/* * sharp_uapi_head_v4.h * * Copyright (c) 2022 Rockchip Corporation * * 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. * */ #ifndef __CALIBDBV2_UAPI_SHARPV4_HEADER_H__ #define __CALIBDBV2_UAPI_SHARPV4_HEADER_H__ #include "rk_aiq_comm.h" RKAIQ_BEGIN_DECLARE #define RK_SHARP_V4_LUMA_POINT_NUM 8 #define RK_SHARP_V4_PBF_DIAM 3 #define RK_SHARP_V4_RF_DIAM 5 #define RK_SHARP_V4_BF_DIAM 3 typedef struct RK_SHARP_Params_V4_Select_s { // M4_BOOL_DESC("enable", "1") int enable; // M4_ARRAY_DESC("luma_point", "s16", M4_SIZE(1,8), M4_RANGE(0,1024), "[0, 64, 128, 256, 384, 640, 896, 1024]", M4_DIGIT(0), M4_DYNAMIC(0)) int16_t luma_point[RK_SHARP_V4_LUMA_POINT_NUM]; // M4_ARRAY_DESC("luma_sigma", "s16", M4_SIZE(1,8), M4_RANGE(0,1023), "[8, 10, 10, 12, 14, 12, 12, 10]", M4_DIGIT(0), M4_DYNAMIC(0)) int16_t luma_sigma[RK_SHARP_V4_LUMA_POINT_NUM]; // M4_NUMBER_DESC("pbf_gain", "f32", M4_RANGE(0.0, 2.0), "0.5", M4_DIGIT(2)) float pbf_gain; // M4_NUMBER_DESC("pbf_add", "f32", M4_RANGE(0.0, 1023.0), "0.0", M4_DIGIT(2)) float pbf_add; // M4_NUMBER_DESC("pbf_ratio", "f32", M4_RANGE(0.0, 1.0), "0.5", M4_DIGIT(2)) float pbf_ratio; // M4_NUMBER_DESC("gaus_ratio", "f32", M4_RANGE(0.0, 1.0), "0.0", M4_DIGIT(2)) float gaus_ratio; // M4_NUMBER_DESC("sharp_ratio", "f32", M4_RANGE(0.0, 32.0), "0.5", M4_DIGIT(2)) float sharp_ratio; // M4_NUMBER_DESC("bf_gain", "f32", M4_RANGE(0.0, 2.0), "0.5", M4_DIGIT(2)) float bf_gain; // M4_NUMBER_DESC("bf_add", "f32", M4_RANGE(0.0, 1023.0), "0.0", M4_DIGIT(2)) float bf_add; // M4_NUMBER_DESC("bf_ratio", "f32", M4_RANGE(0.0, 1.0), "0.5", M4_DIGIT(2)) float bf_ratio; // M4_ARRAY_DESC("hf_clip", "s16", M4_SIZE(1,8), M4_RANGE(0,1023), "[10, 20, 30, 56, 56, 56, 56, 30]", M4_DIGIT(0), M4_DYNAMIC(0)) int16_t hf_clip[RK_SHARP_V4_LUMA_POINT_NUM]; // M4_ARRAY_DESC("local_sharp_strength", "s16", M4_SIZE(1,8), M4_RANGE(0,1023), "[1023, 1023, 1023, 1023, 1023, 1023, 1023, 1023]", M4_DIGIT(0), M4_DYNAMIC(0)) int16_t local_sharp_strength[RK_SHARP_V4_LUMA_POINT_NUM]; // M4_BOOL_DESC("kernel_sigma_enable", "1") int kernel_sigma_enable; // M4_ARRAY_DESC("prefilter_sigma", "f32", M4_SIZE(1,1), M4_RANGE(0,100), "[1.0]", M4_DIGIT(2), M4_DYNAMIC(0)) float prefilter_sigma; // M4_ARRAY_DESC("hfBilateralFilter_sigma", "f32", M4_SIZE(1,1), M4_RANGE(0,100), "[1.0]", M4_DIGIT(2), M4_DYNAMIC(0)) float hfBilateralFilter_sigma; // M4_ARRAY_DESC("GaussianFilter_sigma", "f32", M4_SIZE(1,1), M4_RANGE(0,100), "[1.0]", M4_DIGIT(2), M4_DYNAMIC(0)) float GaussianFilter_sigma; // M4_ARRAY_DESC("GaussianFilter_radius", "f32", M4_SIZE(1,1), M4_RANGE(1,2), "[2.0]", M4_DIGIT(0), M4_DYNAMIC(0)) float GaussianFilter_radius; // M4_ARRAY_DESC("prefilter_coeff", "f32", M4_SIZE(1,3), M4_RANGE(0,1), "[0.2042,0.1238,0.0751]", M4_DIGIT(4), M4_DYNAMIC(0)) float prefilter_coeff[3]; // M4_ARRAY_DESC("GaussianFilter_coeff", "f32", M4_SIZE(1,6), M4_RANGE(0,1), "[0.2042,0.1238,0.0751]", M4_DIGIT(4), M4_DYNAMIC(0)) float GaussianFilter_coeff[6]; // M4_ARRAY_DESC("hfBilateralFilter_coeff", "f32", M4_SIZE(1,3), M4_RANGE(0,1), "[0.2042,0.1238,0.0751]", M4_DIGIT(4), M4_DYNAMIC(0)) float hfBilateralFilter_coeff[3]; } RK_SHARP_Params_V4_Select_t; RKAIQ_END_DECLARE #endif