/* ============================================================ * * This file is a part of digiKam project * http://www.digikam.org * * Date : 2004-12-06 * Description : Black and White conversion tool. * * Copyright (C) 2004-2005 by Renchi Raju * Copyright (C) 2006-2007 by Gilles Caulier * * This program 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 2, or (at your option) * any later version. * * This program 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. * * ============================================================ */ // TQt includes. #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // KDE includes. #include #include #include #include #include #include #include #include #include #include // Digikam includes. #include "imageiface.h" #include "imagehistogram.h" #include "dimgimagefilters.h" #include "imagewidget.h" #include "imagecurves.h" #include "histogramwidget.h" #include "curveswidget.h" #include "colorgradientwidget.h" #include "dimg.h" #include "bcgmodifier.h" #include "listboxpreviewitem.h" // Local includes. #include "imageeffect_bwsepia.h" #include "imageeffect_bwsepia.moc" namespace DigikamImagesPluginCore { class PreviewPixmapFactory : public TQObject { public: PreviewPixmapFactory(ImageEffect_BWSepia* bwSepia); void invalidate() { m_previewPixmapMap.clear(); } const TQPixmap* pixmap(int id); private: TQPixmap makePixmap(int id); TQIntDict m_previewPixmapMap; ImageEffect_BWSepia *m_bwSepia; }; PreviewPixmapFactory::PreviewPixmapFactory(ImageEffect_BWSepia* bwSepia) : TQObject(bwSepia), m_bwSepia(bwSepia) { m_previewPixmapMap.setAutoDelete(true); } const TQPixmap* PreviewPixmapFactory::pixmap(int id) { if (m_previewPixmapMap.find(id) == 0) { TQPixmap pix = makePixmap(id); m_previewPixmapMap.insert(id, new TQPixmap(pix)); } TQPixmap* res = m_previewPixmapMap[id]; return res; } TQPixmap PreviewPixmapFactory::makePixmap(int id) { return m_bwSepia->getThumbnailForEffect(id); } // ----------------------------------------------------------------------------------- class ListBoxBWPreviewItem : public Digikam::ListBoxPreviewItem { public: ListBoxBWPreviewItem(TQListBox *listbox, const TQString &text, PreviewPixmapFactory* factory, int id) : ListBoxPreviewItem(listbox, TQPixmap(), text) { m_previewPixmapFactory = factory; m_id = id; }; virtual const TQPixmap* pixmap() const; private: int m_id; PreviewPixmapFactory* m_previewPixmapFactory; }; const TQPixmap* ListBoxBWPreviewItem::pixmap() const { return m_previewPixmapFactory->pixmap(m_id); } // ----------------------------------------------------------------------------------- ImageEffect_BWSepia::ImageEffect_BWSepia(TQWidget* parent) : Digikam::ImageDlgBase(parent, i18n("Convert to Black & White"), "convertbw", true, false), m_destinationPreviewData(0L), m_channelCB(0), m_scaleBG(0), m_bwFilters(0), m_bwTone(0), m_cInput(0), m_tab(0), m_previewWidget(0), m_histogramWidget(0), m_curvesWidget(0), m_curves(0), m_originalImage(0), m_previewPixmapFactory(0) { setHelp("blackandwhitetool.anchor", "digikam"); Digikam::ImageIface iface(0, 0); m_originalImage = iface.getOriginalImg(); m_thumbnailImage = m_originalImage->smoothScale(128, 128, TQSize::ScaleMin); m_curves = new Digikam::ImageCurves(m_originalImage->sixteenBit()); // ------------------------------------------------------------- m_previewWidget = new Digikam::ImageWidget("convertbw Tool Dialog", plainPage(), i18n("

Here you can see the black and white conversion tool preview. " "You can pick color on image " "to see the color level corresponding on histogram.")); setPreviewAreaWidget(m_previewWidget); // ------------------------------------------------------------- TQWidget *gboxSettings = new TQWidget(plainPage()); TQGridLayout* gridSettings = new TQGridLayout( gboxSettings, 4, 4, spacingHint()); TQLabel *label1 = new TQLabel(i18n("Channel:"), gboxSettings); label1->setAlignment ( TQt::AlignRight | TQt::AlignVCenter ); m_channelCB = new TQComboBox( false, gboxSettings ); m_channelCB->insertItem( i18n("Luminosity") ); m_channelCB->insertItem( i18n("Red") ); m_channelCB->insertItem( i18n("Green") ); m_channelCB->insertItem( i18n("Blue") ); TQWhatsThis::add( m_channelCB, i18n("

Select the histogram channel to display here:

" "Luminosity: display the image's luminosity values.

