struct x264_t 维护着CODEC的诸多重要信息
//x264_t结构体维护着CODEC的诸多重要信息
struct x264_t
{
/* encoder parameters ( 编码器参数 )*/
x264_param_t param;
x264_t *thread[X264_SLICE_MAX];
/* bitstream output ( 字节流输出 ) */
struct
{
int i_nal;
x264_nal_t nal[X264_NAL_MAX];
int i_bitstream; /* size of p_bitstream */
uint8_t *p_bitstream; /* will hold data for all nal */
bs_t bs;
} out;
/* frame number/poc ( 帧序号 )*/
int i_frame;
int i_frame_offset; /* decoding only */
int i_frame_num; /* decoding only */
int i_poc_msb; /* decoding only */
int i_poc_lsb; /* decoding only */
int i_poc; /* decoding only */
int i_thread_num; /* threads only */
int i_nal_type; /* threads only */
int i_nal_ref_idc; /* threads only */
/* We use only one SPS(序列参数集) and one PPS(图像参数集) */
x264_sps_t sps_array[1];
x264_sps_t *sps;
x264_pps_t pps_array[1];
x264_pps_t *pps;
int i_idr_pic_id;
int (*dequant4_mf[4])[4][4]; /* [4][6][4][4] */
int (*dequant8_mf[2])[8][8]; /* [2][6][8][8] */
int (*quant4_mf[4])[4][4]; /* [4][6][4][4] */
int (*quant8_mf[2])[8][8]; /* [2][6][8][8] */
int (*unquant4_mf[4])[16]; /* [4][52][16] */
int (*unquant8_mf[2])[64]; /* [2][52][64] */
uint32_t nr_residual_sum[2][64];
uint32_t nr_offset[2][64];
uint32_t nr_count[2];
/* Slice header (片头部) */
x264_slice_header_t sh;
/* cabac(适应性二元算术编码) context */
x264_cabac_t cabac;
struct
{
/* Frames to be encoded (whose types have been decided(明确的) ) */
x264_frame_t *current[X264_BFRAME_MAX+3];//current是已经准备就绪可以编码的帧,其类型已经确定
/* Temporary(临时的) buffer (frames types not yet decided) */
x264_frame_t *next[X264_BFRAME_MAX+3];//next是尚未确定类型的帧
/* 未使用的帧Unused frames */
x264_frame_t *unused[X264_BFRAME_MAX+3];//unused用于回收不使用的frame结构体以备今后再次使用
/* For adaptive(适应的) B decision(决策) */
x264_frame_t *last_nonb;
/* frames used for reference +1 for decoding + sentinels (发射器,标记) */
x264_frame_t *reference[16+2+1+2];
int i_last_idr; /* Frame number of the last IDR (立即刷新图像) */
int i_input; //frames结构体中i_input指示当前输入的帧的(播放顺序)序号。/* Number of input frames already accepted */
int i_max_dpb; /* Number of frames allocated (分配) in the decoded picture buffer */
int i_max_ref0;
int i_max_ref1;
int i_delay; //i_delay设置为由B帧个数(线程个数)确定的帧缓冲延迟,在多线程情况下为i_delay = i_bframe + i_threads - 1。而判断B帧缓冲填充是否足够则通过条件判断:h->frames.i_input <= h->frames.i_delay + 1 - h->param.i_threads。 /* Number of frames buffered for B reordering (重新排序) */
int b_have_lowres; /* Whether 1/2 resolution (分辨率) luma(亮度) planes(平面) are being used */
} frames;//指示和控制帧编码过程的结构
/* current frame being encoded */
x264_frame_t *fenc;
/* frame being reconstructed(重建的) */
x264_frame_t *fdec;
/* references(参考) lists */
int i_ref0;
x264_frame_t *fref0[16+3]; /* ref list 0 */
int i_ref1;
x264_frame_t *fref1[16+3]; /* ref list 1 */
int b_ref_reorder[2];
/* Current MB DCT coeffs(估计系数) */
struct
{
DECLARE_ALIGNED( int, luma16x16_dc[16], 16 );
DECLARE_ALIGNED( int, chroma_dc[2][4], 16 );
// FIXME merge(合并) with union(结合,并集)
DECLARE_ALIGNED( int, luma8x8[4][64], 16 );
union
{
DECLARE_ALIGNED( int, residual_ac[15], 16 );
DECLARE_ALIGNED( int, luma4x4[16], 16 );
} block[16+8];
} dct;
/* MB table and cache(高速缓冲存储器) for current frame/mb */
struct
{
int i_mb_count; /* number of mbs in a frame */ /* 在一帧中的宏块中的序号 */
/* Strides (跨,越) */
int i_mb_stride;
int i_b8_stride;
int i_b4_stride;
/* Current index */
int i_mb_x;
int i_mb_y;
int i_mb_xy;
int i_b8_xy;
int i_b4_xy;
/* Search parameters (搜索参数) */
int i_me_method;
int i_subpel_refine;
int b_chroma_me;
int b_trellis;
int b_noise_reduction;
/* Allowed qpel(四分之一映像点) MV range to stay (继续,停留) within the picture + emulated(模拟) edge (边) pixels */
int mv_min[2];
int mv_max[2];
/* Subpel MV range for motion search.
