/* * Copyright (c) 2024 Intel Corporation. All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sub license, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice (including the * next paragraph) shall be included in all copies or substantial portions * of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. * IN NO EVENT SHALL INTEL AND/OR ITS SUPPLIERS BE LIABLE FOR * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /** * \file va_dec_vvc.h * \brief The VVC decoding API * * This file contains the \ref api_dec_vvc "VVC decoding API". */ #ifndef VA_DEC_VVC_H #define VA_DEC_VVC_H #include #ifdef __cplusplus extern "C" { #endif /** * \defgroup api_dec_vvc VVC decoding API * * This VVC decoding API supports Main 10 profile and Multilayer Main 10 profile. * And it supports only long slice format. * * @{ */ /** * \brief Weighted Prediction Parameters. */ typedef struct _VAWeightedPredInfo { /** \brief Weighted Prediction parameters. * All the parameters except reserved bytes are VVC syntax. */ uint8_t luma_log2_weight_denom; int8_t delta_chroma_log2_weight_denom; uint8_t num_l0_weights; uint8_t luma_weight_l0_flag[15]; uint8_t chroma_weight_l0_flag[15]; int8_t delta_luma_weight_l0[15]; int8_t luma_offset_l0[15]; int8_t delta_chroma_weight_l0[15][2]; int16_t delta_chroma_offset_l0[15][2]; uint8_t num_l1_weights; uint8_t luma_weight_l1_flag[15]; uint8_t chroma_weight_l1_flag[15]; int8_t delta_luma_weight_l1[15]; int8_t luma_offset_l1[15]; int8_t delta_chroma_weight_l1[15][2]; int16_t delta_chroma_offset_l1[15][2]; /** \brief Reserved for future use, must be zero */ uint16_t reserved16b; uint32_t reserved32b; } VAWeightedPredInfo; /** * \brief VVC Decoding Picture Parameter Buffer Structure * * This structure conveys picture level parameters and should be sent once * per frame. * * Host decoder is required to send in a buffer of VAPictureParameterBufferVVC * as the first va buffer for each frame. * */ typedef struct _VAPictureParameterBufferVVC { /** \brief buffer description of decoded current picture */ VAPictureVVC CurrPic; /** \brief buffer description of reference frames in DPB */ VAPictureVVC ReferenceFrames[15]; /** \brief picture width, shall be integer multiple of Max(8, MinCbSizeY). */ uint16_t pps_pic_width_in_luma_samples; /** \brief picture height, shall be integer multiple of Max(8, MinCbSizeY). */ uint16_t pps_pic_height_in_luma_samples; /** \brief sequence level parameters. * All the parameters except reserved bytes are VVC syntax or spec variables. */ uint16_t sps_num_subpics_minus1; uint8_t sps_chroma_format_idc; uint8_t sps_bitdepth_minus8; uint8_t sps_log2_ctu_size_minus5; uint8_t sps_log2_min_luma_coding_block_size_minus2; uint8_t sps_log2_transform_skip_max_size_minus2; /** \brief chroma QP mapping table. * ChromaQpTable[][] corresponds to VVC spec variable with the same name. * It is derived according to formula (57) in VVC spec section 7.4.3.4. */ int8_t ChromaQpTable[3][111]; uint8_t sps_six_minus_max_num_merge_cand; uint8_t sps_five_minus_max_num_subblock_merge_cand; uint8_t sps_max_num_merge_cand_minus_max_num_gpm_cand; uint8_t sps_log2_parallel_merge_level_minus2; uint8_t sps_min_qp_prime_ts; uint8_t sps_six_minus_max_num_ibc_merge_cand; uint8_t sps_num_ladf_intervals_minus2; int8_t sps_ladf_lowest_interval_qp_offset; int8_t sps_ladf_qp_offset[4]; uint16_t sps_ladf_delta_threshold_minus1[4]; /** \brief Reserved for future use, must be zero */ uint32_t reserved32b01[VA_PADDING_LOW - 2]; union { struct { uint64_t sps_subpic_info_present_flag : 1; uint64_t sps_independent_subpics_flag : 1; uint64_t sps_subpic_same_size_flag : 1; uint64_t sps_entropy_coding_sync_enabled_flag : 1; uint64_t sps_qtbtt_dual_tree_intra_flag : 1; uint64_t sps_max_luma_transform_size_64_flag : 1; uint64_t sps_transform_skip_enabled_flag : 1; uint64_t sps_bdpcm_enabled_flag : 1; uint64_t sps_mts_enabled_flag : 1; uint64_t sps_explicit_mts_intra_enabled_flag : 1; uint64_t sps_explicit_mts_inter_enabled_flag : 1; uint64_t sps_lfnst_enabled_flag : 1; uint64_t sps_joint_cbcr_enabled_flag : 1; uint64_t sps_same_qp_table_for_chroma_flag : 1; uint64_t sps_sao_enabled_flag : 1; uint64_t sps_alf_enabled_flag : 1; uint64_t sps_ccalf_enabled_flag : 1; uint64_t sps_lmcs_enabled_flag : 1; uint64_t sps_sbtmvp_enabled_flag : 1; uint64_t sps_amvr_enabled_flag : 1; uint64_t sps_smvd_enabled_flag : 1; uint64_t sps_mmvd_enabled_flag : 1; uint64_t sps_sbt_enabled_flag : 1; uint64_t sps_affine_enabled_flag : 1; uint64_t sps_6param_affine_enabled_flag : 1; uint64_t sps_affine_amvr_enabled_flag : 1; uint64_t sps_affine_prof_enabled_flag : 1; uint64_t sps_bcw_enabled_flag : 1; uint64_t sps_ciip_enabled_flag : 1; uint64_t sps_gpm_enabled_flag : 1; uint64_t sps_isp_enabled_flag : 1; uint64_t sps_mrl_enabled_flag : 1; uint64_t sps_mip_enabled_flag : 1; uint64_t sps_cclm_enabled_flag : 1; uint64_t sps_chroma_horizontal_collocated_flag : 1; uint64_t sps_chroma_vertical_collocated_flag : 1; uint64_t sps_palette_enabled_flag : 1; uint64_t sps_act_enabled_flag : 1; uint64_t sps_ibc_enabled_flag : 1; uint64_t sps_ladf_enabled_flag : 1; uint64_t sps_explicit_scaling_list_enabled_flag : 1; uint64_t sps_scaling_matrix_for_lfnst_disabled_flag : 1; uint64_t sps_scaling_matrix_for_alternative_colour_space_disabled_flag : 1; uint64_t sps_scaling_matrix_designated_colour_space_flag : 1; uint64_t sps_virtual_boundaries_enabled_flag : 1; uint64_t sps_virtual_boundaries_present_flag : 1; /** \brief Reserved for future use, must be zero */ uint64_t reserved : 18; } bits; uint64_t value; } sps_flags; /** \brief picture level parameters. * All the parameters except reserved bytes are VVC syntax or spec variables. */ /** \brief number of vertical virtual boundaries on the picture. * NumVerVirtualBoundaries corresponds to VVC spec variable with the same name. * It is derived according to formula (78) in VVC spec section 7.4.3.8. */ uint8_t NumVerVirtualBoundaries; /** \brief number of horizontal virtual boundaries on the picture. * NumHorVirtualBoundaries corresponds to VVC spec variable with the same name. * It is derived according to formula (80) in VVC spec section 7.4.3.8. */ uint8_t NumHorVirtualBoundaries; /** \brief location of the vertical virtual boundary in units of luma samples. * VirtualBoundaryPosX[] corresponds to VVC spec variable with the same name. * It is derived according to formula (79) in VVC spec section 7.4.3.8. */ uint16_t VirtualBoundaryPosX[3]; /** \brief location of the horizontal virtual boundary in units of luma samples. * VirtualBoundaryPosY[] corresponds to VVC spec variable with the same name. * It is derived according to formula (81) in VVC spec section 7.4.3.8. */ uint16_t VirtualBoundaryPosY[3]; int32_t pps_scaling_win_left_offset; int32_t pps_scaling_win_right_offset; int32_t pps_scaling_win_top_offset; int32_t pps_scaling_win_bottom_offset; int8_t pps_num_exp_tile_columns_minus1; uint16_t pps_num_exp_tile_rows_minus1; uint16_t