
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Picture temp = h - > default_ref_list [ 1 ] [ 0 ] ;
h - > default_ref_list [ 1 ] [ 0 ] = h - > default_ref_list [ 1 ] [ 1 ] ;
h - > default_ref_list [ 1 ] [ 0 ] = temp ;
}
if ( index < h - > ref_count [ list ] )
memset ( & h - > default_ref_list [ list ] [ index ] , 0 , sizeof ( Picture ) * ( h - > ref_count [ list ] - index ) ) ;
}
} else {
int index = 0 ;
for ( i = 0 ; i < h - > short_ref_count & & index < h - > ref_count [ 0 ] ; i + + ) {
if ( h - > short_ref [ i ] - > reference ! = 3 ) continue ; //FIXME refernce field shit
h - > default_ref_list [ 0 ] [ index ] = * h - > short_ref [ i ] ;
h - > default_ref_list [ 0 ] [ index + + ] . pic_id = h - > short_ref [ i ] - > frame_num ;
}
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for ( i = 0 ; i < 16 & & index < h - > ref_count [ 0 ] ; i + + ) {
if ( h - > long_ref [ i ] = = NULL ) continue ;
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if ( h - > long_ref [ i ] - > reference ! = 3 ) continue ;
h - > default_ref_list [ 0 ] [ index ] = * h - > long_ref [ i ] ;
h - > default_ref_list [ 0 ] [ index + + ] . pic_id = i ; ;
}
if ( index < h - > ref_count [ 0 ] )
memset ( & h - > default_ref_list [ 0 ] [ index ] , 0 , sizeof ( Picture ) * ( h - > ref_count [ 0 ] - index ) ) ;
}
} else { //FIELD
if ( h - > slice_type = = B_TYPE ) {
} else {
//FIXME second field balh
}
}
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# ifdef TRACE
for ( i = 0 ; i < h - > ref_count [ 0 ] ; i + + ) {
tprintf ( " List0: %s fn:%d 0x%p \n " , ( h - > default_ref_list [ 0 ] [ i ] . long_ref ? " LT " : " ST " ) , h - > default_ref_list [ 0 ] [ i ] . pic_id , h - > default_ref_list [ 0 ] [ i ] . data [ 0 ] ) ;
}
if ( h - > slice_type = = B_TYPE ) {
for ( i = 0 ; i < h - > ref_count [ 1 ] ; i + + ) {
tprintf ( " List1: %s fn:%d 0x%p \n " , ( h - > default_ref_list [ 1 ] [ i ] . long_ref ? " LT " : " ST " ) , h - > default_ref_list [ 1 ] [ i ] . pic_id , h - > default_ref_list [ 0 ] [ i ] . data [ 0 ] ) ;
}
}
# endif
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return 0 ;
}
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static void print_short_term ( H264Context * h ) ;
static void print_long_term ( H264Context * h ) ;
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static int decode_ref_pic_list_reordering ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int list ;
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print_short_term ( h ) ;
print_long_term ( h ) ;
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if ( h - > slice_type = = I_TYPE | | h - > slice_type = = SI_TYPE ) return 0 ; //FIXME move beofre func
for ( list = 0 ; list < 2 ; list + + ) {
memcpy ( h - > ref_list [ list ] , h - > default_ref_list [ list ] , sizeof ( Picture ) * h - > ref_count [ list ] ) ;
if ( get_bits1 ( & s - > gb ) ) {
int pred = h - > curr_pic_num ;
int index ;
for ( index = 0 ; ; index + + ) {
int reordering_of_pic_nums_idc = get_ue_golomb ( & s - > gb ) ;
int pic_id ;
int i ;
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if ( reordering_of_pic_nums_idc = = 3 )
break ;
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if ( index > = h - > ref_count [ list ] ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " reference count overflow \n " ) ;
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return - 1 ;
}
if ( reordering_of_pic_nums_idc < 3 ) {
if ( reordering_of_pic_nums_idc < 2 ) {
const int abs_diff_pic_num = get_ue_golomb ( & s - > gb ) + 1 ;
if ( abs_diff_pic_num > = h - > max_pic_num ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " abs_diff_pic_num overflow \n " ) ;
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return - 1 ;
}
if ( reordering_of_pic_nums_idc = = 0 ) pred - = abs_diff_pic_num ;
else pred + = abs_diff_pic_num ;
pred & = h - > max_pic_num - 1 ;
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for ( i = h - > ref_count [ list ] - 1 ; i > = 0 ; i - - ) {
if ( h - > ref_list [ list ] [ i ] . data [ 0 ] ! = NULL & & h - > ref_list [ list ] [ i ] . pic_id = = pred & & h - > ref_list [ list ] [ i ] . long_ref = = 0 ) // ignore non existing pictures by testing data[0] pointer
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break ;
}
} else {
pic_id = get_ue_golomb ( & s - > gb ) ; //long_term_pic_idx
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for ( i = h - > ref_count [ list ] - 1 ; i > = 0 ; i - - ) {
if ( h - > ref_list [ list ] [ i ] . pic_id = = pic_id & & h - > ref_list [ list ] [ i ] . long_ref = = 1 ) // no need to ignore non existing pictures as non existing pictures have long_ref==0
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break ;
}
}
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if ( i < 0 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " reference picture missing during reorder \n " ) ;
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memset ( & h - > ref_list [ list ] [ index ] , 0 , sizeof ( Picture ) ) ; //FIXME
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} else if ( i ! = index ) /* this test is not necessary, it is only an optimisation to skip double copy of Picture structure in this case */ {
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Picture tmp = h - > ref_list [ list ] [ i ] ;
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if ( i < index ) {
i = h - > ref_count [ list ] ;
}
for ( ; i > index ; i - - ) {
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h - > ref_list [ list ] [ i ] = h - > ref_list [ list ] [ i - 1 ] ;
}
h - > ref_list [ list ] [ index ] = tmp ;
}
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} else {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " illegal reordering_of_pic_nums_idc \n " ) ;
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return - 1 ;
}
}
}
if ( h - > slice_type ! = B_TYPE ) break ;
}
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if ( h - > slice_type = = B_TYPE & & ! h - > direct_spatial_mv_pred )
direct_dist_scale_factor ( h ) ;
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return 0 ;
}
static int pred_weight_table ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int list , i ;
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int luma_def , chroma_def ;
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h - > use_weight = 0 ;
h - > use_weight_chroma = 0 ;
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h - > luma_log2_weight_denom = get_ue_golomb ( & s - > gb ) ;
h - > chroma_log2_weight_denom = get_ue_golomb ( & s - > gb ) ;
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luma_def = 1 < < h - > luma_log2_weight_denom ;
chroma_def = 1 < < h - > chroma_log2_weight_denom ;
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for ( list = 0 ; list < 2 ; list + + ) {
for ( i = 0 ; i < h - > ref_count [ list ] ; i + + ) {
int luma_weight_flag , chroma_weight_flag ;
luma_weight_flag = get_bits1 ( & s - > gb ) ;
if ( luma_weight_flag ) {
h - > luma_weight [ list ] [ i ] = get_se_golomb ( & s - > gb ) ;
h - > luma_offset [ list ] [ i ] = get_se_golomb ( & s - > gb ) ;
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if ( h - > luma_weight [ list ] [ i ] ! = luma_def
| | h - > luma_offset [ list ] [ i ] ! = 0 )
h - > use_weight = 1 ;
} else {
h - > luma_weight [ list ] [ i ] = luma_def ;
h - > luma_offset [ list ] [ i ] = 0 ;
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}
chroma_weight_flag = get_bits1 ( & s - > gb ) ;
if ( chroma_weight_flag ) {
int j ;
for ( j = 0 ; j < 2 ; j + + ) {
h - > chroma_weight [ list ] [ i ] [ j ] = get_se_golomb ( & s - > gb ) ;
h - > chroma_offset [ list ] [ i ] [ j ] = get_se_golomb ( & s - > gb ) ;
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if ( h - > chroma_weight [ list ] [ i ] [ j ] ! = chroma_def
| | h - > chroma_offset [ list ] [ i ] [ j ] ! = 0 )
h - > use_weight_chroma = 1 ;
}
} else {
int j ;
for ( j = 0 ; j < 2 ; j + + ) {
h - > chroma_weight [ list ] [ i ] [ j ] = chroma_def ;
h - > chroma_offset [ list ] [ i ] [ j ] = 0 ;
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}
}
}
if ( h - > slice_type ! = B_TYPE ) break ;
}
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h - > use_weight = h - > use_weight | | h - > use_weight_chroma ;
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return 0 ;
}
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static void implicit_weight_table ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int ref0 , ref1 ;
int cur_poc = s - > current_picture_ptr - > poc ;
if ( h - > ref_count [ 0 ] = = 1 & & h - > ref_count [ 1 ] = = 1
& & h - > ref_list [ 0 ] [ 0 ] . poc + h - > ref_list [ 1 ] [ 0 ] . poc = = 2 * cur_poc ) {
h - > use_weight = 0 ;
h - > use_weight_chroma = 0 ;
return ;
}
h - > use_weight = 2 ;
h - > use_weight_chroma = 2 ;
h - > luma_log2_weight_denom = 5 ;
h - > chroma_log2_weight_denom = 5 ;
/* FIXME: MBAFF */
for ( ref0 = 0 ; ref0 < h - > ref_count [ 0 ] ; ref0 + + ) {
int poc0 = h - > ref_list [ 0 ] [ ref0 ] . poc ;
for ( ref1 = 0 ; ref1 < h - > ref_count [ 1 ] ; ref1 + + ) {
int poc1 = h - > ref_list [ 0 ] [ ref1 ] . poc ;
int td = clip ( poc1 - poc0 , - 128 , 127 ) ;
if ( td ) {
int tb = clip ( cur_poc - poc0 , - 128 , 127 ) ;
int tx = ( 16384 + ( ABS ( td ) > > 1 ) ) / td ;
int dist_scale_factor = clip ( ( tb * tx + 32 ) > > 6 , - 1024 , 1023 ) > > 2 ;
if ( dist_scale_factor < - 64 | | dist_scale_factor > 128 )
h - > implicit_weight [ ref0 ] [ ref1 ] = 32 ;
else
h - > implicit_weight [ ref0 ] [ ref1 ] = 64 - dist_scale_factor ;
} else
h - > implicit_weight [ ref0 ] [ ref1 ] = 32 ;
}
}
}
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/**
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* instantaneous decoder refresh .
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*/
static void idr ( H264Context * h ) {
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int i , j ;
# define CHECK_DELAY(pic) \
for ( j = 0 ; h - > delayed_pic [ j ] ; j + + ) \
if ( pic = = h - > delayed_pic [ j ] ) { \
pic - > reference = 1 ; \
break ; \
}
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for ( i = 0 ; i < 16 ; i + + ) {
if ( h - > long_ref [ i ] ! = NULL ) {
h - > long_ref [ i ] - > reference = 0 ;
CHECK_DELAY ( h - > long_ref [ i ] ) ;
h - > long_ref [ i ] = NULL ;
}
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}
h - > long_ref_count = 0 ;
for ( i = 0 ; i < h - > short_ref_count ; i + + ) {
h - > short_ref [ i ] - > reference = 0 ;
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CHECK_DELAY ( h - > short_ref [ i ] ) ;
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h - > short_ref [ i ] = NULL ;
}
h - > short_ref_count = 0 ;
}
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# undef CHECK_DELAY
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/**
*
* @ return the removed picture or NULL if an error occures
*/
static Picture * remove_short ( H264Context * h , int frame_num ) {
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MpegEncContext * const s = & h - > s ;
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int i ;
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if ( s - > avctx - > debug & FF_DEBUG_MMCO )
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av_log ( h - > s . avctx , AV_LOG_DEBUG , " remove short %d count %d \n " , frame_num , h - > short_ref_count ) ;
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for ( i = 0 ; i < h - > short_ref_count ; i + + ) {
Picture * pic = h - > short_ref [ i ] ;
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if ( s - > avctx - > debug & FF_DEBUG_MMCO )
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av_log ( h - > s . avctx , AV_LOG_DEBUG , " %d %d %p \n " , i , pic - > frame_num , pic ) ;
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if ( pic - > frame_num = = frame_num ) {
h - > short_ref [ i ] = NULL ;
memmove ( & h - > short_ref [ i ] , & h - > short_ref [ i + 1 ] , ( h - > short_ref_count - i - 1 ) * sizeof ( Picture * ) ) ;
h - > short_ref_count - - ;
return pic ;
}
}
return NULL ;
}
/**
*
* @ return the removed picture or NULL if an error occures
*/
static Picture * remove_long ( H264Context * h , int i ) {
Picture * pic ;
pic = h - > long_ref [ i ] ;
h - > long_ref [ i ] = NULL ;
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if ( pic ) h - > long_ref_count - - ;
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return pic ;
}
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/**
* print short term list
*/
static void print_short_term ( H264Context * h ) {
uint32_t i ;
if ( h - > s . avctx - > debug & FF_DEBUG_MMCO ) {
av_log ( h - > s . avctx , AV_LOG_DEBUG , " short term list: \n " ) ;
for ( i = 0 ; i < h - > short_ref_count ; i + + ) {
Picture * pic = h - > short_ref [ i ] ;
av_log ( h - > s . avctx , AV_LOG_DEBUG , " %d fn:%d poc:%d %p \n " , i , pic - > frame_num , pic - > poc , pic - > data [ 0 ] ) ;
}
}
}
/**
* print long term list
*/
static void print_long_term ( H264Context * h ) {
uint32_t i ;
if ( h - > s . avctx - > debug & FF_DEBUG_MMCO ) {
av_log ( h - > s . avctx , AV_LOG_DEBUG , " long term list: \n " ) ;
for ( i = 0 ; i < 16 ; i + + ) {
Picture * pic = h - > long_ref [ i ] ;
if ( pic ) {
av_log ( h - > s . avctx , AV_LOG_DEBUG , " %d fn:%d poc:%d %p \n " , i , pic - > frame_num , pic - > poc , pic - > data [ 0 ] ) ;
}
}
}
}
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/**
* Executes the reference picture marking ( memory management control operations ) .
*/
static int execute_ref_pic_marking ( H264Context * h , MMCO * mmco , int mmco_count ) {
MpegEncContext * const s = & h - > s ;
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int i , j ;
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int current_is_long = 0 ;
Picture * pic ;
if ( ( s - > avctx - > debug & FF_DEBUG_MMCO ) & & mmco_count = = 0 )
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av_log ( h - > s . avctx , AV_LOG_DEBUG , " no mmco here \n " ) ;
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for ( i = 0 ; i < mmco_count ; i + + ) {
if ( s - > avctx - > debug & FF_DEBUG_MMCO )
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av_log ( h - > s . avctx , AV_LOG_DEBUG , " mmco:%d %d %d \n " , h - > mmco [ i ] . opcode , h - > mmco [ i ] . short_frame_num , h - > mmco [ i ] . long_index ) ;
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switch ( mmco [ i ] . opcode ) {
case MMCO_SHORT2UNUSED :
pic = remove_short ( h , mmco [ i ] . short_frame_num ) ;
if ( pic = = NULL ) return - 1 ;
pic - > reference = 0 ;
break ;
case MMCO_SHORT2LONG :
pic = remove_long ( h , mmco [ i ] . long_index ) ;
if ( pic ) pic - > reference = 0 ;
h - > long_ref [ mmco [ i ] . long_index ] = remove_short ( h , mmco [ i ] . short_frame_num ) ;
h - > long_ref [ mmco [ i ] . long_index ] - > long_ref = 1 ;
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h - > long_ref_count + + ;
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break ;
case MMCO_LONG2UNUSED :
pic = remove_long ( h , mmco [ i ] . long_index ) ;
if ( pic = = NULL ) return - 1 ;
pic - > reference = 0 ;
break ;
case MMCO_LONG :
pic = remove_long ( h , mmco [ i ] . long_index ) ;
if ( pic ) pic - > reference = 0 ;
h - > long_ref [ mmco [ i ] . long_index ] = s - > current_picture_ptr ;
h - > long_ref [ mmco [ i ] . long_index ] - > long_ref = 1 ;
h - > long_ref_count + + ;
current_is_long = 1 ;
break ;
case MMCO_SET_MAX_LONG :
assert ( mmco [ i ] . long_index < = 16 ) ;
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// just remove the long term which index is greater than new max
for ( j = mmco [ i ] . long_index ; j < 16 ; j + + ) {
pic = remove_long ( h , j ) ;
if ( pic ) pic - > reference = 0 ;
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}
break ;
case MMCO_RESET :
while ( h - > short_ref_count ) {
pic = remove_short ( h , h - > short_ref [ 0 ] - > frame_num ) ;
pic - > reference = 0 ;
}
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for ( j = 0 ; j < 16 ; j + + ) {
pic = remove_long ( h , j ) ;
if ( pic ) pic - > reference = 0 ;
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}
break ;
default : assert ( 0 ) ;
}
}
if ( ! current_is_long ) {
pic = remove_short ( h , s - > current_picture_ptr - > frame_num ) ;
if ( pic ) {
pic - > reference = 0 ;
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av_log ( h - > s . avctx , AV_LOG_ERROR , " illegal short term buffer state detected \n " ) ;
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}
if ( h - > short_ref_count )
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memmove ( & h - > short_ref [ 1 ] , & h - > short_ref [ 0 ] , h - > short_ref_count * sizeof ( Picture * ) ) ;
h - > short_ref [ 0 ] = s - > current_picture_ptr ;
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h - > short_ref [ 0 ] - > long_ref = 0 ;
h - > short_ref_count + + ;
}
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print_short_term ( h ) ;
print_long_term ( h ) ;
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return 0 ;
}
static int decode_ref_pic_marking ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int i ;
if ( h - > nal_unit_type = = NAL_IDR_SLICE ) { //FIXME fields
s - > broken_link = get_bits1 ( & s - > gb ) - 1 ;
h - > mmco [ 0 ] . long_index = get_bits1 ( & s - > gb ) - 1 ; // current_long_term_idx
if ( h - > mmco [ 0 ] . long_index = = - 1 )
h - > mmco_index = 0 ;
else {
h - > mmco [ 0 ] . opcode = MMCO_LONG ;
h - > mmco_index = 1 ;
}
} else {
if ( get_bits1 ( & s - > gb ) ) { // adaptive_ref_pic_marking_mode_flag
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for ( i = 0 ; i < MAX_MMCO_COUNT ; i + + ) {
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MMCOOpcode opcode = get_ue_golomb ( & s - > gb ) ; ;
h - > mmco [ i ] . opcode = opcode ;
if ( opcode = = MMCO_SHORT2UNUSED | | opcode = = MMCO_SHORT2LONG ) {
h - > mmco [ i ] . short_frame_num = ( h - > frame_num - get_ue_golomb ( & s - > gb ) - 1 ) & ( ( 1 < < h - > sps . log2_max_frame_num ) - 1 ) ; //FIXME fields
/* if(h->mmco[i].short_frame_num >= h->short_ref_count || h->short_ref[ h->mmco[i].short_frame_num ] == NULL){
fprintf ( stderr , " illegal short ref in memory management control operation %d \n " , mmco ) ;
return - 1 ;
} */
}
if ( opcode = = MMCO_SHORT2LONG | | opcode = = MMCO_LONG2UNUSED | | opcode = = MMCO_LONG | | opcode = = MMCO_SET_MAX_LONG ) {
h - > mmco [ i ] . long_index = get_ue_golomb ( & s - > gb ) ;
if ( /*h->mmco[i].long_index >= h->long_ref_count || h->long_ref[ h->mmco[i].long_index ] == NULL*/ h - > mmco [ i ] . long_index > = 16 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " illegal long ref in memory management control operation %d \n " , opcode ) ;
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return - 1 ;
}
}
if ( opcode > MMCO_LONG ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " illegal memory management control operation %d \n " , opcode ) ;
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return - 1 ;
}
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if ( opcode = = MMCO_END )
break ;
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}
h - > mmco_index = i ;
} else {
assert ( h - > long_ref_count + h - > short_ref_count < = h - > sps . ref_frame_count ) ;
if ( h - > long_ref_count + h - > short_ref_count = = h - > sps . ref_frame_count ) { //FIXME fields
h - > mmco [ 0 ] . opcode = MMCO_SHORT2UNUSED ;
h - > mmco [ 0 ] . short_frame_num = h - > short_ref [ h - > short_ref_count - 1 ] - > frame_num ;
h - > mmco_index = 1 ;
} else
h - > mmco_index = 0 ;
}
}
return 0 ;
}
static int init_poc ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int max_frame_num = 1 < < h - > sps . log2_max_frame_num ;
int field_poc [ 2 ] ;
if ( h - > nal_unit_type = = NAL_IDR_SLICE ) {
h - > frame_num_offset = 0 ;
} else {
if ( h - > frame_num < h - > prev_frame_num )
h - > frame_num_offset = h - > prev_frame_num_offset + max_frame_num ;
else
h - > frame_num_offset = h - > prev_frame_num_offset ;
}
if ( h - > sps . poc_type = = 0 ) {
const int max_poc_lsb = 1 < < h - > sps . log2_max_poc_lsb ;
if ( h - > poc_lsb < h - > prev_poc_lsb & & h - > prev_poc_lsb - h - > poc_lsb > = max_poc_lsb / 2 )
h - > poc_msb = h - > prev_poc_msb + max_poc_lsb ;
else if ( h - > poc_lsb > h - > prev_poc_lsb & & h - > prev_poc_lsb - h - > poc_lsb < - max_poc_lsb / 2 )
h - > poc_msb = h - > prev_poc_msb - max_poc_lsb ;
else
h - > poc_msb = h - > prev_poc_msb ;
//printf("poc: %d %d\n", h->poc_msb, h->poc_lsb);
field_poc [ 0 ] =
field_poc [ 1 ] = h - > poc_msb + h - > poc_lsb ;
if ( s - > picture_structure = = PICT_FRAME )
field_poc [ 1 ] + = h - > delta_poc_bottom ;
} else if ( h - > sps . poc_type = = 1 ) {
int abs_frame_num , expected_delta_per_poc_cycle , expectedpoc ;
int i ;
if ( h - > sps . poc_cycle_length ! = 0 )
abs_frame_num = h - > frame_num_offset + h - > frame_num ;
else
abs_frame_num = 0 ;
if ( h - > nal_ref_idc = = 0 & & abs_frame_num > 0 )
abs_frame_num - - ;
expected_delta_per_poc_cycle = 0 ;
for ( i = 0 ; i < h - > sps . poc_cycle_length ; i + + )
expected_delta_per_poc_cycle + = h - > sps . offset_for_ref_frame [ i ] ; //FIXME integrate during sps parse
if ( abs_frame_num > 0 ) {
int poc_cycle_cnt = ( abs_frame_num - 1 ) / h - > sps . poc_cycle_length ;
int frame_num_in_poc_cycle = ( abs_frame_num - 1 ) % h - > sps . poc_cycle_length ;
expectedpoc = poc_cycle_cnt * expected_delta_per_poc_cycle ;
for ( i = 0 ; i < = frame_num_in_poc_cycle ; i + + )
expectedpoc = expectedpoc + h - > sps . offset_for_ref_frame [ i ] ;
} else
expectedpoc = 0 ;
if ( h - > nal_ref_idc = = 0 )
expectedpoc = expectedpoc + h - > sps . offset_for_non_ref_pic ;
field_poc [ 0 ] = expectedpoc + h - > delta_poc [ 0 ] ;
field_poc [ 1 ] = field_poc [ 0 ] + h - > sps . offset_for_top_to_bottom_field ;
if ( s - > picture_structure = = PICT_FRAME )
field_poc [ 1 ] + = h - > delta_poc [ 1 ] ;
} else {
int poc ;
if ( h - > nal_unit_type = = NAL_IDR_SLICE ) {
poc = 0 ;
} else {
if ( h - > nal_ref_idc ) poc = 2 * ( h - > frame_num_offset + h - > frame_num ) ;
else poc = 2 * ( h - > frame_num_offset + h - > frame_num ) - 1 ;
}
field_poc [ 0 ] = poc ;
field_poc [ 1 ] = poc ;
}
if ( s - > picture_structure ! = PICT_BOTTOM_FIELD )
s - > current_picture_ptr - > field_poc [ 0 ] = field_poc [ 0 ] ;
if ( s - > picture_structure ! = PICT_TOP_FIELD )
s - > current_picture_ptr - > field_poc [ 1 ] = field_poc [ 1 ] ;
if ( s - > picture_structure = = PICT_FRAME ) // FIXME field pix?
s - > current_picture_ptr - > poc = FFMIN ( field_poc [ 0 ] , field_poc [ 1 ] ) ;
return 0 ;
}
/**
* decodes a slice header .