" "Red: display the red image-channel values.

" "Green: display the green image-channel values.

" "Blue: display the blue image-channel values.

")); m_scaleBG = new TQHButtonGroup(gboxSettings); m_scaleBG->setExclusive(true); m_scaleBG->setFrameShape(TQFrame::NoFrame); m_scaleBG->setInsideMargin( 0 ); TQWhatsThis::add( m_scaleBG, i18n("

Select the histogram scale here.

" "If the image's maximal counts are small, you can use the linear scale.

" "Logarithmic scale can be used when the maximal counts are big; " "if it is used, all values (small and large) will be visible on the graph.")); TQPushButton *linHistoButton = new TQPushButton( m_scaleBG ); TQToolTip::add( linHistoButton, i18n( "

Linear" ) ); m_scaleBG->insert(linHistoButton, Digikam::HistogramWidget::LinScaleHistogram); TDEGlobal::dirs()->addResourceType("histogram-lin", TDEGlobal::dirs()->kde_default("data") + "digikam/data"); TQString directory = TDEGlobal::dirs()->findResourceDir("histogram-lin", "histogram-lin.png"); linHistoButton->setPixmap( TQPixmap( directory + "histogram-lin.png" ) ); linHistoButton->setToggleButton(true); TQPushButton *logHistoButton = new TQPushButton( m_scaleBG ); TQToolTip::add( logHistoButton, i18n( "

Logarithmic" ) ); m_scaleBG->insert(logHistoButton, Digikam::HistogramWidget::LogScaleHistogram); TDEGlobal::dirs()->addResourceType("histogram-log", TDEGlobal::dirs()->kde_default("data") + "digikam/data"); directory = TDEGlobal::dirs()->findResourceDir("histogram-log", "histogram-log.png"); logHistoButton->setPixmap( TQPixmap( directory + "histogram-log.png" ) ); logHistoButton->setToggleButton(true); TQHBoxLayout* l1 = new TQHBoxLayout(); l1->addWidget(label1); l1->addWidget(m_channelCB); l1->addStretch(10); l1->addWidget(m_scaleBG); gridSettings->addMultiCellLayout(l1, 0, 0, 0, 4); // ------------------------------------------------------------- TQVBox *histoBox = new TQVBox(gboxSettings); m_histogramWidget = new Digikam::HistogramWidget(256, 140, histoBox, false, true, true); TQWhatsThis::add( m_histogramWidget, i18n("

Here you can see the target preview image histogram drawing " "of the selected image channel. This one is re-computed at any " "settings changes.")); TQLabel *space = new TQLabel(histoBox); space->setFixedHeight(1); m_hGradient = new Digikam::ColorGradientWidget( Digikam::ColorGradientWidget::Horizontal, 10, histoBox ); m_hGradient->setColors( TQColor( "black" ), TQColor( "white" ) ); gridSettings->addMultiCellWidget(histoBox, 1, 2, 0, 4); // ------------------------------------------------------------- m_tab = new KTabWidget(gboxSettings); m_bwFilm = new TQListBox(m_tab); m_bwFilm->setColumnMode(1); m_bwFilm->setVariableWidth(false); m_bwFilm->setVariableHeight(false); Digikam::ListBoxWhatsThis* whatsThis2 = new Digikam::ListBoxWhatsThis(m_bwFilm); m_previewPixmapFactory = new PreviewPixmapFactory(this); int type = BWGeneric; ListBoxBWPreviewItem *item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Generic"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Generic:" "

Simulate a generic black and white film

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Agfa 200X"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Agfa 200X:" "

Simulate the Agfa 200X black and white film at 200 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Agfa Pan 25"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Agfa Pan 25:" "

Simulate the Agfa Pan black and white film at 25 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Agfa Pan 100"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Agfa Pan 100:" "

Simulate the Agfa Pan black and white film at 100 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Agfa Pan 400"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Agfa Pan 400:" "

Simulate the Agfa Pan black and white film at 400 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Ilford Delta 100"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Ilford Delta 100:" "

Simulate the Ilford Delta black and white film at 100 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Ilford Delta 400"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Ilford Delta 400:" "

Simulate the Ilford Delta black and white film at 400 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Ilford Delta 400 Pro 3200"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Ilford Delta 400 Pro 3200:" "

Simulate the Ilford Delta 400 Pro black and white film at 3200 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Ilford FP4 Plus"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Ilford FP4 Plus:" "

Simulate the Ilford FP4 Plus black and white film at 125 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Ilford HP5 Plus"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Ilford HP5 Plus:" "