* same mv_min/max but includes levels' i_mv_range. */
int mv_min_spel[2];
int mv_max_spel[2];
/* Fullpel MV range for motion search */
int mv_min_fpel[2];
int mv_max_fpel[2];
/* neighboring MBs */
unsigned int i_neighbour;
unsigned int i_neighbour8[4]; /* neighbours of each 8x8 or 4x4 block that are available */
unsigned int i_neighbour4[16]; /* at the time the block is coded */
int i_mb_type_top;
int i_mb_type_left;
int i_mb_type_topleft;
int i_mb_type_topright;
/* mb table */
int8_t *type; /* mb type */
int8_t *qp; /* mb qp */
int16_t *cbp; /* mb cbp: 0x0?: luma, 0x?0: chroma, 0x100: luma dc, 0x0200 and 0x0400: chroma dc (all set for PCM)*/
int8_t (*intra4x4_pred_mode)[7]; /* intra4x4 pred mode. for non I4x4 set to I_PRED_4x4_DC(2) */
uint8_t (*non_zero_count)[16+4+4]; /* nzc. for I_PCM set to 16 */
int8_t *chroma_pred_mode; /* chroma_pred_mode. cabac only. for non intra I_PRED_CHROMA_DC(0) */
int16_t (*mv[2])[2]; /* mb mv. set to 0 for intra mb */
int16_t (*mvd[2])[2]; /* mb mv difference with predict. set to 0 if intra. cabac only */
int8_t *ref[2]; /* mb ref. set to -1 if non used (intra or Lx only) */
int16_t (*mvr[2][16])[2]; /* 16x16 mv for each possible ref */
int8_t *skipbp; /* block pattern for SKIP or DIRECT (sub)mbs. B-frames + cabac only */
int8_t *mb_transform_size; /* transform_size_8x8_flag of each mb */
/* current value */
int i_type;
int i_partition;
int i_sub_partition[4];
int b_transform_8x8;
int i_cbp_luma;
int i_cbp_chroma;
int i_intra16x16_pred_mode;
int i_chroma_pred_mode;
struct
{
/* space for p_fenc and p_fdec */
#define FENC_STRIDE 16
#define FDEC_STRIDE 32
DECLARE_ALIGNED( uint8_t, fenc_buf[24*FENC_STRIDE], 16 );
DECLARE_ALIGNED( uint8_t, fdec_buf[27*FDEC_STRIDE], 16 );
/* pointer over mb of the frame to be compressed */
uint8_t *p_fenc[3];
/* pointer over mb of the frame to be reconstrucated */
uint8_t *p_fdec[3];
/* pointer over mb of the references */
uint8_t *p_fref[2][16][4+2]; /* last: lN, lH, lV, lHV, cU, cV */
uint16_t *p_integral[2][16];
/* fref stride */
int i_stride[3];
} pic;
/* cache */
struct
{
/* real intra4x4_pred_mode if I_4X4 or I_8X8, I_PRED_4x4_DC if mb available, -1 if not */
int intra4x4_pred_mode[X264_SCAN8_SIZE];
/* i_non_zero_count if availble else 0x80 */
int non_zero_count[X264_SCAN8_SIZE];
/* -1 if unused, -2 if unavaible */
int8_t ref[2][X264_SCAN8_SIZE];
/* 0 if non avaible */
int16_t mv[2][X264_SCAN8_SIZE][2];
int16_t mvd[2][X264_SCAN8_SIZE][2];
/* 1 if SKIP or DIRECT. set only for B-frames + CABAC */
int8_t skip[X264_SCAN8_SIZE];
int16_t direct_mv[2][X264_SCAN8_SIZE][2];
int8_t direct_ref[2][X264_SCAN8_SIZE];
/* number of neighbors (top and left) that used 8x8 dct */
int i_neighbour_transform_size;
int b_transform_8x8_allowed;
} cache;
/* */
int i_qp; /* current qp */
int i_last_qp; /* last qp */
int i_last_dqp; /* last delta qp */
int b_variable_qp; /* whether qp is allowed to vary per macroblock */
