/* ============================================================ * * This file is a part of digiKam project * http://www.digikam.org * * Date : 2004-07-20 * Description : image histogram adjust levels. * * Copyright (C) 2004-2008 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. * * ============================================================ */ // C++ includes. #include // TQt includes. #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 #include #include #include // LibKDcraw includes. #include // Local includes. #include "daboutdata.h" #include "ddebug.h" #include "dimg.h" #include "editortoolsettings.h" #include "imageiface.h" #include "imagewidget.h" #include "imagehistogram.h" #include "imagelevels.h" #include "histogramwidget.h" #include "dimgimagefilters.h" #include "adjustlevelstool.h" #include "adjustlevelstool.moc" using namespace KDcrawIface; using namespace Digikam; namespace DigikamAdjustLevelsImagesPlugin { AdjustLevelsTool::AdjustLevelsTool(TQObject* parent) : EditorTool(parent) { m_destinationPreviewData = 0; ImageIface iface(0, 0); m_originalImage = iface.getOriginalImg(); m_histoSegments = m_originalImage->sixteenBit() ? 65535 : 255; m_levels = new ImageLevels(m_originalImage->sixteenBit()); setName("adjustlevels"); setToolName(i18n("Adjust Levels")); setToolIcon(SmallIcon("adjustlevels")); // ------------------------------------------------------------- m_previewWidget = new ImageWidget("adjustlevels Tool", 0, i18n("

Here you can see the image's " "level-adjustments preview. You can pick a spot on the image " "to see the corresponding level in the histogram.")); setToolView(m_previewWidget); // ------------------------------------------------------------- m_gboxSettings = new EditorToolSettings(EditorToolSettings::Default| EditorToolSettings::Load| EditorToolSettings::SaveAs| EditorToolSettings::Ok| EditorToolSettings::Cancel); TQGridLayout* grid = new TQGridLayout(m_gboxSettings->plainPage(), 20, 6); TQLabel *label1 = new TQLabel(i18n("Channel:"), m_gboxSettings->plainPage()); label1->setAlignment ( TQt::AlignRight | TQt::AlignVCenter ); m_channelCB = new TQComboBox( false, m_gboxSettings->plainPage() ); m_channelCB->insertItem( i18n("Luminosity") ); m_channelCB->insertItem( i18n("Red") ); m_channelCB->insertItem( i18n("Green") ); m_channelCB->insertItem( i18n("Blue") ); m_channelCB->insertItem( i18n("Alpha") ); m_channelCB->setCurrentText( i18n("Luminosity") ); TQWhatsThis::add( m_channelCB, i18n("

Here select the histogram channel to display:

" "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.

" "Alpha: display the alpha image-channel values. " "This channel corresponds to the transparency value and " "is supported by some image formats, such as PNG or TIF.")); m_scaleBG = new TQHButtonGroup(m_gboxSettings->plainPage()); m_scaleBG->setExclusive(true); m_scaleBG->setFrameShape(TQFrame::NoFrame); m_scaleBG->setInsideMargin( 0 ); TQWhatsThis::add( m_scaleBG, i18n("

Here select the histogram scale.

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

" "The 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, 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, 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); // ------------------------------------------------------------- m_histogramWidget = new HistogramWidget(256, 140, m_gboxSettings->plainPage(), 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 levels " "settings changes.")); m_levelsHistogramWidget = new HistogramWidget(256, 140, m_originalImage->bits(), m_originalImage->width(), m_originalImage->height(), m_originalImage->sixteenBit(), m_gboxSettings, false); TQWhatsThis::add( m_levelsHistogramWidget, i18n("

This is the histogram drawing of the selected channel " "from original image")); // ------------------------------------------------------------- m_hGradientMinInput = new KGradientSelector( KSelector::Horizontal, m_gboxSettings->plainPage() ); m_hGradientMinInput->setFixedHeight( 20 ); m_hGradientMinInput->setMinValue(0); m_hGradientMinInput->setMaxValue(m_histoSegments); TQWhatsThis::add( m_hGradientMinInput, i18n("

