/****************************************************************************** * * Copyright (C) 2022 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ***************************************************************************** * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore */ /** ******************************************************************************* * @file * isvce_deblk.c * * @brief * This file contains functions that are associated with deblocking * * @author * ittiam * * @par List of Functions: * - isvce_fill_bs_1mv_1ref_non_mbaff * - isvce_compute_bs * - isvce_filter_top_edge * - isvce_filter_left_edge * - isvce_deblock_mb * * @remarks * None * ******************************************************************************* */ #include #include #include "ih264e_config.h" #include "ih264_typedefs.h" #include "iv2.h" #include "ive2.h" #include "isvc_macros.h" #include "isvc_defs.h" #include "isvc_structs.h" #include "ih264_trans_data.h" #include "isvc_trans_quant_itrans_iquant.h" #include "isvc_inter_pred_filters.h" #include "isvc_mem_fns.h" #include "ih264_padding.h" #include "ih264_intra_pred_filters.h" #include "ih264_deblk_edge_filters.h" #include "isvc_cabac_tables.h" #include "ih264_deblk_tables.h" #include "isvce_defs.h" #include "ih264e_error.h" #include "ih264e_bitstream.h" #include "ime_distortion_metrics.h" #include "ime_defs.h" #include "ime_structs.h" #include "irc_cntrl_param.h" #include "irc_frame_info_collector.h" #include "isvce_rate_control.h" #include "isvce_cabac_structs.h" #include "isvce_structs.h" #include "isvce_deblk.h" #include "isvce_globals.h" static const UWORD32 gau4_isvce_packed_bs2[(1 << MAX_TU_IN_MB_COL) * 2] = { /* BS TABLES FOR NORMAL EDGES */ 0x00000000, 0x02000000, 0x00020000, 0x02020000, 0x00000200, 0x02000200, 0x00020200, 0x02020200, 0x00000002, 0x02000002, 0x00020002, 0x02020002, 0x00000202, 0x02000202, 0x00020202, 0x02020202, /* BS TABLES FOR XTRA LEFT MB EDGES IN MBAFF CASE */ 0x01010101, 0x02010101, 0x01020101, 0x02020101, 0x01010201, 0x02010201, 0x01020201, 0x02020201, 0x01010102, 0x02010102, 0x01020102, 0x02020102, 0x01010202, 0x02010202, 0x01020202, 0x02020202}; static const UWORD16 gau2_isvce_4x4_v2h_reorder[(1 << MAX_TU_IN_MB_COL)] = { 0x0000, 0x0001, 0x0010, 0x0011, 0x0100, 0x0101, 0x0110, 0x0111, 0x1000, 0x1001, 0x1010, 0x1011, 0x1100, 0x1101, 0x1110, 0x1111}; static void isvce_fill_bs1_16x16mb_pslice(isvce_mb_info_t *ps_cur_mb, isvce_mb_info_t *ps_top_mb, isvce_mb_info_t *ps_left_mb, UWORD32 *pu4_bs_table, coordinates_t *ps_mb_pos) { WORD16 i2_q_mv0, i2_q_mv1; WORD16 i2_p_mv0, i2_p_mv1; UWORD32 i; UWORD32 u4_bs_horz = pu4_bs_table[0]; UWORD32 u4_bs_vert = pu4_bs_table[4]; i2_q_mv0 = ps_cur_mb->as_pu->as_me_info[L0].s_mv.i2_mvx; i2_q_mv1 = ps_cur_mb->as_pu->as_me_info[L0].s_mv.i2_mvy; if(ps_mb_pos->i4_ordinate) { /* Computing Bs for the top edge */ for(i = 0; i < 4; i++) { UWORD32 u4_idx = 24 - (i << 3); /* check if Bs is already set */ if(!((u4_bs_horz >> u4_idx) & 0xf)) { /************************************************************/ /* If Bs is not set, use left edge and current edge mvs and */ /* reference pictures addresses to evaluate Bs==1 */ /************************************************************/ UWORD32 u4_bs_temp1; UWORD32 u4_bs; /*********************************************************/ /* If any motion vector component differs by more than 1 */ /* integer pel or if reference pictures are different Bs */ /* is set to 1. Note that this condition shall be met for*/ /* both (fwd-fwd,bwd-bwd) and (fwd-bwd,bwd-fwd) direction*/ /*********************************************************/ i2_p_mv0 = ps_top_mb->as_pu->as_me_info[L0].s_mv.i2_mvx; i2_p_mv1 = ps_top_mb->as_pu->as_me_info[L0].s_mv.i2_mvy; u4_bs_temp1 = ((ABS((i2_p_mv0 - i2_q_mv0)) >= 4) || (ABS((i2_p_mv1 - i2_q_mv1)) >= 4)); u4_bs = ((ps_cur_mb->as_pu->as_me_info[L0].i1_ref_idx != ps_top_mb->as_pu->as_me_info[L0].i1_ref_idx) || u4_bs_temp1); u4_bs_horz |= (u4_bs << u4_idx); } } pu4_bs_table[0] = u4_bs_horz; } if(ps_mb_pos->i4_abscissa) { /* Computing Bs for the left edge */ for(i = 0; i < 4; i++) { UWORD32 u4_idx = 24 - (i << 3); /* check if Bs is already set */ if(!