liz/rawTherapee
liz/rawTherapee
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
rawTherapee/rtengine/rtthumbnail.h
rom9 22eee9787e
Film negative stable multipliers (#5485) 
* Added new feature to calculate channel multipliers from crop area. This also saves the crop area channel medians to the processing profiles, in order to get a more consistent color balance when batch-applying the same profile to multiple pictures from the same film roll.

* Fixed wrong initialization of array, and missing check for the result of `getFilmNegativeMedians()`.
Moved `ImProcCoordinator::translateCoord()` from private member to anonymous namespace.
Fixed some whitespace and formatting issues.

* Fixed some formatting issues

* Passed `ipf` parameter as const in `translateCoord`.
Narrowed `using namespace` to single class `Coord2D`.

* Added `scaleGain` entry to thumbnail metadata file, to make `scale_mul` multipliers available in thumbnail processing phase. This simplifies multiplier calculations, so that "faking" thumbnail multipliers in the main image processing is not necessary anymore. This way, output values are immune to slight variations of multipliers between successive shots taken with in-camera AWB turned on.
Shifted multipliers so that the output channel medians are balanced when "Camera WB" is selected. This way, just computing multipliers from crop and setting "Camera WB" (which is the default) gives a pretty well balanced image as a starting point.

* New channel scaling method, based on a film base color sample instead of crop area channel medians. Channels are scaled so that the converted film base values are equal to 1/512th of the output range (65k). This giver better black levels in the output, and more consistency when batch-processing multiple negatives.
The output is now compensated for a known fixed WB value, so that the film base will appear grey when WB is set to 3500K, Green=1.
Added PPVERSION 347 to preserve backwards compatibility: when a processing profile saved by RT 5.7 is loaded (PPVERSION=346), the new fields are initialized to the special value -1, which will instruct the main processing to follow the old channel scaling behaviour. The old channel scaling multipliers will then be converted to the new film base values so that the resulting image is the same, and the fields will be overwritten as soon as the PP is saved again. This will transparently upgrade the processing profile.
When the new behaviour is used, but the film base values are still unset, they are estimated based on channel medians, excluding a 20% border around the image. This should give a better result out-of-the-box for pictures containing a large film holder.

* Code cleanup from review

* Run astyle on film neg source files

* Fixed automated build failure caused by incompatible libraries on my dev PC.

* Simplified `Thumbnail::processFilmNegative` method signature. There is no need to pass in `rmi`,`gmi`,`bmi` multipliers from the caller, i can do the same with my own internal multipliers.

* Added `FilmNegListener` class to pass estimeted film base values to the GUI after first processing. Removed old `filmBaseValues` instance variable from RawImageSource.

* Code cleanup

* Forgot to set baseValues flag in `PartialPasteDlg::applyPaste`
Fixed `filmBaseValuesLabel` not updating when reading zero baseValues. Normally not needed (the label is updated later by the listener), but when the user is browsing through pictures the listener won't fire, so the label must be updated to show values are unset.

* Overwritten channel scaling multipliers by calling `get_colorsCoeff` with `forceAutoWB=false`.
Initially, in `RawImageSource::load`, channels are auto-balanced by averaging the whole picture when computing multipliers.
This can give different multipliers for multiple shots of the same camera, which will lead to inconsistent conversions when batch-processing multiple negatives.
This commit re-sets `scale_mul`, `ref_pre_mul`, etc., in order to "undo" the auto-WB and use the normal camera multipliers.

* Found an easier way to get stable overall multipliers, removed the (horrible) on-the-fly mutation of scaling instance variables.
2020-04-13 17:20:56 +02:00