Select the minimal intensity input value of the histogram.")); TQToolTip::add( m_hGradientMinInput, i18n( "Minimal intensity input." ) ); m_hGradientMinInput->setColors( TQColor( "black" ), TQColor( "white" ) ); m_hGradientMinInput->installEventFilter(this); m_hGradientMaxInput = new KGradientSelector( KSelector::Horizontal, m_gboxSettings->plainPage() ); m_hGradientMaxInput->setFixedHeight( 20 ); m_hGradientMaxInput->setMinValue(0); m_hGradientMaxInput->setMaxValue(m_histoSegments); TQWhatsThis::add( m_hGradientMaxInput, i18n("

Select the maximal intensity input value of the histogram.")); TQToolTip::add( m_hGradientMaxInput, i18n( "Maximal intensity input." ) ); m_hGradientMaxInput->setColors( TQColor( "black" ), TQColor( "white" ) ); m_hGradientMaxInput->installEventFilter(this); m_minInput = new RIntNumInput(m_gboxSettings->plainPage()); m_minInput->input()->setRange(0, m_histoSegments, 1, false); m_minInput->setDefaultValue(0); TQWhatsThis::add( m_minInput, i18n("

Select the minimal intensity input value of the histogram.")); TQToolTip::add( m_minInput, i18n( "Minimal intensity input." ) ); m_gammaInput = new RDoubleNumInput(m_gboxSettings->plainPage()); m_gammaInput->setPrecision(2); m_gammaInput->setRange(0.1, 3.0, 0.01, true); m_gammaInput->setDefaultValue(1.0); TQToolTip::add( m_gammaInput, i18n( "Gamma input value." ) ); TQWhatsThis::add( m_gammaInput, i18n("

Select the gamma input value.")); m_maxInput = new RIntNumInput(m_gboxSettings->plainPage()); m_maxInput->input()->setRange(0, m_histoSegments, 1, false); m_maxInput->setDefaultValue(m_histoSegments); TQToolTip::add( m_maxInput, i18n( "Maximal intensity input." ) ); TQWhatsThis::add( m_maxInput, i18n("

Select the maximal intensity input value of the histogram.")); m_hGradientMinOutput = new KGradientSelector( KSelector::Horizontal, m_gboxSettings->plainPage() ); m_hGradientMinOutput->setColors( TQColor( "black" ), TQColor( "white" ) ); TQWhatsThis::add( m_hGradientMinOutput, i18n("

Select the minimal intensity output value of the histogram.")); TQToolTip::add( m_hGradientMinOutput, i18n( "Minimal intensity output." ) ); m_hGradientMinOutput->setFixedHeight( 20 ); m_hGradientMinOutput->setMinValue(0); m_hGradientMinOutput->setMaxValue(m_histoSegments); m_hGradientMinOutput->installEventFilter(this); m_hGradientMaxOutput = new KGradientSelector( KSelector::Horizontal, m_gboxSettings->plainPage() ); m_hGradientMaxOutput->setColors( TQColor( "black" ), TQColor( "white" ) ); TQWhatsThis::add( m_hGradientMaxOutput, i18n("

Select the maximal intensity output value of the histogram.")); TQToolTip::add( m_hGradientMaxOutput, i18n( "Maximal intensity output." ) ); m_hGradientMaxOutput->setFixedHeight( 20 ); m_hGradientMaxOutput->setMinValue(0); m_hGradientMaxOutput->setMaxValue(m_histoSegments); m_hGradientMaxOutput->installEventFilter(this); m_minOutput = new RIntNumInput(m_gboxSettings->plainPage()); m_minOutput->input()->setRange(0, m_histoSegments, 1, false); m_minOutput->setDefaultValue(0); TQToolTip::add( m_minOutput, i18n( "Minimal intensity output." ) ); TQWhatsThis::add( m_minOutput, i18n("

Select the minimal intensity output value of the histogram.")); m_maxOutput = new RIntNumInput(m_gboxSettings->plainPage()); m_maxOutput->input()->setRange(0, m_histoSegments, 1, false); m_maxOutput->setDefaultValue(m_histoSegments); TQToolTip::add( m_maxOutput, i18n( "Maximal intensity output." ) ); TQWhatsThis::add( m_maxOutput, i18n("

