/* * x3a_ciq_wavelet_tuning_handler.cpp - x3a Common IQ Wavelet denoise tuning handler * * Copyright (c) 2014-2015 Intel 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. * * Author: Zong Wei <wei.zong@intel.com> */ #include "x3a_analyzer.h" #include "x3a_ciq_tuning_handler.h" #include "x3a_ciq_wavelet_tuning_handler.h" namespace XCam { typedef struct _X3aCiqWaveletTuningStaticData { double analog_gain; double hard_threshold; double soft_threshold; uint8_t decom_levels; } X3aCiqWaveletTuningStaticData; const X3aCiqWaveletTuningStaticData imx185_tuning[X3A_CIQ_GAIN_STEPS] = { {1.0, 0.01, 1.0, 5}, {16.98, 0.02, 0.7, 5}, {49.55, 0.2, 0.5, 5}, {139.63, 0.3, 0.3, 5}, {X3A_CIQ_GAIN_MAX, 0.5, 0.2, 5}, }; X3aCiqWaveletTuningHandler::X3aCiqWaveletTuningHandler () : X3aCiqTuningHandler ("X3aCiqWaveletTuningHandler") { } X3aCiqWaveletTuningHandler::~X3aCiqWaveletTuningHandler () { } XCamReturn X3aCiqWaveletTuningHandler::analyze (X3aResultList &output) { XCamReturn ret = XCAM_RETURN_NO_ERROR; const X3aCiqWaveletTuningStaticData* tuning = imx185_tuning; if (NULL != _tuning_data) { tuning = (X3aCiqWaveletTuningStaticData*)_tuning_data;; } XCam3aResultWaveletNoiseReduction config; SmartPtr<X3aWaveletNoiseReduction> settings = new X3aWaveletNoiseReduction (XCAM_3A_RESULT_WAVELET_NOISE_REDUCTION); int64_t et = get_current_exposure_time (); double analog_gain = get_current_analog_gain (); double max_analog_gain = get_max_analog_gain (); XCAM_UNUSED (et); XCAM_UNUSED (max_analog_gain); XCAM_LOG_DEBUG ("get current AG = (%f), max AG = (%f), et = (%" PRId64 ")", analog_gain, max_analog_gain, et); uint8_t i_curr = 0; uint8_t i_prev = 0; for (i_curr = 0; i_curr < X3A_CIQ_GAIN_STEPS; i_curr++) { if (analog_gain <= tuning[i_curr].analog_gain) { break; } i_prev = i_curr; } if (i_curr >= X3A_CIQ_GAIN_STEPS) { i_curr = X3A_CIQ_GAIN_STEPS - 1; } //Calculate Wavelet denoise config xcam_mem_clear (config); /* [0]:soft threshold / [1]:hard threshold */ config.threshold[0] = linear_interpolate_p2 (tuning[i_prev].soft_threshold, tuning[i_curr].soft_threshold, tuning[i_prev].analog_gain, tuning[i_curr].analog_gain, analog_gain); config.threshold[1] = linear_interpolate_p2 (tuning[i_prev].hard_threshold, tuning[i_curr].hard_threshold, tuning[i_prev].analog_gain, tuning[i_curr].analog_gain, analog_gain); config.decomposition_levels = 1; config.analog_gain = analog_gain / X3A_CIQ_GAIN_MAX; XCAM_LOG_DEBUG ("Calculate Wavelet noise reduction config: soft threshold(%f), hard threshold(%f), decomposition levels(%d)", config.threshold[0], config.threshold[1], config.decomposition_levels); settings->set_standard_result (config); output.push_back (settings); return ret; } };