/* * 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 . */ #include "dcrop.h" #include "curves.h" #include "mytime.h" #include "refreshmap.h" #define CLIPTO(a,b,c) ((a)>b?((a) 0)) namespace rtengine { extern const Settings* settings; Crop::Crop (ImProcCoordinator* parent) : resizeCrop(NULL), transCrop(NULL), updating(false), cropw(-1), croph(-1), trafw(-1), trafh(-1), borderRequested(32), cropAllocated(false), cropImageListener(NULL), parent(parent),skip(10) { parent->crops.push_back (this); } Crop::~Crop () { cropMutex.lock (); parent->mProcessing.lock (); std::vector::iterator i = std::find (parent->crops.begin(), parent->crops.end(), this); if (i!=parent->crops.end ()) parent->crops.erase (i); freeAll (); parent->mProcessing.unlock (); cropMutex.unlock (); } void Crop::setListener (DetailedCropListener* il) { // We can make reads in the IF, because the mProcessing lock is only needed for change if (cropImageListener!=il) { Glib::Mutex::Lock lock(cropMutex); cropImageListener = il; } } void Crop::update (int todo) { Glib::Mutex::Lock lock(cropMutex); //flag for testing color accuracy bool colortest = false; ProcParams& params = parent->params; parent->ipf.setScale (skip); // give possibility to the listener to modify crop window (as the full image dimensions are already known at this point) int wx, wy, ww, wh, ws; bool overrideWindow = false; if (cropImageListener) overrideWindow = cropImageListener->getWindow (wx, wy, ww, wh, ws); // re-allocate sub-images and arrays if their dimensions changed bool needsinitupdate = false; if (!overrideWindow) needsinitupdate = setCropSizes (rqcropx, rqcropy, rqcropw, rqcroph, skip, true); else needsinitupdate = setCropSizes (wx, wy, ww, wh, ws, true); // this set skip=ws // it something has been reallocated, all processing steps have to be performed if (needsinitupdate) todo = ALL; baseCrop = origCrop; bool needstransform = parent->ipf.needsTransform(); if (todo & M_INIT) { Glib::Mutex::Lock lock(parent->minit); // Also used in inproccoord int tr = TR_NONE; if (params.coarse.rotate==90) tr |= TR_R90; else if (params.coarse.rotate==180) tr |= TR_R180; else if (params.coarse.rotate==270) tr |= TR_R270; if (params.coarse.hflip) tr |= TR_HFLIP; if (params.coarse.vflip) tr |= TR_VFLIP; if (!needsinitupdate) setCropSizes (rqcropx, rqcropy, rqcropw, rqcroph, skip, true); PreviewProps pp (trafx, trafy, trafw*skip, trafh*skip, skip); parent->imgsrc->getImage (parent->currWB, tr, origCrop, pp, params.hlrecovery, params.icm, params.raw ); } // transform if ((!needstransform && transCrop) || (transCrop && (transCrop->width!=cropw || transCrop->height!=croph))) { delete transCrop; transCrop = NULL; } if (needstransform && !transCrop) transCrop = new Imagefloat (cropw, croph); if ((todo & M_TRANSFORM) && needstransform) parent->ipf.transform (baseCrop, transCrop, cropx/skip, cropy/skip, trafx/skip, trafy/skip, SKIPS(parent->fw,skip), SKIPS(parent->fh,skip)); if (transCrop) baseCrop = transCrop; // blurmap for shadow & highlights if ((todo & M_BLURMAP) && params.sh.enabled) { double radius = sqrt (double(SKIPS(parent->fw,skip)*SKIPS(parent->fw,skip)+SKIPS(parent->fh,skip)*SKIPS(parent->fh,skip))) / 2.0; double shradius = params.sh.radius; if (!params.sh.hq) shradius *= radius / 1800.0; cshmap->update (baseCrop, shradius, parent->ipf.lumimul, params.sh.hq, skip); cshmap->forceStat (parent->shmap->max, parent->shmap->min, parent->shmap->avg); } // shadows & highlights & tone curve & convert to cielab /*int xref,yref; xref=000;yref=000; if (colortest && cropw>115 && croph>115) for(int j=1;j<5;j++){ xref+=j*30;yref+=j*30; if (settings->verbose) printf("before rgbProc RGB Xr%i Yr%i Skip=%d R=%f G=%f B=%f gamma=%f \n",xref,yref,skip, baseCrop->r[(int)(xref/skip)][(int)(yref/skip)]/256, baseCrop->g[(int)(xref/skip)][(int)(yref/skip)]/256, baseCrop->b[(int)(xref/skip)][(int)(yref/skip)]/256, parent->imgsrc->getGamma()); }*/ if (todo & M_RGBCURVE) parent->ipf.rgbProc (baseCrop, laboCrop, parent->hltonecurve, parent->shtonecurve, parent->tonecurve, cshmap, params.toneCurve.saturation, parent->rCurve, parent->gCurve, parent->bCurve ); /*xref=000;yref=000; if (colortest && cropw>115 && croph>115) for(int j=1;j<5;j++){ xref+=j*30;yref+=j*30; if (settings->verbose) { printf("after rgbProc RGB Xr%i Yr%i Skip=%d R=%f G=%f B=%f \n",xref,yref,skip, baseCrop->r[(int)(xref/skip)][(int)(yref/skip)]/256, baseCrop->g[(int)(xref/skip)][(int)(yref/skip)]/256, baseCrop->b[(int)(xref/skip)][(int)(yref/skip)]/256); printf("after rgbProc Lab Xr%i Yr%i Skip=%d l=%f a=%f b=%f \n",xref,yref,skip, laboCrop->L[(int)(xref/skip)][(int)(yref/skip)]/327, laboCrop->a[(int)(xref/skip)][(int)(yref/skip)]/327, laboCrop->b[(int)(xref/skip)][(int)(yref/skip)]/327); } }*/ // apply luminance operations if (todo & (M_LUMINANCE+M_COLOR)) { //I made a little change here. Rather than have luminanceCurve (and others) use in/out lab images, we can do more if we copy right here. labnCrop->CopyFrom(laboCrop); parent->ipf.EPDToneMap(labnCrop, 5, 1); //Go with much fewer than normal iterates for fast redisplay. parent->ipf.luminanceCurve (labnCrop, labnCrop, parent->lumacurve); parent->ipf.chrominanceCurve (labnCrop, labnCrop, parent->chroma_acurve, parent->chroma_bcurve, parent->satcurve); //parent->ipf.colorCurve (labnCrop, labnCrop); parent->ipf.vibrance (labnCrop); if (skip==1) { parent->ipf.impulsedenoise (labnCrop); parent->ipf.defringe (labnCrop); parent->ipf.dirpyrdenoise (labnCrop); parent->ipf.MLsharpen (labnCrop); parent->ipf.MLmicrocontrast (labnCrop); //parent->ipf.MLmicrocontrast (labnCrop); parent->ipf.sharpening (labnCrop, (float**)cbuffer); parent->ipf.dirpyrequalizer (labnCrop); } } // switch back to rgb parent->ipf.lab2rgb (labnCrop, cropImg); //parent->ipf.lab2rgb (laboCrop, cropImg); //cropImg = baseCrop->to8(); /* // int xref,yref; xref=000;yref=000; if (colortest && cropw>115 && croph>115) for(int j=1;j<5;j++){ xref+=j*30;yref+=j*30; int rlin = (CurveFactory::igamma2((float)cropImg->data[3*((int)(xref/skip)*cropImg->width+(int)(yref/skip))]/255.0) * 255.0); int glin = (CurveFactory::igamma2((float)cropImg->data[3*((int)(xref/skip)*cropImg->width+(int)(yref/skip))+1]/255.0) * 255.0); int blin = (CurveFactory::igamma2((float)cropImg->data[3*((int)(xref/skip)*cropImg->width+(int)(yref/skip))+2]/255.0) * 255.0); printf("after lab2rgb RGB lab2 Xr%i Yr%i Skip=%d R=%d G=%d B=%d \n",xref,yref,skip, rlin,glin,blin); //cropImg->data[3*((int)(xref/skip)*cropImg->width+(int)(yref/skip))], //cropImg->data[(3*((int)(xref/skip)*cropImg->width+(int)(yref/skip))+1)], //cropImg->data[(3*((int)(xref/skip)*cropImg->width+(int)(yref/skip))+2)]); //printf("after lab2rgb Lab lab2 Xr%i Yr%i Skip=%d l=%f a=%f b=%f \n",xref,yref,skip, labnCrop->L[(int)(xref/skip)][(int)(yref/skip)]/327,labnCrop->a[(int)(xref/skip)][(int)(yref/skip)]/327,labnCrop->b[(int)(xref/skip)][(int)(yref/skip)]/327); printf("after lab2rgb Lab Xr%i Yr%i Skip=%d l=%f a=%f b=%f \n",xref,yref,skip, labnCrop->L[(int)(xref/skip)][(int)(yref/skip)]/327, labnCrop->a[(int)(xref/skip)][(int)(yref/skip)]/327, labnCrop->b[(int)(xref/skip)][(int)(yref/skip)]/327)q; } */ /* if (colortest && cropImg->height>115 && cropImg->width>115) {//for testing xref=000;yref=000; printf("dcrop final R= %d G= %d B= %d \n", cropImg->data[3*xref/(skip)*(cropImg->width+1)], cropImg->data[3*xref/(skip)*(cropImg->width+1)+1], cropImg->data[3*xref/(skip)*(cropImg->width+1)+2]); } */ if (cropImageListener) { // this in output space held in parallel to allow analysis like shadow/highlight Glib::ustring outProfile=params.icm.output; if (params.icm.output=="" || params.icm.output==ColorManagementParams::NoICMString) outProfile="sRGB"; Image8 *cropImgtrue = parent->ipf.lab2rgb (labnCrop, 0,0,cropw,croph, outProfile); int finalW = rqcropw; if (cropImg->getWidth()-leftBorder < finalW) finalW = cropImg->getWidth()-leftBorder; int finalH = rqcroph; if (cropImg->getHeight()-upperBorder < finalH) finalH = cropImg->getHeight()-upperBorder; Image8* final = new Image8 (finalW, finalH); Image8* finaltrue = new Image8 (finalW, finalH); for (int i=0; idata + 3*i*finalW, cropImg->data + 3*(i+upperBorder)*cropw + 3*leftBorder, 3*finalW); memcpy (finaltrue->data + 3*i*finalW, cropImgtrue->data + 3*(i+upperBorder)*cropw + 3*leftBorder, 3*finalW); } cropImageListener->setDetailedCrop (final, finaltrue, params.icm, params.crop, rqcropx, rqcropy, rqcropw, rqcroph, skip); delete final; delete finaltrue; delete cropImgtrue; } } void Crop::freeAll () { if (settings->verbose) printf ("freeallcrop starts %d\n", (int)cropAllocated); if (cropAllocated) { delete origCrop; if (transCrop) delete transCrop; transCrop = NULL; if (resizeCrop) delete resizeCrop; resizeCrop = NULL; delete laboCrop; delete labnCrop; delete cropImg; delete cshmap; //for (int i=0; iverbose) printf ("setcropsizes before lock\n"); if (!internal) cropMutex.lock (); bool changed = false; rqcropx = rcx; rqcropy = rcy; rqcropw = rcw; rqcroph = rch; // store and set requested crop size int rqx1 = CLIPTO(rqcropx,0,parent->fullw-1); int rqy1 = CLIPTO(rqcropy,0,parent->fullh-1); int rqx2 = rqx1 + rqcropw - 1; int rqy2 = rqy1 + rqcroph - 1; rqx2 = CLIPTO(rqx2,0,parent->fullw-1); rqy2 = CLIPTO(rqy2,0,parent->fullh-1); this->skip = skip; // add border, if possible int bx1 = rqx1 - skip*borderRequested; int by1 = rqy1 - skip*borderRequested; int bx2 = rqx2 + skip*borderRequested; int by2 = rqy2 + skip*borderRequested; // clip it to fit into image area bx1 = CLIPTO(bx1,0,parent->fullw-1); by1 = CLIPTO(by1,0,parent->fullh-1); bx2 = CLIPTO(bx2,0,parent->fullw-1); by2 = CLIPTO(by2,0,parent->fullh-1); int bw = bx2 - bx1 + 1; int bh = by2 - by1 + 1; // determine which part of the source image is required to compute the crop rectangle int orx, ory, orw, orh; ProcParams& params = parent->params; parent->ipf.transCoord (parent->fw, parent->fh, bx1, by1, bw, bh, orx, ory, orw, orh); int tr = TR_NONE; if (params.coarse.rotate==90) tr |= TR_R90; if (params.coarse.rotate==180) tr |= TR_R180; if (params.coarse.rotate==270) tr |= TR_R270; if (params.coarse.hflip) tr |= TR_HFLIP; if (params.coarse.vflip) tr |= TR_VFLIP; PreviewProps cp (orx, ory, orw, orh, skip); int orW, orH; parent->imgsrc->getSize (tr, cp, orW, orH); int cw = SKIPS(bw,skip); int ch = SKIPS(bh,skip); leftBorder = SKIPS(rqx1-bx1,skip); upperBorder = SKIPS(rqy1-by1,skip); if (settings->verbose) printf ("setsizes starts (%d, %d, %d, %d, %d, %d)\n", orW, orH, trafw, trafh,cw,ch); if (cw!=cropw || ch!=croph || orW!=trafw || orH!=trafh) { freeAll (); cropw = cw; croph = ch; trafw = orW; trafh = orH; origCrop = new Imagefloat (trafw, trafh); laboCrop = new LabImage (cropw, croph); labnCrop = new LabImage (cropw, croph); cropImg = new Image8 (cropw, croph); cshmap = new SHMap (cropw, croph, true); cbuffer = new float*[croph]; cbuf_real= new float[(croph+2)*cropw]; for (int i=0; iverbose) printf ("setsizes ends\n"); if (!internal) cropMutex.unlock (); return changed; } // Try a simple, threadless update flag first bool Crop::tryUpdate() { bool needsFullUpdate = true; // If there are more update request, the following WHILE will collect it if (updating) { needsNext = true; needsFullUpdate = false; } else updating = true; return needsFullUpdate; } // Full update, should be called via thread void Crop::fullUpdate () { parent->updaterThreadStart.lock (); if (parent->updaterRunning && parent->thread) { // Do NOT reset changes here, since in a long chain of events it will lead to chroma_scale not being updated, // causing ImProcFunctions::lab2rgb to return a black image on some opens //parent->changeSinceLast = 0; parent->thread->join (); } parent->updaterThreadStart.unlock (); if (parent->plistener) parent->plistener->setProgressState (true); needsNext = true; while (needsNext) { needsNext = false; update (ALL); } updating = false; if (parent->plistener) parent->plistener->setProgressState (false); } }