* this will allso call MPV_common_init ( ) and frame_start ( ) as needed
*/
static int decode_slice_header ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int first_mb_in_slice , pps_id ;
int num_ref_idx_active_override_flag ;
static const uint8_t slice_type_map [ 5 ] = { P_TYPE , B_TYPE , I_TYPE , SP_TYPE , SI_TYPE } ;
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int slice_type ;
int default_ref_list_done = 0 ;
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s - > current_picture . reference = h - > nal_ref_idc ! = 0 ;
first_mb_in_slice = get_ue_golomb ( & s - > gb ) ;
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slice_type = get_ue_golomb ( & s - > gb ) ;
if ( slice_type > 9 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " slice type too large (%d) at %d %d \n " , h - > slice_type , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
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}
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if ( slice_type > 4 ) {
slice_type - = 5 ;
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h - > slice_type_fixed = 1 ;
} else
h - > slice_type_fixed = 0 ;
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slice_type = slice_type_map [ slice_type ] ;
if ( slice_type = = I_TYPE
| | ( h - > slice_num ! = 0 & & slice_type = = h - > slice_type ) ) {
default_ref_list_done = 1 ;
}
h - > slice_type = slice_type ;
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s - > pict_type = h - > slice_type ; // to make a few old func happy, its wrong though
pps_id = get_ue_golomb ( & s - > gb ) ;
if ( pps_id > 255 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " pps_id out of range \n " ) ;
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return - 1 ;
}
h - > pps = h - > pps_buffer [ pps_id ] ;
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if ( h - > pps . slice_group_count = = 0 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " non existing PPS referenced \n " ) ;
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return - 1 ;
}
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h - > sps = h - > sps_buffer [ h - > pps . sps_id ] ;
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if ( h - > sps . log2_max_frame_num = = 0 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " non existing SPS referenced \n " ) ;
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return - 1 ;
}
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s - > mb_width = h - > sps . mb_width ;
s - > mb_height = h - > sps . mb_height ;
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h - > b_stride = s - > mb_width * 4 + 1 ;
h - > b8_stride = s - > mb_width * 2 + 1 ;
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s - > resync_mb_x = s - > mb_x = first_mb_in_slice % s - > mb_width ;
s - > resync_mb_y = s - > mb_y = first_mb_in_slice / s - > mb_width ; //FIXME AFFW
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2003-07-23 02:32:50 +02:00
s - > width = 16 * s - > mb_width - 2 * ( h - > sps . crop_left + h - > sps . crop_right ) ;
2003-04-04 16:42:28 +02:00
if ( h - > sps . frame_mbs_only_flag )
2003-07-23 02:32:50 +02:00
s - > height = 16 * s - > mb_height - 2 * ( h - > sps . crop_top + h - > sps . crop_bottom ) ;
2003-04-04 16:42:28 +02:00
else
2003-07-23 02:32:50 +02:00
s - > height = 16 * s - > mb_height - 4 * ( h - > sps . crop_top + h - > sps . crop_bottom ) ; //FIXME recheck
2003-04-04 16:42:28 +02:00
if ( s - > context_initialized
2003-10-20 22:23:46 +02:00
& & ( s - > width ! = s - > avctx - > width | | s - > height ! = s - > avctx - > height ) ) {
2003-04-04 16:42:28 +02:00
free_tables ( h ) ;
MPV_common_end ( s ) ;
}
if ( ! s - > context_initialized ) {
if ( MPV_common_init ( s ) < 0 )
return - 1 ;
alloc_tables ( h ) ;
s - > avctx - > width = s - > width ;
s - > avctx - > height = s - > height ;
2003-10-20 22:23:46 +02:00
s - > avctx - > sample_aspect_ratio = h - > sps . sar ;
2005-01-19 14:24:43 +01:00
if ( ! s - > avctx - > sample_aspect_ratio . den )
s - > avctx - > sample_aspect_ratio . den = 1 ;
2004-08-17 00:48:05 +02:00
if ( h - > sps . timing_info_present_flag & & h - > sps . fixed_frame_rate_flag ) {
s - > avctx - > frame_rate = h - > sps . time_scale ;
s - > avctx - > frame_rate_base = h - > sps . num_units_in_tick ;
}
2003-04-04 16:42:28 +02:00
}
2004-12-18 04:49:07 +01:00
if ( h - > slice_num = = 0 ) {
2003-04-04 16:42:28 +02:00
frame_start ( h ) ;
}
2003-04-04 22:59:50 +02:00
s - > current_picture_ptr - > frame_num = //FIXME frame_num cleanup
2003-04-04 16:42:28 +02:00
h - > frame_num = get_bits ( & s - > gb , h - > sps . log2_max_frame_num ) ;
if ( h - > sps . frame_mbs_only_flag ) {
s - > picture_structure = PICT_FRAME ;
} else {
if ( get_bits1 ( & s - > gb ) ) //field_pic_flag
s - > picture_structure = PICT_TOP_FIELD + get_bits1 ( & s - > gb ) ; //bottom_field_flag
else
s - > picture_structure = PICT_FRAME ;
}
if ( s - > picture_structure = = PICT_FRAME ) {
h - > curr_pic_num = h - > frame_num ;
h - > max_pic_num = 1 < < h - > sps . log2_max_frame_num ;
} else {
h - > curr_pic_num = 2 * h - > frame_num ;
h - > max_pic_num = 1 < < ( h - > sps . log2_max_frame_num + 1 ) ;
}
if ( h - > nal_unit_type = = NAL_IDR_SLICE ) {
2003-09-10 00:50:44 +02:00
get_ue_golomb ( & s - > gb ) ; /* idr_pic_id */
2003-04-04 16:42:28 +02:00
}
if ( h - > sps . poc_type = = 0 ) {
h - > poc_lsb = get_bits ( & s - > gb , h - > sps . log2_max_poc_lsb ) ;
if ( h - > pps . pic_order_present = = 1 & & s - > picture_structure = = PICT_FRAME ) {
h - > delta_poc_bottom = get_se_golomb ( & s - > gb ) ;
}
}
if ( h - > sps . poc_type = = 1 & & ! h - > sps . delta_pic_order_always_zero_flag ) {
h - > delta_poc [ 0 ] = get_se_golomb ( & s - > gb ) ;
if ( h - > pps . pic_order_present = = 1 & & s - > picture_structure = = PICT_FRAME )
h - > delta_poc [ 1 ] = get_se_golomb ( & s - > gb ) ;
}
init_poc ( h ) ;
if ( h - > pps . redundant_pic_cnt_present ) {
h - > redundant_pic_count = get_ue_golomb ( & s - > gb ) ;
}
//set defaults, might be overriden a few line later
h - > ref_count [ 0 ] = h - > pps . ref_count [ 0 ] ;
h - > ref_count [ 1 ] = h - > pps . ref_count [ 1 ] ;
if ( h - > slice_type = = P_TYPE | | h - > slice_type = = SP_TYPE | | h - > slice_type = = B_TYPE ) {
if ( h - > slice_type = = B_TYPE ) {
h - > direct_spatial_mv_pred = get_bits1 ( & s - > gb ) ;
}
num_ref_idx_active_override_flag = get_bits1 ( & s - > gb ) ;
if ( num_ref_idx_active_override_flag ) {
h - > ref_count [ 0 ] = get_ue_golomb ( & s - > gb ) + 1 ;
if ( h - > slice_type = = B_TYPE )
h - > ref_count [ 1 ] = get_ue_golomb ( & s - > gb ) + 1 ;
if ( h - > ref_count [ 0 ] > 32 | | h - > ref_count [ 1 ] > 32 ) {
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_ERROR , " reference overflow \n " ) ;
2003-04-04 16:42:28 +02:00
return - 1 ;
}
}
}
2005-02-04 03:47:45 +01:00
if ( ! default_ref_list_done ) {
2003-04-04 16:42:28 +02:00
fill_default_ref_list ( h ) ;
}
decode_ref_pic_list_reordering ( h ) ;
if ( ( h - > pps . weighted_pred & & ( h - > slice_type = = P_TYPE | | h - > slice_type = = SP_TYPE ) )
| | ( h - > pps . weighted_bipred_idc = = 1 & & h - > slice_type = = B_TYPE ) )
pred_weight_table ( h ) ;
2005-01-07 06:56:07 +01:00
else if ( h - > pps . weighted_bipred_idc = = 2 & & h - > slice_type = = B_TYPE )
implicit_weight_table ( h ) ;
else
h - > use_weight = 0 ;
2003-04-04 16:42:28 +02:00
if ( s - > current_picture . reference )
decode_ref_pic_marking ( h ) ;
2004-03-26 20:35:53 +01:00
if ( h - > slice_type ! = I_TYPE & & h - > slice_type ! = SI_TYPE & & h - > pps . cabac )
h - > cabac_init_idc = get_ue_golomb ( & s - > gb ) ;
h - > last_qscale_diff = 0 ;
s - > qscale = h - > pps . init_qp + get_se_golomb ( & s - > gb ) ;
2004-03-20 01:18:52 +01:00
if ( s - > qscale < 0 | | s - > qscale > 51 ) {
av_log ( s - > avctx , AV_LOG_ERROR , " QP %d out of range \n " , s - > qscale ) ;
return - 1 ;
}
2004-12-31 01:07:17 +01:00
h - > chroma_qp = get_chroma_qp ( h , s - > qscale ) ;
2003-04-04 16:42:28 +02:00
//FIXME qscale / qp ... stuff
if ( h - > slice_type = = SP_TYPE ) {
2003-09-10 00:50:44 +02:00
get_bits1 ( & s - > gb ) ; /* sp_for_switch_flag */
2003-04-04 16:42:28 +02:00
}
if ( h - > slice_type = = SP_TYPE | | h - > slice_type = = SI_TYPE ) {
2003-09-10 00:50:44 +02:00
get_se_golomb ( & s - > gb ) ; /* slice_qs_delta */
2003-04-04 16:42:28 +02:00
}
2004-03-20 17:40:20 +01:00
h - > deblocking_filter = 1 ;
2004-03-20 01:18:52 +01:00
h - > slice_alpha_c0_offset = 0 ;
h - > slice_beta_offset = 0 ;
2003-04-04 16:42:28 +02:00
if ( h - > pps . deblocking_filter_parameters_present ) {
2004-03-20 17:40:20 +01:00
h - > deblocking_filter = get_ue_golomb ( & s - > gb ) ;
if ( h - > deblocking_filter < 2 )
h - > deblocking_filter ^ = 1 ; // 1<->0
if ( h - > deblocking_filter ) {
2004-03-19 22:21:17 +01:00
h - > slice_alpha_c0_offset = get_se_golomb ( & s - > gb ) < < 1 ;
h - > slice_beta_offset = get_se_golomb ( & s - > gb ) < < 1 ;
2003-04-04 16:42:28 +02:00
}
2004-03-19 22:21:17 +01:00
}
2003-04-04 16:42:28 +02:00
#if 0 //FMO
if ( h - > pps . num_slice_groups > 1 & & h - > pps . mb_slice_group_map_type > = 3 & & h - > pps . mb_slice_group_map_type < = 5 )
slice_group_change_cycle = get_bits ( & s - > gb , ? ) ;
# endif
2004-12-18 04:49:07 +01:00
h - > slice_num + + ;
2003-04-04 16:42:28 +02:00
if ( s - > avctx - > debug & FF_DEBUG_PICT_INFO ) {
2005-01-07 06:56:07 +01:00
av_log ( h - > s . avctx , AV_LOG_DEBUG , " slice:%d mb:%d %c pps:%d frame:%d poc:%d/%d ref:%d/%d qp:%d loop:%d weight:%d%s \n " ,
2004-12-18 04:49:07 +01:00
h - > slice_num , first_mb_in_slice ,
2003-05-15 01:08:01 +02:00
av_get_pict_type_char ( h - > slice_type ) ,
2003-04-04 16:42:28 +02:00
pps_id , h - > frame_num ,
s - > current_picture_ptr - > field_poc [ 0 ] , s - > current_picture_ptr - > field_poc [ 1 ] ,
h - > ref_count [ 0 ] , h - > ref_count [ 1 ] ,
s - > qscale ,
2005-01-07 06:56:07 +01:00
h - > deblocking_filter ,
h - > use_weight ,
h - > use_weight = = 1 & & h - > use_weight_chroma ? " c " : " "
2003-04-04 16:42:28 +02:00
) ;
}
return 0 ;
}
/**
*
*/
static inline int get_level_prefix ( GetBitContext * gb ) {
unsigned int buf ;
int log ;
OPEN_READER ( re , gb ) ;
UPDATE_CACHE ( re , gb ) ;
buf = GET_CACHE ( re , gb ) ;
log = 32 - av_log2 ( buf ) ;
# ifdef TRACE
print_bin ( buf > > ( 32 - log ) , log ) ;
2004-09-27 21:47:17 +02:00
av_log ( NULL , AV_LOG_DEBUG , " %5d %2d %3d lpr @%5d in %s get_level_prefix \n " , buf > > ( 32 - log ) , log , log - 1 , get_bits_count ( gb ) , __FILE__ ) ;
2003-04-04 16:42:28 +02:00
# endif
LAST_SKIP_BITS ( re , gb , log ) ;
CLOSE_READER ( re , gb ) ;
return log - 1 ;
}
/**
* decodes a residual block .
* @ param n block index
* @ param scantable scantable
* @ param max_coeff number of coefficients in the block
* @ return < 0 if an error occured
*/
static int decode_residual ( H264Context * h , GetBitContext * gb , DCTELEM * block , int n , const uint8_t * scantable , int qp , int max_coeff ) {
MpegEncContext * const s = & h - > s ;
const uint16_t * qmul = dequant_coeff [ qp ] ;
static const int coeff_token_table_index [ 17 ] = { 0 , 0 , 1 , 1 , 2 , 2 , 2 , 2 , 3 , 3 , 3 , 3 , 3 , 3 , 3 , 3 , 3 } ;
int level [ 16 ] , run [ 16 ] ;
int suffix_length , zeros_left , coeff_num , coeff_token , total_coeff , i , trailing_ones ;
//FIXME put trailing_onex into the context
if ( n = = CHROMA_DC_BLOCK_INDEX ) {
coeff_token = get_vlc2 ( gb , chroma_dc_coeff_token_vlc . table , CHROMA_DC_COEFF_TOKEN_VLC_BITS , 1 ) ;
total_coeff = coeff_token > > 2 ;
} else {
if ( n = = LUMA_DC_BLOCK_INDEX ) {
total_coeff = pred_non_zero_count ( h , 0 ) ;
coeff_token = get_vlc2 ( gb , coeff_token_vlc [ coeff_token_table_index [ total_coeff ] ] . table , COEFF_TOKEN_VLC_BITS , 2 ) ;
total_coeff = coeff_token > > 2 ;
} else {
total_coeff = pred_non_zero_count ( h , n ) ;
coeff_token = get_vlc2 ( gb , coeff_token_vlc [ coeff_token_table_index [ total_coeff ] ] . table , COEFF_TOKEN_VLC_BITS , 2 ) ;
total_coeff = coeff_token > > 2 ;
h - > non_zero_count_cache [ scan8 [ n ] ] = total_coeff ;
}
}
//FIXME set last_non_zero?
if ( total_coeff = = 0 )
return 0 ;
trailing_ones = coeff_token & 3 ;
2003-04-05 12:08:48 +02:00
tprintf ( " trailing:%d, total:%d \n " , trailing_ones , total_coeff ) ;
2003-04-04 16:42:28 +02:00
assert ( total_coeff < = 16 ) ;
for ( i = 0 ; i < trailing_ones ; i + + ) {
level [ i ] = 1 - 2 * get_bits1 ( gb ) ;
}
suffix_length = total_coeff > 10 & & trailing_ones < 3 ;
for ( ; i < total_coeff ; i + + ) {
const int prefix = get_level_prefix ( gb ) ;
int level_code , mask ;
if ( prefix < 14 ) { //FIXME try to build a large unified VLC table for all this
if ( suffix_length )
level_code = ( prefix < < suffix_length ) + get_bits ( gb , suffix_length ) ; //part
else
level_code = ( prefix < < suffix_length ) ; //part
} else if ( prefix = = 14 ) {
if ( suffix_length )
level_code = ( prefix < < suffix_length ) + get_bits ( gb , suffix_length ) ; //part
else
level_code = prefix + get_bits ( gb , 4 ) ; //part
} else if ( prefix = = 15 ) {
level_code = ( prefix < < suffix_length ) + get_bits ( gb , 12 ) ; //part
if ( suffix_length = = 0 ) level_code + = 15 ; //FIXME doesnt make (much)sense
} else {
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_ERROR , " prefix too large at %d %d \n " , s - > mb_x , s - > mb_y ) ;
2003-04-04 16:42:28 +02:00
return - 1 ;
}
if ( i = = trailing_ones & & i < 3 ) level_code + = 2 ; //FIXME split first iteration
mask = - ( level_code & 1 ) ;
level [ i ] = ( ( ( 2 + level_code ) > > 1 ) ^ mask ) - mask ;
if ( suffix_length = = 0 ) suffix_length = 1 ; //FIXME split first iteration
# if 1
if ( ABS ( level [ i ] ) > ( 3 < < ( suffix_length - 1 ) ) & & suffix_length < 6 ) suffix_length + + ;
# else
if ( ( 2 + level_code ) > > 1 ) > ( 3 < < ( suffix_length - 1 ) ) & & suffix_length < 6 ) suffix_length + + ;
2004-03-19 22:21:17 +01:00
/* ? == prefix > 2 or sth */
2003-04-04 16:42:28 +02:00
# endif
2003-04-05 12:08:48 +02:00
tprintf ( " level: %d suffix_length:%d \n " , level [ i ] , suffix_length ) ;
2003-04-04 16:42:28 +02:00
}
if ( total_coeff = = max_coeff )
zeros_left = 0 ;
else {
if ( n = = CHROMA_DC_BLOCK_INDEX )
zeros_left = get_vlc2 ( gb , chroma_dc_total_zeros_vlc [ total_coeff - 1 ] . table , CHROMA_DC_TOTAL_ZEROS_VLC_BITS , 1 ) ;
else
zeros_left = get_vlc2 ( gb , total_zeros_vlc [ total_coeff - 1 ] . table , TOTAL_ZEROS_VLC_BITS , 1 ) ;
}
for ( i = 0 ; i < total_coeff - 1 ; i + + ) {
if ( zeros_left < = 0 )
break ;
else if ( zeros_left < 7 ) {
run [ i ] = get_vlc2 ( gb , run_vlc [ zeros_left - 1 ] . table , RUN_VLC_BITS , 1 ) ;
} else {
run [ i ] = get_vlc2 ( gb , run7_vlc . table , RUN7_VLC_BITS , 2 ) ;
}
zeros_left - = run [ i ] ;
}
if ( zeros_left < 0 ) {
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_ERROR , " negative number of zero coeffs at %d %d \n " , s - > mb_x , s - > mb_y ) ;
2003-04-04 16:42:28 +02:00
return - 1 ;
}
for ( ; i < total_coeff - 1 ; i + + ) {
run [ i ] = 0 ;
}
run [ i ] = zeros_left ;
coeff_num = - 1 ;
if ( n > 24 ) {
for ( i = total_coeff - 1 ; i > = 0 ; i - - ) { //FIXME merge into rundecode?
int j ;
coeff_num + = run [ i ] + 1 ; //FIXME add 1 earlier ?
j = scantable [ coeff_num ] ;
block [ j ] = level [ i ] ;
}
} else {
for ( i = total_coeff - 1 ; i > = 0 ; i - - ) { //FIXME merge into rundecode?
int j ;
coeff_num + = run [ i ] + 1 ; //FIXME add 1 earlier ?
j = scantable [ coeff_num ] ;
block [ j ] = level [ i ] * qmul [ j ] ;
// printf("%d %d ", block[j], qmul[j]);
}
}
return 0 ;
}
2004-12-29 05:17:52 +01:00
/**
* decodes a P_SKIP or B_SKIP macroblock
*/
static void decode_mb_skip ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
int mb_type ;
memset ( h - > non_zero_count [ mb_xy ] , 0 , 16 ) ;
memset ( h - > non_zero_count_cache + 8 , 0 , 8 * 5 ) ; //FIXME ugly, remove pfui
if ( h - > slice_type = = B_TYPE )
{
// just for fill_caches. pred_direct_motion will set the real mb_type
mb_type = MB_TYPE_16x16 | MB_TYPE_P0L0 | MB_TYPE_P0L1 | MB_TYPE_DIRECT2 | MB_TYPE_SKIP ;
//FIXME mbaff
2005-01-23 15:03:13 +01:00
fill_caches ( h , mb_type , 0 ) ; //FIXME check what is needed and what not ...