((u4_bs_vert >> u4_idx) & 0xf)) { /* If Bs is not set, evalaute conditions for Bs=1 */ UWORD32 u4_bs_temp1; UWORD32 u4_bs; /*********************************************************/ /* If any motion vector component differs by more than 1 */ /* integer pel or if reference pictures are different Bs */ /* is set to 1. Note that this condition shall be met for*/ /* both (fwd-fwd,bwd-bwd) and (fwd-bwd,bwd-fwd) direction*/ /*********************************************************/ i2_p_mv0 = ps_left_mb->as_pu->as_me_info[L0].s_mv.i2_mvx; i2_p_mv1 = ps_left_mb->as_pu->as_me_info[L0].s_mv.i2_mvy; u4_bs_temp1 = ((ABS((i2_p_mv0 - i2_q_mv0)) >= 4) | (ABS((i2_p_mv1 - i2_q_mv1)) >= 4)); u4_bs = ((ps_cur_mb->as_pu->as_me_info[L0].i1_ref_idx != ps_left_mb->as_pu->as_me_info[L0].i1_ref_idx) || u4_bs_temp1); u4_bs_vert |= (u4_bs << u4_idx); } } pu4_bs_table[4] = u4_bs_vert; } } static void isvce_fill_bs1_16x16mb_bslice(isvce_mb_info_t *ps_cur_mb, isvce_mb_info_t *ps_top_mb, isvce_mb_info_t *ps_left_mb, UWORD32 *pu4_bs_table, coordinates_t *ps_mb_pos) { WORD16 i2_q_mv0, i2_q_mv1, i2_q_mv2, i2_q_mv3; WORD16 i2_p_mv0, i2_p_mv1, i2_p_mv2, i2_p_mv3; UWORD32 i; UWORD32 u4_bs_horz = pu4_bs_table[0]; UWORD32 u4_bs_vert = pu4_bs_table[4]; i2_q_mv0 = ps_cur_mb->as_pu->as_me_info[L0].s_mv.i2_mvx; i2_q_mv1 = ps_cur_mb->as_pu->as_me_info[L0].s_mv.i2_mvy; i2_q_mv2 = ps_cur_mb->as_pu->as_me_info[L1].s_mv.i2_mvx; i2_q_mv3 = ps_cur_mb->as_pu->as_me_info[L1].s_mv.i2_mvy; /* Computing Bs for the top edge */ if(ps_mb_pos->i4_ordinate) { for(i = 0; i < 4; i++) { UWORD32 u4_idx = 24 - (i << 3); /* check if Bs is already set */ if(!((u4_bs_horz >> u4_idx) & 0xf)) { /************************************************************/ /* If Bs is not set, use left edge and current edge mvs and */ /* reference pictures addresses to evaluate Bs==1 */ /************************************************************/ UWORD32 u4_bs_temp1, u4_bs_temp2; UWORD32 u4_bs; /*********************************************************/ /* If any motion vector component differs by more than 1 */ /* integer pel or if reference pictures are different Bs */ /* is set to 1. Note that this condition shall be met for*/ /* both (fwd-fwd,bwd-bwd) and (fwd-bwd,bwd-fwd) direction*/ /*********************************************************/ i2_p_mv0 = ps_top_mb->as_pu->as_me_info[L0].s_mv.i2_mvx; i2_p_mv1 = ps_top_mb->as_pu->as_me_info[L0].s_mv.i2_mvy; i2_p_mv2 = ps_top_mb->as_pu->as_me_info[L1].s_mv.i2_mvx; i2_p_mv3 = ps_top_mb->as_pu->as_me_info[L1].s_mv.i2_mvy; u4_bs_temp1 = ((ABS((i2_p_mv0 - i2_q_mv0)) >= 4) | (ABS((i2_p_mv1 - i2_q_mv1)) >= 4) | (ABS((i2_p_mv2 - i2_q_mv2)) >= 4) | (ABS((i2_p_mv3 - i2_q_mv3)) >= 4)); u4_bs_temp2 = ((ABS((i2_p_mv0 - i2_q_mv2)) >= 4) | (ABS((i2_p_mv1 - i2_q_mv3)) >= 4) | (ABS((i2_p_mv2 - i2_q_mv0)) >= 4) | (ABS((i2_p_mv3 - i2_q_mv1)) >= 4)); u4_bs = ((ps_cur_mb->as_pu->as_me_info[L0].i1_ref_idx != ps_top_mb->as_pu->as_me_info[L0].i1_ref_idx) || (ps_cur_mb->as_pu->as_me_info[L1].i1_ref_idx != ps_top_mb->as_pu->as_me_info[L1].i1_ref_idx) || u4_bs_temp1) && ((ps_cur_mb->as_pu->as_me_info[L0].i1_ref_idx != ps_top_mb->as_pu->as_me_info[L1].i1_ref_idx) || (ps_cur_mb->as_pu->as_me_info[L1].i1_ref_idx != ps_top_mb->as_pu->as_me_info[L0].i1_ref_idx) || u4_bs_temp2); u4_bs_horz |= (u4_bs << u4_idx); } } pu4_bs_table[0] = u4_bs_horz; } /* Computing Bs for the left edge */ if(ps_mb_pos->i4_abscissa) { for(i = 0; i < 4; i++) { UWORD32 u4_idx = 24 - (i << 3); /* check if Bs is already set */ if(!((u4_bs_vert >> u4_idx) & 0xf)) { /* If Bs is not set, evalaute conditions for Bs=1 */ UWORD32 u4_bs_temp1, u4_bs_temp2; UWORD32 u4_bs; /*********************************************************/ /* If any motion vector component differs by more than 1 */ /* integer pel or if reference pictures are different Bs */ /* is set to 1. Note that this condition shall be met for*/ /* both (fwd-fwd,bwd-bwd) and (fwd-bwd,bwd-fwd) direction*/ /*********************************************************/ i2_p_mv0 = ps_left_mb->as_pu->as_me_info[L0].s_mv.i2_mvx; i2_p_mv1 = ps_left_mb->as_pu->as_me_info[L0].s_mv.i2_mvy; i2_p_mv2 = ps_left_mb->as_pu->as_me_info[L1].s_mv.i2_mvx; i2_p_mv3 = ps_left_mb->as_pu->as_me_info[L1].s_mv.i2_mvy; u4_bs_temp1 = ((ABS((i2_p_mv0 - i2_q_mv0)) >= 4) | (ABS((i2_p_mv1 - i2_q_mv1)) >= 4) | (ABS((i2_p_mv2 - i2_q_mv2)) >= 4) | (ABS((i2_p_mv3 - i2_q_mv3)) >= 4)); u4_bs_temp2 = ((ABS((i2_p_mv0 - i2_q_mv2)) >= 4) | (ABS((i2_p_mv1 - i2_q_mv3)) >= 4) | (ABS((i2_p_mv2 - i2_q_mv0)) >= 4) | (ABS((i2_p_mv3 - i2_q_mv1)) >= 4)); u4_bs = ((ps_cur_mb->as_pu->as_me_info[L0].i1_ref_idx != ps_left_mb->as_pu->as_me_info[L0].i1_ref_idx) || (ps_cur_mb->as_pu->as_me_info[L1].i1_ref_idx != ps_left_mb->as_pu->as_me_info[L1].i1_ref_idx) || u4_bs_temp1) && ((ps_cur_mb->as_pu->as_me_info[L0].i1_ref_idx != ps_left_mb->as_pu->as_me_info[L1].i1_ref_idx) || (ps_cur_mb->as_pu->as_me_info[L1].i1_ref_idx != ps_left_mb->as_pu->as_me_info[L0].i1_ref_idx) || u4_bs_temp2); u4_bs_vert |= (u4_bs << u4_idx); } } pu4_bs_table[4] = u4_bs_vert; } } static void isvce_fill_bs2_horz_vert(UWORD32 *pu4_bs, WORD32 u4_left_mb_csbp, WORD32 