int b_lossless;
int b_direct_auto_read; /* take stats for --direct auto from the 2pass log */
int b_direct_auto_write; /* analyse direct modes, to use and/or save */
/* B_direct and weighted prediction */
int dist_scale_factor[16][16];
int bipred_weight[16][16];
/* maps fref1[0]'s ref indices into the current list0 */
int map_col_to_list0_buf[2]; // for negative indices
int map_col_to_list0[16];
} mb;
/* rate control encoding only */
x264_ratecontrol_t *rc;//struct x264_ratecontrol_t,ratecontrol.c中定义
/* stats */
struct
{
/* Current frame stats */
struct
{
/* Headers bits (MV+Ref+MB Block Type */
int i_hdr_bits;
/* Texture bits (Intra/Predicted) */
int i_itex_bits;
int i_ptex_bits;
/* ? */
int i_misc_bits;
/* MB type counts */
int i_mb_count[19];
int i_mb_count_i;
int i_mb_count_p;
int i_mb_count_skip;
int i_mb_count_8x8dct[2];//宏块数_8x8DCT
int i_mb_count_size[7];
int i_mb_count_ref[16];
/* Estimated (SATD) cost as Intra/Predicted frame */
/* XXX: both omit the cost of MBs coded as P_SKIP */
int i_intra_cost;
int i_inter_cost;
/* Adaptive direct mv pred */
int i_direct_score[2];
} frame;
/* Cummulated stats */
/* per slice info */
int i_slice_count[5];
int64_t i_slice_size[5];
int i_slice_qp[5];
/* */
int64_t i_sqe_global[5];
float f_psnr_average[5];
float f_psnr_mean_y[5];
float f_psnr_mean_u[5];
float f_psnr_mean_v[5];
/* */
int64_t i_mb_count[5][19];
int64_t i_mb_count_8x8dct[2];
int64_t i_mb_count_size[2][7];
int64_t i_mb_count_ref[2][16];
/* */
int i_direct_score[2];
int i_direct_frames[2];
} stat;
/* CPU functions dependants */
x264_predict_t predict_16x16[4+3];//predict:预测
x264_predict_t predict_8x8c[4+3];
x264_predict8x8_t predict_8x8[9+3];
x264_predict_t predict_4x4[9+3];
x264_pixel_function_t pixf;
x264_mc_functions_t mc;
x264_dct_function_t dctf;
x264_csp_function_t csp;//x264_csp_function_t是一个结构体,在common/csp.h中定义
x264_quant_function_t quantf;//在common/quant.h中定义
x264_deblock_function_t loopf;//在common/frame.h中定义
/* vlc table for decoding purpose only */
x264_vlc_table_t *x264_coeff_token_lookup[5];
x264_vlc_table_t *x264_level_prefix_lookup;
x264_vlc_table_t *x264_total_zeros_lookup[15];
x264_vlc_table_t *x264_total_zeros_dc_lookup[3];
x264_vlc_table_t *x264_run_before_lookup[7];
#if VISUALIZE
struct visualize_t *visualize;
#endif
};
struct x264_t
{
/* encoder parameters ( 编码器参数 )*/
x264_param_t param;
x264_t *thread[X264_SLICE_MAX];
/* bitstream output ( 字节流输出 ) */
struct
{
int i_nal;
x264_nal_t nal[X264_NAL_MAX];
int i_bitstream; /* size of p_bitstream */
uint8_t *p_bitstream; /* will hold data for all nal */
bs_t bs;
} out;
/* frame number/poc ( 帧序号 )*/
int i_frame;
int i_frame_offset; /* decoding only */
int i_frame_num; /* decoding only */
int i_poc_msb; /* decoding only */
int i_poc_lsb; /* decoding only */
int i_poc; /* decoding only */
int i_thread_num; /* threads only */
int i_nal_type; /* threads only */
int i_nal_ref_idc; /* threads only */
