?? global.h
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DecodingEnvironment de_cabac;
int (*readSyntaxElement)(SyntaxElement *, struct img_par *, struct inp_par *, struct datapartition *);
/*!< virtual function;
actual method depends on chosen data partition and
entropy coding method */
} DataPartition;
//! Slice
typedef struct
{
int ei_flag; //!< 0 if the partArr[0] contains valid information
int qp;
int picture_type; //!< picture type
PictureStructure structure; //!< Identify picture structure type
int start_mb_nr; //!< MUST be set by NAL even in case of ei_flag == 1
int max_part_nr;
int dp_mode; //!< data partioning mode
int next_header;
// int last_mb_nr; //!< only valid when entropy coding == CABAC
DataPartition *partArr; //!< array of partitions
MotionInfoContexts *mot_ctx; //!< pointer to struct of context models for use in CABAC
TextureInfoContexts *tex_ctx; //!< pointer to struct of context models for use in CABAC
int ref_pic_list_reordering_flag_l0;
int *remapping_of_pic_nums_idc_l0;
int *abs_diff_pic_num_minus1_l0;
int *long_term_pic_idx_l0;
int ref_pic_list_reordering_flag_l1;
int *remapping_of_pic_nums_idc_l1;
int *abs_diff_pic_num_minus1_l1;
int *long_term_pic_idx_l1;
int (*readSlice)(struct img_par *, struct inp_par *);
int LFDisableIdc; //!< Disable loop filter on slice
int LFAlphaC0Offset; //!< Alpha and C0 offset for filtering slice
int LFBetaOffset; //!< Beta offset for filtering slice
int pic_parameter_set_id; //!<the ID of the picture parameter set the slice is reffering to
} Slice;
//****************************** ~DM ***********************************
// image parameters
typedef struct img_par
{
int number; //!< frame number
unsigned current_mb_nr; // bitstream order
unsigned num_dec_mb;
int current_slice_nr;
int *intra_block;
int tr; //!< temporal reference, 8 bit, wrapps at 255
int qp; //!< quant for the current frame
int qpsp; //!< quant for SP-picture predicted frame
int sp_switch; //!< 1 for switching sp, 0 for normal sp
int direct_type; //!< 1 for Spatial Direct, 0 for Temporal
int type; //!< image type INTER/INTRA
int width;
int height;
int width_cr; //!< width chroma
int height_cr; //!< height chroma
int mb_y;
int mb_x;
int block_y;
int pix_y;
int pix_x;
int pix_c_y;
int block_x;
int pix_c_x;
int allrefzero;
int mpr[16][16]; //!< predicted block
int mvscale[6][MAX_REFERENCE_PICTURES];
int m7[16][16]; //!< final 4x4 block. Extended to 16x16 for ABT
int cof[4][6][4][4]; //!< correction coefficients from predicted
int cofu[4];
int **ipredmode; //!< prediction type
int quad[256];
int ***nz_coeff;
int **siblock;
int cod_counter; //!< Current count of number of skipped macroblocks in a row
int newframe;
int structure; //!< Identify picture structure type
int pstruct_next_P;
// B pictures
Slice *currentSlice; //!< pointer to current Slice data struct
Macroblock *mb_data; //!< array containing all MBs of a whole frame
int subblock_x;
int subblock_y;
int is_intra_block;
int is_v_block;
// For MB level frame/field coding
int MbaffFrameFlag;
// for signalling to the neighbour logic that this is a deblocker call
int DeblockCall;
int **field_anchor;
DecRefPicMarking_t *dec_ref_pic_marking_buffer; //!< stores the memory management control operations
int disposable_flag; //!< flag for disposable frame, 1:disposable
int num_ref_idx_l0_active; //!< number of forward reference
int num_ref_idx_l1_active; //!< number of backward reference
int slice_group_change_cycle;
// JVT-D101
int redundant_slice_flag;
int redundant_pic_cnt;
int explicit_B_prediction;
unsigned int pre_frame_num; //!< store the frame_num in the last decoded slice. For detecting gap in frame_num.