pps_num_slices_in_pic_minus1; uint16_t pps_pic_width_minus_wraparound_offset; int8_t pps_cb_qp_offset; int8_t pps_cr_qp_offset; int8_t pps_joint_cbcr_qp_offset_value; uint8_t pps_chroma_qp_offset_list_len_minus1; int8_t pps_cb_qp_offset_list[6]; int8_t pps_cr_qp_offset_list[6]; int8_t pps_joint_cbcr_qp_offset_list[6]; /** \brief Reserved for future use, must be zero */ uint16_t reserved16b01; uint32_t reserved32b02[VA_PADDING_LOW - 2]; union { struct { uint32_t pps_loop_filter_across_tiles_enabled_flag : 1; uint32_t pps_rect_slice_flag : 1; uint32_t pps_single_slice_per_subpic_flag : 1; uint32_t pps_loop_filter_across_slices_enabled_flag : 1; uint32_t pps_weighted_pred_flag : 1; uint32_t pps_weighted_bipred_flag : 1; uint32_t pps_ref_wraparound_enabled_flag : 1; uint32_t pps_cu_qp_delta_enabled_flag : 1; uint32_t pps_cu_chroma_qp_offset_list_enabled_flag : 1; uint32_t pps_deblocking_filter_override_enabled_flag : 1; uint32_t pps_deblocking_filter_disabled_flag : 1; uint32_t pps_dbf_info_in_ph_flag : 1; uint32_t pps_sao_info_in_ph_flag : 1; uint32_t pps_alf_info_in_ph_flag : 1; /** \brief Reserved for future use, must be zero */ uint32_t reserved : 18; } bits; uint32_t value; } pps_flags; /** \brief picture header parameters. * All the parameters except reserved bytes are VVC syntax or spec variables. */ uint8_t ph_lmcs_aps_id; uint8_t ph_scaling_list_aps_id; uint8_t ph_log2_diff_min_qt_min_cb_intra_slice_luma; uint8_t ph_max_mtt_hierarchy_depth_intra_slice_luma; uint8_t ph_log2_diff_max_bt_min_qt_intra_slice_luma; uint8_t ph_log2_diff_max_tt_min_qt_intra_slice_luma; uint8_t ph_log2_diff_min_qt_min_cb_intra_slice_chroma; uint8_t ph_max_mtt_hierarchy_depth_intra_slice_chroma; uint8_t ph_log2_diff_max_bt_min_qt_intra_slice_chroma; uint8_t ph_log2_diff_max_tt_min_qt_intra_slice_chroma; uint8_t ph_cu_qp_delta_subdiv_intra_slice; uint8_t ph_cu_chroma_qp_offset_subdiv_intra_slice; uint8_t ph_log2_diff_min_qt_min_cb_inter_slice; uint8_t ph_max_mtt_hierarchy_depth_inter_slice; uint8_t ph_log2_diff_max_bt_min_qt_inter_slice; uint8_t ph_log2_diff_max_tt_min_qt_inter_slice; uint8_t ph_cu_qp_delta_subdiv_inter_slice; uint8_t ph_cu_chroma_qp_offset_subdiv_inter_slice; /** \brief Reserved for future use, must be zero */ uint16_t reserved16b02; uint32_t reserved32b03[VA_PADDING_LOW - 2]; union { struct { uint32_t ph_non_ref_pic_flag : 1; uint32_t ph_alf_enabled_flag : 1; uint32_t ph_alf_cb_enabled_flag : 1; uint32_t ph_alf_cr_enabled_flag : 1; uint32_t ph_alf_cc_cb_enabled_flag : 1; uint32_t ph_alf_cc_cr_enabled_flag : 1; uint32_t ph_lmcs_enabled_flag : 1; uint32_t ph_chroma_residual_scale_flag : 1; uint32_t ph_explicit_scaling_list_enabled_flag : 1; uint32_t ph_virtual_boundaries_present_flag : 1; uint32_t ph_temporal_mvp_enabled_flag : 1; uint32_t ph_mmvd_fullpel_only_flag : 1; uint32_t ph_mvd_l1_zero_flag : 1; uint32_t ph_bdof_disabled_flag : 1; uint32_t ph_dmvr_disabled_flag : 1; uint32_t ph_prof_disabled_flag : 1; uint32_t ph_joint_cbcr_sign_flag : 1; uint32_t ph_sao_luma_enabled_flag : 1; uint32_t ph_sao_chroma_enabled_flag : 1; uint32_t ph_deblocking_filter_disabled_flag : 1; /** \brief Reserved for future use, must be zero */ uint32_t reserved : 12; } bits; uint32_t value; } ph_flags; /** \brief Reserved for future use, must be zero */ uint32_t reserved32b04; union { struct { /** \brief Flag to indicate if current picture is an intra picture. * Takes value 1 when all slices of current picture are intra slices. * Takes