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/* SPDX-License-Identifier: BSD-2-Clause */
/*
* Copyright (C) 2019, Raspberry Pi Ltd
*
* alsc.h - ALSC (auto lens shading correction) control algorithm
*/
#pragma once
#include <array>
#include <mutex>
#include <condition_variable>
#include <thread>
#include <vector>
#include <libcamera/geometry.h>
#include "../algorithm.h"
#include "../alsc_status.h"
#include "../statistics.h"
namespace RPiController {
/* Algorithm to generate automagic LSC (Lens Shading Correction) tables. */
/*
* The Array2D class is a very thin wrapper round std::vector so that it can
* be used in exactly the same way in the code but carries its correct width
* and height ("dimensions") with it.
*/
template<typename T>
class Array2D
{
public:
using Size = libcamera::Size;
const Size &dimensions() const { return dimensions_; }
size_t size() const { return data_.size(); }
const std::vector<T> &data() const { return data_; }
void resize(const Size &dims)
{
dimensions_ = dims;
data_.resize(dims.width * dims.height);
}
void resize(const Size &dims, const T &value)
{
resize(dims);
std::fill(data_.begin(), data_.end(), value);
}
T &operator[](int index) { return data_[index]; }
const T &operator[](int index) const { return data_[index]; }
T *ptr() { return data_.data(); }
const T *ptr() const { return data_.data(); }
auto begin() { return data_.begin(); }
auto end() { return data_.end(); }
private:
Size dimensions_;
std::vector<T> data_;
};
struct AlscCalibration {
double ct;
Array2D<double> table;
};
struct AlscConfig {
/* Only repeat the ALSC calculation every "this many" frames */
uint16_t framePeriod;
/* number of initial frames for which speed taken as 1.0 (maximum) */
uint16_t startupFrames;
/* IIR filter speed applied to algorithm results */
double speed;
double sigmaCr;
double sigmaCb;
double minCount;
uint16_t minG;
double omega;
uint32_t nIter;
Array2D<double> luminanceLut;
double luminanceStrength;
std::vector<AlscCalibration> calibrationsCr;
std::vector<AlscCalibration> calibrationsCb;
double defaultCt; /* colour temperature if no metadata found */
double threshold; /* iteration termination threshold */
double lambdaBound; /* upper/lower bound for lambda from a value of 1 */
libcamera::Size tableSize;
};
class Alsc : public Algorithm
{
public:
Alsc(Controller *controller = NULL);
~Alsc();
char const *name() const override;
void initialise() override;
void switchMode(CameraMode const &cameraMode, Metadata *metadata) override;
int read(const libcamera::YamlObject ¶ms) override;
void prepare(Metadata *imageMetadata) override;
void process(StatisticsPtr &stats, Metadata *imageMetadata) override;
private:
/* configuration is read-only, and available to both threads */
AlscConfig config_;
bool firstTime_;
CameraMode cameraMode_;
Array2D<double> luminanceTable_;
std::thread asyncThread_;
void asyncFunc(); /* asynchronous thread function */
std::mutex mutex_;
/* condvar for async thread to wait on */
std::condition_variable asyncSignal_;
/* condvar for synchronous thread to wait on */
std::condition_variable syncSignal_;
/* for sync thread to check if async thread finished (requires mutex) */
bool asyncFinished_;
/* for async thread to check if it's been told to run (requires mutex) */
bool asyncStart_;
/* for async thread to check if it's been told to quit (requires mutex) */
bool asyncAbort_;
/*
* The following are only for the synchronous thread to use:
* for sync thread to note its has asked async thread to run
*/
bool asyncStarted_;
/* counts up to framePeriod before restarting the async thread */
int framePhase_;
/* counts up to startupFrames */
int frameCount_;
/* counts up to startupFrames for Process function */
int frameCount2_;
std::array<Array2D<double>, 3> syncResults_;
std::array<Array2D<double>, 3> prevSyncResults_;
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 *imageMetadata);
/* copy out the results from the async thread so that it can be restarted */
void fetchAsyncResults();
double ct_;
RgbyRegions statistics_;
std::array<Array2D<double>, 3> asyncResults_;
Array2D<double> asyncLambdaR_;
Array2D<double> asyncLambdaB_;
void doAlsc();
Array2D<double> lambdaR_;
Array2D<double> lambdaB_;
/* Temporaries for the computations */
std::array<Array2D<double>, 5> tmpC_;
std::array<std::vector<std::array<double, 4>>, 3> tmpM_;
};
} /* namespace RPiController */
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