/* We use only one SPS(序列参数集) and one PPS(图像参数集) */
x264_sps_t sps_array[1];
x264_sps_t *sps;
x264_pps_t pps_array[1];
x264_pps_t *pps;
int i_idr_pic_id;
int (*dequant4_mf[4])[4][4]; /* [4][6][4][4] */
int (*dequant8_mf[2])[8][8]; /* [2][6][8][8] */
int (*quant4_mf[4])[4][4]; /* [4][6][4][4] */
int (*quant8_mf[2])[8][8]; /* [2][6][8][8] */
int (*unquant4_mf[4])[16]; /* [4][52][16] */
int (*unquant8_mf[2])[64]; /* [2][52][64] */
uint32_t nr_residual_sum[2][64];
uint32_t nr_offset[2][64];
uint32_t nr_count[2];
/* Slice header (片头部) */
x264_slice_header_t sh;
/* cabac(适应性二元算术编码) context */
x264_cabac_t cabac;
struct
{
/* Frames to be encoded (whose types have been decided(明确的) ) */
x264_frame_t *current[X264_BFRAME_MAX+3];//current是已经准备就绪可以编码的帧,其类型已经确定
/* Temporary(临时的) buffer (frames types not yet decided) */
x264_frame_t *next[X264_BFRAME_MAX+3];//next是尚未确定类型的帧
/* 未使用的帧Unused frames */
x264_frame_t *unused[X264_BFRAME_MAX+3];//unused用于回收不使用的frame结构体以备今后再次使用
/* For adaptive(适应的) B decision(决策) */
x264_frame_t *last_nonb;
/* frames used for reference +1 for decoding + sentinels (发射器,标记) */
x264_frame_t *reference[16+2+1+2];
int i_last_idr; /* Frame number of the last IDR (立即刷新图像) */
int i_input; //frames结构体中i_input指示当前输入的帧的(播放顺序)序号。/* Number of input frames already accepted */
int i_max_dpb; /* Number of frames allocated (分配) in the decoded picture buffer */
int i_max_ref0;
int i_max_ref1;
int i_delay; //i_delay设置为由B帧个数(线程个数)确定的帧缓冲延迟,在多线程情况下为i_delay = i_bframe + i_threads - 1。而判断B帧缓冲填充是否足够则通过条件判断:h->frames.i_input <= h->frames.i_delay + 1 - h->param.i_threads。 /* Number of frames buffered for B reordering (重新排序) */
int b_have_lowres; /* Whether 1/2 resolution (分辨率) luma(亮度) planes(平面) are being used */
} frames;//指示和控制帧编码过程的结构
/* current frame being encoded */
x264_frame_t *fenc;
/* frame being reconstructed(重建的) */
x264_frame_t *fdec;
/* references(参考) lists */
int i_ref0;
x264_frame_t *fref0[16+3]; /* ref list 0 */
int i_ref1;
x264_frame_t *fref1[16+3]; /* ref list 1 */
int b_ref_reorder[2];
/* Current MB DCT coeffs(估计系数) */
struct
{
DECLARE_ALIGNED( int, luma16x16_dc[16], 16 );
DECLARE_ALIGNED( int, chroma_dc[2][4], 16 );
// FIXME merge(合并) with union(结合,并集)
DECLARE_ALIGNED( int, luma8x8[4][64], 16 );
union
{
DECLARE_ALIGNED( int, residual_ac[15], 16 );
DECLARE_ALIGNED( int, luma4x4[16], 16 );
} block[16+8];
} dct;
/* MB table and cache(高速缓冲存储器) for current frame/mb */
struct
{
int i_mb_count; /* number of mbs in a frame */ /* 在一帧中的宏块中的序号 */
/* Strides (跨,越) */
int i_mb_stride;
int i_b8_stride;
int i_b4_stride;
/* Current index */
int i_mb_x;
int i_mb_y;
int i_mb_xy;
int i_b8_xy;
int i_b4_xy;
/* Search parameters (搜索参数) */
int i_me_method;
int i_subpel_refine;
int b_chroma_me;
int b_trellis;
int b_noise_reduction;
/* Allowed qpel(四分之一映像点) MV range to stay (继续,停留) within the picture + emulated(模拟) edge (边) pixels */
int mv_min[2];
int mv_max[2];
/* Subpel MV range for motion search.