value 0 when some slices of current picture may not be * intra slices. */ uint32_t IntraPicFlag : 1; // [0..1] /** \brief Reserved for future use, must be zero */ uint32_t reserved : 31; } fields; uint32_t value; } PicMiscFlags; /** \brief Reserved bytes for future use, must be zero */ uint32_t reserved32b[VA_PADDING_HIGH + 1]; } VAPictureParameterBufferVVC; /** * \brief VVC Slice Parameter Buffer Structure * * VASliceParameterBufferVVC structure should be accompanied by a * slice data buffer, which holds the whole packed slice NAL unit bit stream * with emulation prevention bytes not removed. * * This structure conveys parameters related to slice header and should * be sent once per slice. */ typedef struct _VASliceParameterBufferVVC { /** @name Codec-independent Slice Parameter Buffer base. */ /**@{*/ /** \brief Number of bytes in the slice data buffer for this slice * counting from and including NAL unit header. */ uint32_t slice_data_size; /** \brief The offset to the NAL unit header for this slice */ uint32_t slice_data_offset; /** \brief Slice data buffer flags. See \c VA_SLICE_DATA_FLAG_XXX. */ uint32_t slice_data_flag; /** * \brief Byte offset from NAL unit header to the beginning of slice_data(). * * This byte offset is relative to and includes the NAL unit header * and represents the number of bytes parsed in the slice_header() * after the removal of any emulation prevention bytes in * there. However, the slice data buffer passed to the hardware is * the original bitstream, thus including any emulation prevention * bytes. */ uint32_t slice_data_byte_offset; /** \brief index into ReferenceFrames[] * RefPicList[][] corresponds to VVC spec variable with the same name. * Value range [0..14, 0xFF], where 0xFF indicates invalid entry. */ uint8_t RefPicList[2][15]; /** * \brief the subpicture ID of the subpicture that contains the slice. * The value of the variable CurrSubpicIdx * is derived to be such that SubpicIdVal[CurrSubpicIdx] is equal * to sh_subpic_id. CurrSubpicIdx is the index of array VASubPicArrayBufferVVC.SubPicSet[]. * And it is the spec variable with the same name. */ uint16_t sh_subpic_id; /* parameters below are VVC syntax or spec variables. */ uint16_t sh_slice_address; uint16_t sh_num_tiles_in_slice_minus1; uint8_t sh_slice_type; uint8_t sh_num_alf_aps_ids_luma; uint8_t sh_alf_aps_id_luma[7]; uint8_t sh_alf_aps_id_chroma; uint8_t sh_alf_cc_cb_aps_id; uint8_t sh_alf_cc_cr_aps_id; /** * \brief NumRefIdxActive[i] - 1 specifies the maximum reference index * for RPL i that may be used to decode the slice. When NumRefIdxActive[i] * is equal to 0, no reference index for RPL i is used to decode the slice. * NumRefIdxActive[] corresponds to VVC spec variable with the same name. * It is derived according to formula (138) in VVC spec section 7.4.8. */ uint8_t NumRefIdxActive[2]; uint8_t sh_collocated_ref_idx; /** * \brief initial value of the QpY quantization parameter for the slice. * SliceQpY corresponds to VVC spec variable with the same name. * It is derived according to formula (86) in VVC spec section 7.4.3.8 * and formula (139) in VVC Spec section 7.4.8. */ int8_t SliceQpY; /* parameters below are VVC syntax. */ int8_t sh_cb_qp_offset; int8_t sh_cr_qp_offset; int8_t sh_joint_cbcr_qp_offset; int8_t sh_luma_beta_offset_div2; int8_t sh_luma_tc_offset_div2; int8_t sh_cb_beta_offset_div2; int8_t sh_cb_tc_offset_div2; int8_t sh_cr_beta_offset_div2; int8_t sh_cr_tc_offset_div2; /** \brief