2004-12-29 05:17:52 +01:00
pred_direct_motion ( h , & mb_type ) ;
if ( h - > pps . cabac ) {
fill_rectangle ( h - > mvd_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
fill_rectangle ( h - > mvd_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
}
}
else
{
int mx , my ;
mb_type = MB_TYPE_16x16 | MB_TYPE_P0L0 | MB_TYPE_P1L0 | MB_TYPE_SKIP ;
if ( h - > sps . mb_aff & & s - > mb_skip_run = = 0 & & ( s - > mb_y & 1 ) = = 0 ) {
h - > mb_field_decoding_flag = get_bits1 ( & s - > gb ) ;
}
if ( h - > mb_field_decoding_flag )
mb_type | = MB_TYPE_INTERLACED ;
2005-01-23 15:03:13 +01:00
fill_caches ( h , mb_type , 0 ) ; //FIXME check what is needed and what not ...
2004-12-29 05:17:52 +01:00
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 ) ;
if ( h - > pps . cabac )
fill_rectangle ( h - > mvd_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
}
write_back_motion ( h , mb_type ) ;
s - > current_picture . mb_type [ mb_xy ] = mb_type | MB_TYPE_SKIP ;
s - > current_picture . qscale_table [ mb_xy ] = s - > qscale ;
h - > slice_table [ mb_xy ] = h - > slice_num ;
h - > prev_mb_skiped = 1 ;
}
2003-04-04 16:42:28 +02:00
/**
* decodes a macroblock
* @ returns 0 if ok , AC_ERROR / DC_ERROR / MV_ERROR if an error is noticed
*/
2004-03-26 20:35:53 +01:00
static int decode_mb_cavlc ( H264Context * h ) {
2003-04-04 16:42:28 +02:00
MpegEncContext * const s = & h - > s ;
2003-04-10 15:18:38 +02:00
const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
2003-04-04 22:59:50 +02:00
int mb_type , partition_count , cbp ;
2003-04-04 16:42:28 +02:00
2003-05-13 15:38:09 +02:00
s - > dsp . clear_blocks ( h - > mb ) ; //FIXME avoid if allready clear (move after skip handlong?
2003-04-04 16:42:28 +02:00
2003-04-05 12:08:48 +02:00
tprintf ( " pic:%d mb:%d/%d \n " , h - > frame_num , s - > mb_x , s - > mb_y ) ;
2003-09-10 00:50:44 +02:00
cbp = 0 ; /* avoid warning. FIXME: find a solution without slowing
down the code */
2003-04-04 16:42:28 +02:00
if ( h - > slice_type ! = I_TYPE & & h - > slice_type ! = SI_TYPE ) {
if ( s - > mb_skip_run = = - 1 )
s - > mb_skip_run = get_ue_golomb ( & s - > gb ) ;
if ( s - > mb_skip_run - - ) {
2004-12-29 05:17:52 +01:00
decode_mb_skip ( h ) ;
2003-04-04 16:42:28 +02:00
return 0 ;
}
}
if ( h - > sps . mb_aff /* && !field pic FIXME needed? */ ) {
if ( ( s - > mb_y & 1 ) = = 0 )
h - > mb_field_decoding_flag = get_bits1 ( & s - > gb ) ;
} else
h - > mb_field_decoding_flag = 0 ; //FIXME som ed note ?!
h - > prev_mb_skiped = 0 ;
mb_type = get_ue_golomb ( & s - > gb ) ;
if ( h - > slice_type = = B_TYPE ) {
if ( mb_type < 23 ) {
partition_count = b_mb_type_info [ mb_type ] . partition_count ;
mb_type = b_mb_type_info [ mb_type ] . type ;
} else {
mb_type - = 23 ;
goto decode_intra_mb ;
}
} else if ( h - > slice_type = = P_TYPE /*|| h->slice_type == SP_TYPE */ ) {
if ( mb_type < 5 ) {
partition_count = p_mb_type_info [ mb_type ] . partition_count ;
mb_type = p_mb_type_info [ mb_type ] . type ;
} else {
mb_type - = 5 ;
goto decode_intra_mb ;
}
} else {
assert ( h - > slice_type = = I_TYPE ) ;
decode_intra_mb :
if ( mb_type > 25 ) {
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_ERROR , " mb_type %d in %c slice to large at %d %d \n " , mb_type , av_get_pict_type_char ( h - > slice_type ) , s - > mb_x , s - > mb_y ) ;
2003-04-04 16:42:28 +02:00
return - 1 ;
}
partition_count = 0 ;
cbp = i_mb_type_info [ mb_type ] . cbp ;
h - > intra16x16_pred_mode = i_mb_type_info [ mb_type ] . pred_mode ;
mb_type = i_mb_type_info [ mb_type ] . type ;
}
if ( h - > mb_field_decoding_flag )
mb_type | = MB_TYPE_INTERLACED ;
s - > current_picture . mb_type [ mb_xy ] = mb_type ;
h - > slice_table [ mb_xy ] = h - > slice_num ;
if ( IS_INTRA_PCM ( mb_type ) ) {
2005-02-07 01:10:28 +01:00
unsigned int x , y ;
2003-04-04 16:42:28 +02:00
// we assume these blocks are very rare so we dont optimize it
align_get_bits ( & s - > gb ) ;
2005-02-07 01:10:28 +01:00
// The pixels are stored in the same order as levels in h->mb array.
2003-04-04 16:42:28 +02:00
for ( y = 0 ; y < 16 ; y + + ) {
2005-02-07 01:10:28 +01:00
const int index = 4 * ( y & 3 ) + 32 * ( ( y > > 2 ) & 1 ) + 128 * ( y > > 3 ) ;
2003-04-04 16:42:28 +02:00
for ( x = 0 ; x < 16 ; x + + ) {
2005-02-07 01:10:28 +01:00
tprintf ( " LUMA ICPM LEVEL (%3d) \n " , show_bits ( & s - > gb , 8 ) ) ;
h - > mb [ index + ( x & 3 ) + 16 * ( ( x > > 2 ) & 1 ) + 64 * ( x > > 3 ) ] = get_bits ( & s - > gb , 8 ) ;
2003-04-04 16:42:28 +02:00
}
}
for ( y = 0 ; y < 8 ; y + + ) {
const int index = 256 + 4 * ( y & 3 ) + 32 * ( y > > 2 ) ;
for ( x = 0 ; x < 8 ; x + + ) {
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tprintf ( " CHROMA U ICPM LEVEL (%3d) \n " , show_bits ( & s - > gb , 8 ) ) ;
h - > mb [ index + ( x & 3 ) + 16 * ( x > > 2 ) ] = get_bits ( & s - > gb , 8 ) ;
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}
}
for ( y = 0 ; y < 8 ; y + + ) {
const int index = 256 + 64 + 4 * ( y & 3 ) + 32 * ( y > > 2 ) ;
for ( x = 0 ; x < 8 ; x + + ) {
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tprintf ( " CHROMA V ICPM LEVEL (%3d) \n " , show_bits ( & s - > gb , 8 ) ) ;
h - > mb [ index + ( x & 3 ) + 16 * ( x > > 2 ) ] = get_bits ( & s - > gb , 8 ) ;
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}
}
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// In deblocking, the quantiser is 0
s - > current_picture . qscale_table [ mb_xy ] = 0 ;
h - > chroma_qp = get_chroma_qp ( h , 0 ) ;
// All coeffs are presents
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memset ( h - > non_zero_count [ mb_xy ] , 16 , 16 ) ;
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return 0 ;
}
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fill_caches ( h , mb_type , 0 ) ;
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//mb_pred
if ( IS_INTRA ( mb_type ) ) {
// init_top_left_availability(h);
if ( IS_INTRA4x4 ( mb_type ) ) {
int i ;
// fill_intra4x4_pred_table(h);
for ( i = 0 ; i < 16 ; i + + ) {
const int mode_coded = ! get_bits1 ( & s - > gb ) ;
const int predicted_mode = pred_intra_mode ( h , i ) ;
int mode ;
if ( mode_coded ) {
const int rem_mode = get_bits ( & s - > gb , 3 ) ;
if ( rem_mode < predicted_mode )
mode = rem_mode ;
else
mode = rem_mode + 1 ;
} else {
mode = predicted_mode ;
}
h - > intra4x4_pred_mode_cache [ scan8 [ i ] ] = mode ;
}
write_back_intra_pred_mode ( h ) ;
if ( check_intra4x4_pred_mode ( h ) < 0 )
return - 1 ;
} else {
h - > intra16x16_pred_mode = check_intra_pred_mode ( h , h - > intra16x16_pred_mode ) ;
if ( h - > intra16x16_pred_mode < 0 )
return - 1 ;
}
h - > chroma_pred_mode = get_ue_golomb ( & s - > gb ) ;
h - > chroma_pred_mode = check_intra_pred_mode ( h , h - > chroma_pred_mode ) ;
if ( h - > chroma_pred_mode < 0 )
return - 1 ;
} else if ( partition_count = = 4 ) {
int i , j , sub_partition_count [ 4 ] , list , ref [ 2 ] [ 4 ] ;
if ( h - > slice_type = = B_TYPE ) {
for ( i = 0 ; i < 4 ; i + + ) {
h - > sub_mb_type [ i ] = get_ue_golomb ( & s - > gb ) ;
if ( h - > sub_mb_type [ i ] > = 13 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " B sub_mb_type %d out of range at %d %d \n " , h - > sub_mb_type [ i ] , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
}
sub_partition_count [ i ] = b_sub_mb_type_info [ h - > sub_mb_type [ i ] ] . partition_count ;
h - > sub_mb_type [ i ] = b_sub_mb_type_info [ h - > sub_mb_type [ i ] ] . type ;
}
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if ( IS_DIRECT ( h - > sub_mb_type [ 0 ] ) | | IS_DIRECT ( h - > sub_mb_type [ 1 ] )
| | IS_DIRECT ( h - > sub_mb_type [ 2 ] ) | | IS_DIRECT ( h - > sub_mb_type [ 3 ] ) )
pred_direct_motion ( h , & mb_type ) ;
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} else {
assert ( h - > slice_type = = P_TYPE | | h - > slice_type = = SP_TYPE ) ; //FIXME SP correct ?
for ( i = 0 ; i < 4 ; i + + ) {
h - > sub_mb_type [ i ] = get_ue_golomb ( & s - > gb ) ;
if ( h - > sub_mb_type [ i ] > = 4 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " P sub_mb_type %d out of range at %d %d \n " , h - > sub_mb_type [ i ] , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
}
sub_partition_count [ i ] = p_sub_mb_type_info [ h - > sub_mb_type [ i ] ] . partition_count ;
h - > sub_mb_type [ i ] = p_sub_mb_type_info [ h - > sub_mb_type [ i ] ] . type ;
}
}
for ( list = 0 ; list < 2 ; list + + ) {
const int ref_count = IS_REF0 ( mb_type ) ? 1 : h - > ref_count [ list ] ;
if ( ref_count = = 0 ) continue ;
for ( i = 0 ; i < 4 ; i + + ) {
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if ( IS_DIRECT ( h - > sub_mb_type [ i ] ) ) continue ;
if ( IS_DIR ( h - > sub_mb_type [ i ] , 0 , list ) ) {
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ref [ list ] [ i ] = get_te0_golomb ( & s - > gb , ref_count ) ; //FIXME init to 0 before and skip?
} else {
//FIXME
ref [ list ] [ i ] = - 1 ;
}
}
}
for ( list = 0 ; list < 2 ; list + + ) {
const int ref_count = IS_REF0 ( mb_type ) ? 1 : h - > ref_count [ list ] ;
if ( ref_count = = 0 ) continue ;
for ( i = 0 ; i < 4 ; i + + ) {
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if ( IS_DIRECT ( h - > sub_mb_type [ i ] ) ) continue ;
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h - > ref_cache [ list ] [ scan8 [ 4 * i ] ] = h - > ref_cache [ list ] [ scan8 [ 4 * i ] + 1 ] =
h - > ref_cache [ list ] [ scan8 [ 4 * i ] + 8 ] = h - > ref_cache [ list ] [ scan8 [ 4 * i ] + 9 ] = ref [ list ] [ i ] ;
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if ( IS_DIR ( h - > sub_mb_type [ i ] , 0 , list ) ) {
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const int sub_mb_type = h - > sub_mb_type [ i ] ;
const int block_width = ( sub_mb_type & ( MB_TYPE_16x16 | MB_TYPE_16x8 ) ) ? 2 : 1 ;
for ( j = 0 ; j < sub_partition_count [ i ] ; j + + ) {
int mx , my ;
const int index = 4 * i + block_width * j ;
int16_t ( * mv_cache ) [ 2 ] = & h - > mv_cache [ list ] [ scan8 [ index ] ] ;
pred_motion ( h , index , block_width , list , h - > ref_cache [ list ] [ scan8 [ index ] ] , & mx , & my ) ;
mx + = get_se_golomb ( & s - > gb ) ;
my + = get_se_golomb ( & s - > gb ) ;
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tprintf ( " final mv:%d %d \n " , mx , my ) ;
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if ( IS_SUB_8X8 ( sub_mb_type ) ) {
mv_cache [ 0 ] [ 0 ] = mv_cache [ 1 ] [ 0 ] =
mv_cache [ 8 ] [ 0 ] = mv_cache [ 9 ] [ 0 ] = mx ;
mv_cache [ 0 ] [ 1 ] = mv_cache [ 1 ] [ 1 ] =
mv_cache [ 8 ] [ 1 ] = mv_cache [ 9 ] [ 1 ] = my ;
} else if ( IS_SUB_8X4 ( sub_mb_type ) ) {
mv_cache [ 0 ] [ 0 ] = mv_cache [ 1 ] [ 0 ] = mx ;
mv_cache [ 0 ] [ 1 ] = mv_cache [ 1 ] [ 1 ] = my ;
} else if ( IS_SUB_4X8 ( sub_mb_type ) ) {
mv_cache [ 0 ] [ 0 ] = mv_cache [ 8 ] [ 0 ] = mx ;
mv_cache [ 0 ] [ 1 ] = mv_cache [ 8 ] [ 1 ] = my ;
} else {
assert ( IS_SUB_4X4 ( sub_mb_type ) ) ;
mv_cache [ 0 ] [ 0 ] = mx ;
mv_cache [ 0 ] [ 1 ] = my ;
}
}
} else {
uint32_t * p = ( uint32_t * ) & h - > mv_cache [ list ] [ scan8 [ 4 * i ] ] [ 0 ] ;
p [ 0 ] = p [ 1 ] =
p [ 8 ] = p [ 9 ] = 0 ;
}
}
}
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} else if ( IS_DIRECT ( mb_type ) ) {
pred_direct_motion ( h , & mb_type ) ;
s - > current_picture . mb_type [ mb_xy ] = mb_type ;
} else {
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int list , mx , my , i ;
//FIXME we should set ref_idx_l? to 0 if we use that later ...