Simulate the Ilford HP5 Plus black and white film at 400 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Ilford PanF Plus"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Ilford PanF Plus:" "

Simulate the Ilford PanF Plus black and white film at 50 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Ilford XP2 Super"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Ilford XP2 Super:" "

Simulate the Ilford XP2 Super black and white film at 400 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Kodak Tmax 100"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Kodak Tmax 100:" "

Simulate the Kodak Tmax black and white film at 100 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Kodak Tmax 400"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Kodak Tmax 400:" "

Simulate the Kodak Tmax black and white film at 400 ISO

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilm, i18n("Kodak TriX"), m_previewPixmapFactory, type); whatsThis2->add( item, i18n("Kodak TriX:" "

Simulate the Kodak TriX black and white film at 400 ISO

")); // ------------------------------------------------------------- TQVBox *vbox = new TQVBox(m_tab); vbox->setSpacing(spacingHint()); m_bwFilters = new TQListBox(vbox); m_bwFilters->setColumnMode(1); m_bwFilters->setVariableWidth(false); m_bwFilters->setVariableHeight(false); Digikam::ListBoxWhatsThis* whatsThis = new Digikam::ListBoxWhatsThis(m_bwFilters); type = BWNoFilter; item = new ListBoxBWPreviewItem(m_bwFilters, i18n("No Lens Filter"), m_previewPixmapFactory, type); whatsThis->add( item, i18n("No Lens Filter:" "

Do not apply a lens filter when rendering the image.

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilters, i18n("Green Filter"), m_previewPixmapFactory, type); whatsThis->add( item, i18n("Black & White with Green Filter:" "

Simulate black and white film exposure using a green filter. " "This is usefule for all scenic shoots, especially portraits " "photographed against the sky.

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilters, i18n("Orange Filter"), m_previewPixmapFactory, type); whatsThis->add( item, i18n("Black & White with Orange Filter:" "

Simulate black and white film exposure using an orange filter. " "This will enhance landscapes, marine scenes and aerial " "photography.

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilters, i18n("Red Filter"), m_previewPixmapFactory, type); whatsThis->add( item, i18n("Black & White with Red Filter:" "

Simulate black and white film exposure using a red filter. " "This creates dramatic sky effects, and simulates moonlight scenes " "in the daytime.

")); ++type; item = new ListBoxBWPreviewItem(m_bwFilters, i18n("Yellow Filter"), m_previewPixmapFactory, type); whatsThis->add( item, i18n("Black & White with Yellow Filter:" "

Simulate black and white film exposure using a yellow filter. " "This has the most natural tonal correction, and improves contrast. Ideal for " "landscapes.

")); m_strengthInput = new KIntNumInput(vbox); m_strengthInput->setLabel(i18n("Strength:"), AlignLeft | AlignVCenter); m_strengthInput->setRange(1, 5, 1, true); m_strengthInput->setValue(1); TQWhatsThis::add(m_strengthInput, i18n("

Here, set the strength adjustment of the lens filter.")); // ------------------------------------------------------------- m_bwTone = new TQListBox(m_tab); m_bwTone->setColumnMode(1); m_bwTone->setVariableWidth(false); m_bwTone->setVariableHeight(false); Digikam::ListBoxWhatsThis* whatsThis3 = new Digikam::ListBoxWhatsThis(m_bwTone); type = BWNoTone; item = new ListBoxBWPreviewItem(m_bwTone, i18n("No Tone Filter"), m_previewPixmapFactory, type); whatsThis3->add( item, i18n("No Tone Filter:" "

Do not apply a tone filter to the image.

")); ++type; item = new ListBoxBWPreviewItem(m_bwTone, i18n("Sepia Tone"), m_previewPixmapFactory, type); whatsThis3->add( item, i18n("Black & White with Sepia Tone:" "

Gives a warm highlight and mid-tone while adding a bit of coolness to " "the shadows - very similar to the process of bleaching a print and " "re-developing in a sepia toner.

")); ++type; item = new ListBoxBWPreviewItem(m_bwTone, i18n("Brown Tone"), m_previewPixmapFactory, type); whatsThis3->add( item, i18n("Black & White with Brown Tone:" "

This filter is more neutral than the Sepia Tone " "filter.

")); ++type; item = new ListBoxBWPreviewItem(m_bwTone, i18n("Cold Tone"), m_previewPixmapFactory, type); whatsThis3->add( item, i18n("Black & White with Cold Tone:" "

Start subtle and replicates printing on a cold tone black and white " "paper such as a bromide enlarging " "paper.