Reserved bytes for future use, must be zero */ uint8_t reserved8b[VA_PADDING_LOW - 1]; uint32_t reserved32b; // weighted prediction info VAWeightedPredInfo WPInfo; union { struct { /* flags below are VVC syntax. */ uint32_t sh_alf_enabled_flag : 1; uint32_t sh_alf_cb_enabled_flag : 1; uint32_t sh_alf_cr_enabled_flag : 1; uint32_t sh_alf_cc_cb_enabled_flag : 1; uint32_t sh_alf_cc_cr_enabled_flag : 1; uint32_t sh_lmcs_used_flag : 1; uint32_t sh_explicit_scaling_list_used_flag : 1; uint32_t sh_cabac_init_flag : 1; uint32_t sh_collocated_from_l0_flag : 1; uint32_t sh_cu_chroma_qp_offset_enabled_flag : 1; uint32_t sh_sao_luma_used_flag : 1; uint32_t sh_sao_chroma_used_flag : 1; uint32_t sh_deblocking_filter_disabled_flag : 1; uint32_t sh_dep_quant_used_flag : 1; uint32_t sh_sign_data_hiding_used_flag : 1; uint32_t sh_ts_residual_coding_disabled_flag : 1; /** \brief Reserved for future use, must be zero */ uint32_t reserved : 16; } bits; uint32_t value; } sh_flags; /** \brief Reserved bytes for future use, must be zero */ uint32_t va_reserved[VA_PADDING_MEDIUM]; } VASliceParameterBufferVVC; /** * \brief VVC Scaling List Data Structure * * Host decoder sends in an array of VVC Scaling Lists through one or multiple * buffers which may contain 1 to 8 VAScalingListVVC data structures in total. * Each buffer contains an integer number of VAScalingListVVC data structures * with no gap in between. * Driver may store the data internally. Host decoder may choose not to * send the same scaling list data for each frame. When a VAScalingListVVC * structure carries a same value of aps_adaptation_parameter_set_id * as a previously stored structure, driver should override the old structure * with values in the new structure. * VAIQMatrixBufferType is used to send this buffer. */ typedef struct _VAScalingListVVC { /** \brief VVC syntax to specify the identifier for the APS.*/ uint8_t aps_adaptation_parameter_set_id; /** \brief Reserved for future use, must be zero */ uint8_t reserved8b; /** * \brief Specifies the spec variable ScalingMatrixDCRec[id−14], * where id = [14..27]. */ uint8_t ScalingMatrixDCRec[14]; /** * \brief Specifies the spec variable ScalingMatrixRec[id][x][y], * where id = [0..1]. Check section 7.4.3.20 for derivation process. */ uint8_t ScalingMatrixRec2x2[2][2][2]; /** * \brief Specifies the spec variable ScalingMatrixRec[id][x][y], * where id = [2..7]. Check section 7.4.3.20 for derivation process. */ uint8_t ScalingMatrixRec4x4[6][4][4]; /** * \brief Specifies the spec variable ScalingMatrixRec[id][x][y], * where id = [8..27]. Check section 7.4.3.20 for derivation process. */ uint8_t ScalingMatrixRec8x8[20][8][8]; /** \brief Reserved bytes for future use, must be zero */ uint32_t va_reserved[VA_PADDING_MEDIUM]; } VAScalingListVVC; /** * \brief VVC Adaptive Loop Filter Data Structure * * Host decoder sends in an array of VVC ALF sets through one or multiple * buffers which may contain 1 to 8 VAAlfDataVVC data structures in total. * Each buffer contains an integer number of VAAlfDataVVC data structures * with no gap in between. * Driver may store the data internally. Host decoder may choose not to * send the same ALF data for each frame. When a VAAlfDataVVC structure * carries a same value of aps_adaptation_parameter_set_id as a previously * stored structure, driver should override the old structure * with values in the new structure. * VAAlfBufferType is used to send this buffer. */ typedef struct _VAAlfDataVVC { /** * \brief VVC Adaptive Loop Filter parameters. * All the parameters except reserved bytes are VVC syntax or spec variables. */ uint8_t aps_adaptation_parameter_set_id; uint8_t alf_luma_num_filters_signalled_minus1; uint8_t alf_luma_coeff_delta_idx[25]; int8_t filtCoeff[25][12]; uint8_t alf_luma_clip_idx[25][12]; uint8_t alf_chroma_num_alt_filters_minus1; int8_t AlfCoeffC[8][6]; uint8_t alf_chroma_clip_idx[8][6]; uint8_t alf_cc_cb_filters_signalled_minus1; int8_t CcAlfApsCoeffCb[4][7]; uint8_t alf_cc_cr_filters_signalled_minus1; int8_t CcAlfApsCoeffCr[4][7]; /** \brief Reserved bytes for future use, must be zero */ uint16_t reserved16b; uint32_t reserved32b; union { struct { uint32_t alf_luma_filter_signal_flag : 1; uint32_t alf_chroma_filter_signal_flag : 1; uint32_t alf_cc_cb_filter_signal_flag : 1; uint32_t alf_cc_cr_filter_signal_flag : 1; uint32_t alf_luma_clip_flag : 1; uint32_t alf_chroma_clip_flag : 1; /** \brief Reserved for future use, must be zero */ uint32_t reserved : 26; } bits; uint32_t value; } alf_flags; /** \brief Reserved for future use, must be zero */ uint32_t va_reserved[VA_PADDING_MEDIUM]; } VAAlfDataVVC; /** * \brief VVC Luma Mapping with Chroma Scaling Data Structure * * Host decoder sends in an array of VVC LMCS sets through one or multiple * buffers which may contain 1 to 4 VALmcsDataVVC data structures in total. * Each buffer contains an integer number of VALmcsDataVVC data structures * with no gap in between. * Driver may store the data internally. Host decoder may choose not to * send the same LMCS data for each frame. When a VALmcsDataVVC structure * carries a same value of aps_adaptation_parameter_set_id as a previously * stored structure, driver should override the old structure * with values in the new structure. * VALmcsBufferType is used to send this buffer. */ typedef struct _VALmcsDataVVC { /** * \brief VVC Luma Mapping with Chroma Scaling parameters. * All the parameters except reserved bytes are VVC syntax or spec variables. */ uint8_t aps_adaptation_parameter_set_id; uint8_t lmcs_min_bin_idx; uint8_t lmcs_delta_max_bin_idx; int16_t lmcsDeltaCW[16]; int8_t lmcsDeltaCrs; /** \brief Reserved for future use, must be zero */ uint8_t reserved8b[VA_PADDING_LOW - 1]; uint32_t va_reserved[VA_PADDING_MEDIUM]; } VALmcsDataVVC; /** * \brief VVC SubPicture Data Structure * * Host decoder sends in an array of VVC SubPic sets through one or * multiple buffers which contain sps_num_subpics_minus1 + 1 * VASubPicVVC data structures in total. Each buffer contains * an integer number of VASubPicVVC data structures with no gap in between. * The Subpic sets are sent sequentially in the order of indices * from 0 to sps_num_subpics_minus1 according to the bitstream. * VASubPicBufferType is used to send this buffer. */ typedef struct _VASubPicVVC { /** * \brief VVC SubPicture layout parameters. * All the parameters except reserved bytes are VVC syntax or spec variables. */ uint16_t sps_subpic_ctu_top_left_x; uint16_t sps_subpic_ctu_top_left_y; uint16_t sps_subpic_width_minus1; uint16_t sps_subpic_height_minus1; /** \brief the subpicture ID of the i-th subpicture. * It is same variable as in VVC spec. */ uint16_t SubpicIdVal; union { struct { uint16_t sps_subpic_treated_as_pic_flag : 1; uint16_t sps_loop_filter_across_subpic_enabled_flag : 1; /** \brief Reserved for future use, must be zero */ uint16_t reserved : 14; } bits; uint16_t value; } subpic_flags; /** \brief Reserved for future