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-rw-r--r--src/ipa/ipu3/algorithms/agc.cpp80
1 files changed, 73 insertions, 7 deletions
diff --git a/src/ipa/ipu3/algorithms/agc.cpp b/src/ipa/ipu3/algorithms/agc.cpp
index 6c151232..b89d1559 100644
--- a/src/ipa/ipu3/algorithms/agc.cpp
+++ b/src/ipa/ipu3/algorithms/agc.cpp
@@ -2,7 +2,7 @@
/*
* Copyright (C) 2021, Ideas On Board
*
- * ipu3_agc.cpp - AGC/AEC control algorithm
+ * ipu3_agc.cpp - AGC/AEC mean-based control algorithm
*/
#include "agc.h"
@@ -17,17 +17,37 @@
#include "libipa/histogram.h"
+/**
+ * \file agc.h
+ */
+
namespace libcamera {
using namespace std::literals::chrono_literals;
namespace ipa::ipu3::algorithms {
+/**
+ * \class Agc
+ * \brief A mean-based auto-exposure algorithm
+ *
+ * This algorithm calculates a shutter time and an analogue gain so that the
+ * average value of the green channel of the brightest 2% of pixels approaches
+ * 0.5. The AWB gains are not used here, and all cells in the grid have the same
+ * weight, like an average-metering case. In this metering mode, the camera uses
+ * light information from the entire scene and creates an average for the final
+ * exposure setting, giving no weighting to any particular portion of the
+ * metered area.
+ *
+ * Reference: Battiato, Messina & Castorina. (2008). Exposure
+ * Correction for Imaging Devices: An Overview. 10.1201/9781420054538.ch12.
+ */
+
LOG_DEFINE_CATEGORY(IPU3Agc)
/* Number of frames to wait before calculating stats on minimum exposure */
static constexpr uint32_t kInitialFrameMinAECount = 4;
-/* Number of frames to wait between new gain/exposure estimations */
+/* Number of frames to wait between new gain/shutter time estimations */
static constexpr uint32_t kFrameSkipCount = 6;
/* Limits for analogue gain values */
@@ -36,6 +56,8 @@ static constexpr double kMaxAnalogueGain = 8.0;
/* Histogram constants */
static constexpr uint32_t knumHistogramBins = 256;
+
+/* Target value to reach for the top 2% of the histogram */
static constexpr double kEvGainTarget = 0.5;
Agc::Agc()
@@ -45,10 +67,18 @@ Agc::Agc()
{
}
+/**
+ * \brief Configure the AGC given a configInfo
+ * \param[in] context The shared IPA context
+ * \param[in] configInfo The IPA configuration data
+ *
+ * \return 0
+ */
int Agc::configure(IPAContext &context, const IPAConfigInfo &configInfo)
{
stride_ = context.configuration.grid.stride;
+ /* \todo use the IPAContext to provide the limits */
lineDuration_ = configInfo.sensorInfo.lineLength * 1.0s
/ configInfo.sensorInfo.pixelRate;
@@ -70,9 +100,15 @@ int Agc::configure(IPAContext &context, const IPAConfigInfo &configInfo)
return 0;
}
-void Agc::processBrightness(const ipu3_uapi_stats_3a *stats,
+/**
+ * \brief Estimate the mean value of the top 2% of the histogram
+ * \param[in] stats The statistics computed by the ImgU
+ * \param[in] grid The grid used to store the statistics in the IPU3
+ */
+void Agc::measureBrightness(const ipu3_uapi_stats_3a *stats,
const ipu3_uapi_grid_config &grid)
{
+ /* Initialise the histogram array */
uint32_t hist[knumHistogramBins] = { 0 };
for (unsigned int cellY = 0; cellY < grid.height; cellY++) {
@@ -87,6 +123,11 @@ void Agc::processBrightness(const ipu3_uapi_stats_3a *stats,
if (cell->sat_ratio == 0) {
uint8_t gr = cell->Gr_avg;
uint8_t gb = cell->Gb_avg;
+ /*
+ * Store the average green value to estimate the
+ * brightness. Even the overexposed pixels are
+ * taken into account.