")); ++type; item = new ListBoxBWPreviewItem(m_bwTone, i18n("Selenium Tone"), m_previewPixmapFactory, type); whatsThis3->add( item, i18n("Black & White with Selenium Tone:" "

This effect replicates traditional selenium chemical toning done " "in the darkroom.

")); ++type; item = new ListBoxBWPreviewItem(m_bwTone, i18n("Platinum Tone"), m_previewPixmapFactory, type); whatsThis3->add( item, i18n("Black & White with Platinum Tone:" "

This effect replicates traditional platinum chemical toning done " "in the darkroom.

")); ++type; item = new ListBoxBWPreviewItem(m_bwTone, i18n("Green Tone"), m_previewPixmapFactory, type); whatsThis3->add( item, i18n("Black & White with greenish tint:" "

This effect is also known as Verdante.

")); // ------------------------------------------------------------- TQWidget *curveBox = new TQWidget( m_tab ); TQGridLayout *gridTab2 = new TQGridLayout(curveBox, 5, 2, spacingHint(), 0); Digikam::ColorGradientWidget* vGradient = new Digikam::ColorGradientWidget( Digikam::ColorGradientWidget::Vertical, 10, curveBox ); vGradient->setColors( TQColor( "white" ), TQColor( "black" ) ); TQLabel *spacev = new TQLabel(curveBox); spacev->setFixedWidth(1); m_curvesWidget = new Digikam::CurvesWidget(256, 256, m_originalImage->bits(), m_originalImage->width(), m_originalImage->height(), m_originalImage->sixteenBit(), m_curves, curveBox); TQWhatsThis::add( m_curvesWidget, i18n("

This is the curve adjustment of the image luminosity")); TQLabel *spaceh = new TQLabel(curveBox); spaceh->setFixedHeight(1); Digikam::ColorGradientWidget *hGradient = new Digikam::ColorGradientWidget( Digikam::ColorGradientWidget::Horizontal, 10, curveBox ); hGradient->setColors( TQColor( "black" ), TQColor( "white" ) ); m_cInput = new KIntNumInput(curveBox); m_cInput->setLabel(i18n("Contrast:"), AlignLeft | AlignVCenter); m_cInput->setRange(-100, 100, 1, true); m_cInput->setValue(0); TQWhatsThis::add( m_cInput, i18n("