use, must be zero */ uint32_t va_reserved[VA_PADDING_LOW]; } VASubPicVVC; /** * \brief data buffer of tile widths and heights. * VATileBufferType is used to send this buffer. * * Host decoder sends in number of pps_num_exp_tile_columns_minus1 + 1 * tile column widths of pps_tile_column_width_minus1[i], followed by * number of pps_num_exp_tile_rows_minus1 + 1 of tile row heights of * pps_tile_row_height_minus1[i], through one or multiple buffers. * Each tile width or height is formatted as uint16_t tile_dimension; * Each buffer contains an integer number of tile_dimension with * no gap in between. * The buffers with type VATileBufferType should be submitted for each * picture. And driver will derive the tile structure from it. * When pps_num_exp_tile_columns_minus1 + pps_num_exp_tile_rows_minus1 equals 0, * this buffer is still submitted by app to driver. */ /** * \brief VVC SliceStruct Data Structure * * Host decoder sends in an array of SliceStruct sets through one or multiple * buffers. These SliceStruct sets contain only the "explicit" slices parsed * from PPS header. * Each SliceStruct set is described by VASliceStructVVC data structure. * Each buffer contains an integer number of VASliceStructVVC data structures, * which are laid out sequentially in the order of * ascending slice indices according to the spec with no gap in between. * * When pps_rect_slice_flag equals 0 or there are no explicit slices, * this buffer is not submitted by app to driver. Otherwise, for each picture, * this buffer should be submitted. * * Note: When pps_slice_width_in_tiles_minus1 + pps_slice_height_in_tiles_minus1 * equals 0, if the sum of pps_exp_slice_height_in_ctus_minus1 + 1 of all those * slices with same SliceTopLeftTileIdx value is less than the height of tile * SliceTopLeftTileIdx in unit of CTUs, driver should derive the rest slices in * that tile according to equation (21) in spec section 6.5.1. And VASliceStructVVC * for these (derived) slices are not passed in to LibVA by App. * * App should populate the data entries regardless of values of * pps_single_slice_per_subpic_flag or sps_subpic_info_present_flag. * * VASliceStructBufferType is used to send this buffer. */ typedef struct _VASliceStructVVC { /** \brief the tile index of which the starting CTU (top-left) of * the slice belongs to. The tile index is in raster scan order. * Same syntax variable as in VVC spec. */ uint16_t SliceTopLeftTileIdx; /* plus 1 specifies the width of the rectangular slice in units * of tile columns. */ uint16_t pps_slice_width_in_tiles_minus1; /* plus 1 specifies the height of the rectangular slice in units * of tile rows. If the slice does not cover the whole tile, * pps_slice_height_in_tiles_minus1 shall be 0. */ uint16_t pps_slice_height_in_tiles_minus1; /* plus 1 specifies the height of the rectangular slice in units * of CTU rows. * If pps_slice_width_in_tiles_minus1 + pps_slice_height_in_tiles_minus1 > 0, * set this value to 0. * If pps_slice_width_in_tiles_minus1 + pps_slice_height_in_tiles_minus1 == 0, * and if there is only one slice in tile, set this value to the number of * CTU rows of the tile minus 1, otherwise, set the value equal to * corresponding pps_exp_slice_height_in_ctus_minus1 from bitstream. */ uint16_t pps_exp_slice_height_in_ctus_minus1; /** \brief Reserved for future use, must be zero */ uint32_t va_reserved[VA_PADDING_LOW]; } VASliceStructVVC; /**@}*/ #ifdef __cplusplus } #endif #endif /* VA_DEC_VVC_H */