[PATCH v5 2/3] ipa: libipa: agc: Change luminance target to piecewise linear function
Paul Elder
paul.elder at ideasonboard.com
Fri Jun 7 10:03:29 CEST 2024
Change the relative luminance target from a scalar value to a piecewise
linear function that needs to be sampled by the estimate lux value.
Also change the rkisp1 and ipu3 IPAs accordingly, as they use the libipa
agc. As they both don't yet have lux modules, hardcode them to a single
lux value for now.
This affects the format of the tuning files, but as there aren't yet any
this shouldn't be an issue.
Signed-off-by: Paul Elder <paul.elder at ideasonboard.com>
Reviewed-by: Stefan Klug <stefan.klug at ideasonboard.com>
Reviewed-by: Daniel Scally <dan.scally at ideasonboard.com>
---
Changes in v5:
- use new PointF that's a typedef of Vector
Changes in v4:
- construct default pwl with *two* points so that it succeeds
No change in v3
Changes in v2:
- s/FPoint/PointF/
- add warning when using default relative luminance target when loading
from the tuning file fails
---
src/ipa/ipu3/algorithms/agc.cpp | 5 ++++-
src/ipa/libipa/agc_mean_luminance.cpp | 32 +++++++++++++++++++++------
src/ipa/libipa/agc_mean_luminance.h | 7 +++---
src/ipa/rkisp1/algorithms/agc.cpp | 5 ++++-
4 files changed, 37 insertions(+), 12 deletions(-)
diff --git a/src/ipa/ipu3/algorithms/agc.cpp b/src/ipa/ipu3/algorithms/agc.cpp
index 0e0114f6d..7f71bec06 100644
--- a/src/ipa/ipu3/algorithms/agc.cpp
+++ b/src/ipa/ipu3/algorithms/agc.cpp
@@ -222,12 +222,15 @@ void Agc::process(IPAContext &context, [[maybe_unused]] const uint32_t frame,
double analogueGain = frameContext.sensor.gain;
utils::Duration effectiveExposureValue = exposureTime * analogueGain;
+ /* \todo Plumb in the lux value. Requires a lux algo + tuning */
+ double lux = 400;
+
utils::Duration shutterTime;
double aGain, dGain;
std::tie(shutterTime, aGain, dGain) =
calculateNewEv(context.activeState.agc.constraintMode,
context.activeState.agc.exposureMode, hist,
- effectiveExposureValue);
+ effectiveExposureValue, lux);
LOG(IPU3Agc, Debug)
<< "Divided up shutter, analogue gain and digital gain are "
diff --git a/src/ipa/libipa/agc_mean_luminance.cpp b/src/ipa/libipa/agc_mean_luminance.cpp
index 271b5ae4b..10c16850d 100644
--- a/src/ipa/libipa/agc_mean_luminance.cpp
+++ b/src/ipa/libipa/agc_mean_luminance.cpp
@@ -134,7 +134,7 @@ static constexpr double kDefaultRelativeLuminanceTarget = 0.16;
*/
AgcMeanLuminance::AgcMeanLuminance()
- : frameCount_(0), filteredExposure_(0s), relativeLuminanceTarget_(0)
+ : frameCount_(0), filteredExposure_(0s)
{
}
@@ -142,8 +142,17 @@ AgcMeanLuminance::~AgcMeanLuminance() = default;
void AgcMeanLuminance::parseRelativeLuminanceTarget(const YamlObject &tuningData)
{
- relativeLuminanceTarget_ =
- tuningData["relativeLuminanceTarget"].get<double>(kDefaultRelativeLuminanceTarget);
+ int ret = relativeLuminanceTarget_.readYaml(tuningData["relativeLuminanceTarget"]);
+ if (ret == 0)
+ return;
+
+ LOG(AgcMeanLuminance, Warning)
+ << "Failed to load tuning parameter 'relativeLuminanceTarget', "
+ << "using default [0, " << kDefaultRelativeLuminanceTarget << "]";
+
+ std::vector<Pwl::PointF> points = { Pwl::PointF({ 0, kDefaultRelativeLuminanceTarget }),
+ Pwl::PointF({ 10000, kDefaultRelativeLuminanceTarget }) };
+ relativeLuminanceTarget_ = Pwl(points);
}
void AgcMeanLuminance::parseConstraint(const YamlObject &modeDict, int32_t id)
@@ -421,11 +430,18 @@ void AgcMeanLuminance::setLimits(utils::Duration minShutter,
/**
* \brief Estimate the initial gain needed to achieve a relative luminance
* target
+ * \param[in] lux The lux value at which to sample the luminance target pwl
+ *
+ * To account for non-linearity caused by saturation, the value needs to be
+ * estimated in an iterative process, as multiplying by a gain will not increase