Set here the contrast adjustment of the image.")); gridTab2->addMultiCellWidget(vGradient, 0, 0, 0, 0); gridTab2->addMultiCellWidget(spacev, 0, 0, 1, 1); gridTab2->addMultiCellWidget(m_curvesWidget, 0, 0, 2, 2); gridTab2->addMultiCellWidget(spaceh, 1, 1, 2, 2); gridTab2->addMultiCellWidget(hGradient, 2, 2, 2, 2); gridTab2->addMultiCellWidget(m_cInput, 4, 4, 0, 2); gridTab2->setRowSpacing(3, spacingHint()); gridTab2->setRowStretch(5, 10); // ------------------------------------------------------------- m_tab->insertTab(m_bwFilm, i18n("Film"), FilmTab); m_tab->insertTab(vbox, i18n("Lens Filters"), BWFiltersTab); m_tab->insertTab(m_bwTone, i18n("Tone"), ToneTab); m_tab->insertTab(curveBox, i18n("Lightness"), LuminosityTab); gridSettings->addMultiCellWidget(m_tab, 3, 3, 0, 4); gridSettings->setRowStretch(3, 10); setUserAreaWidget(gboxSettings); // ------------------------------------------------------------- connect(m_channelCB, TQT_SIGNAL(activated(int)), this, TQT_SLOT(slotChannelChanged(int))); connect(m_scaleBG, TQT_SIGNAL(released(int)), this, TQT_SLOT(slotScaleChanged(int))); connect(m_previewWidget, TQT_SIGNAL(spotPositionChangedFromOriginal(const Digikam::DColor&, const TQPoint&)), this, TQT_SLOT(slotSpotColorChanged(const Digikam::DColor&))); connect(m_previewWidget, TQT_SIGNAL(spotPositionChangedFromTarget( const Digikam::DColor &, const TQPoint & )), this, TQT_SLOT(slotColorSelectedFromTarget( const Digikam::DColor & ))); connect(m_bwFilters, TQT_SIGNAL(highlighted(int)), this, TQT_SLOT(slotFilterSelected(int))); connect(m_strengthInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotTimer())); connect(m_bwFilm, TQT_SIGNAL(highlighted(int)), this, TQT_SLOT(slotEffect())); connect(m_bwTone, TQT_SIGNAL(highlighted(int)), this, TQT_SLOT(slotEffect())); connect(m_curvesWidget, TQT_SIGNAL(signalCurvesChanged()), this, TQT_SLOT(slotTimer())); connect(m_cInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotTimer())); connect(m_previewWidget, TQT_SIGNAL(signalResized()), this, TQT_SLOT(slotEffect())); } ImageEffect_BWSepia::~ImageEffect_BWSepia() { m_histogramWidget->stopHistogramComputation(); delete [] m_destinationPreviewData; delete m_histogramWidget; delete m_previewWidget; delete m_curvesWidget; delete m_curves; } void ImageEffect_BWSepia::slotFilterSelected(int filter) { if (filter == BWNoFilter) m_strengthInput->setEnabled(false); else m_strengthInput->setEnabled(true); slotEffect(); } TQPixmap ImageEffect_BWSepia::getThumbnailForEffect(int type) { Digikam::DImg thumb = m_thumbnailImage.copy(); int w = thumb.width(); int h = thumb.height(); bool sb = thumb.sixteenBit(); bool a = thumb.hasAlpha(); if (type < BWGeneric) { // In Filter view, we will render a preview of the B&W filter with the generic B&W film. blackAndWhiteConversion(thumb.bits(), w, h, sb, type); blackAndWhiteConversion(thumb.bits(), w, h, sb, BWGeneric); } else { // In Film and Tone view, we will render the preview without to use the B&W Filter blackAndWhiteConversion(thumb.bits(), w, h, sb, type); } if (m_curves) // in case we're called before the creator is done { uchar *targetData = new uchar[w*h*(sb ? 8 : 4)]; m_curves->curvesLutSetup(Digikam::ImageHistogram::AlphaChannel); m_curves->curvesLutProcess(thumb.bits(), targetData, w, h); Digikam::DImg preview(w, h, sb, a, targetData); Digikam::BCGModifier cmod; cmod.setContrast((double)(m_cInput->value()/100.0) + 1.00); cmod.applyBCG(preview); thumb.putImageData(preview.bits()); delete [] targetData; } return (thumb.convertToPixmap()); } void ImageEffect_BWSepia::slotChannelChanged(int channel) { switch(channel) { case LuminosityChannel: m_histogramWidget->m_channelType = Digikam::HistogramWidget::ValueHistogram; m_hGradient->setColors( TQColor( "black" ), TQColor( "white" ) ); break; case RedChannel: m_histogramWidget->m_channelType = Digikam::HistogramWidget::RedChannelHistogram; m_hGradient->setColors( TQColor( "black" ), TQColor( "red" ) ); break; case GreenChannel: m_histogramWidget->m_channelType = Digikam::HistogramWidget::GreenChannelHistogram; m_hGradient->setColors( TQColor( "black" ), TQColor( "green" ) ); break; case BlueChannel: m_histogramWidget->m_channelType = Digikam::HistogramWidget::BlueChannelHistogram; m_hGradient->setColors( TQColor( "black" ), TQColor( "blue" ) ); break; } m_histogramWidget->repaint(false); } void