further experiments with histogram matching

rtengine/histmatching.cc

@@ -79,7 +79,7 @@ void mappingToCurve(const std::vector<int> &mapping, std::vector<double> &curve)
 {
     curve.clear();
     
-    const int npoints = 20;
+    const int npoints = 8;
     int idx = 1;
     for (; idx < int(mapping.size()); ++idx) {
         if (mapping[idx] >= idx) {
@@ -133,10 +133,17 @@ void RawImageSource::getAutoMatchedToneCurve(std::vector<double> &outCurve)
         source.reset(thumb->quickProcessImage(neutral, rheight, TI_Nearest));
     }
     std::unique_ptr<IImage8> target;
-    {
+    if (true) {
+        neutral.icm.working = "RT_sRGB";
+        // faster, but has problems likely due to color space transformations that I do not properly understand...
         double scale;
         std::unique_ptr<Thumbnail> thumb(Thumbnail::loadFromRaw(getFileName(), rml, sensor_type, w, h, 1, 0.0, false));
-        target.reset(thumb->processImage(neutral, sensor_type, rheight, TI_Nearest, getMetaData(), scale));
+        target.reset(thumb->processImage(neutral, sensor_type, rheight, TI_Nearest, getMetaData(), scale, false));
+    } else {
+        ProcessingJob *job = ProcessingJob::create(this, neutral, true);
+        int err = 0;
+        std::unique_ptr<IImagefloat> tmp(processImage(job, err, nullptr, false));
+        target.reset(static_cast<Imagefloat *>(tmp.get())->to8());
     }
     if (target->getWidth() != source->getWidth() || target->getHeight() != source->getHeight()) {
         Image8 *tmp = new Image8(source->getWidth(), source->getHeight());

rtengine/rtthumbnail.cc

@@ -915,7 +915,7 @@ IImage8* Thumbnail::quickProcessImage (const procparams::ProcParams& params, int
 }
 
 // Full thumbnail processing, second stage if complete profile exists
-IImage8* Thumbnail::processImage (const procparams::ProcParams& params, eSensorType sensorType, int rheight, TypeInterpolation interp, const FramesMetaData *metadata, double& myscale)
+IImage8* Thumbnail::processImage (const procparams::ProcParams& params, eSensorType sensorType, int rheight, TypeInterpolation interp, const FramesMetaData *metadata, double& myscale, bool forMonitor)
 {
     unsigned int imgNum = 0;
     if (isRaw) {
@@ -1293,8 +1293,13 @@ IImage8* Thumbnail::processImage (const procparams::ProcParams& params, eSensorT
     //ipf.colorCurve (labView, labView);
 
     // obtain final image
-    Image8* readyImg = new Image8 (fw, fh);
+    Image8* readyImg = nullptr;
+    if (forMonitor) {
+        readyImg = new Image8 (fw, fh);
         ipf.lab2monitorRgb (labView, readyImg);
+    } else {
+        readyImg = ipf.lab2rgb(labView, 0, 0, fw, fh, params.icm);
+    }
     delete labView;
     delete baseImg;
 

rtengine/rtthumbnail.h

@@ -71,7 +71,7 @@ public:
 
     void init ();
 
-    IImage8* processImage   (const procparams::ProcParams& pparams, eSensorType sensorType, int rheight, TypeInterpolation interp, const FramesMetaData *metadata, double& scale);
+    IImage8* processImage   (const procparams::ProcParams& pparams, eSensorType sensorType, int rheight, TypeInterpolation interp, const FramesMetaData *metadata, double& scale, bool forMonitor=true);
     IImage8* quickProcessImage   (const procparams::ProcParams& pparams, int rheight, TypeInterpolation interp);
     int      getImageWidth  (const procparams::ProcParams& pparams, int rheight, float &ratio);
     void     getDimensions  (int& w, int& h, double& scaleFac);