/* SPDX-License-Identifier: BSD-2-Clause */ /* * Copyright (C) 2019, Raspberry Pi (Trading) Limited * * alsc.hpp - ALSC (auto lens shading correction) control algorithm */ #pragma once #include <mutex> #include <condition_variable> #include <thread> #include "../algorithm.hpp" #include "../alsc_status.h" namespace RPi { // Algorithm to generate automagic LSC (Lens Shading Correction) tables. struct AlscCalibration { double ct; double table[ALSC_CELLS_X * ALSC_CELLS_Y]; }; struct AlscConfig { // Only repeat the ALSC calculation every "this many" frames uint16_t frame_period; // number of initial frames for which speed taken as 1.0 (maximum) uint16_t startup_frames; // IIR filter speed applied to algorithm results double speed; double sigma_Cr; double sigma_Cb; double min_count; uint16_t min_G; double omega; uint32_t n_iter; double luminance_lut[ALSC_CELLS_X * ALSC_CELLS_Y]; double luminance_strength; std::vector<AlscCalibration> calibrations_Cr; std::vector<AlscCalibration> calibrations_Cb; double default_ct; // colour temperature if no metadata found double threshold; // iteration termination threshold }; class Alsc : public Algorithm { public: Alsc(Controller *controller = NULL); ~Alsc(); char const *Name() const override; void Initialise() override; void SwitchMode(CameraMode const &camera_mode, Metadata *metadata) override; void Read(boost::property_tree::ptree const ¶ms) override; void Prepare(Metadata *image_metadata) override; void Process(StatisticsPtr &stats, Metadata *image_metadata) override; private: // configuration is read-only, and available to both threads AlscConfig config_; bool first_time_; CameraMode camera_mode_; double luminance_table_[ALSC_CELLS_X * ALSC_CELLS_Y]; std::thread async_thread_; void asyncFunc(); // asynchronous thread function std::mutex mutex_; // condvar for async thread to wait on std::condition_variable async_signal_; // condvar for synchronous thread to wait on std::condition_variable sync_signal_; // for sync thread to check if async thread finished (requires mutex) bool async_finished_; // for async thread to check if it's been told to run (requires mutex) bool async_start_; // for async thread to check if it's been told to quit (requires mutex) bool async_abort_; // The following are only for the synchronous thread to use: // for sync thread to note its has asked async thread to run bool async_started_; // counts up to frame_period before restarting the async thread int frame_phase_; // counts up to startup_frames int frame_count_; // counts up to startup_frames for Process method int frame_count2_; double sync_results_[3][ALSC_CELLS_Y][ALSC_CELLS_X]; double prev_sync_results_[3][ALSC_CELLS_Y][ALSC_CELLS_X]; void waitForAysncThread(); // The following are for the asynchronous thread to use, though the main // thread can set/reset them if the async thread is known to be idle: void restartAsync(StatisticsPtr &stats, Metadata *image_metadata); // copy out the results from the async thread so that it can be restarted void fetchAsyncResults(); double ct_; bcm2835_isp_stats_region statistics_[ALSC_CELLS_Y * ALSC_CELLS_X]; double async_results_[3][ALSC_CELLS_Y][ALSC_CELLS_X]; double async_lambda_r_[ALSC_CELLS_X * ALSC_CELLS_Y]; double async_lambda_b_[ALSC_CELLS_X * ALSC_CELLS_Y]; void doAlsc(); double lambda_r_[ALSC_CELLS_X * ALSC_CELLS_Y]; double lambda_b_[ALSC_CELLS_X * ALSC_CELLS_Y]; }; } // namespace RPi