/****************************************************************************** * * Copyright (C) 2018 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 ihevce_me_utils_instr_set_router.c * * \brief * This file contains function pointer initialization of me utility * functions * * \date * 15/07/2013 * * \author * Ittiam * * List of Functions * ihevce_me_utils_instr_set_router() * ****************************************************************************** */ /*****************************************************************************/ /* File Includes */ /*****************************************************************************/ /* System include files */ #include #include #include /* User include files */ #include "ihevc_typedefs.h" #include "itt_video_api.h" #include "ihevc_chroma_itrans_recon.h" #include "ihevc_chroma_intra_pred.h" #include "ihevc_debug.h" #include "ihevc_deblk.h" #include "ihevc_defs.h" #include "ihevc_itrans_recon.h" #include "ihevc_intra_pred.h" #include "ihevc_inter_pred.h" #include "ihevc_macros.h" #include "ihevc_mem_fns.h" #include "ihevc_padding.h" #include "ihevc_quant_iquant_ssd.h" #include "ihevc_resi_trans.h" #include "ihevc_sao.h" #include "ihevc_structs.h" #include "ihevc_weighted_pred.h" #include "ihevc_platform_macros.h" #include "rc_cntrl_param.h" #include "rc_frame_info_collector.h" #include "rc_look_ahead_params.h" #include "ihevce_api.h" #include "ihevce_defs.h" #include "ihevce_lap_enc_structs.h" #include "ihevce_multi_thrd_structs.h" #include "ihevce_function_selector.h" #include "ihevce_me_common_defs.h" #include "ihevce_enc_structs.h" #include "ihevce_had_satd.h" #include "ihevce_cmn_utils_instr_set_router.h" #include "hme_datatype.h" #include "hme_common_defs.h" #include "hme_common_utils.h" #include "hme_interface.h" #include "hme_defs.h" #include "hme_err_compute.h" #include "hme_globals.h" #include "ihevce_me_instr_set_router.h" /*****************************************************************************/ /* Globals */ /*****************************************************************************/ static FT_SAD_EVALUATOR *gapf_sad_pt_npu[NUM_BLK_SIZES]; static FT_PART_SADS_EVALUATOR_16X16CU *gpf_part_sads_evaluator_16x16CU; static FT_PART_SADS_EVALUATOR *gpf_part_sads_evaluator_MxM; static FT_SAD_EVALUATOR *gpf_sad_grid_mxn; /* 9 => Number of function types */ /* 2 => Number of results to store */ static FT_CALC_SAD_AND_RESULT *gapf_calc_sad_and_result_fxn[9][2]; static U08 gau1_calc_sad_and_result[2][2][4][TOT_NUM_PARTS] = { //grid flag = 0 { //noise = 0 { //NxN or NxN & SMP { 1, 2, 2, 2, 2, 2, 2, 2, 2, 4, 4, 4, 4, 4, 4, 4, 4 }, //SMP only { 1, 2, 2, 2, 2, 3, 3, 3, 4, 4, 4, 4, 4, 4, 4, 4, 4 }, //AMP { 1, 3, 3, 3, 3, 3, 3, 3, 4, 4, 4, 4, 4, 4, 4, 4, 4 }, //2Nx2N only, i.e. num_parts = 1 { 1, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4 } }, //noise = 1 { { 5, 7, 7, 7, 6, 7, 7, 7, 8, 8, 8, 8, 8, 8, 8, 8, 8 }, { 5, 7, 7, 7, 7, 7, 7, 7, 8, 8, 8, 8, 8, 8, 8, 8, 8 }, { 5, 7, 7, 7, 7, 7, 7, 7, 8, 8, 8, 8, 8, 8, 8, 8, 8 }, { 5, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8 } } }, //grid flag = 1 { //noise = 0 { { 0, 2, 2, 2, 2, 2, 2, 2, 2, 4, 4, 4, 4, 4, 4, 4, 4 }, { 0, 2, 2, 2, 2, 3, 3, 3, 4, 4, 4, 4, 4, 4, 4, 4, 4 }, { 0, 3, 3, 3, 3, 3, 3, 3, 4, 4, 4, 4, 4, 4, 4, 4, 4 }, { 0, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4 } }, //noise = 1 { { 0, 7, 7, 7, 6, 7, 7, 7, 8, 8, 8, 8, 8, 8, 8, 8, 8 }, { 0, 7, 7, 7, 7, 7, 7, 7, 8, 8, 8, 8, 8, 8, 8, 8, 8 }, { 0, 7, 7, 7, 7, 7, 7, 7, 8, 8, 8, 8, 8, 8, 8, 8, 8 }, { 0, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8 } } } }; /*****************************************************************************/ /* Function Definitions */ /*****************************************************************************/ /*! ****************************************************************************** * \if Function name : ihevce_me_instr_set_router \endif * * \brief * Function pointer initialization of me utils struct * ***************************************************************************** */ void ihevce_me_instr_set_router(ihevce_me_optimised_function_list_t *ps_func_list, IV_ARCH_T e_arch) { // clang-format off #ifdef DISABLE_AVX2_INTR e_arch = (e_arch == ARCH_X86_AVX2) ? ARCH_X86_AVX : e_arch; #endif switch(e_arch) { #ifdef ENABLE_NEON case ARCH_ARM_A9Q: case ARCH_ARM_V8_NEON: ps_func_list->pf_calc_pt_sad_and_1_best_result_explicit_8x8 = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_1_best_result_explicit_8x8_4x4 = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_1_best_result_explicit_8x8_for_grid = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_1_best_result_explicit_generic = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_2_best_results_explicit_8x8 = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_2_best_results_explicit_8x8_4x4 = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_2_best_results_explicit_8x8_for_grid = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_2_best_results_explicit_generic = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_sad_and_1_best_result_generic = hme_calc_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_generic = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_eq_1 = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_square_parts = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_lt_9 = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_lt_17 = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_compute_variance_for_all_parts = hme_compute_variance_for_all_parts; ps_func_list->pf_compute_stim_injected_distortion_for_all_parts = hme_compute_stim_injected_distortion_for_all_parts; ps_func_list->pf_calc_sad_and_1_best_result_num_part_1_for_grid = hme_calc_sad_and_1_best_result_neon; ps_func_list->pf_calc_sad_and_1_best_result_num_part_eq_1 = hme_calc_sad_and_1_best_result_neon; ps_func_list->pf_calc_sad_and_1_best_result_num_part_lt_17 = hme_calc_sad_and_1_best_result_neon; ps_func_list->pf_calc_sad_and_1_best_result_num_part_lt_9 = hme_calc_sad_and_1_best_result_neon; ps_func_list->pf_calc_sad_and_1_best_result_num_square_parts = hme_calc_sad_and_1_best_result_neon; ps_func_list->pf_calc_sad_and_1_best_result_subpel_generic = hme_calc_sad_and_1_best_result_subpel; ps_func_list->pf_calc_sad_and_1_best_result_subpel_num_part_eq_1 = hme_calc_sad_and_1_best_result_subpel_neon; ps_func_list->pf_calc_sad_and_1_best_result_subpel_num_part_lt_17 = hme_calc_sad_and_1_best_result_subpel_neon; ps_func_list->pf_calc_sad_and_1_best_result_subpel_num_part_lt_9 = hme_calc_sad_and_1_best_result_subpel_neon; ps_func_list->pf_calc_sad_and_1_best_result_subpel_square_parts = hme_calc_sad_and_1_best_result_subpel_neon; ps_func_list->pf_combine_4x4_sads_and_compute_cost_high_quality = hme_combine_4x4_sads_and_compute_cost_high_quality_neon; ps_func_list->pf_combine_4x4_sads_and_compute_cost_high_speed = hme_combine_4x4_sads_and_compute_cost_high_speed_neon; ps_func_list->pf_compute_4x4_sads_for_16x16_blk = compute_4x4_sads_for_16x16_blk_neon; ps_func_list->pf_evalsad_grid_npu_MxN = hme_evalsad_grid_npu_MxN_neon; ps_func_list->pf_evalsad_grid_pu_MxM = compute_part_sads_for_MxM_blk_neon; ps_func_list->pf_evalsad_pt_npu_12x16_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_evalsad_pt_npu_16x12_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_evalsad_pt_npu_16x4_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_evalsad_pt_npu_24x32_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_evalsad_pt_npu_8x4_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_evalsad_pt_npu_mxn_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_evalsad_pt_npu_width_multiple_4_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_evalsad_pt_npu_width_multiple_8_8bit = hme_evalsad_pt_npu_MxN_8bit_neon; ps_func_list->pf_get_wt_inp_8x8 = hme_get_wt_inp_8x8_neon; ps_func_list->pf_get_wt_inp_ctb = hme_get_wt_inp_ctb_neon; ps_func_list->pf_get_wt_inp_generic = hme_get_wt_inp; ps_func_list->pf_mv_clipper = hme_mv_clipper; ps_func_list->pf_qpel_interp_avg_1pt = hme_qpel_interp_avg_1pt_neon; ps_func_list->pf_qpel_interp_avg_2pt_horz_with_reuse = hme_qpel_interp_avg_2pt_horz_with_reuse_neon; ps_func_list->pf_qpel_interp_avg_2pt_vert_with_reuse = hme_qpel_interp_avg_2pt_vert_with_reuse_neon; ps_func_list->pf_qpel_interp_avg_generic = hme_qpel_interp_avg_neon; ps_func_list->pf_store_4x4_sads_high_quality = hme_store_4x4_sads_high_quality_neon; ps_func_list->pf_store_4x4_sads_high_speed = hme_store_4x4_sads_high_speed_neon; break; #endif default: ps_func_list->pf_calc_pt_sad_and_1_best_result_explicit_8x8 = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_1_best_result_explicit_8x8_4x4 = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_1_best_result_explicit_8x8_for_grid = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_1_best_result_explicit_generic = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_2_best_results_explicit_8x8 = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_2_best_results_explicit_8x8_4x4 = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_2_best_results_explicit_8x8_for_grid = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_pt_sad_and_2_best_results_explicit_generic = hme_calc_pt_sad_and_result_explicit; ps_func_list->pf_calc_sad_and_1_best_result_generic = hme_calc_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_generic = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_eq_1 = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_square_parts = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_lt_9 = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_lt_17 = hme_calc_stim_injected_sad_and_1_best_result; ps_func_list->pf_compute_variance_for_all_parts = hme_compute_variance_for_all_parts; ps_func_list->pf_compute_stim_injected_distortion_for_all_parts = hme_compute_stim_injected_distortion_for_all_parts; ps_func_list->pf_calc_sad_and_1_best_result_num_part_1_for_grid = hme_calc_sad_and_1_best_result; ps_func_list->pf_calc_sad_and_1_best_result_num_part_eq_1 = hme_calc_sad_and_1_best_result; ps_func_list->pf_calc_sad_and_1_best_result_num_part_lt_17 = hme_calc_sad_and_1_best_result; ps_func_list->pf_calc_sad_and_1_best_result_num_part_lt_9 = hme_calc_sad_and_1_best_result; ps_func_list->pf_calc_sad_and_1_best_result_num_square_parts = hme_calc_sad_and_1_best_result; ps_func_list->pf_calc_sad_and_1_best_result_subpel_generic = hme_calc_sad_and_1_best_result_subpel; ps_func_list->pf_calc_sad_and_1_best_result_subpel_num_part_eq_1 = hme_calc_sad_and_1_best_result_subpel; ps_func_list->pf_calc_sad_and_1_best_result_subpel_num_part_lt_17 = hme_calc_sad_and_1_best_result_subpel; ps_func_list->pf_calc_sad_and_1_best_result_subpel_num_part_lt_9 = hme_calc_sad_and_1_best_result_subpel; ps_func_list->pf_calc_sad_and_1_best_result_subpel_square_parts = hme_calc_sad_and_1_best_result_subpel; ps_func_list->pf_combine_4x4_sads_and_compute_cost_high_quality = hme_combine_4x4_sads_and_compute_cost_high_quality; ps_func_list->pf_combine_4x4_sads_and_compute_cost_high_speed = hme_combine_4x4_sads_and_compute_cost_high_speed; ps_func_list->pf_compute_4x4_sads_for_16x16_blk = compute_4x4_sads_for_16x16_blk; ps_func_list->pf_evalsad_grid_npu_MxN = hme_evalsad_grid_npu_MxN; ps_func_list->pf_evalsad_grid_pu_MxM = compute_part_sads_for_MxM_blk; ps_func_list->pf_evalsad_pt_npu_12x16_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_evalsad_pt_npu_16x12_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_evalsad_pt_npu_16x4_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_evalsad_pt_npu_24x32_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_evalsad_pt_npu_8x4_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_evalsad_pt_npu_mxn_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_evalsad_pt_npu_width_multiple_4_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_evalsad_pt_npu_width_multiple_8_8bit = hme_evalsad_pt_npu_MxN_8bit; ps_func_list->pf_get_wt_inp_8x8 = hme_get_wt_inp; ps_func_list->pf_get_wt_inp_ctb = hme_get_wt_inp; ps_func_list->pf_get_wt_inp_generic = hme_get_wt_inp; ps_func_list->pf_mv_clipper = hme_mv_clipper; ps_func_list->pf_qpel_interp_avg_1pt = hme_qpel_interp_avg_1pt; ps_func_list->pf_qpel_interp_avg_2pt_horz_with_reuse = hme_qpel_interp_avg_2pt_horz_with_reuse; ps_func_list->pf_qpel_interp_avg_2pt_vert_with_reuse = hme_qpel_interp_avg_2pt_vert_with_reuse; ps_func_list->pf_qpel_interp_avg_generic = hme_qpel_interp_avg; ps_func_list->pf_store_4x4_sads_high_quality = hme_store_4x4_sads_high_quality; ps_func_list->pf_store_4x4_sads_high_speed = hme_store_4x4_sads_high_speed; break; } gapf_sad_pt_npu[BLK_4x4] = ps_func_list->pf_evalsad_pt_npu_width_multiple_4_8bit; gapf_sad_pt_npu[BLK_4x8] = ps_func_list->pf_evalsad_pt_npu_width_multiple_4_8bit; gapf_sad_pt_npu[BLK_8x4] = ps_func_list->pf_evalsad_pt_npu_8x4_8bit; gapf_sad_pt_npu[BLK_8x8] = ps_func_list->pf_evalsad_pt_npu_width_multiple_8_8bit; gapf_sad_pt_npu[BLK_4x16] = ps_func_list->pf_evalsad_pt_npu_width_multiple_4_8bit; gapf_sad_pt_npu[BLK_8x16] = ps_func_list->pf_evalsad_pt_npu_width_multiple_8_8bit; gapf_sad_pt_npu[BLK_12x16] = ps_func_list->pf_evalsad_pt_npu_12x16_8bit; gapf_sad_pt_npu[BLK_16x4] = ps_func_list->pf_evalsad_pt_npu_16x4_8bit; gapf_sad_pt_npu[BLK_16x8] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_16x12] = ps_func_list->pf_evalsad_pt_npu_16x12_8bit; gapf_sad_pt_npu[BLK_16x16] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_8x32] = ps_func_list->pf_evalsad_pt_npu_width_multiple_8_8bit; gapf_sad_pt_npu[BLK_16x32] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_24x32] = ps_func_list->pf_evalsad_pt_npu_24x32_8bit; gapf_sad_pt_npu[BLK_32x8] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_32x16] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_32x8] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_32x16] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_32x24] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_32x32] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_16x64] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_32x64] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_48x64] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_64x16] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_64x32] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_64x48] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gapf_sad_pt_npu[BLK_64x64] = ps_func_list->pf_evalsad_pt_npu_width_multiple_16_8bit; gpf_part_sads_evaluator_16x16CU = ps_func_list->pf_compute_4x4_sads_for_16x16_blk; gpf_part_sads_evaluator_MxM = ps_func_list->pf_evalsad_grid_pu_MxM; gpf_sad_grid_mxn = ps_func_list->pf_evalsad_grid_npu_MxN; gapf_calc_sad_and_result_fxn[0][0] = ps_func_list->pf_calc_sad_and_1_best_result_num_part_1_for_grid; gapf_calc_sad_and_result_fxn[1][0] = ps_func_list->pf_calc_sad_and_1_best_result_num_part_eq_1; gapf_calc_sad_and_result_fxn[2][0] = ps_func_list->pf_calc_sad_and_1_best_result_num_square_parts; gapf_calc_sad_and_result_fxn[3][0] = ps_func_list->pf_calc_sad_and_1_best_result_num_part_lt_9; gapf_calc_sad_and_result_fxn[4][0] = ps_func_list->pf_calc_sad_and_1_best_result_num_part_lt_17; gapf_calc_sad_and_result_fxn[5][0] = ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_eq_1; gapf_calc_sad_and_result_fxn[6][0] = ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_square_parts; gapf_calc_sad_and_result_fxn[7][0] = ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_lt_9; gapf_calc_sad_and_result_fxn[8][0] = ps_func_list->pf_calc_stim_injected_sad_and_1_best_result_num_part_lt_17; gapf_calc_sad_and_result_fxn[0][1] = ps_func_list->pf_calc_sad_and_2_best_results_num_part_1_for_grid; gapf_calc_sad_and_result_fxn[1][1] = ps_func_list->pf_calc_sad_and_2_best_results_num_part_eq_1; gapf_calc_sad_and_result_fxn[2][1] = ps_func_list->pf_calc_sad_and_2_best_results_num_square_parts; gapf_calc_sad_and_result_fxn[3][1] = ps_func_list->pf_calc_sad_and_2_best_results_num_part_lt_9; gapf_calc_sad_and_result_fxn[4][1] = ps_func_list->pf_calc_sad_and_2_best_results_num_part_lt_17; gapf_calc_sad_and_result_fxn[5][1] = ps_func_list->pf_calc_stim_injected_sad_and_2_best_results_num_part_eq_1; gapf_calc_sad_and_result_fxn[6][1] = ps_func_list->pf_calc_stim_injected_sad_and_2_best_results_num_square_parts; gapf_calc_sad_and_result_fxn[7][1] = ps_func_list->pf_calc_stim_injected_sad_and_2_best_results_num_part_lt_9; gapf_calc_sad_and_result_fxn[8][1] = ps_func_list->pf_calc_stim_injected_sad_and_2_best_results_num_part_lt_17; } // clang-format on FT_CALC_SAD_AND_RESULT *hme_get_calc_sad_and_result_fxn( S08 i1_grid_flag, U08 u1_is_cu_noisy, S32 i4_part_mask, S32 num_parts, S32 num_results) { U08 u1_index; ASSERT((1 == num_results) || (2 == num_results)); u1_index = gau1_calc_sad_and_result[i1_grid_flag][u1_is_cu_noisy] [(!!(i4_part_mask & (ENABLE_SMP | ENABLE_NxN)) && !(i4_part_mask & ENABLE_AMP)) ? (!!(i4_part_mask & ENABLE_NxN) ? 0 : 1) : (!!(i4_part_mask & ENABLE_AMP) ? 2 : 3)][num_parts - 1]; return gapf_calc_sad_and_result_fxn[u1_index][2 == num_results]; } void hme_evalsad_grid_pu_MxM(err_prms_t *ps_prms) { grid_ctxt_t s_grid; cand_t as_candt[9]; S32 *api4_sad_grid[TOT_NUM_PARTS]; hme_mv_t s_mv = { 0, 0 }; CU_SIZE_T e_cu_size = (CU_SIZE_T)(hme_get_range(ps_prms->i4_blk_wd) - 4); S32 i4_ref_idx = 0, i; S32 num_candts = 0; s_grid.num_grids = 1; s_grid.ref_buf_stride = ps_prms->i4_ref_stride; s_grid.grd_sz_y_x = ((ps_prms->i4_step << 16) | ps_prms->i4_step); s_grid.ppu1_ref_ptr = &ps_prms->pu1_ref; s_grid.pi4_grd_mask = &ps_prms->i4_grid_mask; s_grid.p_mv = &s_mv; s_grid.p_ref_idx = &i4_ref_idx; for(i = 0; i < 9; i++) { if(s_grid.pi4_grd_mask[0] & (1 << i)) { num_candts++; } } for(i = 0; i < TOT_NUM_PARTS; i++) { api4_sad_grid[i] = &ps_prms->pi4_sad_grid[i * num_candts]; } gpf_part_sads_evaluator_MxM( &s_grid, ps_prms->pu1_inp, ps_prms->i4_inp_stride, (WORD32 **)api4_sad_grid, as_candt, &num_candts, e_cu_size); } PF_SAD_FXN_T hme_get_sad_fxn(BLK_SIZE_T e_blk_size, S32 i4_grid_mask, S32 i4_part_mask) { S32 i4_grid_en = ((i4_grid_mask & 0x1fe) != 0); if(i4_grid_en) { if(i4_part_mask & (i4_part_mask - 1)) { if(BLK_16x16 == e_blk_size) { return hme_evalsad_grid_pu_16x16; } else { return hme_evalsad_grid_pu_MxM; } } else { return gpf_sad_grid_mxn; } } else { if(i4_part_mask & (i4_part_mask - 1)) { if(BLK_16x16 == e_blk_size) { return hme_evalsad_grid_pu_16x16; } else { return hme_evalsad_grid_pu_MxM; } } else { return gapf_sad_pt_npu[e_blk_size]; } } } void ihevce_sifter_sad_fxn_assigner(FT_SAD_EVALUATOR **ppf_evalsad_pt_npu_mxn, IV_ARCH_T e_arch) { switch(e_arch) { #ifdef ENABLE_NEON case ARCH_ARM_A9Q: case ARCH_ARM_V8_NEON: ppf_evalsad_pt_npu_mxn[0] = hme_evalsad_pt_npu_MxN_8bit_neon; break; #endif default: ppf_evalsad_pt_npu_mxn[0] = hme_evalsad_pt_npu_MxN_8bit; break; } }