Select the maximal intensity output value of the histogram.")); // ------------------------------------------------------------- m_pickerColorButtonGroup = new TQHButtonGroup(m_gboxSettings->plainPage()); m_pickBlack = new TQPushButton(m_pickerColorButtonGroup); m_pickerColorButtonGroup->insert(m_pickBlack, BlackTonal); TDEGlobal::dirs()->addResourceType("color-picker-black", TDEGlobal::dirs()->kde_default("data") + "digikam/data"); directory = TDEGlobal::dirs()->findResourceDir("color-picker-black", "color-picker-black.png"); m_pickBlack->setPixmap( TQPixmap( directory + "color-picker-black.png" ) ); m_pickBlack->setToggleButton(true); TQToolTip::add( m_pickBlack, i18n( "All channels shadow tone color picker" ) ); TQWhatsThis::add( m_pickBlack, i18n("

With this button, you can pick the color from original image used to set Shadow Tone " "levels input on Red, Green, Blue, and Luminosity channels.")); m_pickGray = new TQPushButton(m_pickerColorButtonGroup); m_pickerColorButtonGroup->insert(m_pickGray, GrayTonal); TDEGlobal::dirs()->addResourceType("color-picker-gray", TDEGlobal::dirs()->kde_default("data") + "digikam/data"); directory = TDEGlobal::dirs()->findResourceDir("color-picker-grey", "color-picker-grey.png"); m_pickGray->setPixmap( TQPixmap( directory + "color-picker-grey.png" ) ); m_pickGray->setToggleButton(true); TQToolTip::add( m_pickGray, i18n( "All channels middle tone color picker" ) ); TQWhatsThis::add( m_pickGray, i18n("

With this button, you can pick the color from original image used to set Middle Tone " "levels input on Red, Green, Blue, and Luminosity channels.")); m_pickWhite = new TQPushButton(m_pickerColorButtonGroup); m_pickerColorButtonGroup->insert(m_pickWhite, WhiteTonal); TDEGlobal::dirs()->addResourceType("color-picker-white", TDEGlobal::dirs()->kde_default("data") + "digikam/data"); directory = TDEGlobal::dirs()->findResourceDir("color-picker-white", "color-picker-white.png"); m_pickWhite->setPixmap( TQPixmap( directory + "color-picker-white.png" ) ); m_pickWhite->setToggleButton(true); TQToolTip::add( m_pickWhite, i18n( "All channels highlight tone color picker" ) ); TQWhatsThis::add( m_pickWhite, i18n("

With this button, you can pick the color from original image used to set Highlight Tone " "levels input on Red, Green, Blue, and Luminosity channels.")); m_pickerColorButtonGroup->setExclusive(true); m_pickerColorButtonGroup->setFrameShape(TQFrame::NoFrame); m_autoButton = new TQPushButton(m_gboxSettings->plainPage()); m_autoButton->setPixmap(kapp->iconLoader()->loadIcon("run", (KIcon::Group)KIcon::Toolbar)); TQToolTip::add( m_autoButton, i18n( "Adjust all levels automatically." ) ); TQWhatsThis::add( m_autoButton, i18n("

If you press this button, all channel levels will be adjusted " "automatically.")); m_resetButton = new TQPushButton(i18n("&Reset"), m_gboxSettings->plainPage()); m_resetButton->setPixmap(kapp->iconLoader()->loadIcon("reload_page", (KIcon::Group)KIcon::Toolbar)); TQToolTip::add( m_resetButton, i18n( "Reset current channel levels' values." ) ); TQWhatsThis::add( m_resetButton, i18n("