if ( IS_16X16 ( mb_type ) ) {
for ( list = 0 ; list < 2 ; list + + ) {
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if ( h - > ref_count [ list ] > 0 ) {
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if ( IS_DIR ( mb_type , 0 , list ) ) {
const int val = get_te0_golomb ( & s - > gb , h - > ref_count [ list ] ) ;
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , val , 1 ) ;
}
}
}
for ( list = 0 ; list < 2 ; list + + ) {
if ( IS_DIR ( mb_type , 0 , list ) ) {
pred_motion ( h , 0 , 4 , list , h - > ref_cache [ list ] [ scan8 [ 0 ] ] , & mx , & my ) ;
mx + = get_se_golomb ( & s - > gb ) ;
my + = get_se_golomb ( & s - > gb ) ;
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tprintf ( " final mv:%d %d \n " , mx , my ) ;
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fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mx , my ) , 4 ) ;
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}
}
}
else if ( IS_16X8 ( mb_type ) ) {
for ( list = 0 ; list < 2 ; list + + ) {
if ( h - > ref_count [ list ] > 0 ) {
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_DIR ( mb_type , i , list ) ) {
const int val = get_te0_golomb ( & s - > gb , h - > ref_count [ list ] ) ;
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , val , 1 ) ;
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} else // needed only for mixed refs (e.g. B_L0_L1_16x8)
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , ( LIST_NOT_USED & 0xFF ) , 1 ) ;
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}
}
}
for ( list = 0 ; list < 2 ; list + + ) {
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_DIR ( mb_type , i , list ) ) {
pred_16x8_motion ( h , 8 * i , list , h - > ref_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , & mx , & my ) ;
mx + = get_se_golomb ( & s - > gb ) ;
my + = get_se_golomb ( & s - > gb ) ;
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tprintf ( " final mv:%d %d \n " , mx , my ) ;
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fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , pack16to32 ( mx , my ) , 4 ) ;
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} else
fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , 0 , 4 ) ;
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}
}
} else {
assert ( IS_8X16 ( mb_type ) ) ;
for ( list = 0 ; list < 2 ; list + + ) {
if ( h - > ref_count [ list ] > 0 ) {
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_DIR ( mb_type , i , list ) ) { //FIXME optimize
const int val = get_te0_golomb ( & s - > gb , h - > ref_count [ list ] ) ;
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , val , 1 ) ;
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} else // needed only for mixed refs
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , ( LIST_NOT_USED & 0xFF ) , 1 ) ;
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}
}
}
for ( list = 0 ; list < 2 ; list + + ) {
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_DIR ( mb_type , i , list ) ) {
pred_8x16_motion ( h , i * 4 , list , h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , & mx , & my ) ;
mx + = get_se_golomb ( & s - > gb ) ;
my + = get_se_golomb ( & s - > gb ) ;
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tprintf ( " final mv:%d %d \n " , mx , my ) ;
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fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , pack16to32 ( mx , my ) , 4 ) ;
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} else
fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , 0 , 4 ) ;
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}
}
}
}
if ( IS_INTER ( mb_type ) )
write_back_motion ( h , mb_type ) ;
if ( ! IS_INTRA16x16 ( mb_type ) ) {
cbp = get_ue_golomb ( & s - > gb ) ;
if ( cbp > 47 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " cbp too large (%d) at %d %d \n " , cbp , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
}
if ( IS_INTRA4x4 ( mb_type ) )
cbp = golomb_to_intra4x4_cbp [ cbp ] ;
else
cbp = golomb_to_inter_cbp [ cbp ] ;
}
if ( cbp | | IS_INTRA16x16 ( mb_type ) ) {
int i8x8 , i4x4 , chroma_idx ;
int chroma_qp , dquant ;
GetBitContext * gb = IS_INTRA ( mb_type ) ? h - > intra_gb_ptr : h - > inter_gb_ptr ;
const uint8_t * scan , * dc_scan ;
// fill_non_zero_count_cache(h);
if ( IS_INTERLACED ( mb_type ) ) {
scan = field_scan ;
dc_scan = luma_dc_field_scan ;
} else {
scan = zigzag_scan ;
dc_scan = luma_dc_zigzag_scan ;
}
dquant = get_se_golomb ( & s - > gb ) ;
if ( dquant > 25 | | dquant < - 26 ) {
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_ERROR , " dquant out of range (%d) at %d %d \n " , dquant , s - > mb_x , s - > mb_y ) ;
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return - 1 ;
}
s - > qscale + = dquant ;
if ( ( ( unsigned ) s - > qscale ) > 51 ) {
if ( s - > qscale < 0 ) s - > qscale + = 52 ;
else s - > qscale - = 52 ;
}
h - > chroma_qp = chroma_qp = get_chroma_qp ( h , s - > qscale ) ;
if ( IS_INTRA16x16 ( mb_type ) ) {
if ( decode_residual ( h , h - > intra_gb_ptr , h - > mb , LUMA_DC_BLOCK_INDEX , dc_scan , s - > qscale , 16 ) < 0 ) {
return - 1 ; //FIXME continue if partotioned and other retirn -1 too
}
assert ( ( cbp & 15 ) = = 0 | | ( cbp & 15 ) = = 15 ) ;
if ( cbp & 15 ) {
for ( i8x8 = 0 ; i8x8 < 4 ; i8x8 + + ) {
for ( i4x4 = 0 ; i4x4 < 4 ; i4x4 + + ) {
const int index = i4x4 + 4 * i8x8 ;
if ( decode_residual ( h , h - > intra_gb_ptr , h - > mb + 16 * index , index , scan + 1 , s - > qscale , 15 ) < 0 ) {
return - 1 ;
}
}
}
} else {
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fill_rectangle ( & h - > non_zero_count_cache [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 1 ) ;
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}
} else {
for ( i8x8 = 0 ; i8x8 < 4 ; i8x8 + + ) {
if ( cbp & ( 1 < < i8x8 ) ) {
for ( i4x4 = 0 ; i4x4 < 4 ; i4x4 + + ) {
const int index = i4x4 + 4 * i8x8 ;
if ( decode_residual ( h , gb , h - > mb + 16 * index , index , scan , s - > qscale , 16 ) < 0 ) {
return - 1 ;
}
}
} else {
uint8_t * const nnz = & h - > non_zero_count_cache [ scan8 [ 4 * i8x8 ] ] ;
nnz [ 0 ] = nnz [ 1 ] = nnz [ 8 ] = nnz [ 9 ] = 0 ;
}
}
}
if ( cbp & 0x30 ) {
for ( chroma_idx = 0 ; chroma_idx < 2 ; chroma_idx + + )
if ( decode_residual ( h , gb , h - > mb + 256 + 16 * 4 * chroma_idx , CHROMA_DC_BLOCK_INDEX , chroma_dc_scan , chroma_qp , 4 ) < 0 ) {
return - 1 ;
}
}
if ( cbp & 0x20 ) {
for ( chroma_idx = 0 ; chroma_idx < 2 ; chroma_idx + + ) {
for ( i4x4 = 0 ; i4x4 < 4 ; i4x4 + + ) {
const int index = 16 + 4 * chroma_idx + i4x4 ;
if ( decode_residual ( h , gb , h - > mb + 16 * index , index , scan + 1 , chroma_qp , 15 ) < 0 ) {
return - 1 ;
}
}
}
} else {
uint8_t * const nnz = & h - > non_zero_count_cache [ 0 ] ;
nnz [ scan8 [ 16 ] + 0 ] = nnz [ scan8 [ 16 ] + 1 ] = nnz [ scan8 [ 16 ] + 8 ] = nnz [ scan8 [ 16 ] + 9 ] =
nnz [ scan8 [ 20 ] + 0 ] = nnz [ scan8 [ 20 ] + 1 ] = nnz [ scan8 [ 20 ] + 8 ] = nnz [ scan8 [ 20 ] + 9 ] = 0 ;
}
} else {
2004-03-20 17:40:20 +01:00
uint8_t * const nnz = & h - > non_zero_count_cache [ 0 ] ;
fill_rectangle ( & nnz [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 1 ) ;
nnz [ scan8 [ 16 ] + 0 ] = nnz [ scan8 [ 16 ] + 1 ] = nnz [ scan8 [ 16 ] + 8 ] = nnz [ scan8 [ 16 ] + 9 ] =
nnz [ scan8 [ 20 ] + 0 ] = nnz [ scan8 [ 20 ] + 1 ] = nnz [ scan8 [ 20 ] + 8 ] = nnz [ scan8 [ 20 ] + 9 ] = 0 ;
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}
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s - > current_picture . qscale_table [ mb_xy ] = s - > qscale ;
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write_back_non_zero_count ( h ) ;
return 0 ;
}
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static int decode_cabac_intra_mb_type ( H264Context * h , int ctx_base , int intra_slice ) {
uint8_t * state = & h - > cabac_state [ ctx_base ] ;
int mb_type ;
if ( intra_slice ) {
MpegEncContext * const s = & h - > s ;
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const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
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const int mba_xy = mb_xy - 1 ;
const int mbb_xy = mb_xy - s - > mb_stride ;
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int ctx = 0 ;
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if ( h - > slice_table [ mba_xy ] = = h - > slice_num & & ! IS_INTRA4x4 ( s - > current_picture . mb_type [ mba_xy ] ) )
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ctx + + ;
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if ( h - > slice_table [ mbb_xy ] = = h - > slice_num & & ! IS_INTRA4x4 ( s - > current_picture . mb_type [ mbb_xy ] ) )
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ctx + + ;
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if ( get_cabac ( & h - > cabac , & state [ ctx ] ) = = 0 )
return 0 ; /* I4x4 */
state + = 2 ;
} else {
if ( get_cabac ( & h - > cabac , & state [ 0 ] ) = = 0 )
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return 0 ; /* I4x4 */
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}
2004-03-26 20:35:53 +01:00
2004-10-23 14:07:57 +02:00
if ( get_cabac_terminate ( & h - > cabac ) )
return 25 ; /* PCM */
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2004-10-23 14:07:57 +02:00
mb_type = 1 ; /* I16x16 */
if ( get_cabac ( & h - > cabac , & state [ 1 ] ) )
mb_type + = 12 ; /* cbp_luma != 0 */
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2004-10-23 14:07:57 +02:00
if ( get_cabac ( & h - > cabac , & state [ 2 ] ) ) {
if ( get_cabac ( & h - > cabac , & state [ 2 + intra_slice ] ) )
mb_type + = 4 * 2 ; /* cbp_chroma == 2 */
else
mb_type + = 4 * 1 ; /* cbp_chroma == 1 */
}
if ( get_cabac ( & h - > cabac , & state [ 3 + intra_slice ] ) )
mb_type + = 2 ;
if ( get_cabac ( & h - > cabac , & state [ 3 + 2 * intra_slice ] ) )
mb_type + = 1 ;
return mb_type ;
}
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2004-10-23 14:07:57 +02:00
static int decode_cabac_mb_type ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
if ( h - > slice_type = = I_TYPE ) {
return decode_cabac_intra_mb_type ( h , 3 , 1 ) ;
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} else if ( h - > slice_type = = P_TYPE ) {
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 14 ] ) = = 0 ) {
/* P-type */
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 15 ] ) = = 0 ) {
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 16 ] ) = = 0 )
return 0 ; /* P_L0_D16x16; */
else
return 3 ; /* P_8x8; */
} else {
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 17 ] ) = = 0 )
return 2 ; /* P_L0_D8x16; */
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else
return 1 ; /* P_L0_D16x8; */
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}
} else {
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return decode_cabac_intra_mb_type ( h , 17 , 0 ) + 5 ;
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}
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} else if ( h - > slice_type = = B_TYPE ) {
const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
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const int mba_xy = mb_xy - 1 ;
const int mbb_xy = mb_xy - s - > mb_stride ;
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int ctx = 0 ;
int bits ;
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if ( h - > slice_table [ mba_xy ] = = h - > slice_num & & ! IS_SKIP ( s - > current_picture . mb_type [ mba_xy ] )
& & ! IS_DIRECT ( s - > current_picture . mb_type [ mba_xy ] ) )
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ctx + + ;
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if ( h - > slice_table [ mbb_xy ] = = h - > slice_num & & ! IS_SKIP ( s - > current_picture . mb_type [ mbb_xy ] )
& & ! IS_DIRECT ( s - > current_picture . mb_type [ mbb_xy ] ) )
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ctx + + ;
if ( ! get_cabac ( & h - > cabac , & h - > cabac_state [ 27 + ctx ] ) )
return 0 ; /* B_Direct_16x16 */
if ( ! get_cabac ( & h - > cabac , & h - > cabac_state [ 27 + 3 ] ) ) {
return 1 + get_cabac ( & h - > cabac , & h - > cabac_state [ 27 + 5 ] ) ; /* B_L[01]_16x16 */
}
bits = get_cabac ( & h - > cabac , & h - > cabac_state [ 27 + 4 ] ) < < 3 ;
bits | = get_cabac ( & h - > cabac , & h - > cabac_state [ 27 + 5 ] ) < < 2 ;
bits | = get_cabac ( & h - > cabac , & h - > cabac_state [ 27 + 5 ] ) < < 1 ;
bits | = get_cabac ( & h - > cabac , & h - > cabac_state [ 27 + 5 ] ) ;
if ( bits < 8 )
return bits + 3 ; /* B_Bi_16x16 through B_L1_L0_16x8 */
else if ( bits = = 13 ) {
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return decode_cabac_intra_mb_type ( h , 32 , 0 ) + 23 ;
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} else if ( bits = = 14 )
return 11 ; /* B_L1_L0_8x16 */
else if ( bits = = 15 )
return 22 ; /* B_8x8 */
bits = ( bits < < 1 ) | get_cabac ( & h - > cabac , & h - > cabac_state [ 27 + 5 ] ) ;
return bits - 4 ; /* B_L0_Bi_* through B_Bi_Bi_* */
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} else {
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/* TODO SI/SP frames? */
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return - 1 ;
}
}
static int decode_cabac_mb_skip ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
const int mba_xy = mb_xy - 1 ;
const int mbb_xy = mb_xy - s - > mb_stride ;
int ctx = 0 ;
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if ( h - > slice_table [ mba_xy ] = = h - > slice_num & & ! IS_SKIP ( s - > current_picture . mb_type [ mba_xy ] ) )
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ctx + + ;
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if ( h - > slice_table [ mbb_xy ] = = h - > slice_num & & ! IS_SKIP ( s - > current_picture . mb_type [ mbb_xy ] ) )
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ctx + + ;
if ( h - > slice_type = = P_TYPE | | h - > slice_type = = SP_TYPE )
return get_cabac ( & h - > cabac , & h - > cabac_state [ 11 + ctx ] ) ;
else /* B-frame */
return get_cabac ( & h - > cabac , & h - > cabac_state [ 24 + ctx ] ) ;
}
static int decode_cabac_mb_intra4x4_pred_mode ( H264Context * h , int pred_mode ) {
int mode = 0 ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 68 ] ) )
return pred_mode ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 69 ] ) )
mode + = 1 ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 69 ] ) )
mode + = 2 ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 69 ] ) )
mode + = 4 ;
if ( mode > = pred_mode )
return mode + 1 ;
else
return mode ;
}
static int decode_cabac_mb_chroma_pre_mode ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
const int mba_xy = mb_xy - 1 ;
const int mbb_xy = mb_xy - s - > mb_stride ;
int ctx = 0 ;
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/* No need to test for IS_INTRA4x4 and IS_INTRA16x16, as we set chroma_pred_mode_table to 0 */
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if ( h - > slice_table [ mba_xy ] = = h - > slice_num & & h - > chroma_pred_mode_table [ mba_xy ] ! = 0 )
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ctx + + ;
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if ( h - > slice_table [ mbb_xy ] = = h - > slice_num & & h - > chroma_pred_mode_table [ mbb_xy ] ! = 0 )
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ctx + + ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 64 + ctx ] ) = = 0 )
return 0 ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 64 + 3 ] ) = = 0 )
return 1 ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 64 + 3 ] ) = = 0 )
return 2 ;
else
return 3 ;
}
static const uint8_t block_idx_x [ 16 ] = {
0 , 1 , 0 , 1 , 2 , 3 , 2 , 3 , 0 , 1 , 0 , 1 , 2 , 3 , 2 , 3
} ;
static const uint8_t block_idx_y [ 16 ] = {
0 , 0 , 1 , 1 , 0 , 0 , 1 , 1 , 2 , 2 , 3 , 3 , 2 , 2 , 3 , 3
} ;
static const uint8_t block_idx_xy [ 4 ] [ 4 ] = {
{ 0 , 2 , 8 , 10 } ,
{ 1 , 3 , 9 , 11 } ,
{ 4 , 6 , 12 , 14 } ,
{ 5 , 7 , 13 , 15 }
} ;
static int decode_cabac_mb_cbp_luma ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
int cbp = 0 ;
int i8x8 ;
h - > cbp_table [ mb_xy ] = 0 ; /* FIXME aaahahahah beurk */
for ( i8x8 = 0 ; i8x8 < 4 ; i8x8 + + ) {
int mba_xy = - 1 ;
int mbb_xy = - 1 ;
int x , y ;
int ctx = 0 ;
x = block_idx_x [ 4 * i8x8 ] ;
y = block_idx_y [ 4 * i8x8 ] ;
if ( x > 0 )
mba_xy = mb_xy ;
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else if ( s - > mb_x > 0 ) {
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mba_xy = mb_xy - 1 ;
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if ( h - > slice_table [ mba_xy ] ! = h - > slice_num ) {
mba_xy = - 1 ;
}
}
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if ( y > 0 )
mbb_xy = mb_xy ;
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else if ( s - > mb_y > 0 ) {
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mbb_xy = mb_xy - s - > mb_stride ;
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if ( h - > slice_table [ mbb_xy ] ! = h - > slice_num ) {
mbb_xy = - 1 ;
}
}
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/* No need to test for skip as we put 0 for skip block */
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if ( mba_xy > = 0 ) {
int i8x8a = block_idx_xy [ ( x - 1 ) & 0x03 ] [ y ] / 4 ;
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if ( ( ( h - > cbp_table [ mba_xy ] > > i8x8a ) & 0x01 ) = = 0 )
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ctx + + ;
}
if ( mbb_xy > = 0 ) {
int i8x8b = block_idx_xy [ x ] [ ( y - 1 ) & 0x03 ] / 4 ;
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if ( ( ( h - > cbp_table [ mbb_xy ] > > i8x8b ) & 0x01 ) = = 0 )
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ctx + = 2 ;
}
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 73 + ctx ] ) ) {
cbp | = 1 < < i8x8 ;
h - > cbp_table [ mb_xy ] = cbp ; /* FIXME aaahahahah beurk */
}
}
return cbp ;
}
static int decode_cabac_mb_cbp_chroma ( H264Context * h ) {
int ctx ;
int cbp_a , cbp_b ;
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cbp_a = ( h - > left_cbp > > 4 ) & 0x03 ;
cbp_b = ( h - > top_cbp > > 4 ) & 0x03 ;
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ctx = 0 ;
if ( cbp_a > 0 ) ctx + + ;
if ( cbp_b > 0 ) ctx + = 2 ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 77 + ctx ] ) = = 0 )
return 0 ;
ctx = 4 ;
if ( cbp_a = = 2 ) ctx + + ;
if ( cbp_b = = 2 ) ctx + = 2 ;
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return 1 + get_cabac ( & h - > cabac , & h - > cabac_state [ 77 + ctx ] ) ;
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}
static int decode_cabac_mb_dqp ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int mbn_xy ;
int ctx = 0 ;
int val = 0 ;
if ( s - > mb_x > 0 )
mbn_xy = s - > mb_x + s - > mb_y * s - > mb_stride - 1 ;
else
mbn_xy = s - > mb_width - 1 + ( s - > mb_y - 1 ) * s - > mb_stride ;
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if ( h - > last_qscale_diff ! = 0 & & ( IS_INTRA16x16 ( s - > current_picture . mb_type [ mbn_xy ] ) | | ( h - > cbp_table [ mbn_xy ] & 0x3f ) ) )
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ctx + + ;
while ( get_cabac ( & h - > cabac , & h - > cabac_state [ 60 + ctx ] ) ) {
if ( ctx < 2 )
ctx = 2 ;
else
ctx = 3 ;
val + + ;
}
if ( val & 0x01 )
return ( val + 1 ) / 2 ;
else
return - ( val + 1 ) / 2 ;
}
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static int decode_cabac_p_mb_sub_type ( H264Context * h ) {
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if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 21 ] ) )
return 0 ; /* 8x8 */
if ( ! get_cabac ( & h - > cabac , & h - > cabac_state [ 22 ] ) )
return 1 ; /* 8x4 */
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 23 ] ) )
return 2 ; /* 4x8 */
return 3 ; /* 4x4 */
}
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static int decode_cabac_b_mb_sub_type ( H264Context * h ) {
int type ;
if ( ! get_cabac ( & h - > cabac , & h - > cabac_state [ 36 ] ) )
return 0 ; /* B_Direct_8x8 */
if ( ! get_cabac ( & h - > cabac , & h - > cabac_state [ 37 ] ) )
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return 1 + get_cabac ( & h - > cabac , & h - > cabac_state [ 39 ] ) ; /* B_L0_8x8, B_L1_8x8 */
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type = 3 ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 38 ] ) ) {
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 39 ] ) )
return 11 + get_cabac ( & h - > cabac , & h - > cabac_state [ 39 ] ) ; /* B_L1_4x4, B_Bi_4x4 */
type + = 4 ;
}
type + = 2 * get_cabac ( & h - > cabac , & h - > cabac_state [ 39 ] ) ;
type + = get_cabac ( & h - > cabac , & h - > cabac_state [ 39 ] ) ;
return type ;
}
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static int decode_cabac_mb_ref ( H264Context * h , int list , int n ) {
int refa = h - > ref_cache [ list ] [ scan8 [ n ] - 1 ] ;
int refb = h - > ref_cache [ list ] [ scan8 [ n ] - 8 ] ;
int ref = 0 ;
int ctx = 0 ;
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if ( h - > slice_type = = B_TYPE ) {
if ( refa > 0 & & ! h - > direct_cache [ scan8 [ n ] - 1 ] )
ctx + + ;
if ( refb > 0 & & ! h - > direct_cache [ scan8 [ n ] - 8 ] )
ctx + = 2 ;
} else {
if ( refa > 0 )
ctx + + ;
if ( refb > 0 )
ctx + = 2 ;
}
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while ( get_cabac ( & h - > cabac , & h - > cabac_state [ 54 + ctx ] ) ) {
ref + + ;
if ( ctx < 4 )
ctx = 4 ;
else
ctx = 5 ;
}
return ref ;
}
static int decode_cabac_mb_mvd ( H264Context * h , int list , int n , int l ) {
int amvd = abs ( h - > mvd_cache [ list ] [ scan8 [ n ] - 1 ] [ l ] ) +
abs ( h - > mvd_cache [ list ] [ scan8 [ n ] - 8 ] [ l ] ) ;
int ctxbase = ( l = = 0 ) ? 40 : 47 ;
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int ctx , mvd ;
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if ( amvd < 3 )
ctx = 0 ;
else if ( amvd > 32 )
ctx = 2 ;
else
ctx = 1 ;
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if ( ! get_cabac ( & h - > cabac , & h - > cabac_state [ ctxbase + ctx ] ) )
return 0 ;
mvd = 1 ;
ctx = 3 ;
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while ( mvd < 9 & & get_cabac ( & h - > cabac , & h - > cabac_state [ ctxbase + ctx ] ) ) {
mvd + + ;
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if ( ctx < 6 )
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ctx + + ;
}
if ( mvd > = 9 ) {
int k = 3 ;
while ( get_cabac_bypass ( & h - > cabac ) ) {
mvd + = 1 < < k ;
k + + ;
}
while ( k - - ) {
if ( get_cabac_bypass ( & h - > cabac ) )
mvd + = 1 < < k ;
}
}
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if ( get_cabac_bypass ( & h - > cabac ) ) return - mvd ;
else return mvd ;
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}
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static int inline get_cabac_cbf_ctx ( H264Context * h , int cat , int idx ) {
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int nza , nzb ;
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int ctx = 0 ;
if ( cat = = 0 ) {
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nza = h - > left_cbp & 0x100 ;
nzb = h - > top_cbp & 0x100 ;
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} else if ( cat = = 1 | | cat = = 2 ) {
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nza = h - > non_zero_count_cache [ scan8 [ idx ] - 1 ] ;
nzb = h - > non_zero_count_cache [ scan8 [ idx ] - 8 ] ;
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} else if ( cat = = 3 ) {
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nza = ( h - > left_cbp > > ( 6 + idx ) ) & 0x01 ;
nzb = ( h - > top_cbp > > ( 6 + idx ) ) & 0x01 ;
} else {
assert ( cat = = 4 ) ;
nza = h - > non_zero_count_cache [ scan8 [ 16 + idx ] - 1 ] ;
nzb = h - > non_zero_count_cache [ scan8 [ 16 + idx ] - 8 ] ;
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}
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if ( nza > 0 )
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ctx + + ;
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if ( nzb > 0 )
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ctx + = 2 ;
return ctx + 4 * cat ;
}
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static int inline decode_cabac_residual ( H264Context * h , DCTELEM * block , int cat , int n , const uint8_t * scantable , int qp , int max_coeff ) {
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const int mb_xy = h - > s . mb_x + h - > s . mb_y * h - > s . mb_stride ;
const uint16_t * qmul = dequant_coeff [ qp ] ;
static const int significant_coeff_flag_offset [ 5 ] = { 0 , 15 , 29 , 44 , 47 } ;
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static const int coeff_abs_level_m1_offset [ 5 ] = { 227 + 0 , 227 + 10 , 227 + 20 , 227 + 30 , 227 + 39 } ;
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int index [ 16 ] ;
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int i , last ;
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int coeff_count = 0 ;
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int abslevel1 = 1 ;
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int abslevelgt1 = 0 ;
/* cat: 0-> DC 16x16 n = 0
* 1 - > AC 16 x16 n = luma4x4idx
* 2 - > Luma4x4 n = luma4x4idx
* 3 - > DC Chroma n = iCbCr
* 4 - > AC Chroma n = 4 * iCbCr + chroma4x4idx
*/
/* read coded block flag */
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 85 + get_cabac_cbf_ctx ( h , cat , n ) ] ) = = 0 ) {
if ( cat = = 1 | | cat = = 2 )
h - > non_zero_count_cache [ scan8 [ n ] ] = 0 ;
else if ( cat = = 4 )
h - > non_zero_count_cache [ scan8 [ 16 + n ] ] = 0 ;
return 0 ;
}
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for ( last = 0 ; last < max_coeff - 1 ; last + + ) {
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 105 + significant_coeff_flag_offset [ cat ] + last ] ) ) {
index [ coeff_count + + ] = last ;
if ( get_cabac ( & h - > cabac , & h - > cabac_state [ 166 + significant_coeff_flag_offset [ cat ] + last ] ) ) {
last = max_coeff ;
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break ;
}
}
}
if ( last = = max_coeff - 1 ) {
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index [ coeff_count + + ] = last ;
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}
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assert ( coeff_count > 0 ) ;
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if ( cat = = 0 )
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h - > cbp_table [ mb_xy ] | = 0x100 ;
else if ( cat = = 1 | | cat = = 2 )
h - > non_zero_count_cache [ scan8 [ n ] ] = coeff_count ;
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else if ( cat = = 3 )
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h - > cbp_table [ mb_xy ] | = 0x40 < < n ;
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else {
assert ( cat = = 4 ) ;
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h - > non_zero_count_cache [ scan8 [ 16 + n ] ] = coeff_count ;
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}
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for ( i = coeff_count - 1 ; i > = 0 ; i - - ) {
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int ctx = ( abslevelgt1 ! = 0 ? 0 : FFMIN ( 4 , abslevel1 ) ) + coeff_abs_level_m1_offset [ cat ] ;
int j = scantable [ index [ i ] ] ;
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if ( get_cabac ( & h - > cabac , & h - > cabac_state [ ctx ] ) = = 0 ) {
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if ( cat = = 0 | | cat = = 3 ) {
if ( get_cabac_bypass ( & h - > cabac ) ) block [ j ] = - 1 ;
else block [ j ] = 1 ;
} else {
if ( get_cabac_bypass ( & h - > cabac ) ) block [ j ] = - qmul [ j ] ;
else block [ j ] = qmul [ j ] ;
}
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abslevel1 + + ;
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} else {
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int coeff_abs = 2 ;
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ctx = 5 + FFMIN ( 4 , abslevelgt1 ) + coeff_abs_level_m1_offset [ cat ] ;
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while ( coeff_abs < 15 & & get_cabac ( & h - > cabac , & h - > cabac_state [ ctx ] ) ) {
coeff_abs + + ;
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}
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if ( coeff_abs > = 15 ) {
int j = 0 ;
while ( get_cabac_bypass ( & h - > cabac ) ) {
coeff_abs + = 1 < < j ;
j + + ;
}
while ( j - - ) {
if ( get_cabac_bypass ( & h - > cabac ) )
coeff_abs + = 1 < < j ;
}
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}
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if ( cat = = 0 | | cat = = 3 ) {
if ( get_cabac_bypass ( & h - > cabac ) ) block [ j ] = - coeff_abs ;
else block [ j ] = coeff_abs ;
} else {
if ( get_cabac_bypass ( & h - > cabac ) ) block [ j ] = - coeff_abs * qmul [ j ] ;
else block [ j ] = coeff_abs * qmul [ j ] ;
}
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abslevelgt1 + + ;
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}
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}
return 0 ;
}
/**
* decodes a macroblock
* @ returns 0 if ok , AC_ERROR / DC_ERROR / MV_ERROR if an error is noticed
*/
static int decode_mb_cabac ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
int mb_type , partition_count , cbp = 0 ;
s - > dsp . clear_blocks ( h - > mb ) ; //FIXME avoid if allready clear (move after skip handlong?)