u4_top_mb_csbp, WORD32 u4_cur_mb_csbp, coordinates_t *ps_mb_pos, const UWORD32 *pu4_packed_bs2, const UWORD16 *pu2_4x4_v2h_reorder) { UWORD32 u4_nbr_horz_csbp, u4_nbr_vert_csbp; UWORD32 u4_horz_bs2_dec, u4_vert_bs2_dec; UWORD32 u4_left_mb_masked_csbp, u4_cur_mb_masked_csbp; UWORD32 u4_reordered_vert_bs2_dec, u4_temp; WORD32 u4_cur_mb_csbp_seq = 0; WORD32 u4_top_mb_csbp_seq = 0; WORD32 u4_left_mb_csbp_seq = 0; /* Convert the csbp packed data in sequential pattern from raster order */ u4_cur_mb_csbp_seq |= u4_cur_mb_csbp & 3; // 0 1 u4_cur_mb_csbp >>= 2; u4_cur_mb_csbp_seq |= (u4_cur_mb_csbp & 3) << 4; // 4 5 u4_cur_mb_csbp >>= 2; u4_cur_mb_csbp_seq |= (u4_cur_mb_csbp & 3) << 2; // 2 3 u4_cur_mb_csbp >>= 2; u4_cur_mb_csbp_seq |= (u4_cur_mb_csbp & 3) << 6; // 6 7 u4_cur_mb_csbp >>= 2; u4_cur_mb_csbp_seq |= (u4_cur_mb_csbp & 3) << 8; // 8 9 u4_cur_mb_csbp >>= 2; u4_cur_mb_csbp_seq |= (u4_cur_mb_csbp & 3) << 12; // 12 13 u4_cur_mb_csbp >>= 2; u4_cur_mb_csbp_seq |= (u4_cur_mb_csbp & 3) << 10; // 10 11 u4_cur_mb_csbp >>= 2; u4_cur_mb_csbp_seq |= (u4_cur_mb_csbp & 3) << 14; // 14 15 u4_left_mb_csbp_seq |= u4_left_mb_csbp & 3; // 0 1 u4_left_mb_csbp >>= 2; u4_left_mb_csbp_seq |= (u4_left_mb_csbp & 3) << 4; // 4 5 u4_left_mb_csbp >>= 2; u4_left_mb_csbp_seq |= (u4_left_mb_csbp & 3) << 2; // 2 3 u4_left_mb_csbp >>= 2; u4_left_mb_csbp_seq |= (u4_left_mb_csbp & 3) << 6; // 6 7 u4_left_mb_csbp >>= 2; u4_left_mb_csbp_seq |= (u4_left_mb_csbp & 3) << 8; // 8 9 u4_left_mb_csbp >>= 2; u4_left_mb_csbp_seq |= (u4_left_mb_csbp & 3) << 12; // 12 13 u4_left_mb_csbp >>= 2; u4_left_mb_csbp_seq |= (u4_left_mb_csbp & 3) << 10; // 10 11 u4_left_mb_csbp >>= 2; u4_left_mb_csbp_seq |= (u4_left_mb_csbp & 3) << 14; // 14 15 /* Required only the last row of top MB */ u4_top_mb_csbp = u4_top_mb_csbp >> 10; // 12 13 u4_top_mb_csbp_seq |= (u4_top_mb_csbp & 3); u4_top_mb_csbp = u4_top_mb_csbp >> 4; // 14 15 u4_top_mb_csbp_seq |= ((u4_top_mb_csbp & 3) << 2); /* u4_nbr_horz_csbp=11C|10C|9C|8C|7C|6C|5C|4C|3C|2C|1C|0C|15T|14T|13T|12T */ u4_nbr_horz_csbp = (u4_cur_mb_csbp_seq << 4) | u4_top_mb_csbp_seq; u4_horz_bs2_dec = u4_cur_mb_csbp_seq | u4_nbr_horz_csbp; /* u4_left_mb_masked_csbp = 15L|0|0|0|11L|0|0|0|7L|0|0|0|3L|0|0|0 */ u4_left_mb_masked_csbp = u4_left_mb_csbp_seq & CSBP_RIGHT_BLOCK_MASK; /* u4_cur_mb_masked_csbp =14C|13C|12C|x|10C|9C|8C|x|6C|5C|4C|x|2C|1C|0C|x */ u4_cur_mb_masked_csbp = (u4_cur_mb_csbp_seq << 1) & (~CSBP_LEFT_BLOCK_MASK); /* u4_nbr_vert_csbp=14C|13C|12C|15L|10C|9C|8C|11L|6C|5C|4C|7L|2C|1C|0C|3L */ u4_nbr_vert_csbp = (u4_cur_mb_masked_csbp) | (u4_left_mb_masked_csbp >> 3); u4_vert_bs2_dec = u4_cur_mb_csbp_seq | u4_nbr_vert_csbp; /* Fill horz edges (0,1,2,3) boundary strengths 2 using look up table */ if(ps_mb_pos->i4_ordinate) { pu4_bs[0] = pu4_packed_bs2[u4_horz_bs2_dec & 0xF]; } pu4_bs[1] = pu4_packed_bs2[(u4_horz_bs2_dec >> 4) & 0xF]; pu4_bs[2] = pu4_packed_bs2[(u4_horz_bs2_dec >> 8) & 0xF]; pu4_bs[3] = pu4_packed_bs2[(u4_horz_bs2_dec >> 12) & 0xF]; /* Do 4x4 tranpose of u4_vert_bs2_dec by using look up table for reorder */ u4_reordered_vert_bs2_dec = pu2_4x4_v2h_reorder[u4_vert_bs2_dec & 0xF]; u4_temp = pu2_4x4_v2h_reorder[(u4_vert_bs2_dec >> 4) & 0xF]; u4_reordered_vert_bs2_dec |= (u4_temp << 1); u4_temp = pu2_4x4_v2h_reorder[(u4_vert_bs2_dec >> 8) & 0xF]; u4_reordered_vert_bs2_dec |= (u4_temp << 2); u4_temp = pu2_4x4_v2h_reorder[(u4_vert_bs2_dec >> 12) & 0xF]; u4_reordered_vert_bs2_dec |= (u4_temp << 3); /* Fill vert edges (4,5,6,7) boundary strengths 2 using look up table */ if(ps_mb_pos->i4_abscissa) { pu4_bs[4] = pu4_packed_bs2[u4_reordered_vert_bs2_dec & 0xF]; } pu4_bs[5] = pu4_packed_bs2[(u4_reordered_vert_bs2_dec >> 4) & 0xF]; pu4_bs[6] = pu4_packed_bs2[(u4_reordered_vert_bs2_dec >> 8) & 0xF]; pu4_bs[7] = pu4_packed_bs2[(u4_reordered_vert_bs2_dec >> 12) & 0xF]; } /* brief Fills the BS for edges falling on a IBL boundary */ static void isvce_fill_bs_ibl(isvce_mb_info_t *ps_cur_mb, isvce_mb_info_t *ps_top_mb, isvce_mb_info_t *ps_left_mb, UWORD32 *pu4_bs_table) { /*! Flow of the module is as follows */ /*! 1. checks if MB edge is falling on IBL boundary */ /*! 2. if only Mb edge then it fills the BS based on INTRA or INTER stauts */ /*! 3. if the current MB is IBL and neighbours are also neighbours then it uses the current layer t_coeff flag to decide the BS of a particular edge */ /*! 