/* * This file is part of RawTherapee. * * Copyright (c) 2004-2010 Gabor Horvath * * 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 . */ #ifndef _IMPROCCOORDINATOR_H_ #define _IMPROCCOORDINATOR_H_ #include "rtengine.h" #include "improcfun.h" #include "image8.h" #include "image16.h" #include "imagesource.h" #include "procevents.h" #include "dcrop.h" #include "LUT.h" #include "../rtgui/threadutils.h" namespace rtengine { using namespace procparams; class Crop; /** @brief Manages the image processing, espc. of the preview windows * * There is one ImProcCoordinator per edit panel. * * The ImProcCoordinator handle an sized down image representation of the full image, that is used when paning * and in the Navigator object. * * Each ImProcCoordinator handles an rtengine::Crop list, which process images too with their own pipeline, * but using this class' LUT and other precomputed parameters. The main preview area is displaying a non framed Crop object, * while detail windows are framed Crop objects. */ class ImProcCoordinator : public StagedImageProcessor { friend class Crop; protected: Imagefloat *orig_prev; Imagefloat *oprevi; LabImage *oprevl; LabImage *nprevl; Image8 *previmg; Image8 *workimg; CieImage *ncie; ImageSource* imgsrc; SHMap* shmap; ColorTemp currWB; ColorTemp autoWB; double lastAwbEqual; ImProcFunctions ipf; int scale; bool highDetailPreprocessComputed; bool highDetailRawComputed; bool allocated; void freeAll (); // Precomputed values used by DetailedCrop ---------------------------------------------- float bwAutoR, bwAutoG, bwAutoB; float CAMMean; LUTf hltonecurve; LUTf shtonecurve; LUTf tonecurve; LUTf lumacurve; LUTf chroma_acurve; LUTf chroma_bcurve; LUTf satcurve; LUTf lhskcurve; LUTf clcurve; LUTu vhist16,vhist16bw; LUTu lhist16,lhist16Cropped; LUTu lhist16CAM,lhist16CroppedCAM; LUTu lhist16CCAM; LUTu lhist16CCAMAF; LUTu lhist16ClabAF; LUTu histCropped; LUTu lhist16Clad,lhist16CLlad,lhist16LClad,lhist16LLClad; LUTu histRed, histRedRaw; LUTu histGreen, histGreenRaw; LUTu histBlue, histBlueRaw; LUTu histLuma, histToneCurve, histToneCurveBW, histLCurve, histCCurve, histCLurve; LUTu histLLCurve, histLCAM, histCCAM, histClad, bcabhist, histChroma; LUTf CAMBrightCurveJ, CAMBrightCurveQ; LUTf rCurve; LUTf gCurve; LUTf bCurve; bool utili; bool autili; bool butili; bool ccutili; bool cclutili; bool clcutili; ToneCurve customToneCurve1; ToneCurve customToneCurve2; ColorAppearance customColCurve1; ColorAppearance customColCurve2; ColorAppearance customColCurve3; ToneCurve beforeToneCurveBW; ToneCurve afterToneCurveBW; LUTu rcurvehist, rcurvehistCropped, rbeforehist; LUTu gcurvehist, gcurvehistCropped, gbeforehist; LUTu bcurvehist, bcurvehistCropped, bbeforehist; // ------------------------------------------------------------------------------------ int fw, fh, tr, fullw, fullh; int pW, pH; ProgressListener* plistener; PreviewImageListener* imageListener; AutoExpListener* aeListener; AutoCamListener* acListener; AutoBWListener* abwListener; HistogramListener* hListener; std::vector sizeListeners; std::vector crops; bool resultValid; MyMutex minit; // to gain mutually exclusive access to ... to what exactly? void progress (Glib::ustring str, int pr); void reallocAll (); void updateLRGBHistograms (); void setScale (int prevscale); void updatePreviewImage (int todo, Crop* cropCall= NULL); MyMutex mProcessing; ProcParams params; // members of the updater: Glib::Thread* thread; MyMutex updaterThreadStart; MyMutex paramsUpdateMutex; int changeSinceLast; bool updaterRunning; ProcParams nextParams; bool destroying; void startProcessing (); void process (); public: ImProcCoordinator (); ~ImProcCoordinator (); void assign (ImageSource* imgsrc); void getParams (procparams::ProcParams* dst) { *dst = params; } void startProcessing(int changeCode); ProcParams* beginUpdateParams (); void endUpdateParams (ProcEvent change); // must be called after beginUpdateParams, triggers update void endUpdateParams (int changeFlags); void stopProcessing (); void setPreviewScale (int scale) { setScale (scale); } int getPreviewScale () { return scale; } //void fullUpdatePreviewImage (); int getFullWidth () { return fullw; } int getFullHeight () { return fullh; } int getPreviewWidth () { return pW; } int getPreviewHeight () { return pH; } DetailedCrop* createCrop (::EditDataProvider *editDataProvider); bool getAutoWB (double& temp, double& green, double equal); void getCamWB (double& temp, double& green); void getSpotWB (int x, int y, int rectSize, double& temp, double& green); void getAutoCrop (double ratio, int &x, int &y, int &w, int &h); void setProgressListener (ProgressListener* pl) { plistener = pl; } void setPreviewImageListener (PreviewImageListener* il) {imageListener = il; } void setSizeListener (SizeListener* il) {sizeListeners.push_back (il); } void delSizeListener (SizeListener* il) {std::vector::iterator it = std::find (sizeListeners.begin(), sizeListeners.end(), il); if (it!=sizeListeners.end()) sizeListeners.erase (it); } void setAutoExpListener (AutoExpListener* ael) {aeListener = ael; } void setHistogramListener(HistogramListener *h) {hListener = h; } void setAutoCamListener (AutoCamListener* acl) {acListener = acl; } void setAutoBWListener (AutoBWListener* abw) {abwListener = abw; } void saveInputICCReference (const Glib::ustring& fname); InitialImage* getInitialImage () { return imgsrc; } }; } #endif