if ( h - > sps . mb_aff ) {
av_log ( h - > s . avctx , AV_LOG_ERROR , " Fields not supported with CABAC \n " ) ;
return - 1 ;
}
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tprintf ( " pic:%d mb:%d/%d \n " , h - > frame_num , s - > mb_x , s - > mb_y ) ;
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if ( h - > slice_type ! = I_TYPE & & h - > slice_type ! = SI_TYPE ) {
/* read skip flags */
if ( decode_cabac_mb_skip ( h ) ) {
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decode_mb_skip ( h ) ;
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h - > cbp_table [ mb_xy ] = 0 ;
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h - > chroma_pred_mode_table [ mb_xy ] = 0 ;
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h - > last_qscale_diff = 0 ;
return 0 ;
}
}
h - > prev_mb_skiped = 0 ;
if ( ( mb_type = decode_cabac_mb_type ( h ) ) < 0 ) {
av_log ( h - > s . avctx , AV_LOG_ERROR , " decode_cabac_mb_type failed \n " ) ;
return - 1 ;
}
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if ( h - > slice_type = = B_TYPE ) {
if ( mb_type < 23 ) {
partition_count = b_mb_type_info [ mb_type ] . partition_count ;
mb_type = b_mb_type_info [ mb_type ] . type ;
} else {
mb_type - = 23 ;
goto decode_intra_mb ;
}
} else if ( h - > slice_type = = P_TYPE ) {
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if ( mb_type < 5 ) {
partition_count = p_mb_type_info [ mb_type ] . partition_count ;
mb_type = p_mb_type_info [ mb_type ] . type ;
} else {
mb_type - = 5 ;
goto decode_intra_mb ;
}
} else {
assert ( h - > slice_type = = I_TYPE ) ;
decode_intra_mb :
partition_count = 0 ;
cbp = i_mb_type_info [ mb_type ] . cbp ;
h - > intra16x16_pred_mode = i_mb_type_info [ mb_type ] . pred_mode ;
mb_type = i_mb_type_info [ mb_type ] . type ;
}
#if 0
if ( h - > mb_field_decoding_flag )
mb_type | = MB_TYPE_INTERLACED ;
# endif
s - > current_picture . mb_type [ mb_xy ] = mb_type ;
h - > slice_table [ mb_xy ] = h - > slice_num ;
if ( IS_INTRA_PCM ( mb_type ) ) {
2005-02-07 01:10:28 +01:00
const uint8_t * ptr ;
unsigned int x , y ;
// We assume these blocks are very rare so we dont optimize it.
// FIXME The two following lines get the bitstream position in the cabac
// decode, I think it should be done by a function in cabac.h (or cabac.c).
ptr = h - > cabac . bytestream ;
if ( h - > cabac . low & 0x1 ) ptr - = CABAC_BITS / 8 ;
// The pixels are stored in the same order as levels in h->mb array.
for ( y = 0 ; y < 16 ; y + + ) {
const int index = 4 * ( y & 3 ) + 32 * ( ( y > > 2 ) & 1 ) + 128 * ( y > > 3 ) ;
for ( x = 0 ; x < 16 ; x + + ) {
tprintf ( " LUMA ICPM LEVEL (%3d) \n " , * ptr ) ;
h - > mb [ index + ( x & 3 ) + 16 * ( ( x > > 2 ) & 1 ) + 64 * ( x > > 3 ) ] = * ptr + + ;
}
}
for ( y = 0 ; y < 8 ; y + + ) {
const int index = 256 + 4 * ( y & 3 ) + 32 * ( y > > 2 ) ;
for ( x = 0 ; x < 8 ; x + + ) {
tprintf ( " CHROMA U ICPM LEVEL (%3d) \n " , * ptr ) ;
h - > mb [ index + ( x & 3 ) + 16 * ( x > > 2 ) ] = * ptr + + ;
}
}
for ( y = 0 ; y < 8 ; y + + ) {
const int index = 256 + 64 + 4 * ( y & 3 ) + 32 * ( y > > 2 ) ;
for ( x = 0 ; x < 8 ; x + + ) {
tprintf ( " CHROMA V ICPM LEVEL (%3d) \n " , * ptr ) ;
h - > mb [ index + ( x & 3 ) + 16 * ( x > > 2 ) ] = * ptr + + ;
}
}
ff_init_cabac_decoder ( & h - > cabac , ptr , h - > cabac . bytestream_end - ptr ) ;
// All blocks are presents
h - > cbp_table [ mb_xy ] = 0x1ef ;
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h - > chroma_pred_mode_table [ mb_xy ] = 0 ;
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// In deblocking, the quantiser is 0
s - > current_picture . qscale_table [ mb_xy ] = 0 ;
h - > chroma_qp = get_chroma_qp ( h , 0 ) ;
// All coeffs are presents
memset ( h - > non_zero_count [ mb_xy ] , 16 , 16 ) ;
return 0 ;
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}
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fill_caches ( h , mb_type , 0 ) ;
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if ( IS_INTRA ( mb_type ) ) {
if ( IS_INTRA4x4 ( mb_type ) ) {
int i ;
for ( i = 0 ; i < 16 ; i + + ) {
int pred = pred_intra_mode ( h , i ) ;
h - > intra4x4_pred_mode_cache [ scan8 [ i ] ] = decode_cabac_mb_intra4x4_pred_mode ( h , pred ) ;
//av_log( s->avctx, AV_LOG_ERROR, "i4x4 pred=%d mode=%d\n", pred, h->intra4x4_pred_mode_cache[ scan8[i] ] );
}
write_back_intra_pred_mode ( h ) ;
if ( check_intra4x4_pred_mode ( h ) < 0 ) return - 1 ;
} else {
h - > intra16x16_pred_mode = check_intra_pred_mode ( h , h - > intra16x16_pred_mode ) ;
if ( h - > intra16x16_pred_mode < 0 ) return - 1 ;
}
h - > chroma_pred_mode_table [ mb_xy ] =
h - > chroma_pred_mode = decode_cabac_mb_chroma_pre_mode ( h ) ;
h - > chroma_pred_mode = check_intra_pred_mode ( h , h - > chroma_pred_mode ) ;
if ( h - > chroma_pred_mode < 0 ) return - 1 ;
} else if ( partition_count = = 4 ) {
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int i , j , sub_partition_count [ 4 ] , list , ref [ 2 ] [ 4 ] ;
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if ( h - > slice_type = = B_TYPE ) {
for ( i = 0 ; i < 4 ; i + + ) {
h - > sub_mb_type [ i ] = decode_cabac_b_mb_sub_type ( h ) ;
sub_partition_count [ i ] = b_sub_mb_type_info [ h - > sub_mb_type [ i ] ] . partition_count ;
h - > sub_mb_type [ i ] = b_sub_mb_type_info [ h - > sub_mb_type [ i ] ] . type ;
}
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if ( IS_DIRECT ( h - > sub_mb_type [ 0 ] ) | | IS_DIRECT ( h - > sub_mb_type [ 1 ] )
| | IS_DIRECT ( h - > sub_mb_type [ 2 ] ) | | IS_DIRECT ( h - > sub_mb_type [ 3 ] ) ) {
pred_direct_motion ( h , & mb_type ) ;
if ( h - > ref_count [ 0 ] > 1 | | h - > ref_count [ 1 ] > 1 ) {
for ( i = 0 ; i < 4 ; i + + )
if ( IS_DIRECT ( h - > sub_mb_type [ i ] ) )
fill_rectangle ( & h - > direct_cache [ scan8 [ 4 * i ] ] , 2 , 2 , 8 , 1 , 1 ) ;
}
}
2004-10-22 20:30:50 +02:00
} else {
for ( i = 0 ; i < 4 ; i + + ) {
h - > sub_mb_type [ i ] = decode_cabac_p_mb_sub_type ( h ) ;
sub_partition_count [ i ] = p_sub_mb_type_info [ h - > sub_mb_type [ i ] ] . partition_count ;
h - > sub_mb_type [ i ] = p_sub_mb_type_info [ h - > sub_mb_type [ i ] ] . type ;
}
2004-04-11 18:28:31 +02:00
}
for ( list = 0 ; list < 2 ; list + + ) {
if ( h - > ref_count [ list ] > 0 ) {
for ( i = 0 ; i < 4 ; i + + ) {
2004-12-29 05:17:52 +01:00
if ( IS_DIRECT ( h - > sub_mb_type [ i ] ) ) continue ;
if ( IS_DIR ( h - > sub_mb_type [ i ] , 0 , list ) ) {
2004-04-11 18:28:31 +02:00
if ( h - > ref_count [ list ] > 1 )
ref [ list ] [ i ] = decode_cabac_mb_ref ( h , list , 4 * i ) ;
else
ref [ list ] [ i ] = 0 ;
} else {
ref [ list ] [ i ] = - 1 ;
}
2004-07-01 00:39:01 +02:00
h - > ref_cache [ list ] [ scan8 [ 4 * i ] + 1 ] =
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h - > ref_cache [ list ] [ scan8 [ 4 * i ] + 8 ] = h - > ref_cache [ list ] [ scan8 [ 4 * i ] + 9 ] = ref [ list ] [ i ] ;
}
}
}
for ( list = 0 ; list < 2 ; list + + ) {
for ( i = 0 ; i < 4 ; i + + ) {
2004-12-29 05:17:52 +01:00
if ( IS_DIRECT ( h - > sub_mb_type [ i ] ) ) {
fill_rectangle ( h - > mvd_cache [ list ] [ scan8 [ 4 * i ] ] , 2 , 2 , 8 , 0 , 4 ) ;
continue ;
}
2004-07-01 00:39:01 +02:00
h - > ref_cache [ list ] [ scan8 [ 4 * i ] ] = h - > ref_cache [ list ] [ scan8 [ 4 * i ] + 1 ] ;
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if ( IS_DIR ( h - > sub_mb_type [ i ] , 0 , list ) & & ! IS_DIRECT ( h - > sub_mb_type [ i ] ) ) {
const int sub_mb_type = h - > sub_mb_type [ i ] ;
const int block_width = ( sub_mb_type & ( MB_TYPE_16x16 | MB_TYPE_16x8 ) ) ? 2 : 1 ;
for ( j = 0 ; j < sub_partition_count [ i ] ; j + + ) {
int mpx , mpy ;
int mx , my ;
const int index = 4 * i + block_width * j ;
int16_t ( * mv_cache ) [ 2 ] = & h - > mv_cache [ list ] [ scan8 [ index ] ] ;
int16_t ( * mvd_cache ) [ 2 ] = & h - > mvd_cache [ list ] [ scan8 [ index ] ] ;
pred_motion ( h , index , block_width , list , h - > ref_cache [ list ] [ scan8 [ index ] ] , & mpx , & mpy ) ;
mx = mpx + decode_cabac_mb_mvd ( h , list , index , 0 ) ;
my = mpy + decode_cabac_mb_mvd ( h , list , index , 1 ) ;
tprintf ( " final mv:%d %d \n " , mx , my ) ;
if ( IS_SUB_8X8 ( sub_mb_type ) ) {
mv_cache [ 0 ] [ 0 ] = mv_cache [ 1 ] [ 0 ] =
mv_cache [ 8 ] [ 0 ] = mv_cache [ 9 ] [ 0 ] = mx ;
mv_cache [ 0 ] [ 1 ] = mv_cache [ 1 ] [ 1 ] =
mv_cache [ 8 ] [ 1 ] = mv_cache [ 9 ] [ 1 ] = my ;
mvd_cache [ 0 ] [ 0 ] = mvd_cache [ 1 ] [ 0 ] =
mvd_cache [ 8 ] [ 0 ] = mvd_cache [ 9 ] [ 0 ] = mx - mpx ;
mvd_cache [ 0 ] [ 1 ] = mvd_cache [ 1 ] [ 1 ] =
mvd_cache [ 8 ] [ 1 ] = mvd_cache [ 9 ] [ 1 ] = my - mpy ;
} else if ( IS_SUB_8X4 ( sub_mb_type ) ) {
mv_cache [ 0 ] [ 0 ] = mv_cache [ 1 ] [ 0 ] = mx ;
mv_cache [ 0 ] [ 1 ] = mv_cache [ 1 ] [ 1 ] = my ;
mvd_cache [ 0 ] [ 0 ] = mvd_cache [ 1 ] [ 0 ] = mx - mpx ;
mvd_cache [ 0 ] [ 1 ] = mvd_cache [ 1 ] [ 1 ] = my - mpy ;
} else if ( IS_SUB_4X8 ( sub_mb_type ) ) {
mv_cache [ 0 ] [ 0 ] = mv_cache [ 8 ] [ 0 ] = mx ;
mv_cache [ 0 ] [ 1 ] = mv_cache [ 8 ] [ 1 ] = my ;
mvd_cache [ 0 ] [ 0 ] = mvd_cache [ 8 ] [ 0 ] = mx - mpx ;
mvd_cache [ 0 ] [ 1 ] = mvd_cache [ 8 ] [ 1 ] = my - mpy ;
} else {
assert ( IS_SUB_4X4 ( sub_mb_type ) ) ;
mv_cache [ 0 ] [ 0 ] = mx ;
mv_cache [ 0 ] [ 1 ] = my ;
mvd_cache [ 0 ] [ 0 ] = mx - mpx ;
mvd_cache [ 0 ] [ 1 ] = my - mpy ;
}
}
} else {
uint32_t * p = ( uint32_t * ) & h - > mv_cache [ list ] [ scan8 [ 4 * i ] ] [ 0 ] ;
uint32_t * pd = ( uint32_t * ) & h - > mvd_cache [ list ] [ scan8 [ 4 * i ] ] [ 0 ] ;
p [ 0 ] = p [ 1 ] = p [ 8 ] = p [ 9 ] = 0 ;
pd [ 0 ] = pd [ 1 ] = pd [ 8 ] = pd [ 9 ] = 0 ;
}
}
}
2004-12-29 05:17:52 +01:00
} else if ( IS_DIRECT ( mb_type ) ) {
pred_direct_motion ( h , & mb_type ) ;
s - > current_picture . mb_type [ mb_xy ] = mb_type ;
fill_rectangle ( h - > mvd_cache [ 0 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
fill_rectangle ( h - > mvd_cache [ 1 ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 4 ) ;
} else {
2004-04-11 18:28:31 +02:00
int list , mx , my , i , mpx , mpy ;
if ( IS_16X16 ( mb_type ) ) {
for ( list = 0 ; list < 2 ; list + + ) {
if ( IS_DIR ( mb_type , 0 , list ) ) {
if ( h - > ref_count [ list ] > 0 ) {
const int ref = h - > ref_count [ list ] > 1 ? decode_cabac_mb_ref ( h , list , 0 ) : 0 ;
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , ref , 1 ) ;
}
}
}
for ( list = 0 ; list < 2 ; list + + ) {
if ( IS_DIR ( mb_type , 0 , list ) ) {
pred_motion ( h , 0 , 4 , list , h - > ref_cache [ list ] [ scan8 [ 0 ] ] , & mpx , & mpy ) ;
mx = mpx + decode_cabac_mb_mvd ( h , list , 0 , 0 ) ;
my = mpy + decode_cabac_mb_mvd ( h , list , 0 , 1 ) ;
tprintf ( " final mv:%d %d \n " , mx , my ) ;
fill_rectangle ( h - > mvd_cache [ list ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mx - mpx , my - mpy ) , 4 ) ;
fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] ] , 4 , 4 , 8 , pack16to32 ( mx , my ) , 4 ) ;
}
}
}
else if ( IS_16X8 ( mb_type ) ) {
for ( list = 0 ; list < 2 ; list + + ) {
if ( h - > ref_count [ list ] > 0 ) {
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_DIR ( mb_type , i , list ) ) {
const int ref = h - > ref_count [ list ] > 1 ? decode_cabac_mb_ref ( h , list , 8 * i ) : 0 ;
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , ref , 1 ) ;
2004-12-29 05:17:52 +01:00
} else
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , ( LIST_NOT_USED & 0xFF ) , 1 ) ;
2004-04-11 18:28:31 +02:00
}
}
}
for ( list = 0 ; list < 2 ; list + + ) {
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_DIR ( mb_type , i , list ) ) {
pred_16x8_motion ( h , 8 * i , list , h - > ref_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , & mpx , & mpy ) ;
mx = mpx + decode_cabac_mb_mvd ( h , list , 8 * i , 0 ) ;
my = mpy + decode_cabac_mb_mvd ( h , list , 8 * i , 1 ) ;
tprintf ( " final mv:%d %d \n " , mx , my ) ;
fill_rectangle ( h - > mvd_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , pack16to32 ( mx - mpx , my - mpy ) , 4 ) ;
fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , pack16to32 ( mx , my ) , 4 ) ;
2004-12-29 05:17:52 +01:00
} else { // needed only for mixed refs
fill_rectangle ( h - > mvd_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , 0 , 4 ) ;
fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 16 * i ] , 4 , 2 , 8 , 0 , 4 ) ;
2004-04-11 18:28:31 +02:00
}
}
}
} else {
assert ( IS_8X16 ( mb_type ) ) ;
for ( list = 0 ; list < 2 ; list + + ) {
if ( h - > ref_count [ list ] > 0 ) {
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_DIR ( mb_type , i , list ) ) { //FIXME optimize
const int ref = h - > ref_count [ list ] > 1 ? decode_cabac_mb_ref ( h , list , 4 * i ) : 0 ;
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , ref , 1 ) ;
2004-12-29 05:17:52 +01:00
} else
fill_rectangle ( & h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , ( LIST_NOT_USED & 0xFF ) , 1 ) ;
2004-04-11 18:28:31 +02:00
}
}
}
for ( list = 0 ; list < 2 ; list + + ) {
for ( i = 0 ; i < 2 ; i + + ) {
if ( IS_DIR ( mb_type , i , list ) ) {
pred_8x16_motion ( h , i * 4 , list , h - > ref_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , & mpx , & mpy ) ;
mx = mpx + decode_cabac_mb_mvd ( h , list , 4 * i , 0 ) ;
my = mpy + decode_cabac_mb_mvd ( h , list , 4 * i , 1 ) ;
tprintf ( " final mv:%d %d \n " , mx , my ) ;
fill_rectangle ( h - > mvd_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , pack16to32 ( mx - mpx , my - mpy ) , 4 ) ;
fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , pack16to32 ( mx , my ) , 4 ) ;
2004-12-29 05:17:52 +01:00
} else { // needed only for mixed refs
fill_rectangle ( h - > mvd_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , 0 , 4 ) ;
fill_rectangle ( h - > mv_cache [ list ] [ scan8 [ 0 ] + 2 * i ] , 2 , 4 , 8 , 0 , 4 ) ;
2004-04-11 18:28:31 +02:00
}
}
}
}
2004-03-26 20:35:53 +01:00
}
2004-04-23 21:36:52 +02:00
if ( IS_INTER ( mb_type ) ) {
h - > chroma_pred_mode_table [ mb_xy ] = 0 ;
2004-03-26 20:35:53 +01:00
write_back_motion ( h , mb_type ) ;
2004-04-23 21:36:52 +02:00
}
2004-03-26 20:35:53 +01:00
if ( ! IS_INTRA16x16 ( mb_type ) ) {
cbp = decode_cabac_mb_cbp_luma ( h ) ;
cbp | = decode_cabac_mb_cbp_chroma ( h ) < < 4 ;
}
h - > cbp_table [ mb_xy ] = cbp ;
if ( cbp | | IS_INTRA16x16 ( mb_type ) ) {
const uint8_t * scan , * dc_scan ;
int dqp ;
if ( IS_INTERLACED ( mb_type ) ) {
scan = field_scan ;
dc_scan = luma_dc_field_scan ;
} else {
scan = zigzag_scan ;
dc_scan = luma_dc_zigzag_scan ;
}
h - > last_qscale_diff = dqp = decode_cabac_mb_dqp ( h ) ;
s - > qscale + = dqp ;
if ( ( ( unsigned ) s - > qscale ) > 51 ) {
if ( s - > qscale < 0 ) s - > qscale + = 52 ;
else s - > qscale - = 52 ;
}
h - > chroma_qp = get_chroma_qp ( h , s - > qscale ) ;
if ( IS_INTRA16x16 ( mb_type ) ) {
int i ;
//av_log( s->avctx, AV_LOG_ERROR, "INTRA16x16 DC\n" );
if ( decode_cabac_residual ( h , h - > mb , 0 , 0 , dc_scan , s - > qscale , 16 ) < 0 )
return - 1 ;
if ( cbp & 15 ) {
for ( i = 0 ; i < 16 ; i + + ) {
//av_log( s->avctx, AV_LOG_ERROR, "INTRA16x16 AC:%d\n", i );
if ( decode_cabac_residual ( h , h - > mb + 16 * i , 1 , i , scan + 1 , s - > qscale , 15 ) < 0 )
return - 1 ;
}
} else {
fill_rectangle ( & h - > non_zero_count_cache [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 1 ) ;
}
} else {
int i8x8 , i4x4 ;
for ( i8x8 = 0 ; i8x8 < 4 ; i8x8 + + ) {
if ( cbp & ( 1 < < i8x8 ) ) {
for ( i4x4 = 0 ; i4x4 < 4 ; i4x4 + + ) {