+ * the relative luminance by the same factor if some image regions are saturated
+ *
* \return The calculated initial gain
*/
-double AgcMeanLuminance::estimateInitialGain() const
+double AgcMeanLuminance::estimateInitialGain(double lux) const
{
- double yTarget = relativeLuminanceTarget_;
+ double yTarget =
+ relativeLuminanceTarget_.eval(relativeLuminanceTarget_.domain().clamp(lux));
double yGain = 1.0;
/*
@@ -520,6 +536,7 @@ utils::Duration AgcMeanLuminance::filterExposure(utils::Duration exposureValue)
* the calculated gain
* \param[in] effectiveExposureValue The EV applied to the frame from which the
* statistics in use derive
+ * \param[in] lux The lux value at which to sample the luminance target pwl
*
* Calculate a new exposure value to try to obtain the target. The calculated
* exposure value is filtered to prevent rapid changes from frame to frame, and
@@ -531,7 +548,8 @@ std::tuple<utils::Duration, double, double>
AgcMeanLuminance::calculateNewEv(uint32_t constraintModeIndex,
uint32_t exposureModeIndex,
const Histogram &yHist,
- utils::Duration effectiveExposureValue)
+ utils::Duration effectiveExposureValue,
+ double lux)
{
/*
* The pipeline handler should validate that we have received an allowed
@@ -540,7 +558,7 @@ AgcMeanLuminance::calculateNewEv(uint32_t constraintModeIndex,
std::shared_ptr<ExposureModeHelper> exposureModeHelper =
exposureModeHelpers_.at(exposureModeIndex);
- double gain = estimateInitialGain();
+ double gain = estimateInitialGain(lux);
gain = constraintClampGain(constraintModeIndex, yHist, gain);
/*
diff --git a/src/ipa/libipa/agc_mean_luminance.h b/src/ipa/libipa/agc_mean_luminance.h
index 0a81c6d28..6ec2a0dc9 100644
--- a/src/ipa/libipa/agc_mean_luminance.h
+++ b/src/ipa/libipa/agc_mean_luminance.h
@@ -18,6 +18,7 @@
#include "exposure_mode_helper.h"
#include "histogram.h"
+#include "pwl.h"
namespace libcamera {
@@ -62,7 +63,7 @@ public:
std::tuple<utils::Duration, double, double>
calculateNewEv(uint32_t constraintModeIndex, uint32_t exposureModeIndex,
- const Histogram &yHist, utils::Duration effectiveExposureValue);
+ const Histogram &yHist, utils::Duration effectiveExposureValue, double lux);
void resetFrameCount()
{
@@ -76,7 +77,7 @@ private:
void parseConstraint(const YamlObject &modeDict, int32_t id);
int parseConstraintModes(const YamlObject &tuningData);
int parseExposureModes(const YamlObject &tuningData);
- double estimateInitialGain() const;
+ double estimateInitialGain(double lux) const;
double constraintClampGain(uint32_t constraintModeIndex,
const Histogram &hist,
double gain);
@@ -84,7 +85,7 @@ private:
uint64_t frameCount_;
utils::Duration filteredExposure_;
- double relativeLuminanceTarget_;
+ Pwl relativeLuminanceTarget_;
std::map<int32_t, std::vector<AgcConstraint>> constraintModes_;
std::map<int32_t, std::shared_ptr<ExposureModeHelper>> exposureModeHelpers_;
diff --git a/src/ipa/rkisp1/algorithms/agc.cpp b/src/ipa/rkisp1/algorithms/agc.cpp
index 3bbafd978..e9f1f2095 100644
--- a/src/ipa/rkisp1/algorithms/agc.cpp
+++ b/src/ipa/rkisp1/algorithms/agc.cpp
@@ -379,12 +379,15 @@ void Agc::process(IPAContext &context, [[maybe_unused]] const uint32_t frame,
double analogueGain = frameContext.sensor.gain;
utils::Duration effectiveExposureValue = exposureTime * analogueGain;
+ /* \todo Plumb in the lux value. Requires a lux algo + tuning */
+ double lux = 400;
+
utils::Duration shutterTime;
double aGain, dGain;
std::tie(shutterTime, aGain, dGain) =
calculateNewEv(context.activeState.agc.constraintMode,
context.activeState.agc.exposureMode,
- hist, effectiveExposureValue);
+ hist, effectiveExposureValue, lux);
LOG(RkISP1Agc, Debug)
<< "Divided up shutter, analogue gain and digital gain are "
--
2.39.2
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