ImageEffect_BWSepia::slotScaleChanged(int scale) { m_histogramWidget->m_scaleType = scale; m_histogramWidget->repaint(false); m_curvesWidget->m_scaleType = scale; m_curvesWidget->repaint(false); } void ImageEffect_BWSepia::slotSpotColorChanged(const Digikam::DColor &color) { m_curvesWidget->setCurveGuide(color); } void ImageEffect_BWSepia::slotColorSelectedFromTarget( const Digikam::DColor &color ) { m_histogramWidget->setHistogramGuideByColor(color); } void ImageEffect_BWSepia::readUserSettings() { TDEConfig* config = kapp->config(); config->setGroup("convertbw Tool Dialog"); m_tab->setCurrentPage(config->readNumEntry("Settings Tab", BWFiltersTab)); m_channelCB->setCurrentItem(config->readNumEntry("Histogram Channel", 0)); // Luminosity. m_scaleBG->setButton(config->readNumEntry("Histogram Scale", Digikam::HistogramWidget::LogScaleHistogram)); m_bwFilters->setCurrentItem(config->readNumEntry("BW Filter", 0)); m_bwFilm->setCurrentItem(config->readNumEntry("BW Film", 0)); m_bwTone->setCurrentItem(config->readNumEntry("BW Tone", 0)); m_cInput->setValue(config->readNumEntry("ContrastAjustment", 0)); m_strengthInput->setValue(config->readNumEntry("StrengthAjustment", 1)); for (int i = 0 ; i < 5 ; i++) m_curves->curvesChannelReset(i); m_curves->setCurveType(m_curvesWidget->m_channelType, Digikam::ImageCurves::CURVE_SMOOTH); m_curvesWidget->reset(); for (int j = 0 ; j < 17 ; j++) { TQPoint disable(-1, -1); TQPoint p = config->readPointEntry(TQString("CurveAjustmentPoint%1").arg(j), &disable); if (m_originalImage->sixteenBit() && p.x() != -1) { p.setX(p.x()*255); p.setY(p.y()*255); } m_curves->setCurvePoint(Digikam::ImageHistogram::ValueChannel, j, p); } for (int i = 0 ; i < 5 ; i++) m_curves->curvesCalculateCurve(i); slotChannelChanged(m_channelCB->currentItem()); slotScaleChanged(m_scaleBG->selectedId()); slotFilterSelected(m_bwFilters->currentItem()); } void ImageEffect_BWSepia::writeUserSettings() { TDEConfig* config = kapp->config(); config->setGroup("convertbw Tool Dialog"); config->writeEntry("Settings Tab", m_tab->currentPageIndex()); config->writeEntry("Histogram Channel", m_channelCB->currentItem()); config->writeEntry("Histogram Scale", m_scaleBG->selectedId()); config->writeEntry("BW Filter", m_bwFilters->currentItem()); config->writeEntry("BW Film", m_bwFilm->currentItem()); config->writeEntry("BW Tone", m_bwTone->currentItem()); config->writeEntry("ContrastAjustment", m_cInput->value()); config->writeEntry("StrengthAjustment", m_strengthInput->value()); for (int j = 0 ; j < 17 ; j++) { TQPoint p = m_curves->getCurvePoint(Digikam::ImageHistogram::ValueChannel, j); if (m_originalImage->sixteenBit() && p.x() != -1) { p.setX(p.x()/255); p.setY(p.y()/255); } config->writeEntry(TQString("CurveAjustmentPoint%1").arg(j), p); } config->sync(); } void ImageEffect_BWSepia::resetValues() { m_bwFilters->blockSignals(true); m_bwTone->blockSignals(true); m_cInput->blockSignals(true); m_strengthInput->blockSignals(true); m_bwFilters->setCurrentItem(0); m_bwFilters->setSelected(0, true); m_bwTone->setCurrentItem(0); m_bwTone->setSelected(0, true); m_cInput->setValue(0); for (int channel = 0 ; channel < 5 ; channel++) m_curves->curvesChannelReset(channel); m_curvesWidget->reset(); m_cInput->blockSignals(false); m_bwTone->blockSignals(false); m_bwFilters->blockSignals(false); m_strengthInput->blockSignals(false); m_histogramWidget->reset(); m_previewPixmapFactory->invalidate(); m_bwFilters->triggerUpdate(false); m_bwTone->triggerUpdate(false); } void ImageEffect_BWSepia::slotEffect() { kapp->setOverrideCursor( KCursor::waitCursor() ); m_histogramWidget->stopHistogramComputation(); delete [] m_destinationPreviewData; Digikam::ImageIface* iface = m_previewWidget->imageIface(); m_destinationPreviewData = iface->getPreviewImage(); int w = iface->previewWidth(); int h = iface->previewHeight(); bool a = iface->previewHasAlpha(); bool sb = iface->previewSixteenBit(); // Apply black and white filter. blackAndWhiteConversion(m_destinationPreviewData, w, h, sb, m_bwFilters->currentItem()); // Apply black and white film type. blackAndWhiteConversion(m_destinationPreviewData, w, h, sb, m_bwFilm->currentItem() + BWGeneric); // Apply color tone filter. blackAndWhiteConversion(m_destinationPreviewData, w, h, sb, m_bwTone->currentItem() + BWNoTone); // Calculate and apply the curve on image. uchar *targetData = new uchar[w*h*(sb ? 