const int index = 4 * i8x8 + i4x4 ;
//av_log( s->avctx, AV_LOG_ERROR, "Luma4x4: %d\n", index );
if ( decode_cabac_residual ( h , h - > mb + 16 * index , 2 , index , scan , s - > qscale , 16 ) < 0 )
return - 1 ;
}
} else {
uint8_t * const nnz = & h - > non_zero_count_cache [ scan8 [ 4 * i8x8 ] ] ;
nnz [ 0 ] = nnz [ 1 ] = nnz [ 8 ] = nnz [ 9 ] = 0 ;
}
}
}
if ( cbp & 0x30 ) {
int c ;
for ( c = 0 ; c < 2 ; c + + ) {
//av_log( s->avctx, AV_LOG_ERROR, "INTRA C%d-DC\n",c );
if ( decode_cabac_residual ( h , h - > mb + 256 + 16 * 4 * c , 3 , c , chroma_dc_scan , h - > chroma_qp , 4 ) < 0 )
return - 1 ;
}
}
if ( cbp & 0x20 ) {
int c , i ;
for ( c = 0 ; c < 2 ; c + + ) {
for ( i = 0 ; i < 4 ; i + + ) {
const int index = 16 + 4 * c + i ;
//av_log( s->avctx, AV_LOG_ERROR, "INTRA C%d-AC %d\n",c, index - 16 );
if ( decode_cabac_residual ( h , h - > mb + 16 * index , 4 , index - 16 , scan + 1 , h - > chroma_qp , 15 ) < 0 )
return - 1 ;
}
}
} else {
uint8_t * const nnz = & h - > non_zero_count_cache [ 0 ] ;
nnz [ scan8 [ 16 ] + 0 ] = nnz [ scan8 [ 16 ] + 1 ] = nnz [ scan8 [ 16 ] + 8 ] = nnz [ scan8 [ 16 ] + 9 ] =
nnz [ scan8 [ 20 ] + 0 ] = nnz [ scan8 [ 20 ] + 1 ] = nnz [ scan8 [ 20 ] + 8 ] = nnz [ scan8 [ 20 ] + 9 ] = 0 ;
}
} else {
2004-10-23 23:13:31 +02:00
uint8_t * const nnz = & h - > non_zero_count_cache [ 0 ] ;
fill_rectangle ( & nnz [ scan8 [ 0 ] ] , 4 , 4 , 8 , 0 , 1 ) ;
nnz [ scan8 [ 16 ] + 0 ] = nnz [ scan8 [ 16 ] + 1 ] = nnz [ scan8 [ 16 ] + 8 ] = nnz [ scan8 [ 16 ] + 9 ] =
nnz [ scan8 [ 20 ] + 0 ] = nnz [ scan8 [ 20 ] + 1 ] = nnz [ scan8 [ 20 ] + 8 ] = nnz [ scan8 [ 20 ] + 9 ] = 0 ;
2004-03-26 20:35:53 +01:00
}
s - > current_picture . qscale_table [ mb_xy ] = s - > qscale ;
write_back_non_zero_count ( h ) ;
return 0 ;
}
2004-03-19 22:21:17 +01:00
static void filter_mb_edgev ( H264Context * h , uint8_t * pix , int stride , int bS [ 4 ] , int qp ) {
int i , d ;
const int index_a = clip ( qp + h - > slice_alpha_c0_offset , 0 , 51 ) ;
const int alpha = alpha_table [ index_a ] ;
const int beta = beta_table [ clip ( qp + h - > slice_beta_offset , 0 , 51 ) ] ;
for ( i = 0 ; i < 4 ; i + + ) {
if ( bS [ i ] = = 0 ) {
pix + = 4 * stride ;
continue ;
}
2004-03-20 01:18:52 +01:00
if ( bS [ i ] < 4 ) {
const int tc0 = tc0_table [ index_a ] [ bS [ i ] - 1 ] ;
/* 4px edge length */
for ( d = 0 ; d < 4 ; d + + ) {
const int p0 = pix [ - 1 ] ;
const int p1 = pix [ - 2 ] ;
const int p2 = pix [ - 3 ] ;
const int q0 = pix [ 0 ] ;
const int q1 = pix [ 1 ] ;
const int q2 = pix [ 2 ] ;
if ( ABS ( p0 - q0 ) < alpha & &
ABS ( p1 - p0 ) < beta & &
ABS ( q1 - q0 ) < beta ) {
int tc = tc0 ;
int i_delta ;
if ( ABS ( p2 - p0 ) < beta ) {
pix [ - 2 ] = p1 + clip ( ( p2 + ( ( p0 + q0 + 1 ) > > 1 ) - ( p1 < < 1 ) ) > > 1 , - tc0 , tc0 ) ;
tc + + ;
}
if ( ABS ( q2 - q0 ) < beta ) {
pix [ 1 ] = q1 + clip ( ( q2 + ( ( p0 + q0 + 1 ) > > 1 ) - ( q1 < < 1 ) ) > > 1 , - tc0 , tc0 ) ;
tc + + ;
}
2004-03-19 22:21:17 +01:00
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i_delta = clip ( ( ( ( q0 - p0 ) < < 2 ) + ( p1 - q1 ) + 4 ) > > 3 , - tc , tc ) ;
pix [ - 1 ] = clip_uint8 ( p0 + i_delta ) ; /* p0' */
pix [ 0 ] = clip_uint8 ( q0 - i_delta ) ; /* q0' */
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}
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pix + = stride ;
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}
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} else {
/* 4px edge length */
for ( d = 0 ; d < 4 ; d + + ) {
const int p0 = pix [ - 1 ] ;
const int p1 = pix [ - 2 ] ;
const int p2 = pix [ - 3 ] ;
const int q0 = pix [ 0 ] ;
const int q1 = pix [ 1 ] ;
const int q2 = pix [ 2 ] ;
if ( ABS ( p0 - q0 ) < alpha & &
ABS ( p1 - p0 ) < beta & &
ABS ( q1 - q0 ) < beta ) {
if ( ABS ( p0 - q0 ) < ( ( alpha > > 2 ) + 2 ) ) {
if ( ABS ( p2 - p0 ) < beta )
{
const int p3 = pix [ - 4 ] ;
/* p0', p1', p2' */
pix [ - 1 ] = ( p2 + 2 * p1 + 2 * p0 + 2 * q0 + q1 + 4 ) > > 3 ;
pix [ - 2 ] = ( p2 + p1 + p0 + q0 + 2 ) > > 2 ;
pix [ - 3 ] = ( 2 * p3 + 3 * p2 + p1 + p0 + q0 + 4 ) > > 3 ;
} else {
/* p0' */
pix [ - 1 ] = ( 2 * p1 + p0 + q1 + 2 ) > > 2 ;
}
if ( ABS ( q2 - q0 ) < beta )
{
const int q3 = pix [ 3 ] ;
/* q0', q1', q2' */
pix [ 0 ] = ( p1 + 2 * p0 + 2 * q0 + 2 * q1 + q2 + 4 ) > > 3 ;
pix [ 1 ] = ( p0 + q0 + q1 + q2 + 2 ) > > 2 ;
pix [ 2 ] = ( 2 * q3 + 3 * q2 + q1 + q0 + p0 + 4 ) > > 3 ;
} else {
/* q0' */
pix [ 0 ] = ( 2 * q1 + q0 + p1 + 2 ) > > 2 ;
}
} else {
/* p0', q0' */
pix [ - 1 ] = ( 2 * p1 + p0 + q1 + 2 ) > > 2 ;
pix [ 0 ] = ( 2 * q1 + q0 + p1 + 2 ) > > 2 ;
}
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}
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pix + = stride ;
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}
}
}
}
static void filter_mb_edgecv ( H264Context * h , uint8_t * pix , int stride , int bS [ 4 ] , int qp ) {
int i , d ;
const int index_a = clip ( qp + h - > slice_alpha_c0_offset , 0 , 51 ) ;
const int alpha = alpha_table [ index_a ] ;
const int beta = beta_table [ clip ( qp + h - > slice_beta_offset , 0 , 51 ) ] ;
for ( i = 0 ; i < 4 ; i + + ) {
if ( bS [ i ] = = 0 ) {
pix + = 2 * stride ;
continue ;
}
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if ( bS [ i ] < 4 ) {
const int tc = tc0_table [ index_a ] [ bS [ i ] - 1 ] + 1 ;
/* 2px edge length (because we use same bS than the one for luma) */
for ( d = 0 ; d < 2 ; d + + ) {
const int p0 = pix [ - 1 ] ;
const int p1 = pix [ - 2 ] ;
const int q0 = pix [ 0 ] ;
const int q1 = pix [ 1 ] ;
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if ( ABS ( p0 - q0 ) < alpha & &
ABS ( p1 - p0 ) < beta & &
ABS ( q1 - q0 ) < beta ) {
const int i_delta = clip ( ( ( ( q0 - p0 ) < < 2 ) + ( p1 - q1 ) + 4 ) > > 3 , - tc , tc ) ;
pix [ - 1 ] = clip_uint8 ( p0 + i_delta ) ; /* p0' */
pix [ 0 ] = clip_uint8 ( q0 - i_delta ) ; /* q0' */
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//tprintf("filter_mb_edgecv i:%d d:%d, qp:%d, indexA:%d, alpha:%d, beta:%d, tc:%d\n# bS:%d -> [%02x, %02x, %02x, %02x, %02x, %02x] =>[%02x, %02x, %02x, %02x]\n", i, d, qp, index_a, alpha, beta, tc, bS[i], pix[-3], p1, p0, q0, q1, pix[2], p1, pix[-1], pix[0], q1);
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}
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pix + = stride ;
}
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} else {
/* 2px edge length (because we use same bS than the one for luma) */
for ( d = 0 ; d < 2 ; d + + ) {
const int p0 = pix [ - 1 ] ;
const int p1 = pix [ - 2 ] ;
const int q0 = pix [ 0 ] ;
const int q1 = pix [ 1 ] ;
if ( ABS ( p0 - q0 ) < alpha & &
ABS ( p1 - p0 ) < beta & &
ABS ( q1 - q0 ) < beta ) {
pix [ - 1 ] = ( 2 * p1 + p0 + q1 + 2 ) > > 2 ; /* p0' */
pix [ 0 ] = ( 2 * q1 + q0 + p1 + 2 ) > > 2 ; /* q0' */
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//tprintf("filter_mb_edgecv i:%d d:%d\n# bS:4 -> [%02x, %02x, %02x, %02x, %02x, %02x] =>[%02x, %02x, %02x, %02x]\n", i, d, pix[-3], p1, p0, q0, q1, pix[2], p1, pix[-1], pix[0], q1);
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}
pix + = stride ;
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}
}
}
}
static void filter_mb_edgeh ( H264Context * h , uint8_t * pix , int stride , int bS [ 4 ] , int qp ) {
int i , d ;
const int index_a = clip ( qp + h - > slice_alpha_c0_offset , 0 , 51 ) ;
const int alpha = alpha_table [ index_a ] ;
const int beta = beta_table [ clip ( qp + h - > slice_beta_offset , 0 , 51 ) ] ;
const int pix_next = stride ;
for ( i = 0 ; i < 4 ; i + + ) {
if ( bS [ i ] = = 0 ) {
pix + = 4 ;
continue ;
}
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if ( bS [ i ] < 4 ) {
const int tc0 = tc0_table [ index_a ] [ bS [ i ] - 1 ] ;
/* 4px edge length */
for ( d = 0 ; d < 4 ; d + + ) {
const int p0 = pix [ - 1 * pix_next ] ;
const int p1 = pix [ - 2 * pix_next ] ;
const int p2 = pix [ - 3 * pix_next ] ;
const int q0 = pix [ 0 ] ;
const int q1 = pix [ 1 * pix_next ] ;
const int q2 = pix [ 2 * pix_next ] ;
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if ( ABS ( p0 - q0 ) < alpha & &
ABS ( p1 - p0 ) < beta & &
ABS ( q1 - q0 ) < beta ) {
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int tc = tc0 ;
int i_delta ;
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if ( ABS ( p2 - p0 ) < beta ) {
pix [ - 2 * pix_next ] = p1 + clip ( ( p2 + ( ( p0 + q0 + 1 ) > > 1 ) - ( p1 < < 1 ) ) > > 1 , - tc0 , tc0 ) ;
tc + + ;
}
if ( ABS ( q2 - q0 ) < beta ) {
pix [ pix_next ] = q1 + clip ( ( q2 + ( ( p0 + q0 + 1 ) > > 1 ) - ( q1 < < 1 ) ) > > 1 , - tc0 , tc0 ) ;
tc + + ;
}
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i_delta = clip ( ( ( ( q0 - p0 ) < < 2 ) + ( p1 - q1 ) + 4 ) > > 3 , - tc , tc ) ;
pix [ - pix_next ] = clip_uint8 ( p0 + i_delta ) ; /* p0' */
pix [ 0 ] = clip_uint8 ( q0 - i_delta ) ; /* q0' */
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}
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pix + + ;
}
} else {
/* 4px edge length */
for ( d = 0 ; d < 4 ; d + + ) {
const int p0 = pix [ - 1 * pix_next ] ;
const int p1 = pix [ - 2 * pix_next ] ;
const int p2 = pix [ - 3 * pix_next ] ;
const int q0 = pix [ 0 ] ;
const int q1 = pix [ 1 * pix_next ] ;
const int q2 = pix [ 2 * pix_next ] ;
if ( ABS ( p0 - q0 ) < alpha & &
ABS ( p1 - p0 ) < beta & &
ABS ( q1 - q0 ) < beta ) {
const int p3 = pix [ - 4 * pix_next ] ;
const int q3 = pix [ 3 * pix_next ] ;
if ( ABS ( p0 - q0 ) < ( ( alpha > > 2 ) + 2 ) ) {
if ( ABS ( p2 - p0 ) < beta ) {
/* p0', p1', p2' */
pix [ - 1 * pix_next ] = ( p2 + 2 * p1 + 2 * p0 + 2 * q0 + q1 + 4 ) > > 3 ;
pix [ - 2 * pix_next ] = ( p2 + p1 + p0 + q0 + 2 ) > > 2 ;
pix [ - 3 * pix_next ] = ( 2 * p3 + 3 * p2 + p1 + p0 + q0 + 4 ) > > 3 ;
} else {
/* p0' */
pix [ - 1 * pix_next ] = ( 2 * p1 + p0 + q1 + 2 ) > > 2 ;
}
if ( ABS ( q2 - q0 ) < beta ) {
/* q0', q1', q2' */
pix [ 0 * pix_next ] = ( p1 + 2 * p0 + 2 * q0 + 2 * q1 + q2 + 4 ) > > 3 ;
pix [ 1 * pix_next ] = ( p0 + q0 + q1 + q2 + 2 ) > > 2 ;
pix [ 2 * pix_next ] = ( 2 * q3 + 3 * q2 + q1 + q0 + p0 + 4 ) > > 3 ;
} else {
/* q0' */
pix [ 0 * pix_next ] = ( 2 * q1 + q0 + p1 + 2 ) > > 2 ;
}
} else {
/* p0', q0' */
pix [ - 1 * pix_next ] = ( 2 * p1 + p0 + q1 + 2 ) > > 2 ;
pix [ 0 * pix_next ] = ( 2 * q1 + q0 + p1 + 2 ) > > 2 ;
}
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}
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pix + + ;
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}
}
}
}
static void filter_mb_edgech ( H264Context * h , uint8_t * pix , int stride , int bS [ 4 ] , int qp ) {
int i , d ;
const int index_a = clip ( qp + h - > slice_alpha_c0_offset , 0 , 51 ) ;
const int alpha = alpha_table [ index_a ] ;
const int beta = beta_table [ clip ( qp + h - > slice_beta_offset , 0 , 51 ) ] ;
const int pix_next = stride ;
for ( i = 0 ; i < 4 ; i + + )
{
if ( bS [ i ] = = 0 ) {
pix + = 2 ;
continue ;
}
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if ( bS [ i ] < 4 ) {
int tc = tc0_table [ index_a ] [ bS [ i ] - 1 ] + 1 ;
/* 2px edge length (see deblocking_filter_edgecv) */
for ( d = 0 ; d < 2 ; d + + ) {
const int p0 = pix [ - 1 * pix_next ] ;
const int p1 = pix [ - 2 * pix_next ] ;
const int q0 = pix [ 0 ] ;
const int q1 = pix [ 1 * pix_next ] ;
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if ( ABS ( p0 - q0 ) < alpha & &
ABS ( p1 - p0 ) < beta & &
ABS ( q1 - q0 ) < beta ) {
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int i_delta = clip ( ( ( ( q0 - p0 ) < < 2 ) + ( p1 - q1 ) + 4 ) > > 3 , - tc , tc ) ;
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pix [ - pix_next ] = clip_uint8 ( p0 + i_delta ) ; /* p0' */
pix [ 0 ] = clip_uint8 ( q0 - i_delta ) ; /* q0' */
}
pix + + ;
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}
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} else {
/* 2px edge length (see deblocking_filter_edgecv) */
for ( d = 0 ; d < 2 ; d + + ) {
const int p0 = pix [ - 1 * pix_next ] ;
const int p1 = pix [ - 2 * pix_next ] ;
const int q0 = pix [ 0 ] ;
const int q1 = pix [ 1 * pix_next ] ;
if ( ABS ( p0 - q0 ) < alpha & &
ABS ( p1 - p0 ) < beta & &
ABS ( q1 - q0 ) < beta ) {
pix [ - pix_next ] = ( 2 * p1 + p0 + q1 + 2 ) > > 2 ; /* p0' */
pix [ 0 ] = ( 2 * q1 + q0 + p1 + 2 ) > > 2 ; /* q0' */
}
pix + + ;
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}
}
}
}
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static void filter_mb ( H264Context * h , int mb_x , int mb_y , uint8_t * img_y , uint8_t * img_cb , uint8_t * img_cr ) {
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MpegEncContext * const s = & h - > s ;
const int mb_xy = mb_x + mb_y * s - > mb_stride ;
int linesize , uvlinesize ;
int dir ;
/* FIXME Implement deblocking filter for field MB */
if ( h - > sps . mb_aff ) {
return ;
}
linesize = s - > linesize ;
uvlinesize = s - > uvlinesize ;
/* dir : 0 -> vertical edge, 1 -> horizontal edge */
for ( dir = 0 ; dir < 2 ; dir + + )
{
int edge ;
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const int mbm_xy = dir = = 0 ? mb_xy - 1 : mb_xy - s - > mb_stride ;
int start = h - > slice_table [ mbm_xy ] = = 255 ? 1 : 0 ;
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if ( h - > deblocking_filter = = 2 & & h - > slice_table [ mbm_xy ] ! = h - > slice_table [ mb_xy ] )
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start = 1 ;
/* Calculate bS */
for ( edge = start ; edge < 4 ; edge + + ) {
/* mbn_xy: neighbour macroblock (how that works for field ?) */
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int mbn_xy = edge > 0 ? mb_xy : mbm_xy ;
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int bS [ 4 ] ;
int qp ;
if ( IS_INTRA ( s - > current_picture . mb_type [ mb_xy ] ) | |
IS_INTRA ( s - > current_picture . mb_type [ mbn_xy ] ) ) {
bS [ 0 ] = bS [ 1 ] = bS [ 2 ] = bS [ 3 ] = ( edge = = 0 ? 4 : 3 ) ;
} else {
int i ;
for ( i = 0 ; i < 4 ; i + + ) {
int x = dir = = 0 ? edge : i ;
int y = dir = = 0 ? i : edge ;
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int b_idx = 8 + 4 + x + 8 * y ;
int bn_idx = b_idx - ( dir ? 8 : 1 ) ;
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if ( h - > non_zero_count_cache [ b_idx ] ! = 0 | |
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h - > non_zero_count_cache [ bn_idx ] ! = 0 ) {
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bS [ i ] = 2 ;
}
else if ( h - > slice_type = = P_TYPE ) {
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if ( h - > ref_cache [ 0 ] [ b_idx ] ! = h - > ref_cache [ 0 ] [ bn_idx ] | |
ABS ( h - > mv_cache [ 0 ] [ b_idx ] [ 0 ] - h - > mv_cache [ 0 ] [ bn_idx ] [ 0 ] ) > = 4 | |
ABS ( h - > mv_cache [ 0 ] [ b_idx ] [ 1 ] - h - > mv_cache [ 0 ] [ bn_idx ] [ 1 ] ) > = 4 )
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bS [ i ] = 1 ;
else
bS [ i ] = 0 ;
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} else {
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/* FIXME Add support for B frame */
return ;
}
}
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if ( bS [ 0 ] + bS [ 1 ] + bS [ 2 ] + bS [ 3 ] = = 0 )
continue ;
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}
/* Filter edge */
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// Do not use s->qscale as luma quantiser because it has not the same
// value in IPCM macroblocks.