* same mv_min/max but includes levels' i_mv_range. */
int mv_min_spel[2];
int mv_max_spel[2];
/* Fullpel MV range for motion search */
int mv_min_fpel[2];
int mv_max_fpel[2];
/* neighboring MBs */
unsigned int i_neighbour;
unsigned int i_neighbour8[4]; /* neighbours of each 8x8 or 4x4 block that are available */
unsigned int i_neighbour4[16]; /* at the time the block is coded */
int i_mb_type_top;
int i_mb_type_left;
int i_mb_type_topleft;
int i_mb_type_topright;
/* mb table */
int8_t *type; /* mb type */
int8_t *qp; /* mb qp */
int16_t *cbp; /* mb cbp: 0x0?: luma, 0x?0: chroma, 0x100: luma dc, 0x0200 and 0x0400: chroma dc (all set for PCM)*/
int8_t (*intra4x4_pred_mode)[7]; /* intra4x4 pred mode. for non I4x4 set to I_PRED_4x4_DC(2) */
uint8_t (*non_zero_count)[16+4+4]; /* nzc. for I_PCM set to 16 */
int8_t *chroma_pred_mode; /* chroma_pred_mode. cabac only. for non intra I_PRED_CHROMA_DC(0) */
int16_t (*mv[2])[2]; /* mb mv. set to 0 for intra mb */
int16_t (*mvd[2])[2]; /* mb mv difference with predict. set to 0 if intra. cabac only */
int8_t *ref[2]; /* mb ref. set to -1 if non used (intra or Lx only) */
int16_t (*mvr[2][16])[2]; /* 16x16 mv for each possible ref */
int8_t *skipbp; /* block pattern for SKIP or DIRECT (sub)mbs. B-frames + cabac only */
int8_t *mb_transform_size; /* transform_size_8x8_flag of each mb */
/* current value */
int i_type;
int i_partition;
int i_sub_partition[4];
int b_transform_8x8;
int i_cbp_luma;
int i_cbp_chroma;
int i_intra16x16_pred_mode;
int i_chroma_pred_mode;
struct
{
/* space for p_fenc and p_fdec */
#define FENC_STRIDE 16
#define FDEC_STRIDE 32
DECLARE_ALIGNED( uint8_t, fenc_buf[24*FENC_STRIDE], 16 );
DECLARE_ALIGNED( uint8_t, fdec_buf[27*FDEC_STRIDE], 16 );
/* pointer over mb of the frame to be compressed */
uint8_t *p_fenc[3];
/* pointer over mb of the frame to be reconstrucated */
uint8_t *p_fdec[3];
/* pointer over mb of the references */
uint8_t *p_fref[2][16][4+2]; /* last: lN, lH, lV, lHV, cU, cV */
uint16_t *p_integral[2][16];
/* fref stride */
int i_stride[3];
} pic;
/* cache */
struct
{
/* real intra4x4_pred_mode if I_4X4 or I_8X8, I_PRED_4x4_DC if mb available, -1 if not */
int intra4x4_pred_mode[X264_SCAN8_SIZE];
/* i_non_zero_count if availble else 0x80 */
int non_zero_count[X264_SCAN8_SIZE];
/* -1 if unused, -2 if unavaible */
int8_t ref[2][X264_SCAN8_SIZE];
/* 0 if non avaible */
int16_t mv[2][X264_SCAN8_SIZE][2];
int16_t mvd[2][X264_SCAN8_SIZE][2];
/* 1 if SKIP or DIRECT. set only for B-frames + CABAC */
int8_t skip[X264_SCAN8_SIZE];
int16_t direct_mv[2][X264_SCAN8_SIZE][2];
int8_t direct_ref[2][X264_SCAN8_SIZE];