8 : 4)]; m_curves->curvesLutSetup(Digikam::ImageHistogram::AlphaChannel); m_curves->curvesLutProcess(m_destinationPreviewData, targetData, w, h); // Adjust contrast. Digikam::DImg preview(w, h, sb, a, targetData); Digikam::BCGModifier cmod; cmod.setContrast((double)(m_cInput->value()/100.0) + 1.00); cmod.applyBCG(preview); iface->putPreviewImage(preview.bits()); m_previewWidget->updatePreview(); // Update histogram. memcpy(m_destinationPreviewData, preview.bits(), preview.numBytes()); m_histogramWidget->updateData(m_destinationPreviewData, w, h, sb, 0, 0, 0, false); delete [] targetData; kapp->restoreOverrideCursor(); } void ImageEffect_BWSepia::slotTimer() { Digikam::ImageDlgBase::slotTimer(); if (m_previewPixmapFactory && m_bwFilters && m_bwTone) { m_previewPixmapFactory->invalidate(); m_bwFilters->triggerUpdate(false); m_bwTone->triggerUpdate(false); } } void ImageEffect_BWSepia::finalRendering() { kapp->setOverrideCursor( KCursor::waitCursor() ); Digikam::ImageIface* iface = m_previewWidget->imageIface(); uchar *data = iface->getOriginalImage(); int w = iface->originalWidth(); int h = iface->originalHeight(); bool a = iface->originalHasAlpha(); bool sb = iface->originalSixteenBit(); if (data) { // Apply black and white filter. blackAndWhiteConversion(data, w, h, sb, m_bwFilters->currentItem()); // Apply black and white film type. blackAndWhiteConversion(data, w, h, sb, m_bwFilm->currentItem() + BWGeneric); // Apply color tone filter. blackAndWhiteConversion(data, w, h, sb, m_bwTone->currentItem() + BWNoTone); // Calculate and apply the curve on image. uchar *targetData = new uchar[w*h*(sb ? 8 : 4)]; m_curves->curvesLutSetup(Digikam::ImageHistogram::AlphaChannel); m_curves->curvesLutProcess(data, targetData, w, h); // Adjust contrast. Digikam::DImg img(w, h, sb, a, targetData); Digikam::BCGModifier cmod; cmod.setContrast((double)(m_cInput->value()/100.0) + 1.00); cmod.applyBCG(img); iface->putOriginalImage(i18n("Convert to Black && White"), img.bits()); delete [] data; delete [] targetData; } kapp->restoreOverrideCursor(); accept(); } void ImageEffect_BWSepia::blackAndWhiteConversion(uchar *data, int w, int h, bool sb, int type) { // Value to multiply RGB 8 bits component of mask used by changeTonality() method. int mul = sb ? 255 : 1; Digikam::DImgImageFilters filter; double strength = 1.0 + ((double)m_strengthInput->value() - 1.0) * (1.0 / 3.0); switch (type) { case BWNoFilter: m_redAttn = 0.0; m_greenAttn = 0.0; m_blueAttn = 0.0; break; case BWGreenFilter: m_redAttn = -0.20 * strength; m_greenAttn = +0.11 * strength; m_blueAttn = +0.09 * strength; break; case BWOrangeFilter: m_redAttn = +0.48 * strength; m_greenAttn = -0.37 * strength; m_blueAttn = -0.11 * strength; break; case BWRedFilter: m_redAttn = +0.60 * strength; m_greenAttn = -0.49 * strength; m_blueAttn = -0.11 * strength; break; case BWYellowFilter: m_redAttn = +0.30 * strength; m_greenAttn = -0.31 * strength; m_blueAttn = +0.01 * strength; break; // -------------------------------------------------------------------------------- case BWGeneric: case BWNoTone: m_redMult = 0.24; m_greenMult = 0.68; m_blueMult = 0.08; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWAgfa200X: m_redMult = 0.18; m_greenMult = 0.41; m_blueMult = 0.41; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWAgfapan25: m_redMult = 0.25; m_greenMult = 0.39; m_blueMult = 0.36; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWAgfapan100: m_redMult = 0.21; m_greenMult = 0.40; m_blueMult = 0.39; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWAgfapan400: m_redMult = 0.20; m_greenMult = 0.41; m_blueMult = 0.39; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWIlfordDelta100: m_redMult = 0.21; m_greenMult = 0.42; m_blueMult = 0.37; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWIlfordDelta400: m_redMult = 0.22; m_greenMult = 0.42; m_blueMult = 0.36; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWIlfordDelta400Pro3200: m_redMult = 0.31; m_greenMult = 0.36; m_blueMult = 0.33; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWIlfordFP4: m_redMult = 0.28; m_greenMult = 0.41; m_blueMult = 