168 lines
6.1 KiB
C++
Raw Blame History

/*
* This file is part of RawTherapee.
*
* Copyright (c) 2004-2010 Gabor Horvath <hgabor@rawtherapee.com>
*
* RawTherapee is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* RawTherapee is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with RawTherapee. If not, see <https://www.gnu.org/licenses/>.
*/
#pragma once
#include <lcms2.h>
#include "image16.h"
#include "image8.h"
#include "imagefloat.h"
#include "LUT.h"
#include "rawmetadatalocation.h"
#include "../rtgui/threadutils.h"
namespace Glib
{
class ustring;
}
namespace rtengine
{
class Thumbnail
{
MyMutex thumbMutex;
cmsHPROFILE camProfile;
double iColorMatrix[3][3];
double cam2xyz[3][3];
void transformPixel (int x, int y, int tran, int& tx, int& ty);
ImageIO* thumbImg;
double camwbRed;
double camwbGreen;
double camwbBlue;
double redAWBMul, greenAWBMul, blueAWBMul; // multipliers for auto WB
double autoWBTemp, autoWBGreen, wbEqual, wbTempBias; // autoWBTemp and autoWBGreen are updated each time autoWB is requested and if wbEqual has been modified
LUTu aeHistogram;
int aeHistCompression;
bool aeValid;
double aeExposureCompensation;
int aeLightness;
int aeContrast;
int aeBlack;
int aeHighlightCompression;
int aeHighlightCompressionThreshold;
int embProfileLength;
unsigned char* embProfileData;
cmsHPROFILE embProfile;
double redMultiplier;
double greenMultiplier;
double blueMultiplier;
double scale;
double defGain;
int scaleForSave;
bool gammaCorrected;
double colorMatrix[3][3];
double scaleGain;
void processFilmNegative(const procparams::ProcParams& params, const Imagefloat* baseImg, int rwidth, int rheight);
public:
bool isRaw;
~Thumbnail ();
Thumbnail ();
void init ();
IImage8* processImage (const procparams::ProcParams& pparams, eSensorType sensorType, int rheight, TypeInterpolation interp, const FramesMetaData *metadata, double& scale, bool forMonitor=true, bool forHistogramMatching = false);
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);
static Thumbnail* loadQuickFromRaw (const Glib::ustring& fname, rtengine::RawMetaDataLocation& rml, eSensorType &sensorType, int &w, int &h, int fixwh, bool rotate, bool inspectorMode = false, bool forHistogramMatching = false);
static Thumbnail* loadFromRaw (const Glib::ustring& fname, RawMetaDataLocation& rml, eSensorType &sensorType, int &w, int &h, int fixwh, double wbEq, bool rotate, bool forHistogramMatching = false);
static Thumbnail* loadFromImage (const Glib::ustring& fname, int &w, int &h, int fixwh, double wbEq, bool inspectorMode = false);
static RawMetaDataLocation loadMetaDataFromRaw (const Glib::ustring& fname);
void getCamWB (double& temp, double& green);
void getAutoWB (double& temp, double& green, double equal, double tempBias);
void getAutoWBMultipliers (double& rm, double& gm, double& bm);
void getSpotWB (const procparams::ProcParams& params, int x, int y, int rect, double& temp, double& green);
void applyAutoExp (procparams::ProcParams& pparams);
unsigned char* getGrayscaleHistEQ (int trim_width);
bool writeImage (const Glib::ustring& fname);
bool readImage (const Glib::ustring& fname);
bool readData (const Glib::ustring& fname);
bool writeData (const Glib::ustring& fname);
bool readEmbProfile (const Glib::ustring& fname);
bool writeEmbProfile (const Glib::ustring& fname);
unsigned char* getImage8Data(); // accessor to the 8bit image if it is one, which should be the case for the "Inspector" mode.
// Hombre: ... let's hope that proper template can make this cleaner
static ImageIO* resizeToSameType(int nw, int nh, TypeInterpolation interp, ImageIO* srcImg)
{
ImageIO* imgPtr = nullptr;
if (srcImg->getType() == sImage8) {
Image8* castedSrcImg = static_cast<Image8*>(srcImg);
Image8* img8 = new Image8 (nw, nh);
castedSrcImg->resizeImgTo(nw, nh, interp, img8);
imgPtr = img8;
} else if (srcImg->getType() == sImage16) {
Image16* castedSrcImg = static_cast<Image16*>(srcImg);
Image16* img16 = new Image16 (nw, nh);
castedSrcImg->resizeImgTo(nw, nh, interp, img16);
imgPtr = img16;
} else if (srcImg->getType() == sImagefloat) {
Imagefloat* castedSrcImg = static_cast<Imagefloat*>(srcImg);
Imagefloat* imgfloat = new Imagefloat (nw, nh);
castedSrcImg->resizeImgTo(nw, nh, interp, imgfloat);
imgPtr = imgfloat;
}
return imgPtr;
}
template<class IC>
static IC* resizeTo(int nw, int nh, TypeInterpolation interp, ImageIO* srcImg)
{
IC* imgPtr = new IC (nw, nh);
// Hombre: ... let's hope that proper template can make this cleaner
if (srcImg->getType() == sImage8) {
Image8* castedSrcImg = static_cast<Image8*>(srcImg);
castedSrcImg->resizeImgTo<>(nw, nh, interp, imgPtr);
} else if (srcImg->getType() == sImage16) {
Image16* castedSrcImg = static_cast<Image16*>(srcImg);
castedSrcImg->resizeImgTo<>(nw, nh, interp, imgPtr);
} else if (srcImg->getType() == sImagefloat) {
Imagefloat* castedSrcImg = static_cast<Imagefloat*>(srcImg);
castedSrcImg->resizeImgTo<>(nw, nh, interp, imgPtr);
}
return imgPtr;
}
};
}
Reference in New Issue View Git Blame Copy Permalink