+ */
hist[(gr + gb) / 2]++;
}
}
@@ -96,6 +137,9 @@ void Agc::processBrightness(const ipu3_uapi_stats_3a *stats,
iqMean_ = Histogram(Span<uint32_t>(hist)).interQuantileMean(0.98, 1.0);
}
+/**
+ * \brief Apply a filter on the exposure value to limit the speed of changes
+ */
void Agc::filterExposure()
{
double speed = 0.2;
@@ -106,7 +150,7 @@ void Agc::filterExposure()
/*
* If we are close to the desired result, go faster to avoid making
* multiple micro-adjustments.
- * \ todo: Make this customisable?
+ * \todo Make this customisable?
*/
if (filteredExposure_ < 1.2 * currentExposure_ &&
filteredExposure_ > 0.8 * currentExposure_)
@@ -119,7 +163,12 @@ void Agc::filterExposure()
LOG(IPU3Agc, Debug) << "After filtering, total_exposure " << filteredExposure_;
}
-void Agc::lockExposureGain(uint32_t &exposure, double &analogueGain)
+/**
+ * \brief Estimate the new exposure and gain values
+ * \param[inout] exposure The exposure value reference as a number of lines
+ * \param[inout] gain The gain reference to be updated
+ */
+void Agc::computeExposure(uint32_t &exposure, double &analogueGain)
{
/* Algorithm initialization should wait for first valid frames */
/* \todo - have a number of frames given by DelayedControls ?
@@ -136,19 +185,26 @@ void Agc::lockExposureGain(uint32_t &exposure, double &analogueGain)
return;
}
+ /* Estimate the gain needed to have the proportion wanted */
double evGain = kEvGainTarget * knumHistogramBins / iqMean_;
/* extracted from Rpi::Agc::computeTargetExposure */
+ /* Calculate the shutter time in seconds */
utils::Duration currentShutter = exposure * lineDuration_;
LOG(IPU3Agc, Debug) << "Actual total exposure " << currentShutter * analogueGain
<< " Shutter speed " << currentShutter
<< " Gain " << analogueGain
<< " Needed ev gain " << evGain;
+ /*
+ * Calculate the current exposure value for the scene as the latest
+ * exposure value applied multiplied by the new estimated gain.
+ */
currentExposure_ = prevExposureValue_ * evGain;
utils::Duration minShutterSpeed = minExposureLines_ * lineDuration_;
utils::Duration maxShutterSpeed = maxExposureLines_ * lineDuration_;
+ /* Clamp the exposure value to the min and max authorized */
utils::Duration maxTotalExposure = maxShutterSpeed * maxAnalogueGain_;
currentExposure_ = std::min(currentExposure_, maxTotalExposure);
LOG(IPU3Agc, Debug) << "Target total exposure " << currentExposure_
@@ -157,6 +213,7 @@ void Agc::lockExposureGain(uint32_t &exposure, double &analogueGain)
/* \todo: estimate if we need to desaturate */
filterExposure();
+ /* Divide the exposure value as new exposure and gain values */
utils::Duration exposureValue = filteredExposure_;
utils::Duration shutterTime = minShutterSpeed;
@@ -186,12 +243,21 @@ void Agc::lockExposureGain(uint32_t &exposure, double &analogueGain)
prevExposureValue_ = shutterTime * analogueGain;
}
+/**
+ * \brief Process IPU3 statistics, and run AGC operations
+ * \param[in] context The shared IPA context
+ * \param[in] stats The IPU3 statistics and ISP results
+ *
+ * Identify the current image brightness, and use that to estimate the optimal
+ * new exposure and gain for the scene.
+ */
void Agc::process(IPAContext &context, const ipu3_uapi_stats_3a *stats)
{
+ /* Get the latest exposure and gain applied */
uint32_t &exposure = context.frameContext.agc.exposure;
double &analogueGain = context.frameContext.agc.gain;
- processBrightness(stats, context.configuration.grid.bdsGrid);
- lockExposureGain(exposure, analogueGain);
+ measureBrightness(stats, context.configuration.grid.bdsGrid);
+ computeExposure(exposure, analogueGain);
frameCount_++;
}