0.31; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWIlfordHP5: m_redMult = 0.23; m_greenMult = 0.37; m_blueMult = 0.40; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWIlfordPanF: m_redMult = 0.33; m_greenMult = 0.36; m_blueMult = 0.31; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWIlfordXP2Super: m_redMult = 0.21; m_greenMult = 0.42; m_blueMult = 0.37; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWKodakTmax100: m_redMult = 0.24; m_greenMult = 0.37; m_blueMult = 0.39; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWKodakTmax400: m_redMult = 0.27; m_greenMult = 0.36; m_blueMult = 0.37; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; case BWKodakTriX: m_redMult = 0.25; m_greenMult = 0.35; m_blueMult = 0.40; filter.channelMixerImage(data, w, h, sb, true, true, m_redMult + m_redMult*m_redAttn, m_greenMult + m_greenMult*m_greenAttn, m_blueMult + m_blueMult*m_blueAttn, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0); break; // -------------------------------------------------------------------------------- case BWSepiaTone: filter.changeTonality(data, w, h, sb, 162*mul, 132*mul, 101*mul); break; case BWBrownTone: filter.changeTonality(data, w, h, sb, 129*mul, 115*mul, 104*mul); break; case BWColdTone: filter.changeTonality(data, w, h, sb, 102*mul, 109*mul, 128*mul); break; case BWSeleniumTone: filter.changeTonality(data, w, h, sb, 122*mul, 115*mul, 122*mul); break; case BWPlatinumTone: filter.changeTonality(data, w, h, sb, 115*mul, 110*mul, 106*mul); break; case BWGreenTone: filter.changeTonality(data, w, h, sb, 108*mul, 116*mul, 100*mul); break; } } //-- Load all settings from file -------------------------------------- void ImageEffect_BWSepia::slotUser3() { KURL loadFile = KFileDialog::getOpenURL(TDEGlobalSettings::documentPath(), TQString( "*" ), this, TQString( i18n("Black & White Settings File to Load")) ); if( loadFile.isEmpty() ) return; TQFile file(loadFile.path()); if ( file.open(IO_ReadOnly) ) { TQTextStream stream( &file ); if ( stream.readLine() != "# Black & White Configuration File" ) { KMessageBox::error(this, i18n("\"%1\" is not a Black & White settings text file.") .arg(loadFile.fileName())); file.close(); return; } m_bwFilters->blockSignals(true); m_bwTone->blockSignals(true); m_cInput->blockSignals(true); m_bwFilters->setCurrentItem(stream.readLine().toInt()); m_bwTone->setCurrentItem(stream.readLine().toInt()); m_cInput->setValue(stream.readLine().toInt()); for (int i = 0 ; i < 5 ; i++) m_curves->curvesChannelReset(i); m_curves->setCurveType(m_curvesWidget->m_channelType, Digikam::ImageCurves::CURVE_SMOOTH); m_curvesWidget->reset(); for (int j = 0 ; j < 17 ; j++) { TQPoint disable(-1, -1); TQPoint p; p.setX( stream.readLine().toInt() ); p.setY( stream.readLine().toInt() ); if (m_originalImage->sixteenBit() && p != disable) { p.setX(p.x()*255); p.setY(p.y()*255); } m_curves->setCurvePoint(Digikam::ImageHistogram::ValueChannel, j, p); } for (int i = 0 ; i < 5 ; i++) m_curves->curvesCalculateCurve(i); m_bwFilters->blockSignals(false); m_bwTone->blockSignals(false); m_cInput->blockSignals(false); m_histogramWidget->reset(); m_previewPixmapFactory->invalidate(); m_bwFilters->triggerUpdate(false); m_bwTone->triggerUpdate(false); slotEffect(); } else KMessageBox::error(this, i18n("Cannot load settings from the Black & White text file.")); file.close(); } //-- Save all settings to file --------------------------------------- void ImageEffect_BWSepia::slotUser2() { KURL saveFile = KFileDialog::getSaveURL(TDEGlobalSettings::documentPath(), TQString( "*" ), this, TQString( i18n("Black & White Settings File to Save")) ); if( saveFile.isEmpty() ) return; TQFile file(saveFile.path()); if ( file.open(IO_WriteOnly) ) { TQTextStream stream( &file ); stream << "# Black & White Configuration File\n"; stream << m_bwFilters->currentItem() << "\n"; stream << m_bwTone->currentItem() << "\n"; stream << m_cInput->value() << "\n"; for (int j = 0 ; j < 17 ; j++) { TQPoint p = m_curves->getCurvePoint(Digikam::ImageHistogram::ValueChannel, j); if (m_originalImage->sixteenBit()) { p.setX(p.x()/255); p.setY(p.y()/255); } stream << p.x() << "\n"; stream << p.y() << "\n"; } } else KMessageBox::error(this, i18n("Cannot save settings to the Black & White text file.")); file.close(); } } // NameSpace DigikamImagesPluginCore