qp = ( s - > current_picture . qscale_table [ mb_xy ] + s - > current_picture . qscale_table [ mbn_xy ] + 1 ) > > 1 ;
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//tprintf("filter mb:%d/%d dir:%d edge:%d, QPy:%d, QPc:%d, QPcn:%d\n", mb_x, mb_y, dir, edge, qp, h->chroma_qp, s->current_picture.qscale_table[mbn_xy]);
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if ( dir = = 0 ) {
filter_mb_edgev ( h , & img_y [ 4 * edge ] , linesize , bS , qp ) ;
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if ( ( edge & 1 ) = = 0 ) {
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int chroma_qp = ( h - > chroma_qp +
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get_chroma_qp ( h , s - > current_picture . qscale_table [ mbn_xy ] ) + 1 ) > > 1 ;
filter_mb_edgecv ( h , & img_cb [ 2 * edge ] , uvlinesize , bS , chroma_qp ) ;
filter_mb_edgecv ( h , & img_cr [ 2 * edge ] , uvlinesize , bS , chroma_qp ) ;
}
} else {
filter_mb_edgeh ( h , & img_y [ 4 * edge * linesize ] , linesize , bS , qp ) ;
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if ( ( edge & 1 ) = = 0 ) {
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int chroma_qp = ( h - > chroma_qp +
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get_chroma_qp ( h , s - > current_picture . qscale_table [ mbn_xy ] ) + 1 ) > > 1 ;
filter_mb_edgech ( h , & img_cb [ 2 * edge * uvlinesize ] , uvlinesize , bS , chroma_qp ) ;
filter_mb_edgech ( h , & img_cr [ 2 * edge * uvlinesize ] , uvlinesize , bS , chroma_qp ) ;
}
}
}
}
}
2003-04-04 16:42:28 +02:00
static int decode_slice ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
const int part_mask = s - > partitioned_frame ? ( AC_END | AC_ERROR ) : 0x7F ;
s - > mb_skip_run = - 1 ;
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if ( h - > pps . cabac ) {
int i ;
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/* realign */
align_get_bits ( & s - > gb ) ;
/* init cabac */
ff_init_cabac_states ( & h - > cabac , ff_h264_lps_range , ff_h264_mps_state , ff_h264_lps_state , 64 ) ;
ff_init_cabac_decoder ( & h - > cabac ,
s - > gb . buffer + get_bits_count ( & s - > gb ) / 8 ,
2004-07-08 02:53:21 +02:00
( s - > gb . size_in_bits - get_bits_count ( & s - > gb ) + 7 ) / 8 ) ;
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/* calculate pre-state */
for ( i = 0 ; i < 399 ; i + + ) {
int pre ;
if ( h - > slice_type = = I_TYPE )
pre = clip ( ( ( cabac_context_init_I [ i ] [ 0 ] * s - > qscale ) > > 4 ) + cabac_context_init_I [ i ] [ 1 ] , 1 , 126 ) ;
else
pre = clip ( ( ( cabac_context_init_PB [ h - > cabac_init_idc ] [ i ] [ 0 ] * s - > qscale ) > > 4 ) + cabac_context_init_PB [ h - > cabac_init_idc ] [ i ] [ 1 ] , 1 , 126 ) ;
if ( pre < = 63 )
h - > cabac_state [ i ] = 2 * ( 63 - pre ) + 0 ;
else
h - > cabac_state [ i ] = 2 * ( pre - 64 ) + 1 ;
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}
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for ( ; ; ) {
int ret = decode_mb_cabac ( h ) ;
int eos = get_cabac_terminate ( & h - > cabac ) ; /* End of Slice flag */
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if ( ret > = 0 ) hl_decode_mb ( h ) ;
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/* XXX: useless as decode_mb_cabac it doesn't support that ... */
if ( ret > = 0 & & h - > sps . mb_aff ) { //FIXME optimal? or let mb_decode decode 16x32 ?
s - > mb_y + + ;
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if ( ret > = 0 ) ret = decode_mb_cabac ( h ) ;
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eos = get_cabac_terminate ( & h - > cabac ) ;
hl_decode_mb ( h ) ;
s - > mb_y - - ;
}
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if ( ret < 0 | | h - > cabac . bytestream > h - > cabac . bytestream_end + 1 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " error while decoding MB %d %d \n " , s - > mb_x , s - > mb_y ) ;
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x , s - > mb_y , ( AC_ERROR | DC_ERROR | MV_ERROR ) & part_mask ) ;
return - 1 ;
}
if ( + + s - > mb_x > = s - > mb_width ) {
s - > mb_x = 0 ;
ff_draw_horiz_band ( s , 16 * s - > mb_y , 16 ) ;
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+ + s - > mb_y ;
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}
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if ( eos | | s - > mb_y > = s - > mb_height ) {
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tprintf ( " slice end %d %d \n " , get_bits_count ( & s - > gb ) , s - > gb . size_in_bits ) ;
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ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x - 1 , s - > mb_y , ( AC_END | DC_END | MV_END ) & part_mask ) ;
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return 0 ;
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}
#if 0
/* TODO test over-reading in cabac code */
else if ( read too much in h - > cabac ) {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x , s - > mb_y , ( AC_ERROR | DC_ERROR | MV_ERROR ) & part_mask ) ;
return - 1 ;
}
# endif
}
} else {
for ( ; ; ) {
int ret = decode_mb_cavlc ( h ) ;
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if ( ret > = 0 ) hl_decode_mb ( h ) ;
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if ( ret > = 0 & & h - > sps . mb_aff ) { //FIXME optimal? or let mb_decode decode 16x32 ?
s - > mb_y + + ;
ret = decode_mb_cavlc ( h ) ;
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if ( ret > = 0 ) hl_decode_mb ( h ) ;
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s - > mb_y - - ;
}
if ( ret < 0 ) {
av_log ( h - > s . avctx , AV_LOG_ERROR , " error while decoding MB %d %d \n " , s - > mb_x , s - > mb_y ) ;
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ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x , s - > mb_y , ( AC_ERROR | DC_ERROR | MV_ERROR ) & part_mask ) ;
return - 1 ;
}
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if ( + + s - > mb_x > = s - > mb_width ) {
s - > mb_x = 0 ;
ff_draw_horiz_band ( s , 16 * s - > mb_y , 16 ) ;
if ( + + s - > mb_y > = s - > mb_height ) {
tprintf ( " slice end %d %d \n " , get_bits_count ( & s - > gb ) , s - > gb . size_in_bits ) ;
if ( get_bits_count ( & s - > gb ) = = s - > gb . size_in_bits ) {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x - 1 , s - > mb_y , ( AC_END | DC_END | MV_END ) & part_mask ) ;
return 0 ;
} else {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x , s - > mb_y , ( AC_END | DC_END | MV_END ) & part_mask ) ;
return - 1 ;
}
}
}
if ( get_bits_count ( & s - > gb ) > = s - > gb . size_in_bits & & s - > mb_skip_run < = 0 ) {
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tprintf ( " slice end %d %d \n " , get_bits_count ( & s - > gb ) , s - > gb . size_in_bits ) ;
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if ( get_bits_count ( & s - > gb ) = = s - > gb . size_in_bits ) {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x - 1 , s - > mb_y , ( AC_END | DC_END | MV_END ) & part_mask ) ;
return 0 ;
} else {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x , s - > mb_y , ( AC_ERROR | DC_ERROR | MV_ERROR ) & part_mask ) ;
return - 1 ;
}
}
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}
}
2004-03-26 20:35:53 +01:00
2003-04-04 16:42:28 +02:00
#if 0
for ( ; s - > mb_y < s - > mb_height ; s - > mb_y + + ) {
for ( ; s - > mb_x < s - > mb_width ; s - > mb_x + + ) {
int ret = decode_mb ( h ) ;
hl_decode_mb ( h ) ;
if ( ret < 0 ) {
fprintf ( stderr , " error while decoding MB %d %d \n " , s - > mb_x , s - > mb_y ) ;
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x , s - > mb_y , ( AC_ERROR | DC_ERROR | MV_ERROR ) & part_mask ) ;
return - 1 ;
}
if ( + + s - > mb_x > = s - > mb_width ) {
s - > mb_x = 0 ;
if ( + + s - > mb_y > = s - > mb_height ) {
if ( get_bits_count ( s - > gb ) = = s - > gb . size_in_bits ) {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x - 1 , s - > mb_y , ( AC_END | DC_END | MV_END ) & part_mask ) ;
return 0 ;
} else {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x , s - > mb_y , ( AC_END | DC_END | MV_END ) & part_mask ) ;
return - 1 ;
}
}
}
if ( get_bits_count ( s - > ? gb ) > = s - > gb ? . size_in_bits ) {
if ( get_bits_count ( s - > gb ) = = s - > gb . size_in_bits ) {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x - 1 , s - > mb_y , ( AC_END | DC_END | MV_END ) & part_mask ) ;
return 0 ;
} else {
ff_er_add_slice ( s , s - > resync_mb_x , s - > resync_mb_y , s - > mb_x , s - > mb_y , ( AC_ERROR | DC_ERROR | MV_ERROR ) & part_mask ) ;
return - 1 ;
}
}
}
s - > mb_x = 0 ;
ff_draw_horiz_band ( s , 16 * s - > mb_y , 16 ) ;
}
# endif
return - 1 ; //not reached
}
static inline int decode_vui_parameters ( H264Context * h , SPS * sps ) {
MpegEncContext * const s = & h - > s ;
int aspect_ratio_info_present_flag , aspect_ratio_idc ;
aspect_ratio_info_present_flag = get_bits1 ( & s - > gb ) ;
if ( aspect_ratio_info_present_flag ) {
aspect_ratio_idc = get_bits ( & s - > gb , 8 ) ;
if ( aspect_ratio_idc = = EXTENDED_SAR ) {
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sps - > sar . num = get_bits ( & s - > gb , 16 ) ;
sps - > sar . den = get_bits ( & s - > gb , 16 ) ;
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} else if ( aspect_ratio_idc < 16 ) {
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sps - > sar = pixel_aspect [ aspect_ratio_idc ] ;
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} else {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " illegal aspect ratio \n " ) ;
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return - 1 ;
}
} else {
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sps - > sar . num =
sps - > sar . den = 0 ;
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}
// s->avctx->aspect_ratio= sar_width*s->width / (float)(s->height*sar_height);
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if ( get_bits1 ( & s - > gb ) ) { /* overscan_info_present_flag */
get_bits1 ( & s - > gb ) ; /* overscan_appropriate_flag */
}
if ( get_bits1 ( & s - > gb ) ) { /* video_signal_type_present_flag */
get_bits ( & s - > gb , 3 ) ; /* video_format */
get_bits1 ( & s - > gb ) ; /* video_full_range_flag */
if ( get_bits1 ( & s - > gb ) ) { /* colour_description_present_flag */
get_bits ( & s - > gb , 8 ) ; /* colour_primaries */
get_bits ( & s - > gb , 8 ) ; /* transfer_characteristics */
get_bits ( & s - > gb , 8 ) ; /* matrix_coefficients */
}
}
if ( get_bits1 ( & s - > gb ) ) { /* chroma_location_info_present_flag */
get_ue_golomb ( & s - > gb ) ; /* chroma_sample_location_type_top_field */
get_ue_golomb ( & s - > gb ) ; /* chroma_sample_location_type_bottom_field */
}
sps - > timing_info_present_flag = get_bits1 ( & s - > gb ) ;
if ( sps - > timing_info_present_flag ) {
sps - > num_units_in_tick = get_bits_long ( & s - > gb , 32 ) ;
sps - > time_scale = get_bits_long ( & s - > gb , 32 ) ;
sps - > fixed_frame_rate_flag = get_bits1 ( & s - > gb ) ;
}
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#if 0
| nal_hrd_parameters_present_flag | 0 | u ( 1 ) |
| if ( nal_hrd_parameters_present_flag = = 1 ) | | |
| hrd_parameters ( ) | | |
| vcl_hrd_parameters_present_flag | 0 | u ( 1 ) |
| if ( vcl_hrd_parameters_present_flag = = 1 ) | | |
| hrd_parameters ( ) | | |
| if ( ( nal_hrd_parameters_present_flag = = 1 | | | | |
| | | |
| ( vcl_hrd_parameters_present_flag = = 1 ) ) | | |
| low_delay_hrd_flag | 0 | u ( 1 ) |
| bitstream_restriction_flag | 0 | u ( 1 ) |
| if ( bitstream_restriction_flag ) { | 0 | u ( 1 ) |
| motion_vectors_over_pic_boundaries_flag | 0 | u ( 1 ) |
| max_bytes_per_pic_denom | 0 | ue ( v ) |
| max_bits_per_mb_denom | 0 | ue ( v ) |
| log2_max_mv_length_horizontal | 0 | ue ( v ) |
| log2_max_mv_length_vertical | 0 | ue ( v ) |
| num_reorder_frames | 0 | ue ( v ) |
| max_dec_frame_buffering | 0 | ue ( v ) |
| } | | |
| } | | |
# endif
return 0 ;
}
static inline int decode_seq_parameter_set ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
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int profile_idc , level_idc ;
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int sps_id , i ;
SPS * sps ;
profile_idc = get_bits ( & s - > gb , 8 ) ;
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get_bits1 ( & s - > gb ) ; //constraint_set0_flag
get_bits1 ( & s - > gb ) ; //constraint_set1_flag
get_bits1 ( & s - > gb ) ; //constraint_set2_flag
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get_bits1 ( & s - > gb ) ; //constraint_set3_flag
get_bits ( & s - > gb , 4 ) ; // reserved
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level_idc = get_bits ( & s - > gb , 8 ) ;
sps_id = get_ue_golomb ( & s - > gb ) ;
sps = & h - > sps_buffer [ sps_id ] ;
sps - > profile_idc = profile_idc ;
sps - > level_idc = level_idc ;
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sps - > log2_max_frame_num = get_ue_golomb ( & s - > gb ) + 4 ;
sps - > poc_type = get_ue_golomb ( & s - > gb ) ;
if ( sps - > poc_type = = 0 ) { //FIXME #define
sps - > log2_max_poc_lsb = get_ue_golomb ( & s - > gb ) + 4 ;
} else if ( sps - > poc_type = = 1 ) { //FIXME #define
sps - > delta_pic_order_always_zero_flag = get_bits1 ( & s - > gb ) ;
sps - > offset_for_non_ref_pic = get_se_golomb ( & s - > gb ) ;
sps - > offset_for_top_to_bottom_field = get_se_golomb ( & s - > gb ) ;
sps - > poc_cycle_length = get_ue_golomb ( & s - > gb ) ;
for ( i = 0 ; i < sps - > poc_cycle_length ; i + + )
sps - > offset_for_ref_frame [ i ] = get_se_golomb ( & s - > gb ) ;
}
if ( sps - > poc_type > 2 ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " illegal POC type %d \n " , sps - > poc_type ) ;
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return - 1 ;
}
sps - > ref_frame_count = get_ue_golomb ( & s - > gb ) ;
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if ( sps - > ref_frame_count > MAX_PICTURE_COUNT - 2 ) {
av_log ( h - > s . avctx , AV_LOG_ERROR , " too many reference frames \n " ) ;
}
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sps - > gaps_in_frame_num_allowed_flag = get_bits1 ( & s - > gb ) ;
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sps - > mb_width = get_ue_golomb ( & s - > gb ) + 1 ;
sps - > mb_height = get_ue_golomb ( & s - > gb ) + 1 ;
2005-01-12 01:16:25 +01:00
if ( ( unsigned ) sps - > mb_width > = INT_MAX / 16 | | ( unsigned ) sps - > mb_height > = INT_MAX / 16 | |
avcodec_check_dimensions ( NULL , 16 * sps - > mb_width , 16 * sps - > mb_height ) )
return - 1 ;
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sps - > frame_mbs_only_flag = get_bits1 ( & s - > gb ) ;
if ( ! sps - > frame_mbs_only_flag )
sps - > mb_aff = get_bits1 ( & s - > gb ) ;
else
sps - > mb_aff = 0 ;
sps - > direct_8x8_inference_flag = get_bits1 ( & s - > gb ) ;
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sps - > crop = get_bits1 ( & s - > gb ) ;
if ( sps - > crop ) {
sps - > crop_left = get_ue_golomb ( & s - > gb ) ;
sps - > crop_right = get_ue_golomb ( & s - > gb ) ;
sps - > crop_top = get_ue_golomb ( & s - > gb ) ;
sps - > crop_bottom = get_ue_golomb ( & s - > gb ) ;
if ( sps - > crop_left | | sps - > crop_top ) {
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av_log ( h - > s . avctx , AV_LOG_ERROR , " insane cropping not completly supported, this could look slightly wrong ... \n " ) ;
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}
} else {
sps - > crop_left =
sps - > crop_right =
sps - > crop_top =
sps - > crop_bottom = 0 ;
}
2003-04-04 16:42:28 +02:00
sps - > vui_parameters_present_flag = get_bits1 ( & s - > gb ) ;
if ( sps - > vui_parameters_present_flag )
decode_vui_parameters ( h , sps ) ;
if ( s - > avctx - > debug & FF_DEBUG_PICT_INFO ) {
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_DEBUG , " sps:%d profile:%d/%d poc:%d ref:%d %dx%d %s %s crop:%d/%d/%d/%d %s \n " ,
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sps_id , sps - > profile_idc , sps - > level_idc ,
sps - > poc_type ,
sps - > ref_frame_count ,
sps - > mb_width , sps - > mb_height ,
sps - > frame_mbs_only_flag ? " FRM " : ( sps - > mb_aff ? " MB-AFF " : " PIC-AFF " ) ,
sps - > direct_8x8_inference_flag ? " 8B8 " : " " ,
2003-07-23 02:32:50 +02:00
sps - > crop_left , sps - > crop_right ,
sps - > crop_top , sps - > crop_bottom ,
2003-04-04 16:42:28 +02:00
sps - > vui_parameters_present_flag ? " VUI " : " "
) ;
}
return 0 ;
}
static inline int decode_picture_parameter_set ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
int pps_id = get_ue_golomb ( & s - > gb ) ;
PPS * pps = & h - > pps_buffer [ pps_id ] ;
pps - > sps_id = get_ue_golomb ( & s - > gb ) ;
pps - > cabac = get_bits1 ( & s - > gb ) ;
pps - > pic_order_present = get_bits1 ( & s - > gb ) ;
pps - > slice_group_count = get_ue_golomb ( & s - > gb ) + 1 ;
if ( pps - > slice_group_count > 1 ) {
pps - > mb_slice_group_map_type = get_ue_golomb ( & s - > gb ) ;
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_ERROR , " FMO not supported \n " ) ;
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switch ( pps - > mb_slice_group_map_type ) {
case 0 :
#if 0
| for ( i = 0 ; i < = num_slice_groups_minus1 ; i + + ) | | |
| run_length [ i ] | 1 | ue ( v ) |
# endif
break ;
case 2 :
#if 0
| for ( i = 0 ; i < num_slice_groups_minus1 ; i + + ) | | |
| { | | |
| top_left_mb [ i ] | 1 | ue ( v ) |
| bottom_right_mb [ i ] | 1 | ue ( v ) |
| } | | |
# endif
break ;
case 3 :
case 4 :
case 5 :
#if 0
| slice_group_change_direction_flag | 1 | u ( 1 ) |
| slice_group_change_rate_minus1 | 1 | ue ( v ) |
# endif
break ;
case 6 :
#if 0
| slice_group_id_cnt_minus1 | 1 | ue ( v ) |
| for ( i = 0 ; i < = slice_group_id_cnt_minus1 ; i + + | | |
| ) | | |
| slice_group_id [ i ] | 1 | u ( v ) |
# endif
2003-04-25 02:29:48 +02:00
break ;
2003-04-04 16:42:28 +02:00
}
}
pps - > ref_count [ 0 ] = get_ue_golomb ( & s - > gb ) + 1 ;
pps - > ref_count [ 1 ] = get_ue_golomb ( & s - > gb ) + 1 ;
if ( pps - > ref_count [ 0 ] > 32 | | pps - > ref_count [ 1 ] > 32 ) {
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_ERROR , " reference overflow (pps) \n " ) ;
2003-04-04 16:42:28 +02:00
return - 1 ;
}
pps - > weighted_pred = get_bits1 ( & s - > gb ) ;
pps - > weighted_bipred_idc = get_bits ( & s - > gb , 2 ) ;
pps - > init_qp = get_se_golomb ( & s - > gb ) + 26 ;
pps - > init_qs = get_se_golomb ( & s - > gb ) + 26 ;
pps - > chroma_qp_index_offset = get_se_golomb ( & s - > gb ) ;
pps - > deblocking_filter_parameters_present = get_bits1 ( & s - > gb ) ;
pps - > constrained_intra_pred = get_bits1 ( & s - > gb ) ;
pps - > redundant_pic_cnt_present = get_bits1 ( & s - > gb ) ;
if ( s - > avctx - > debug & FF_DEBUG_PICT_INFO ) {
2003-11-03 14:26:22 +01:00
av_log ( h - > s . avctx , AV_LOG_DEBUG , " pps:%d sps:%d %s slice_groups:%d ref:%d/%d %s qp:%d/%d/%d %s %s %s \n " ,
2003-04-04 16:42:28 +02:00
pps_id , pps - > sps_id ,
pps - > cabac ? " CABAC " : " CAVLC " ,
pps - > slice_group_count ,
pps - > ref_count [ 0 ] , pps - > ref_count [ 1 ] ,
pps - > weighted_pred ? " weighted " : " " ,
pps - > init_qp , pps - > init_qs , pps - > chroma_qp_index_offset ,
pps - > deblocking_filter_parameters_present ? " LPAR " : " " ,
pps - > constrained_intra_pred ? " CONSTR " : " " ,
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pps - > redundant_pic_cnt_present ? " REDU " : " "
2003-04-04 16:42:28 +02:00
) ;
}
return 0 ;
}
/**
* finds the end of the current frame in the bitstream .