// End JVT-D101
// POC200301: from unsigned int to int
int toppoc; //poc for this top field // POC200301
int bottompoc; //poc of bottom field of frame
int framepoc; //poc of this frame // POC200301
unsigned int frame_num; //frame_num for this frame
unsigned int field_pic_flag;
unsigned int bottom_field_flag;
//the following is for slice header syntax elements of poc
// for poc mode 0.
unsigned int pic_order_cnt_lsb;
int delta_pic_order_cnt_bottom;
// for poc mode 1.
int delta_pic_order_cnt[3];
// ////////////////////////
// for POC mode 0:
signed int PrevPicOrderCntMsb;
unsigned int PrevPicOrderCntLsb;
signed int PicOrderCntMsb;
// for POC mode 1:
unsigned int AbsFrameNum;
signed int ExpectedPicOrderCnt, PicOrderCntCycleCnt, FrameNumInPicOrderCntCycle;
unsigned int PreviousFrameNum, FrameNumOffset;
int ExpectedDeltaPerPicOrderCntCycle;
int PreviousPOC, ThisPOC;
int PreviousFrameNumOffset;
// /////////////////////////
//weighted prediction
unsigned int luma_log2_weight_denom;
unsigned int chroma_log2_weight_denom;
int ***wp_weight; // weight in [list][index][component] order
int ***wp_offset; // offset in [list][index][component] order
int ****wbp_weight; //weight in [list][fw_index][bw_index][component] order
int wp_round_luma;
int wp_round_chroma;
unsigned int apply_weights;
int idr_flag;
int nal_reference_idc; //!< nal_reference_idc from NAL unit
int idr_pic_id;
int MaxFrameNum;
unsigned PicWidthInMbs;
unsigned PicHeightInMapUnits;
unsigned FrameHeightInMbs;
unsigned PicHeightInMbs;
unsigned PicSizeInMbs;
unsigned FrameSizeInMbs;
unsigned oldFrameSizeInMbs;
int no_output_of_prior_pics_flag;
int long_term_reference_flag;
int adaptive_ref_pic_buffering_flag;
int last_has_mmco_5;
int last_pic_bottom_field;
int model_number;
int idr_psnr_number;
int psnr_number;
time_t ltime_start; // for time measurement
time_t ltime_end; // for time measurement
#ifdef WIN32
struct _timeb tstruct_start;
struct _timeb tstruct_end;
#else
struct timeb tstruct_start;
struct timeb tstruct_end;
#endif
} ImageParameters;
extern ImageParameters *img;
extern struct snr_par *snr;
// signal to noice ratio parameters
struct snr_par
{
float snr_y; //!< current Y SNR
float snr_u; //!< current U SNR
float snr_v; //!< current V SNR
float snr_y1; //!< SNR Y(dB) first frame
float snr_u1; //!< SNR U(dB) first frame
float snr_v1; //!< SNR V(dB) first frame
float snr_ya; //!< Average SNR Y(dB) remaining frames
float snr_ua; //!< Average SNR U(dB) remaining frames
float snr_va; //!< Average SNR V(dB) remaining frames
};
extern int tot_time;
// input parameters from configuration file
struct inp_par
{
char infile[100]; //!< H.264 inputfile
char outfile[100]; //!< Decoded YUV 4:2:0 output
char reffile[100]; //!< Optional YUV 4:2:0 reference file for SNR measurement
int FileFormat; //!< File format of the Input file, PAR_OF_ANNEXB or PAR_OF_RTP
int dpb_size; //!< Frame buffer size
int ref_offset;
int poc_scale;
#ifdef _LEAKYBUCKET_
unsigned long R_decoder; //!< Decoder Rate in HRD Model
unsigned long B_decoder; //!< Decoder Buffer size in HRD model
unsigned long F_decoder; //!< Decoder Inital buffer fullness in HRD model
char LeakyBucketParamFile[100]; //!< LeakyBucketParamFile
#endif
};
extern struct inp_par *input;
typedef struct pix_pos
{
int available;
int mb_addr;
int x;
int y;
int pos_x;
int pos_y;
} PixelPos;
typedef struct old_slice_par
{
unsigned field_pic_flag;
unsigned bottom_field_flag;
unsigned frame_num;
int nal_ref_idc;
unsigned pic_oder_cnt_lsb;
int delta_pic_oder_cnt_bottom;
int delta_pic_order_cnt[2];
int idr_flag;
int idr_pic_id;
int pps_id;
} OldSliceParams;
extern OldSliceParams old_slice;
// files