4. fills the BS for all the edges in curretn MB if IBL */ UWORD16 u2_top_horz_nnz; UWORD8 u1_top_mb_ibl, u1_left_mb_ibl; UWORD32 i4_i, i4_edge; UWORD8 u1_bs; UWORD8 u1_cnd; UWORD8 u1_top_intra; UWORD8 u1_left_intra; UWORD8 u1_p_nnz, u1_q_nnz; UWORD8 u1_curr_mb_ibl; UWORD16 u2_curr_nnz; UWORD8 u1_left_mb_nnz = 0, u1_left_nnz; WORD32 i4_horz_start = 0; WORD32 i4_vertical_start = 0; u1_top_mb_ibl = ps_top_mb ? (ps_top_mb->u1_base_mode_flag && ps_top_mb->u1_is_intra) : 0; u1_left_mb_ibl = ps_left_mb ? (ps_left_mb->u1_base_mode_flag && ps_left_mb->u1_is_intra) : 0; u1_curr_mb_ibl = ps_cur_mb ? (ps_cur_mb->u1_base_mode_flag && ps_cur_mb->u1_is_intra) : 0; u1_top_intra = ps_top_mb ? ps_top_mb->u1_is_intra : 0; u1_left_intra = ps_left_mb ? ps_left_mb->u1_is_intra : 0; /* return if none of the current top and left is IBL */ if((0 == u1_curr_mb_ibl) && (0 == u1_top_mb_ibl) && (0 == u1_left_mb_ibl)) { return; } /* set up the vertical and horz MB edge skip flags */ if(0 != u1_curr_mb_ibl) { /* if top is not IBL */ if(0 == u1_top_mb_ibl) { i4_horz_start = 1; } /* if left in not IBL */ if(0 == u1_left_mb_ibl) { i4_vertical_start = 1; } } /* Fill BS for mb egdex assuming non IBL case */ /* only the MB edges fall across IBL boundary */ if((0 != u1_curr_mb_ibl) || (0 != u1_top_mb_ibl) || (0 != u1_left_mb_ibl)) { UWORD16 u2_temp, u2_i, u1_i; u2_temp = ps_left_mb ? ps_left_mb->u4_res_csbp : 0; for(u2_i = 0; u2_i < MAX_TU_IN_MB_COL; u2_i++) { UWORD8 u1_zscan_idx = gau1_raster_to_zscan_map[u2_i * 4 + MAX_TU_IN_MB_ROW - 1]; u1_left_mb_nnz |= ((u2_temp & (1 << u1_zscan_idx)) ? 1 << u2_i : 0); } u2_curr_nnz = ps_cur_mb->u4_res_csbp; u2_top_horz_nnz = 0; if(ps_top_mb) { /* last row of top MB */ for(u1_i = 12; u1_i < 16; u1_i++) { UWORD8 u1_zscan_idx = gau1_raster_to_zscan_map[u1_i]; u2_top_horz_nnz |= ((ps_top_mb->u4_res_csbp & (1 << u1_zscan_idx)) ? 1 << (u1_i - 12) : 0); } } else { u2_top_horz_nnz = 0; } /* top is intra and not ibl */ if(0 != u1_top_intra) { pu4_bs_table[0] = 0x04040404; } /* left is intra and not ibl */ if(0 != u1_left_intra) { pu4_bs_table[4] = 0x04040404; } /* assume neighbours are inter and update bs */ /* Edge = 0 means Vert Edges and Edge = 1 means Horz edges */ for(i4_edge = 0; i4_edge < 2; i4_edge++) { UWORD8 u1_p_nnz = 0, u1_q_nnz = 0; UWORD32 u4_bs_edge = 0; WORD32 i4_bit_mask; WORD32 i4_curr_intra_flag; WORD32 i4_neibor_intra_flag; if(((1 == i4_horz_start) && (i4_edge == 1))) continue; if(((1 == i4_vertical_start) && (i4_edge == 0))) continue; i4_curr_intra_flag = (0 != u1_curr_mb_ibl); if(0 != i4_edge) { /* initialize for the TOP edge */ u1_p_nnz = (UWORD8) u2_top_horz_nnz; for(i4_i = 0; i4_i < MAX_TU_IN_MB_ROW; i4_i++) { UWORD8 u1_zscan_idx = gau1_raster_to_zscan_map[i4_i]; u1_q_nnz |= ((u2_curr_nnz & (1 << u1_zscan_idx)) ? (1 << i4_i) : 0); } i4_neibor_intra_flag = (u1_top_mb_ibl || u1_top_intra); } else { u1_p_nnz = u1_left_mb_nnz; for(u2_i = 0; u2_i < MAX_TU_IN_MB_COL; u2_i++) { UWORD8 u1_zscan_idx = gau1_raster_to_zscan_map[u2_i * 4]; u1_q_nnz |= ((u2_curr_nnz & (1 << u1_zscan_idx)) ? 1 << u2_i : 0); } i4_neibor_intra_flag = (u1_left_mb_ibl || u1_left_intra); } i4_bit_mask = 1; /* find bs of 4 edges */ for(i4_i = 0; i4_i < 4; i4_i++) { UWORD8 u1_p_nnz_temp, u1_q_nnz_temp; u1_p_nnz_temp = (u1_p_nnz & i4_bit_mask); u1_q_nnz_temp = (u1_q_nnz & i4_bit_mask); u1_cnd = ((u1_p_nnz_temp && (!i4_neibor_intra_flag)) || (u1_q_nnz_temp && (!i4_curr_intra_flag))); u1_bs = u1_cnd ? 2 : 1; /* update the bs of the edge */ u4_bs_edge = (u4_bs_edge << 8) + u1_bs; i4_bit_mask <<= 1; } /* end of loop over blk edges */ /* update the bs of edges */ if(i4_edge && !u1_top_intra) { pu4_bs_table[0] = u4_bs_edge; } else if(!i4_edge && !u1_left_intra) { pu4_bs_table[4] = u4_bs_edge; } } /* end of loop over v1 vetical and horizontal edge */ } /* current MB is IBL */ if(0 != u1_curr_mb_ibl) { WORD32 i4_bit_mask_edge = 1; UWORD16 u2_temp, u2_i, u1_i; u1_left_mb_nnz = 0; u2_temp = ps_left_mb ? ps_left_mb->u4_csbp : 0; for(u2_i = 0; u2_i < MAX_TU_IN_MB_COL; u2_i++) { UWORD8 u1_zscan_idx = gau1_raster_to_zscan_map[u2_i * 4 + MAX_TU_IN_MB_ROW - 1]; u1_left_mb_nnz |= ((u2_temp & (1 << u1_zscan_idx)) ? 1 << u2_i : 0); } u2_curr_nnz = ps_cur_mb->u4_csbp; u2_top_horz_nnz = 0; if(ps_top_mb) { for(u1_i = 12; u1_i < 16; u1_i++) { UWORD8 u1_zscan_idx = gau1_raster_to_zscan_map[u1_i]; u2_top_horz_nnz |= ((ps_top_mb->u4_csbp & (1 << u1_zscan_idx)) ? 1 << (u1_i - 12) : 0); } } else { u2_top_horz_nnz = 0; } /* all are IBL edges then use only t_coeff of current layer */ /* loop over all edges */ for(i4_edge = 0; i4_edge < 4; i4_edge++) { UWORD16 u2_curr_horz_nnz = 0; WORD32 i4_bit_mask = 1; u1_left_nnz = (u1_left_mb_nnz & i4_bit_mask_edge); for(i4_i = 0; i4_i < 4; i4_i++) { UWORD8 u1_curr_nnz, u1_top_nnz; UWORD8 u1_zscan_idx = gau1_raster_to_zscan_map[(4 * i4_edge) + i4_i]; u2_curr_horz_nnz |= ((ps_cur_mb->u4_csbp & (1 << u1_zscan_idx)) ? (1 << i4_i) : 0); u1_curr_nnz = (u2_curr_horz_nnz & i4_bit_mask); u1_top_nnz = (u2_top_horz_nnz & i4_bit_mask); /* update bs horizontal */ if(!