/* number of neighbors (top and left) that used 8x8 dct */
int i_neighbour_transform_size;
int b_transform_8x8_allowed;
} cache;
/* */
int i_qp; /* current qp */
int i_last_qp; /* last qp */
int i_last_dqp; /* last delta qp */
int b_variable_qp; /* whether qp is allowed to vary per macroblock */
int b_lossless;
int b_direct_auto_read; /* take stats for --direct auto from the 2pass log */
int b_direct_auto_write; /* analyse direct modes, to use and/or save */
/* B_direct and weighted prediction */
int dist_scale_factor[16][16];
int bipred_weight[16][16];
/* maps fref1[0]'s ref indices into the current list0 */
int map_col_to_list0_buf[2]; // for negative indices
int map_col_to_list0[16];
} mb;
/* rate control encoding only */
x264_ratecontrol_t *rc;//struct x264_ratecontrol_t,ratecontrol.c中定义
/* stats */
struct
{
/* Current frame stats */
struct
{
/* Headers bits (MV+Ref+MB Block Type */
int i_hdr_bits;
/* Texture bits (Intra/Predicted) */
int i_itex_bits;
int i_ptex_bits;
/* ? */
int i_misc_bits;
/* MB type counts */
int i_mb_count[19];
int i_mb_count_i;
int i_mb_count_p;
int i_mb_count_skip;
int i_mb_count_8x8dct[2];//宏块数_8x8DCT
int i_mb_count_size[7];
int i_mb_count_ref[16];
/* Estimated (SATD) cost as Intra/Predicted frame */
/* XXX: both omit the cost of MBs coded as P_SKIP */
int i_intra_cost;
int i_inter_cost;
/* Adaptive direct mv pred */
int i_direct_score[2];
} frame;
/* Cummulated stats */
/* per slice info */
int i_slice_count[5];
int64_t i_slice_size[5];
int i_slice_qp[5];
/* */
int64_t i_sqe_global[5];
float f_psnr_average[5];
float f_psnr_mean_y[5];
float f_psnr_mean_u[5];
float f_psnr_mean_v[5];
/* */
int64_t i_mb_count[5][19];
int64_t i_mb_count_8x8dct[2];
int64_t i_mb_count_size[2][7];
int64_t i_mb_count_ref[2][16];
/* */
int i_direct_score[2];
int i_direct_frames[2];
} stat;
/* CPU functions dependants */
x264_predict_t predict_16x16[4+3];//predict:预测
x264_predict_t predict_8x8c[4+3];
x264_predict8x8_t predict_8x8[9+3];
x264_predict_t predict_4x4[9+3];
x264_pixel_function_t pixf;
x264_mc_functions_t mc;
x264_dct_function_t dctf;
x264_csp_function_t csp;//x264_csp_function_t是一个结构体,在common/csp.h中定义
x264_quant_function_t quantf;//在common/quant.h中定义
x264_deblock_function_t loopf;//在common/frame.h中定义
/* vlc table for decoding purpose only */
x264_vlc_table_t *x264_coeff_token_lookup[5];
x264_vlc_table_t *x264_level_prefix_lookup;
x264_vlc_table_t *x264_total_zeros_lookup[15];
x264_vlc_table_t *x264_total_zeros_dc_lookup[3];
x264_vlc_table_t *x264_run_before_lookup[7];
#if VISUALIZE
struct visualize_t *visualize;
#endif
};