extern FILE *p_out; //!< pointer to output YUV file
//FILE *p_out2; //!< pointer to debug output YUV file
extern FILE *p_ref; //!< pointer to input original reference YUV file file
extern FILE *p_log; //!< SNR file
#if TRACE
FILE *p_trace;
#endif
// prototypes
void init_conf(struct inp_par *inp, char *config_filename);
void report(struct inp_par *inp, struct img_par *img, struct snr_par *snr);
void init(struct img_par *img);
void malloc_slice(struct inp_par *inp, struct img_par *img);
void free_slice(struct inp_par *inp, struct img_par *img);
int decode_one_frame(struct img_par *img,struct inp_par *inp, struct snr_par *snr);
void init_picture(struct img_par *img, struct inp_par *inp);
void exit_picture();
int read_new_slice();
void decode_one_slice(struct img_par *img,struct inp_par *inp);
void start_macroblock(struct img_par *img,struct inp_par *inp, int CurrentMBInScanOrder);
int read_one_macroblock(struct img_par *img,struct inp_par *inp);
void read_ipred_modes(struct img_par *img,struct inp_par *inp);
int decode_one_macroblock(struct img_par *img,struct inp_par *inp);
int exit_macroblock(struct img_par *img,struct inp_par *inp, int eos_bit);
void decode_ipcm_mb(struct img_par *img);
void readMotionInfoFromNAL (struct img_par *img,struct inp_par *inp);
void readCBPandCoeffsFromNAL(struct img_par *img,struct inp_par *inp);
void readIPCMcoeffsFromNAL(struct img_par *img, struct inp_par *inp, struct datapartition *dP);
void copyblock_sp(struct img_par *img,int block_x,int block_y);
void itrans_sp_chroma(struct img_par *img,int ll);
void itrans(struct img_par *img,int ioff,int joff,int i0,int j0);
void itrans_sp(struct img_par *img,int ioff,int joff,int i0,int j0);
int intrapred(struct img_par *img,int ioff,int joff,int i4,int j4);
void itrans_2(struct img_par *img);
int intrapred_luma_16x16(struct img_par *img,int predmode);
void intrapred_chroma(struct img_par *img, int uv);
int sign(int a , int b);
// SLICE function pointers
extern int (*nal_startcode_follows) ();
// NAL functions TML/CABAC bitstream
int uvlc_startcode_follows();
int cabac_startcode_follows();
void free_Partition(Bitstream *currStream);
// ErrorConcealment
void reset_ec_flags();
void error(char *text, int code);
int is_new_picture();
void init_old_slice();
// dynamic mem allocation
int init_global_buffers();
void free_global_buffers();
void frame_postprocessing(struct img_par *img, struct inp_par *inp);
void field_postprocessing(struct img_par *img, struct inp_par *inp);
int bottom_field_picture(struct img_par *img,struct inp_par *inp);
void decode_slice(struct img_par *img,struct inp_par *inp, int current_header);
#define PAYLOAD_TYPE_IDERP 8
int RBSPtoSODB(byte *streamBuffer, int last_byte_pos);
int EBSPtoRBSP(byte *streamBuffer, int end_bytepos, int begin_bytepos);
// For MB level frame/field coding
void init_super_macroblock(struct img_par *img,struct inp_par *inp);
void exit_super_macroblock(struct img_par *img,struct inp_par *inp);
int decode_super_macroblock(struct img_par *img,struct inp_par *inp);
void decode_one_Copy_topMB(struct img_par *img,struct inp_par *inp);
void SetOneRefMV(struct img_par* img);
int peekSyntaxElement_UVLC(SyntaxElement *sym, struct img_par *img, struct inp_par *inp, struct datapartition *dP);
void fill_wp_params(struct img_par *img);
void reset_wp_params(struct img_par *img);
void FreePartition (DataPartition *dp, int n);
DataPartition *AllocPartition();
void tracebits2(const char *trace_str, int len, int info);
void init_decoding_engine_IPCM(struct img_par *img);
void readIPCMBytes_CABAC(SyntaxElement *sym, Bitstream *currStream);
#endif
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