Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Aurabindo Pillai | 1097 | 98.47% | 2 | 28.57% |
Harry Wentland | 10 | 0.90% | 2 | 28.57% |
Bhawanpreet Lakha | 5 | 0.45% | 1 | 14.29% |
Jiapeng Chong | 1 | 0.09% | 1 | 14.29% |
Revalla Hari Krishna | 1 | 0.09% | 1 | 14.29% |
Total | 1114 | 7 |
/* * Copyright 2021 Advanced Micro Devices, Inc. * * 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, sublicense, * 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 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 NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) 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. * * Authors: AMD * */ #include "dm_services.h" #include "core_types.h" #include "reg_helper.h" #include "dcn32/dcn32_dpp.h" #include "basics/conversion.h" #include "dcn30/dcn30_cm_common.h" /* Compute the maximum number of lines that we can fit in the line buffer */ static void dscl32_calc_lb_num_partitions( const struct scaler_data *scl_data, enum lb_memory_config lb_config, int *num_part_y, int *num_part_c) { int memory_line_size_y, memory_line_size_c, memory_line_size_a, lb_memory_size, lb_memory_size_c, lb_memory_size_a, num_partitions_a; int line_size = scl_data->viewport.width < scl_data->recout.width ? scl_data->viewport.width : scl_data->recout.width; int line_size_c = scl_data->viewport_c.width < scl_data->recout.width ? scl_data->viewport_c.width : scl_data->recout.width; if (line_size == 0) line_size = 1; if (line_size_c == 0) line_size_c = 1; memory_line_size_y = (line_size + 5) / 6; /* +5 to ceil */ memory_line_size_c = (line_size_c + 5) / 6; /* +5 to ceil */ memory_line_size_a = (line_size + 5) / 6; /* +5 to ceil */ if (lb_config == LB_MEMORY_CONFIG_1) { lb_memory_size = 970; lb_memory_size_c = 970; lb_memory_size_a = 970; } else if (lb_config == LB_MEMORY_CONFIG_2) { lb_memory_size = 1290; lb_memory_size_c = 1290; lb_memory_size_a = 1290; } else if (lb_config == LB_MEMORY_CONFIG_3) { if (scl_data->viewport.width == scl_data->h_active && scl_data->viewport.height == scl_data->v_active) { /* 420 mode: luma using all 3 mem from Y, plus 3rd mem from Cr and Cb */ /* use increased LB size for calculation only if Scaler not enabled */ lb_memory_size = 970 + 1290 + 1170 + 1170 + 1170; lb_memory_size_c = 970 + 1290; lb_memory_size_a = 970 + 1290 + 1170; } else { /* 420 mode: luma using all 3 mem from Y, plus 3rd mem from Cr and Cb */ lb_memory_size = 970 + 1290 + 484 + 484 + 484; lb_memory_size_c = 970 + 1290; lb_memory_size_a = 970 + 1290 + 484; } } else { if (scl_data->viewport.width == scl_data->h_active && scl_data->viewport.height == scl_data->v_active) { /* use increased LB size for calculation only if Scaler not enabled */ lb_memory_size = 970 + 1290 + 1170; lb_memory_size_c = 970 + 1290 + 1170; lb_memory_size_a = 970 + 1290 + 1170; } else { lb_memory_size = 970 + 1290 + 484; lb_memory_size_c = 970 + 1290 + 484; lb_memory_size_a = 970 + 1290 + 484; } } *num_part_y = lb_memory_size / memory_line_size_y; *num_part_c = lb_memory_size_c / memory_line_size_c; num_partitions_a = lb_memory_size_a / memory_line_size_a; if (scl_data->lb_params.alpha_en && (num_partitions_a < *num_part_y)) *num_part_y = num_partitions_a; if (*num_part_y > 32) *num_part_y = 32; if (*num_part_c > 32) *num_part_c = 32; } static struct dpp_funcs dcn32_dpp_funcs = { .dpp_program_gamcor_lut = dpp3_program_gamcor_lut, .dpp_read_state = dpp30_read_state, .dpp_reset = dpp_reset, .dpp_set_scaler = dpp1_dscl_set_scaler_manual_scale, .dpp_get_optimal_number_of_taps = dpp3_get_optimal_number_of_taps, .dpp_set_gamut_remap = dpp3_cm_set_gamut_remap, .dpp_set_csc_adjustment = NULL, .dpp_set_csc_default = NULL, .dpp_program_regamma_pwl = NULL, .dpp_set_pre_degam = dpp3_set_pre_degam, .dpp_program_input_lut = NULL, .dpp_full_bypass = dpp1_full_bypass, .dpp_setup = dpp3_cnv_setup, .dpp_program_degamma_pwl = NULL, .dpp_program_cm_dealpha = dpp3_program_cm_dealpha, .dpp_program_cm_bias = dpp3_program_cm_bias, .dpp_program_blnd_lut = NULL, // BLNDGAM is removed completely in DCN3.2 DPP .dpp_program_shaper_lut = NULL, // CM SHAPER block is removed in DCN3.2 DPP, (it is in MPCC, programmable before or after BLND) .dpp_program_3dlut = NULL, // CM 3DLUT block is removed in DCN3.2 DPP, (it is in MPCC, programmable before or after BLND) .dpp_program_bias_and_scale = NULL, .dpp_cnv_set_alpha_keyer = dpp2_cnv_set_alpha_keyer, .set_cursor_attributes = dpp3_set_cursor_attributes, .set_cursor_position = dpp1_set_cursor_position, .set_optional_cursor_attributes = dpp1_cnv_set_optional_cursor_attributes, .dpp_dppclk_control = dpp1_dppclk_control, .dpp_set_hdr_multiplier = dpp3_set_hdr_multiplier, .dpp_get_gamut_remap = dpp3_cm_get_gamut_remap, }; static struct dpp_caps dcn32_dpp_cap = { .dscl_data_proc_format = DSCL_DATA_PRCESSING_FLOAT_FORMAT, .max_lb_partitions = 31, .dscl_calc_lb_num_partitions = dscl32_calc_lb_num_partitions, }; bool dpp32_construct( struct dcn3_dpp *dpp, struct dc_context *ctx, uint32_t inst, const struct dcn3_dpp_registers *tf_regs, const struct dcn3_dpp_shift *tf_shift, const struct dcn3_dpp_mask *tf_mask) { dpp->base.ctx = ctx; dpp->base.inst = inst; dpp->base.funcs = &dcn32_dpp_funcs; dpp->base.caps = &dcn32_dpp_cap; dpp->tf_regs = tf_regs; dpp->tf_shift = tf_shift; dpp->tf_mask = tf_mask; return true; } void dscl32_spl_calc_lb_num_partitions( bool alpha_en, const struct spl_scaler_data *scl_data, enum lb_memory_config lb_config, int *num_part_y, int *num_part_c) { int memory_line_size_y, memory_line_size_c, memory_line_size_a, lb_memory_size, lb_memory_size_c, lb_memory_size_a, num_partitions_a; int line_size = scl_data->viewport.width < scl_data->recout.width ? scl_data->viewport.width : scl_data->recout.width; int line_size_c = scl_data->viewport_c.width < scl_data->recout.width ? scl_data->viewport_c.width : scl_data->recout.width; if (line_size == 0) line_size = 1; if (line_size_c == 0) line_size_c = 1; memory_line_size_y = (line_size + 5) / 6; /* +5 to ceil */ memory_line_size_c = (line_size_c + 5) / 6; /* +5 to ceil */ memory_line_size_a = (line_size + 5) / 6; /* +5 to ceil */ if (lb_config == LB_MEMORY_CONFIG_1) { lb_memory_size = 970; lb_memory_size_c = 970; lb_memory_size_a = 970; } else if (lb_config == LB_MEMORY_CONFIG_2) { lb_memory_size = 1290; lb_memory_size_c = 1290; lb_memory_size_a = 1290; } else if (lb_config == LB_MEMORY_CONFIG_3) { if (scl_data->viewport.width == scl_data->h_active && scl_data->viewport.height == scl_data->v_active) { /* 420 mode: luma using all 3 mem from Y, plus 3rd mem from Cr and Cb */ /* use increased LB size for calculation only if Scaler not enabled */ lb_memory_size = 970 + 1290 + 1170 + 1170 + 1170; lb_memory_size_c = 970 + 1290; lb_memory_size_a = 970 + 1290 + 1170; } else { /* 420 mode: luma using all 3 mem from Y, plus 3rd mem from Cr and Cb */ lb_memory_size = 970 + 1290 + 484 + 484 + 484; lb_memory_size_c = 970 + 1290; lb_memory_size_a = 970 + 1290 + 484; } } else { if (scl_data->viewport.width == scl_data->h_active && scl_data->viewport.height == scl_data->v_active) { /* use increased LB size for calculation only if Scaler not enabled */ lb_memory_size = 970 + 1290 + 1170; lb_memory_size_c = 970 + 1290 + 1170; lb_memory_size_a = 970 + 1290 + 1170; } else { lb_memory_size = 970 + 1290 + 484; lb_memory_size_c = 970 + 1290 + 484; lb_memory_size_a = 970 + 1290 + 484; } } *num_part_y = lb_memory_size / memory_line_size_y; *num_part_c = lb_memory_size_c / memory_line_size_c; num_partitions_a = lb_memory_size_a / memory_line_size_a; if (alpha_en && (num_partitions_a < *num_part_y)) *num_part_y = num_partitions_a; if (*num_part_y > 32) *num_part_y = 32; if (*num_part_c > 32) *num_part_c = 32; }
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