((1 == i4_horz_start) && (0 == i4_edge))) { u1_p_nnz = u1_top_nnz; u1_q_nnz = u1_curr_nnz; u1_cnd = !(u1_p_nnz || u1_q_nnz); u1_bs = u1_cnd ? 0 : 1; pu4_bs_table[i4_edge] = (pu4_bs_table[i4_edge] << 8) + u1_bs; } /* update bs vertical */ if(!((1 == i4_vertical_start) && (0 == i4_i))) { u1_p_nnz = u1_left_nnz; u1_q_nnz = u1_curr_nnz; u1_cnd = !(u1_p_nnz || u1_q_nnz); u1_bs = u1_cnd ? 0 : 1; pu4_bs_table[i4_i + 4] = (pu4_bs_table[i4_i + 4] << 8) + u1_bs; } /* store the current nnz to left nnz */ u1_left_nnz = u1_curr_nnz; i4_bit_mask <<= 1; } /* store the current row nnz to top row nnz */ u2_top_horz_nnz = u2_curr_horz_nnz; i4_bit_mask_edge <<= 1; } } } void isvce_compute_bs(isvce_process_ctxt_t *ps_proc, UWORD8 u1_inter_layer_deblk_flag) { coordinates_t s_mb_pos; UWORD32 *pu4_pic_vert_bs; UWORD32 *pu4_pic_horz_bs; isvce_bs_ctxt_t *ps_bs = &(ps_proc->s_deblk_ctxt.s_bs_ctxt); block_neighbors_t *ps_ngbr_avbl = ps_proc->ps_ngbr_avbl; nbr_info_t *ps_nbr_info = &ps_proc->s_nbr_info; isvce_mb_info_t *ps_left_mb = ps_ngbr_avbl->u1_mb_a ? ps_nbr_info->ps_left_mb_info : NULL; isvce_mb_info_t *ps_top_mb = ps_ngbr_avbl->u1_mb_b ? &ps_nbr_info->ps_top_row_mb_info[ps_bs->i4_mb_x] : NULL; isvce_mb_info_t *ps_cur_mb = ps_proc->ps_mb_info; UWORD32 u1_left_mb_intra, u1_left_mb_ibl; UWORD16 u2_left_csbp, u2_top_csbp, u2_cur_csbp; UWORD32 u4_cur_mb_intra, u1_top_mb_intra, u4_cur_mb_fld; UWORD32 u4_cur_mb_ibl, u1_top_mb_ibl; UWORD32 au4_bs_table[8]; UWORD32 *pu4_bs_table; u4_cur_mb_intra = ps_cur_mb->u1_is_intra; u4_cur_mb_ibl = ps_cur_mb->u1_base_mode_flag && ps_cur_mb->u1_is_intra; u4_cur_mb_fld = 0; u1_top_mb_intra = ps_top_mb ? ps_top_mb->u1_is_intra : 0; u1_top_mb_ibl = ps_top_mb ? (ps_top_mb->u1_base_mode_flag && ps_top_mb->u1_is_intra) : 0; u1_left_mb_intra = ps_left_mb ? ps_left_mb->u1_is_intra : 0; u1_left_mb_ibl = ps_left_mb ? (ps_left_mb->u1_base_mode_flag && ps_left_mb->u1_is_intra) : 0; pu4_bs_table = au4_bs_table; memset(pu4_bs_table, 0, sizeof(pu4_bs_table[0]) * NUM_EDGES_IN_MB * 2); s_mb_pos.i4_abscissa = ps_bs->i4_mb_x; s_mb_pos.i4_ordinate = ps_bs->i4_mb_y; if(!u1_inter_layer_deblk_flag) { pu4_pic_vert_bs = ps_bs->pu4_pic_vert_bs + ((s_mb_pos.i4_ordinate * ps_proc->i4_wd_mbs) + s_mb_pos.i4_abscissa) * NUM_EDGES_IN_MB; pu4_pic_horz_bs = ps_bs->pu4_pic_horz_bs + ((s_mb_pos.i4_ordinate * ps_proc->i4_wd_mbs) + s_mb_pos.i4_abscissa) * NUM_EDGES_IN_MB; } else { pu4_pic_vert_bs = ps_bs->pu4_intra_base_vert_bs + ((s_mb_pos.i4_ordinate * ps_proc->i4_wd_mbs) + s_mb_pos.i4_abscissa) * NUM_EDGES_IN_MB; pu4_pic_horz_bs = ps_bs->pu4_intra_base_horz_bs + ((s_mb_pos.i4_ordinate * ps_proc->i4_wd_mbs) + s_mb_pos.i4_abscissa) * NUM_EDGES_IN_MB; } if(u4_cur_mb_intra && !(u4_cur_mb_ibl)) { pu4_bs_table[4] = ps_bs->i4_mb_x ? 0x04040404 : 0; pu4_bs_table[0] = ps_bs->i4_mb_y ? 0x04040404 : 0; pu4_bs_table[1] = 0x03030303; pu4_bs_table[2] = 0x03030303; pu4_bs_table[3] = 0x03030303; pu4_bs_table[5] = 0x03030303; pu4_bs_table[6] = 0x03030303; pu4_bs_table[7] = 0x03030303; } else { isvce_fill_bs_ibl(ps_cur_mb, ps_top_mb, ps_left_mb, pu4_bs_table); if(!u4_cur_mb_ibl) { UWORD32 u4_bs_0, u4_bs_4; UWORD32 u4_is_b = (ps_proc->i4_slice_type == BSLICE); u2_cur_csbp = ps_cur_mb->u4_csbp; u2_left_csbp = ps_left_mb ? ps_left_mb->u4_csbp : 0; u2_top_csbp = ps_top_mb ? ps_top_mb->u4_csbp : 0; u2_cur_csbp |= (ps_cur_mb->u4_res_csbp); u2_left_csbp |= ps_left_mb ? ps_left_mb->u4_res_csbp : 0; u2_top_csbp |= ps_top_mb ? ps_top_mb->u4_res_csbp : 0; u4_bs_0 = pu4_bs_table[0]; u4_bs_4 = pu4_bs_table[4]; isvce_fill_bs2_horz_vert(pu4_bs_table, u2_left_csbp, u2_top_csbp, u2_cur_csbp, &s_mb_pos, (gau4_isvce_packed_bs2), (gau2_isvce_4x4_v2h_reorder)); if(u1_left_mb_intra) { pu4_bs_table[4] = 0x04040404; } else if(u1_left_mb_ibl) { pu4_bs_table[4] = u4_bs_4; } if(u1_top_mb_intra) { pu4_bs_table[0] = u4_cur_mb_fld ? 0x03030303 : 0x04040404; } else if(u1_top_mb_ibl) { pu4_bs_table[0] = u4_bs_0; } if(!u4_is_b) { isvce_fill_bs1_16x16mb_pslice(ps_cur_mb, ps_top_mb, ps_left_mb, pu4_bs_table, &s_mb_pos); } else { isvce_fill_bs1_16x16mb_bslice(ps_cur_mb, ps_top_mb, ps_left_mb, pu4_bs_table, &s_mb_pos); } } } pu4_pic_horz_bs[0] = pu4_bs_table[0]; pu4_pic_horz_bs[1] = pu4_bs_table[1]; pu4_pic_horz_bs[2] = pu4_bs_table[2]; pu4_pic_horz_bs[3] = pu4_bs_table[3]; pu4_pic_vert_bs[0] = pu4_bs_table[4]; pu4_pic_vert_bs[1] = pu4_bs_table[5]; pu4_pic_vert_bs[2] = pu4_bs_table[6]; pu4_pic_vert_bs[3] = pu4_bs_table[7]; } /** ******************************************************************************* * * @brief This function performs deblocking of top horizontal edge * * @par Description: * This function performs deblocking of top horizontal edge * * @param[in] ps_codec * pointer to codec context * * @param[in] ps_proc * pointer to proc context * * @param[in] pu1_mb_qp * pointer to mb quantization param * * @param[in] pu1_cur_pic_luma * pointer to recon buffer luma * * @param[in] pu1_cur_pic_chroma * pointer to recon buffer chroma * * @param[in] pu4_pic_horz_bs * pointer to horizontal blocking strength * * @returns none * * @remarks none * ******************************************************************************* */ static void isvce_filter_top_edge(isvce_codec_t *ps_codec, UWORD8 u1_qp_p, UWORD8 u1_qp_q, UWORD8 *pu1_cur_pic_luma, WORD32 i4_luma_stride, UWORD8 *pu1_cur_pic_chroma, WORD32 i4_chroma_stride, UWORD32 *pu4_pic_horz_bs) { UWORD32 u4_alpha_luma, u4_beta_luma, u4_qp_luma, u4_idx_A_luma, u4_idx_B_luma; UWORD32 u4_alpha_chroma, u4_beta_chroma, u4_qp_chroma, u4_idx_A_chroma, u4_idx_B_chroma; /********/ /* luma */ /********/ u4_qp_luma = (u1_qp_p + u1_qp_q + 1) >> 1; /* filter offset A and filter offset B have to be received from slice header */ /* TODO : for now lets set these offsets as zero */ u4_idx_A_luma = MIN(51, u4_qp_luma + 0); u4_idx_B_luma = MIN(51, u4_qp_luma + 0); /* alpha, beta computation */ u4_alpha_luma = gu1_ih264_alpha_table[u4_idx_A_luma]; u4_beta_luma = gu1_ih264_beta_table[u4_idx_B_luma]; /**********/ /* chroma */ /**********/ u4_qp_chroma = (gu1_qpc_fqpi[u1_qp_p] + gu1_qpc_fqpi[u1_qp_q] + 1) >> 1; /* filter offset A and filter offset B have to be received from slice header */ /* TODO : for now lets set these offsets as zero */ u4_idx_A_chroma = MIN(51, u4_qp_chroma + 0); u4_idx_B_chroma = MIN(51, u4_qp_chroma + 0); /* alpha, beta computation */ u4_alpha_chroma = gu1_ih264_alpha_table[u4_idx_A_chroma]; u4_beta_chroma = gu1_ih264_beta_table[u4_idx_B_chroma]; /* deblk edge */ /* top Horizontal edge - allowed to be deblocked ? */ if(pu4_pic_horz_bs[0] == 0x04040404) { /* strong filter */ ps_codec->pf_deblk_luma_horz_bs4(pu1_cur_pic_luma, i4_luma_stride, u4_alpha_luma, u4_beta_luma); ps_codec->pf_deblk_chroma_horz_bs4(pu1_cur_pic_chroma, i4_chroma_stride, u4_alpha_chroma, u4_beta_chroma, u4_alpha_chroma, u4_beta_chroma); } else { /* normal filter */ ps_codec->pf_deblk_luma_horz_bslt4(pu1_cur_pic_luma, i4_luma_stride, u4_alpha_luma, u4_beta_luma, pu4_pic_horz_bs[0], gu1_ih264_clip_table[u4_idx_A_luma]); ps_codec->pf_deblk_chroma_horz_bslt4( pu1_cur_pic_chroma, i4_chroma_stride, u4_alpha_chroma, u4_beta_chroma, u4_alpha_chroma, u4_beta_chroma, pu4_pic_horz_bs[0], gu1_ih264_clip_table[u4_idx_A_chroma], gu1_ih264_clip_table[u4_idx_A_chroma]); } } /** ******************************************************************************* * * @brief This function performs deblocking of left vertical edge * * @par Description: * This function performs deblocking of top horizontal edge * * @param[in] ps_codec * pointer to codec context * * @param[in] ps_proc * pointer to proc context * * @param[in] pu1_mb_qp * pointer to mb quantization param * * @param[in] pu1_cur_pic_luma * pointer to recon buffer luma * * @param[in] pu1_cur_pic_chroma * pointer to recon buffer chroma * * @param[in] pu4_pic_vert_bs * pointer to vertical blocking strength * * @returns none * * @remarks none * ******************************************************************************* */ static void isvce_filter_left_edge(isvce_codec_t *ps_codec, UWORD8 u1_qp_p, UWORD8 u1_qp_q, UWORD8 *pu1_cur_pic_luma, WORD32 i4_luma_stride, UWORD8 *pu1_cur_pic_chroma, WORD32 i4_chroma_stride, UWORD32 *pu4_pic_vert_bs) { UWORD32 u4_alpha_luma, u4_beta_luma, u4_qp_luma, u4_idx_A_luma, u4_idx_B_luma; UWORD32 u4_alpha_chroma, u4_beta_chroma, u4_qp_chroma, u4_idx_A_chroma, u4_idx_B_chroma; /********/ /* luma */ /********/ u4_qp_luma = (u1_qp_p + u1_qp_q + 1) >> 1; /* filter offset A and filter offset B have to be received from slice header */ /* TODO : for now lets set these offsets as zero */ u4_idx_A_luma = MIN(51, u4_qp_luma + 0); u4_idx_B_luma = MIN(51, u4_qp_luma + 0); /* alpha, beta computation */ u4_alpha_luma = gu1_ih264_alpha_table[u4_idx_A_luma]; u4_beta_luma = gu1_ih264_beta_table[u4_idx_B_luma]; /**********/ /* chroma */ /**********/ u4_qp_chroma = (gu1_qpc_fqpi[u1_qp_p] + gu1_qpc_fqpi[u1_qp_q] + 1) >> 1; /* filter offset A and filter offset B have to be received from slice header */ /* TODO : for now lets set these offsets as zero */ u4_idx_A_chroma = MIN(51, u4_qp_chroma + 0); u4_idx_B_chroma = MIN(51, u4_qp_chroma + 0); /* alpha, beta computation */ u4_alpha_chroma = gu1_ih264_alpha_table[u4_idx_A_chroma]; u4_beta_chroma = gu1_ih264_beta_table[u4_idx_B_chroma]; /* deblk