* @ return the position of the first byte of the next frame , or - 1
*/
2004-12-18 04:49:07 +01:00
static int find_frame_end ( H264Context * h , const uint8_t * buf , int buf_size ) {
2003-04-14 15:44:38 +02:00
int i ;
2003-04-04 16:42:28 +02:00
uint32_t state ;
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ParseContext * pc = & ( h - > s . parse_context ) ;
2003-04-04 16:42:28 +02:00
//printf("first %02X%02X%02X%02X\n", buf[0], buf[1],buf[2],buf[3]);
// mb_addr= pc->mb_addr - 1;
state = pc - > state ;
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for ( i = 0 ; i < = buf_size ; i + + ) {
2003-04-04 16:42:28 +02:00
if ( ( state & 0xFFFFFF1F ) = = 0x101 | | ( state & 0xFFFFFF1F ) = = 0x102 | | ( state & 0xFFFFFF1F ) = = 0x105 ) {
2004-12-18 04:49:07 +01:00
tprintf ( " find_frame_end new startcode = %08x, frame_start_found = %d, pos = %d \n " , state , pc - > frame_start_found , i ) ;
2003-04-04 16:42:28 +02:00
if ( pc - > frame_start_found ) {
2004-12-18 04:49:07 +01:00
// If there isn't one more byte in the buffer
// the test on first_mb_in_slice cannot be done yet
// do it at next call.
if ( i > = buf_size ) break ;
if ( buf [ i ] & 0x80 ) {
// first_mb_in_slice is 0, probably the first nal of a new
// slice
tprintf ( " find_frame_end frame_end_found, state = %08x, pos = %d \n " , state , i ) ;
pc - > state = - 1 ;
pc - > frame_start_found = 0 ;
return i - 4 ;
}
2003-04-04 16:42:28 +02:00
}
2004-12-18 04:49:07 +01:00
pc - > frame_start_found = 1 ;
2003-04-04 16:42:28 +02:00
}
2004-12-18 04:49:07 +01:00
if ( i < buf_size )
state = ( state < < 8 ) | buf [ i ] ;
2003-04-04 16:42:28 +02:00
}
pc - > state = state ;
2003-04-27 03:33:39 +02:00
return END_NOT_FOUND ;
2003-04-04 16:42:28 +02:00
}
2004-04-29 16:21:33 +02:00
static int h264_parse ( AVCodecParserContext * s ,
AVCodecContext * avctx ,
uint8_t * * poutbuf , int * poutbuf_size ,
const uint8_t * buf , int buf_size )
{
2004-12-18 04:49:07 +01:00
H264Context * h = s - > priv_data ;
ParseContext * pc = & h - > s . parse_context ;
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int next ;
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next = find_frame_end ( h , buf , buf_size ) ;
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if ( ff_combine_frame ( pc , next , ( uint8_t * * ) & buf , & buf_size ) < 0 ) {
* poutbuf = NULL ;
* poutbuf_size = 0 ;
return buf_size ;
}
* poutbuf = ( uint8_t * ) buf ;
* poutbuf_size = buf_size ;
return next ;
}
2003-04-04 16:42:28 +02:00
static int decode_nal_units ( H264Context * h , uint8_t * buf , int buf_size ) {
MpegEncContext * const s = & h - > s ;
AVCodecContext * const avctx = s - > avctx ;
int buf_index = 0 ;
2003-05-16 21:18:53 +02:00
#if 0
2003-06-20 17:21:25 +02:00
int i ;
2003-04-04 16:42:28 +02:00
for ( i = 0 ; i < 32 ; i + + ) {
printf ( " %X " , buf [ i ] ) ;
}
# endif
2004-12-18 04:49:07 +01:00
h - > slice_num = 0 ;
2003-04-04 16:42:28 +02:00
for ( ; ; ) {
int consumed ;
int dst_length ;
int bit_length ;
uint8_t * ptr ;
2004-09-13 23:20:55 +02:00
int i , nalsize = 0 ;
2003-04-04 16:42:28 +02:00
2004-09-13 23:20:55 +02:00
if ( h - > is_avc ) {
if ( buf_index > = buf_size ) break ;
nalsize = 0 ;
for ( i = 0 ; i < h - > nal_length_size ; i + + )
nalsize = ( nalsize < < 8 ) | buf [ buf_index + + ] ;
} else {
2003-04-04 16:42:28 +02:00
// start code prefix search
for ( ; buf_index + 3 < buf_size ; buf_index + + ) {
// this should allways succeed in the first iteration
if ( buf [ buf_index ] = = 0 & & buf [ buf_index + 1 ] = = 0 & & buf [ buf_index + 2 ] = = 1 )
break ;
}
if ( buf_index + 3 > = buf_size ) break ;
buf_index + = 3 ;
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}
2003-04-04 16:42:28 +02:00
2004-12-30 19:05:54 +01:00
ptr = decode_nal ( h , buf + buf_index , & dst_length , & consumed , h - > is_avc ? nalsize : buf_size - buf_index ) ;
2003-04-04 16:42:28 +02:00
if ( ptr [ dst_length - 1 ] = = 0 ) dst_length - - ;
bit_length = 8 * dst_length - decode_rbsp_trailing ( ptr + dst_length - 1 ) ;
if ( s - > avctx - > debug & FF_DEBUG_STARTCODE ) {
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av_log ( h - > s . avctx , AV_LOG_DEBUG , " NAL %d at %d/%d length %d \n " , h - > nal_unit_type , buf_index , buf_size , dst_length ) ;
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}
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if ( h - > is_avc & & ( nalsize ! = consumed ) )
av_log ( h - > s . avctx , AV_LOG_ERROR , " AVC: Consumed only %d bytes instead of %d \n " , consumed , nalsize ) ;
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buf_index + = consumed ;
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if ( s - > hurry_up = = 1 & & h - > nal_ref_idc = = 0 )
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continue ;
switch ( h - > nal_unit_type ) {
case NAL_IDR_SLICE :
idr ( h ) ; //FIXME ensure we dont loose some frames if there is reordering
case NAL_SLICE :
init_get_bits ( & s - > gb , ptr , bit_length ) ;
h - > intra_gb_ptr =
h - > inter_gb_ptr = & s - > gb ;
s - > data_partitioning = 0 ;
if ( decode_slice_header ( h ) < 0 ) return - 1 ;
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if ( h - > redundant_pic_count = = 0 & & s - > hurry_up < 5 )
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decode_slice ( h ) ;
break ;
case NAL_DPA :
init_get_bits ( & s - > gb , ptr , bit_length ) ;
h - > intra_gb_ptr =
h - > inter_gb_ptr = NULL ;
s - > data_partitioning = 1 ;
if ( decode_slice_header ( h ) < 0 ) return - 1 ;
break ;
case NAL_DPB :
init_get_bits ( & h - > intra_gb , ptr , bit_length ) ;
h - > intra_gb_ptr = & h - > intra_gb ;
break ;
case NAL_DPC :
init_get_bits ( & h - > inter_gb , ptr , bit_length ) ;
h - > inter_gb_ptr = & h - > inter_gb ;
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if ( h - > redundant_pic_count = = 0 & & h - > intra_gb_ptr & & s - > data_partitioning & & s - > hurry_up < 5 )
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decode_slice ( h ) ;
break ;
case NAL_SEI :
break ;
case NAL_SPS :
init_get_bits ( & s - > gb , ptr , bit_length ) ;
decode_seq_parameter_set ( h ) ;
if ( s - > flags & CODEC_FLAG_LOW_DELAY )
s - > low_delay = 1 ;
avctx - > has_b_frames = ! s - > low_delay ;
break ;
case NAL_PPS :
init_get_bits ( & s - > gb , ptr , bit_length ) ;
decode_picture_parameter_set ( h ) ;
break ;
case NAL_PICTURE_DELIMITER :
break ;
case NAL_FILTER_DATA :
break ;
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default :
av_log ( avctx , AV_LOG_ERROR , " Unknown NAL code: %d \n " , h - > nal_unit_type ) ;
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}
//FIXME move after where irt is set
s - > current_picture . pict_type = s - > pict_type ;
s - > current_picture . key_frame = s - > pict_type = = I_TYPE ;
}
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if ( ! s - > current_picture_ptr ) return buf_index ; //no frame
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h - > prev_frame_num_offset = h - > frame_num_offset ;
h - > prev_frame_num = h - > frame_num ;
if ( s - > current_picture_ptr - > reference ) {
h - > prev_poc_msb = h - > poc_msb ;
h - > prev_poc_lsb = h - > poc_lsb ;
}
if ( s - > current_picture_ptr - > reference )
execute_ref_pic_marking ( h , h - > mmco , h - > mmco_index ) ;
ff_er_frame_end ( s ) ;
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MPV_frame_end ( s ) ;
return buf_index ;
}
/**
* retunrs the number of bytes consumed for building the current frame
*/
static int get_consumed_bytes ( MpegEncContext * s , int pos , int buf_size ) {
if ( s - > flags & CODEC_FLAG_TRUNCATED ) {
pos - = s - > parse_context . last_index ;
if ( pos < 0 ) pos = 0 ; // FIXME remove (uneeded?)
return pos ;
} else {
if ( pos = = 0 ) pos = 1 ; //avoid infinite loops (i doubt thats needed but ...)
if ( pos + 10 > buf_size ) pos = buf_size ; // oops ;)
return pos ;
}
}
static int decode_frame ( AVCodecContext * avctx ,
void * data , int * data_size ,
uint8_t * buf , int buf_size )
{
H264Context * h = avctx - > priv_data ;
MpegEncContext * s = & h - > s ;
AVFrame * pict = data ;
int buf_index ;
s - > flags = avctx - > flags ;
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s - > flags2 = avctx - > flags2 ;
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/* no supplementary picture */
if ( buf_size = = 0 ) {
return 0 ;
}
if ( s - > flags & CODEC_FLAG_TRUNCATED ) {
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int next = find_frame_end ( h , buf , buf_size ) ;
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if ( ff_combine_frame ( & s - > parse_context , next , & buf , & buf_size ) < 0 )
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return buf_size ;
//printf("next:%d buf_size:%d last_index:%d\n", next, buf_size, s->parse_context.last_index);
}
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if ( h - > is_avc & & ! h - > got_avcC ) {
int i , cnt , nalsize ;
unsigned char * p = avctx - > extradata ;
if ( avctx - > extradata_size < 7 ) {
av_log ( avctx , AV_LOG_ERROR , " avcC too short \n " ) ;
return - 1 ;
}
if ( * p ! = 1 ) {
av_log ( avctx , AV_LOG_ERROR , " Unknown avcC version %d \n " , * p ) ;
return - 1 ;
}
/* sps and pps in the avcC always have length coded with 2 bytes,
so put a fake nal_length_size = 2 while parsing them */
h - > nal_length_size = 2 ;
// Decode sps from avcC
cnt = * ( p + 5 ) & 0x1f ; // Number of sps
p + = 6 ;
for ( i = 0 ; i < cnt ; i + + ) {
nalsize = BE_16 ( p ) + 2 ;
if ( decode_nal_units ( h , p , nalsize ) ! = nalsize ) {
av_log ( avctx , AV_LOG_ERROR , " Decoding sps %d from avcC failed \n " , i ) ;
return - 1 ;
}
p + = nalsize ;
}
// Decode pps from avcC
cnt = * ( p + + ) ; // Number of pps
for ( i = 0 ; i < cnt ; i + + ) {
nalsize = BE_16 ( p ) + 2 ;
if ( decode_nal_units ( h , p , nalsize ) ! = nalsize ) {
av_log ( avctx , AV_LOG_ERROR , " Decoding pps %d from avcC failed \n " , i ) ;
return - 1 ;
}
p + = nalsize ;
}
// Now store right nal length size, that will be use to parse all other nals
h - > nal_length_size = ( ( * ( ( ( char * ) ( avctx - > extradata ) ) + 4 ) ) & 0x03 ) + 1 ;
// Do not reparse avcC
h - > got_avcC = 1 ;
}
if ( ! h - > is_avc & & s - > avctx - > extradata_size & & s - > picture_number = = 0 ) {
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if ( 0 < decode_nal_units ( h , s - > avctx - > extradata , s - > avctx - > extradata_size ) )
return - 1 ;
}
buf_index = decode_nal_units ( h , buf , buf_size ) ;
if ( buf_index < 0 )
return - 1 ;
//FIXME do something with unavailable reference frames
// if(ret==FRAME_SKIPED) return get_consumed_bytes(s, buf_index, buf_size);
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if ( ! s - > current_picture_ptr ) {
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av_log ( h - > s . avctx , AV_LOG_DEBUG , " error, NO frame \n " ) ;
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return - 1 ;
}
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{
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//#define DECODE_ORDER
Picture * out = s - > current_picture_ptr ;
# ifndef DECODE_ORDER
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/* Sort B-frames into display order
* FIXME doesn ' t allow for multiple delayed frames */
Picture * cur = s - > current_picture_ptr ;
Picture * prev = h - > delayed_pic [ 0 ] ;
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if ( s - > low_delay
& & ( cur - > pict_type = = B_TYPE
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| | ( ! h - > sps . gaps_in_frame_num_allowed_flag
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& & prev & & cur - > poc - prev - > poc > 2 ) ) ) {
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s - > low_delay = 0 ;
s - > avctx - > has_b_frames = 1 ;
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if ( prev & & prev - > poc > cur - > poc )
// too late to display this frame
cur = prev ;
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}
if ( s - > low_delay | | ! prev | | cur - > pict_type = = B_TYPE )
out = cur ;
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else
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out = prev ;
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if ( s - > low_delay | | ! prev | | out = = prev ) {
if ( prev & & prev - > reference = = 1 )
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prev - > reference = 0 ;
h - > delayed_pic [ 0 ] = cur ;
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}
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# endif
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* pict = * ( AVFrame * ) out ;
}
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ff_print_debug_info ( s , pict ) ;
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assert ( pict - > data [ 0 ] ) ;
//printf("out %d\n", (int)pict->data[0]);
#if 0 //?
/* Return the Picture timestamp as the frame number */
/* we substract 1 because it is added on utils.c */
avctx - > frame_number = s - > picture_number - 1 ;
# endif
#if 0
/* dont output the last pic after seeking */
if ( s - > last_picture_ptr | | s - > low_delay )
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//Note this isnt a issue as a IDR pic should flush the buffers
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# endif
* data_size = sizeof ( AVFrame ) ;
return get_consumed_bytes ( s , buf_index , buf_size ) ;
}
#if 0
static inline void fill_mb_avail ( H264Context * h ) {
MpegEncContext * const s = & h - > s ;
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const int mb_xy = s - > mb_x + s - > mb_y * s - > mb_stride ;
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if ( s - > mb_y ) {
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h - > mb_avail [ 0 ] = s - > mb_x & & h - > slice_table [ mb_xy - s - > mb_stride - 1 ] = = h - > slice_num ;
h - > mb_avail [ 1 ] = h - > slice_table [ mb_xy - s - > mb_stride ] = = h - > slice_num ;
h - > mb_avail [ 2 ] = s - > mb_x + 1 < s - > mb_width & & h - > slice_table [ mb_xy - s - > mb_stride + 1 ] = = h - > slice_num ;
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} else {
h - > mb_avail [ 0 ] =
h - > mb_avail [ 1 ] =
h - > mb_avail [ 2 ] = 0 ;
}
h - > mb_avail [ 3 ] = s - > mb_x & & h - > slice_table [ mb_xy - 1 ] = = h - > slice_num ;
h - > mb_avail [ 4 ] = 1 ; //FIXME move out
h - > mb_avail [ 5 ] = 0 ; //FIXME move out
}
# endif
#if 0 //selftest
# define COUNT 8000
# define SIZE (COUNT*40)
int main ( ) {
int i ;
uint8_t temp [ SIZE ] ;
PutBitContext pb ;
GetBitContext gb ;
// int int_temp[10000];
DSPContext dsp ;
AVCodecContext avctx ;
dsputil_init ( & dsp , & avctx ) ;
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init_put_bits ( & pb , temp , SIZE ) ;
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printf ( " testing unsigned exp golomb \n " ) ;
for ( i = 0 ; i < COUNT ; i + + ) {
START_TIMER
set_ue_golomb ( & pb , i ) ;
STOP_TIMER ( " set_ue_golomb " ) ;
}
flush_put_bits ( & pb ) ;
init_get_bits ( & gb , temp , 8 * SIZE ) ;
for ( i = 0 ; i < COUNT ; i + + ) {
int j , s ;
s = show_bits ( & gb , 24 ) ;
START_TIMER
j = get_ue_golomb ( & gb ) ;
if ( j ! = i ) {
printf ( " missmatch! at %d (%d should be %d) bits:%6X \n " , i , j , i , s ) ;
// return -1;
}
STOP_TIMER ( " get_ue_golomb " ) ;
}
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init_put_bits ( & pb , temp , SIZE ) ;
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printf ( " testing signed exp golomb \n " ) ;
for ( i = 0 ; i < COUNT ; i + + ) {
START_TIMER
set_se_golomb ( & pb , i - COUNT / 2 ) ;
STOP_TIMER ( " set_se_golomb " ) ;
}
flush_put_bits ( & pb ) ;
init_get_bits ( & gb , temp , 8 * SIZE ) ;
for ( i = 0 ; i < COUNT ; i + + ) {
int j , s ;
s = show_bits ( & gb , 24 ) ;
START_TIMER
j = get_se_golomb ( & gb ) ;
if ( j ! = i - COUNT / 2 ) {
printf ( " missmatch! at %d (%d should be %d) bits:%6X \n " , i , j , i , s ) ;
// return -1;
}
STOP_TIMER ( " get_se_golomb " ) ;
}
printf ( " testing 4x4 (I)DCT \n " ) ;
DCTELEM block [ 16 ] ;
uint8_t src [ 16 ] , ref [ 16 ] ;
uint64_t error = 0 , max_error = 0 ;
for ( i = 0 ; i < COUNT ; i + + ) {
int j ;
// printf("%d %d %d\n", r1, r2, (r2-r1)*16);
for ( j = 0 ; j < 16 ; j + + ) {
ref [ j ] = random ( ) % 255 ;
src [ j ] = random ( ) % 255 ;
}
h264_diff_dct_c ( block , src , ref , 4 ) ;
//normalize
for ( j = 0 ; j < 16 ; j + + ) {
// printf("%d ", block[j]);
block [ j ] = block [ j ] * 4 ;
if ( j & 1 ) block [ j ] = ( block [ j ] * 4 + 2 ) / 5 ;
if ( j & 4 ) block [ j ] = ( block [ j ] * 4 + 2 ) / 5 ;
}
// printf("\n");
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s - > dsp . h264_idct_add ( ref , block , 4 ) ;
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/* for(j=0; j<16; j++){
printf ( " %d " , ref [ j ] ) ;
}
printf ( " \n " ) ; */
for ( j = 0 ; j < 16 ; j + + ) {
int diff = ABS ( src [ j ] - ref [ j ] ) ;
error + = diff * diff ;
max_error = FFMAX ( max_error , diff ) ;
}
}
printf ( " error=%f max_error=%d \n " , ( ( float ) error ) / COUNT / 16 , ( int ) max_error ) ;
#if 0
printf ( " testing quantizer \n " ) ;
for ( qp = 0 ; qp < 52 ; qp + + ) {
for ( i = 0 ; i < 16 ; i + + )
src1_block [ i ] = src2_block [ i ] = random ( ) % 255 ;
}
# endif
printf ( " Testing NAL layer \n " ) ;
uint8_t bitstream [ COUNT ] ;
uint8_t nal [ COUNT * 2 ] ;
H264Context h ;
memset ( & h , 0 , sizeof ( H264Context ) ) ;
for ( i = 0 ; i < COUNT ; i + + ) {
int zeros = i ;
int nal_length ;
int consumed ;
int out_length ;
uint8_t * out ;
int j ;
for ( j = 0 ; j < COUNT ; j + + ) {
bitstream [ j ] = ( random ( ) % 255 ) + 1 ;
}
for ( j = 0 ; j < zeros ; j + + ) {
int pos = random ( ) % COUNT ;
while ( bitstream [ pos ] = = 0 ) {
pos + + ;
pos % = COUNT ;
}
bitstream [ pos ] = 0 ;
}
START_TIMER
nal_length = encode_nal ( & h , nal , bitstream , COUNT , COUNT * 2 ) ;
if ( nal_length < 0 ) {
printf ( " encoding failed \n " ) ;
return - 1 ;
}
out = decode_nal ( & h , nal , & out_length , & consumed , nal_length ) ;
STOP_TIMER ( " NAL " )
if ( out_length ! = COUNT ) {
printf ( " incorrect length %d %d \n " , out_length , COUNT ) ;
return - 1 ;
}
if ( consumed ! = nal_length ) {
printf ( " incorrect consumed length %d %d \n " , nal_length , consumed ) ;
return - 1 ;
}
if ( memcmp ( bitstream , out , COUNT ) ) {
printf ( " missmatch \n " ) ;
return - 1 ;
}
}
printf ( " Testing RBSP \n " ) ;
return 0 ;
}
# endif
static int decode_end ( AVCodecContext * avctx )
{
H264Context * h = avctx - > priv_data ;
MpegEncContext * s = & h - > s ;
free_tables ( h ) ; //FIXME cleanup init stuff perhaps
MPV_common_end ( s ) ;
// memset(h, 0, sizeof(H264Context));
return 0 ;
}
AVCodec h264_decoder = {
" h264 " ,
CODEC_TYPE_VIDEO ,
CODEC_ID_H264 ,
sizeof ( H264Context ) ,
decode_init ,
NULL ,
decode_end ,
decode_frame ,
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/*CODEC_CAP_DRAW_HORIZ_BAND |*/ CODEC_CAP_DR1 | CODEC_CAP_TRUNCATED | CODEC_CAP_DELAY ,
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} ;
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AVCodecParser h264_parser = {
{ CODEC_ID_H264 } ,
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sizeof ( H264Context ) ,
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NULL ,
h264_parse ,
ff_parse_close ,
} ;
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# include "svq3.c"