edge */ if(pu4_pic_vert_bs[0] == 0x04040404) { /* strong filter */ ps_codec->pf_deblk_luma_vert_bs4(pu1_cur_pic_luma, i4_luma_stride, u4_alpha_luma, u4_beta_luma); ps_codec->pf_deblk_chroma_vert_bs4(pu1_cur_pic_chroma, i4_chroma_stride, u4_alpha_chroma, u4_beta_chroma, u4_alpha_chroma, u4_beta_chroma); } else { /* normal filter */ ps_codec->pf_deblk_luma_vert_bslt4(pu1_cur_pic_luma, i4_luma_stride, u4_alpha_luma, u4_beta_luma, pu4_pic_vert_bs[0], gu1_ih264_clip_table[u4_idx_A_luma]); ps_codec->pf_deblk_chroma_vert_bslt4( pu1_cur_pic_chroma, i4_chroma_stride, u4_alpha_chroma, u4_beta_chroma, u4_alpha_chroma, u4_beta_chroma, pu4_pic_vert_bs[0], gu1_ih264_clip_table[u4_idx_A_chroma], gu1_ih264_clip_table[u4_idx_A_chroma]); } } static UWORD8 isvce_get_deblk_mb_qp(isvce_process_ctxt_t *ps_proc, coordinates_t *ps_mb_pos) { UWORD8 u1_mb_qp; isvce_deblk_ctxt_t *ps_deblk = &ps_proc->s_deblk_ctxt; isvce_bs_ctxt_t *ps_bs_ctxt = &ps_deblk->s_bs_ctxt; coordinates_t s_cur_mb_pos = {ps_deblk->i4_mb_x, ps_deblk->i4_mb_y}; UWORD32 u4_mb_idx = ps_mb_pos->i4_abscissa + ps_mb_pos->i4_ordinate * ps_proc->i4_wd_mbs; if((s_cur_mb_pos.i4_abscissa != ps_mb_pos->i4_abscissa) || (s_cur_mb_pos.i4_ordinate != ps_mb_pos->i4_ordinate)) { u1_mb_qp = ps_bs_ctxt->pu1_pic_qp[u4_mb_idx]; } else { isvce_mb_info_t *ps_mb_info = ps_proc->ps_cur_mv_buf->ps_svc_layer_data[ps_proc->u1_spatial_layer_id].ps_mb_info + u4_mb_idx; if((0 == ps_mb_pos->i4_abscissa) && (0 == ps_mb_pos->i4_ordinate)) { u1_mb_qp = ps_mb_info->u1_mb_qp; } else { if((ps_mb_info->u4_cbp > 0) || (I16x16 == ps_mb_info->u2_mb_type)) { u1_mb_qp = ps_mb_info->u1_mb_qp; } else { u1_mb_qp = ps_bs_ctxt->pu1_pic_qp[u4_mb_idx - 1]; } } } return u1_mb_qp; } /** ******************************************************************************* * * @brief This function performs deblocking on an mb * * @par Description: * This function performs deblocking on an mb * * @param[in] ps_proc * process context corresponding to the job * * @param[in] ps_deblk * pointer to deblock context * * @returns none * * @remarks none * ******************************************************************************* */ void isvce_deblock_mb(isvce_process_ctxt_t *ps_proc, isvce_deblk_ctxt_t *ps_deblk, UWORD8 u1_inter_layer_deblk_flag) { UWORD8 u1_mb_a, u1_mb_b; UWORD32 *pu4_pic_vert_bs; UWORD32 *pu4_pic_horz_bs; UWORD8 u1_cur_mb_qp; UWORD8 u1_left_mb_qp; UWORD8 u1_top_mb_qp; UWORD32 u4_alpha_luma, u4_beta_luma, u4_idx_A_luma, u4_idx_B_luma; UWORD32 u4_alpha_chroma, u4_beta_chroma, u4_qp_chroma, u4_idx_A_chroma, u4_idx_B_chroma; isvce_codec_t *ps_codec = ps_proc->ps_codec; coordinates_t s_cur_mb_pos = {ps_deblk->i4_mb_x, ps_deblk->i4_mb_y}; coordinates_t s_left_mb_pos = {ps_deblk->i4_mb_x - 1, ps_deblk->i4_mb_y}; coordinates_t s_top_mb_pos = {ps_deblk->i4_mb_x, ps_deblk->i4_mb_y - 1}; WORD32 i4_mb_x = ps_deblk->i4_mb_x, i4_mb_y = ps_deblk->i4_mb_y; WORD32 i4_luma_stride = ps_deblk->s_rec_pic_buf_props.as_component_bufs[0].i4_data_stride; UWORD8 *pu1_cur_pic_luma = (UWORD8 *) (ps_deblk->s_rec_pic_buf_props.as_component_bufs[0].pv_data) + (i4_mb_x * MB_SIZE) + ((i4_mb_y * MB_SIZE) * i4_luma_stride); WORD32 i4_chroma_stride = ps_deblk->s_rec_pic_buf_props.as_component_bufs[1].i4_data_stride; UWORD8 *pu1_cur_pic_chroma = (UWORD8 *) (ps_deblk->s_rec_pic_buf_props.as_component_bufs[1].pv_data) + (i4_mb_x * MB_SIZE) + (i4_mb_y * (MB_SIZE / 2) * i4_chroma_stride); UWORD32 push_ptr = (i4_mb_y * ps_proc->i4_wd_mbs) + i4_mb_x; if(!u1_inter_layer_deblk_flag) { pu4_pic_vert_bs = ps_deblk->s_bs_ctxt.pu4_pic_vert_bs; pu4_pic_horz_bs = ps_deblk->s_bs_ctxt.pu4_pic_horz_bs; } else { pu4_pic_vert_bs = ps_deblk->s_bs_ctxt.pu4_intra_base_vert_bs; pu4_pic_horz_bs = ps_deblk->s_bs_ctxt.pu4_intra_base_horz_bs; } /* derive neighbor availability */ /* In slice mode the edges of mbs that lie on the slice boundary are not * deblocked */ /* deblocking filter idc '2' */ if(ps_codec->s_cfg.e_slice_mode != IVE_SLICE_MODE_NONE) { /* slice index */ UWORD8 *pu1_slice_idx = ps_deblk->pu1_slice_idx; pu1_slice_idx += (i4_mb_y * ps_proc->i4_wd_mbs); /* left macroblock availability */ u1_mb_a = (i4_mb_x == 0 || (pu1_slice_idx[i4_mb_x - 1] != pu1_slice_idx[i4_mb_x])) ? 0 : 1; /* top macroblock availability */ u1_mb_b = (i4_mb_y == 0 || (pu1_slice_idx[i4_mb_x - ps_proc->i4_wd_mbs] != pu1_slice_idx[i4_mb_x])) ? 0 : 1; } else { /* left macroblock availability */ u1_mb_a = (i4_mb_x == 0) ? 0 : 1; /* top macroblock availability */ u1_mb_b = (i4_mb_y == 0) ? 0 : 1; } pu4_pic_vert_bs += push_ptr * NUM_EDGES_IN_MB; pu4_pic_horz_bs += push_ptr * NUM_EDGES_IN_MB; /********/ /* luma */ /********/ u1_cur_mb_qp = isvce_get_deblk_mb_qp(ps_proc, &s_cur_mb_pos); ps_deblk->s_bs_ctxt.pu1_pic_qp[push_ptr] = u1_cur_mb_qp; /* filter offset A and filter offset B have to be received from slice header */ /* TODO : for now lets set these offsets as zero */ u4_idx_A_luma = MIN(51, u1_cur_mb_qp + 0); u4_idx_B_luma = MIN(51, u1_cur_mb_qp + 0); /* alpha, beta computation */ u4_alpha_luma = gu1_ih264_alpha_table[u4_idx_A_luma]; u4_beta_luma = gu1_ih264_beta_table[u4_idx_B_luma]; /**********/ /* chroma */ /**********/ u4_qp_chroma = gu1_qpc_fqpi[u1_cur_mb_qp]; /* filter offset A and filter offset B have to be received from slice header */ /* TODO : for now lets set these offsets as zero */ u4_idx_A_chroma = MIN(51, u4_qp_chroma + 0); u4_idx_B_chroma = MIN(51, u4_qp_chroma + 0); /* alpha, beta computation */ u4_alpha_chroma = gu1_ih264_alpha_table[u4_idx_A_chroma]; u4_beta_chroma = gu1_ih264_beta_table[u4_idx_B_chroma]; /* Deblock vertical edges */ /* left vertical edge 0 - allowed to be deblocked ? */ if(u1_mb_a) { u1_left_mb_qp = isvce_get_deblk_mb_qp(ps_proc, &s_left_mb_pos); isvce_filter_left_edge(ps_codec, u1_left_mb_qp, u1_cur_mb_qp, pu1_cur_pic_luma, i4_luma_stride, pu1_cur_pic_chroma, i4_chroma_stride, pu4_pic_vert_bs); } /* vertical edge 1 */ if(pu4_pic_vert_bs[1] == 0x04040404) { /* strong filter */ ps_codec->pf_deblk_luma_vert_bs4(pu1_cur_pic_luma + 4, i4_luma_stride, u4_alpha_luma, u4_beta_luma); } else { /* normal filter */ ps_codec->pf_deblk_luma_vert_bslt4(pu1_cur_pic_luma + 4, i4_luma_stride, u4_alpha_luma, u4_beta_luma, pu4_pic_vert_bs[1], gu1_ih264_clip_table[u4_idx_A_luma]); } /* vertical edge 2 */ if(pu4_pic_vert_bs[2] == 0x04040404) { /* strong filter */ ps_codec->pf_deblk_luma_vert_bs4(pu1_cur_pic_luma + 8, i4_luma_stride, u4_alpha_luma, u4_beta_luma); ps_codec->pf_deblk_chroma_vert_bs4(pu1_cur_pic_chroma + 8, i4_chroma_stride, u4_alpha_chroma, u4_beta_chroma, u4_alpha_chroma, u4_beta_chroma); } else { /* normal filter */ ps_codec->pf_deblk_luma_vert_bslt4(pu1_cur_pic_luma + 8, i4_luma_stride, u4_alpha_luma, u4_beta_luma, pu4_pic_vert_bs[2], gu1_ih264_clip_table[u4_idx_A_luma]); ps_codec->pf_deblk_chroma_vert_bslt4( pu1_cur_pic_chroma + 8, i4_chroma_stride, u4_alpha_chroma, u4_beta_chroma, u4_alpha_chroma, u4_beta_chroma, pu4_pic_vert_bs[2], gu1_ih264_clip_table[u4_idx_A_chroma], gu1_ih264_clip_table[u4_idx_A_chroma]); } /* vertical edge 3 */ if(pu4_pic_vert_bs[3] == 0x04040404) { /* strong filter */ ps_codec->pf_deblk_luma_vert_bs4(pu1_cur_pic_luma + 12, i4_luma_stride, u4_alpha_luma, u4_beta_luma); } else { /* normal filter */ ps_codec->pf_deblk_luma_vert_bslt4(pu1_cur_pic_luma + 12, i4_luma_stride, u4_alpha_luma, u4_beta_luma, pu4_pic_vert_bs[3], gu1_ih264_clip_table[u4_idx_A_luma]); } /* Deblock Horizontal edges */ /* Horizontal edge 0 */ if(u1_mb_b) { u1_top_mb_qp = isvce_get_deblk_mb_qp(ps_proc, &s_top_mb_pos); isvce_filter_top_edge(ps_codec, u1_top_mb_qp, u1_cur_mb_qp, pu1_cur_pic_luma, i4_luma_stride, pu1_cur_pic_chroma, i4_chroma_stride, pu4_pic_horz_bs); } /* horizontal edge 1 */ if(pu4_pic_horz_bs[1] == 0x04040404) { /* strong filter */ ps_codec->pf_deblk_luma_horz_bs4(pu1_cur_pic_luma + 4 * i4_luma_stride, i4_luma_stride, u4_alpha_luma, u4_beta_luma); } else { /* normal filter */ ps_codec->pf_deblk_luma_horz_bslt4(pu1_cur_pic_luma + 4 * i4_luma_stride, i4_luma_stride, u4_alpha_luma, u4_beta_luma, pu4_pic_horz_bs[1], gu1_ih264_clip_table[u4_idx_A_luma]); } /* horizontal edge 2 */ if(pu4_pic_horz_bs[2] == 0x04040404) { /* strong filter */ ps_codec->pf_deblk_luma_horz_bs4(pu1_cur_pic_luma + 8 * i4_luma_stride, i4_luma_stride, u4_alpha_luma, u4_beta_luma); ps_codec->pf_deblk_chroma_horz_bs4(pu1_cur_pic_chroma + 4 * i4_chroma_stride, i4_chroma_stride, u4_alpha_chroma, u4_beta_chroma, u4_alpha_chroma, u4_beta_chroma); } else { /* normal filter */ ps_codec->pf_deblk_luma_horz_bslt4(pu1_cur_pic_luma + 8 * i4_luma_stride, i4_luma_stride, u4_alpha_luma, u4_beta_luma, pu4_pic_horz_bs[2], gu1_ih264_clip_table[u4_idx_A_luma]); ps_codec->pf_deblk_chroma_horz_bslt4( pu1_cur_pic_chroma + 4 * i4_chroma_stride, i4_chroma_stride, u4_alpha_chroma, u4_beta_chroma, u4_alpha_chroma, u4_beta_chroma, pu4_pic_horz_bs[2], gu1_ih264_clip_table[u4_idx_A_chroma], gu1_ih264_clip_table[u4_idx_A_chroma]); } /* horizontal edge 3 */ if(pu4_pic_horz_bs[3] == 0x04040404) { /* strong filter */ ps_codec->pf_deblk_luma_horz_bs4(pu1_cur_pic_luma + 12 * i4_luma_stride, i4_luma_stride, u4_alpha_luma, u4_beta_luma); } else { /* normal filter */ ps_codec->pf_deblk_luma_horz_bslt4(pu1_cur_pic_luma + 12 * i4_luma_stride, i4_luma_stride, u4_alpha_luma, u4_beta_luma, pu4_pic_horz_bs[3], gu1_ih264_clip_table[u4_idx_A_luma]); } }