If you press this button, all levels' values " "from the current selected channel " "will be reset to the default values.")); TQLabel *space = new TQLabel(m_gboxSettings->plainPage()); space->setFixedWidth(m_gboxSettings->spacingHint()); TQHBoxLayout* l3 = new TQHBoxLayout(); l3->addWidget(m_pickerColorButtonGroup); l3->addWidget(m_autoButton); l3->addWidget(space); l3->addWidget(m_resetButton); l3->addStretch(10); // ------------------------------------------------------------- grid->addMultiCellLayout(l1, 0, 0, 0, 6); grid->addMultiCellWidget(m_histogramWidget, 2, 2, 1, 5); grid->addMultiCellWidget(m_levelsHistogramWidget, 4, 4, 1, 5); grid->addMultiCellWidget(m_hGradientMinInput, 5, 5, 0, 6); grid->addMultiCellWidget(m_hGradientMaxInput, 7, 7, 0, 6); grid->addMultiCellWidget(m_minInput, 9, 9, 1, 1); grid->addMultiCellWidget(m_maxInput, 9, 9, 5, 5); grid->addMultiCellWidget(m_gammaInput, 11, 11, 0, 6); grid->addMultiCellWidget(m_hGradientMinOutput, 13, 13, 0, 6); grid->addMultiCellWidget(m_hGradientMaxOutput, 15, 15, 0, 6); grid->addMultiCellWidget(m_minOutput, 17, 17, 1, 1); grid->addMultiCellWidget(m_maxOutput, 17, 17, 5, 5); grid->addMultiCellLayout(l3, 19, 19, 0, 6); grid->setRowStretch(20, 10); grid->setColStretch(3, 10); grid->setMargin(0); grid->setSpacing(5); setToolSettings(m_gboxSettings); init(); // ------------------------------------------------------------- // Channels and scale selection slots. 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_previewWidget, TQT_SIGNAL(signalResized()), this, TQT_SLOT(slotEffect())); // ------------------------------------------------------------- // Color sliders and spinbox slots. connect(m_hGradientMinInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotAdjustMinInputSpinBox(int))); connect(m_minInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotAdjustSliders())); connect(m_gammaInput, TQT_SIGNAL(valueChanged(double)), this, TQT_SLOT(slotGammaInputchanged(double))); connect(m_hGradientMaxInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotAdjustMaxInputSpinBox(int))); connect(m_maxInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotAdjustSliders())); connect(m_hGradientMinOutput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotAdjustMinOutputSpinBox(int))); connect(m_minOutput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotAdjustSliders())); connect(m_hGradientMaxOutput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotAdjustMaxOutputSpinBox(int))); connect(m_maxOutput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotAdjustSliders())); // ------------------------------------------------------------- // Bouttons slots. connect(m_autoButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotAutoLevels())); connect(m_resetButton, TQT_SIGNAL(clicked()), this, TQT_SLOT(slotResetCurrentChannel())); connect(m_pickerColorButtonGroup, TQT_SIGNAL(released(int)), this, TQT_SLOT(slotPickerColorButtonActived())); } AdjustLevelsTool::~AdjustLevelsTool() { delete [] m_destinationPreviewData; delete m_levels; } void AdjustLevelsTool::slotPickerColorButtonActived() { // Save previous rendering mode and toggle to original image. m_currentPreviewMode = m_previewWidget->getRenderingPreviewMode(); m_previewWidget->setRenderingPreviewMode(ImageGuideWidget::PreviewOriginalImage); } void AdjustLevelsTool::slotSpotColorChanged(const DColor& color) { if ( m_pickBlack->isOn() ) { // Black tonal levels point. m_levels->levelsBlackToneAdjustByColors(m_channelCB->currentItem(), color); m_pickBlack->setOn(false); } else if ( m_pickGray->isOn() ) { // Gray tonal levels point. m_levels->levelsGrayToneAdjustByColors(m_channelCB->currentItem(), color); m_pickGray->setOn(false); } else if ( m_pickWhite->isOn() ) { // White tonal levels point. m_levels->levelsWhiteToneAdjustByColors(m_channelCB->currentItem(), color); m_pickWhite->setOn(false); } else { m_levelsHistogramWidget->setHistogramGuideByColor(color); return; } // Refresh the current levels config. slotChannelChanged(m_channelCB->currentItem()); // restore previous rendering mode. m_previewWidget->setRenderingPreviewMode(m_currentPreviewMode); slotEffect(); } void AdjustLevelsTool::slotColorSelectedFromTarget(const DColor& color) { m_histogramWidget->setHistogramGuideByColor(color); } void AdjustLevelsTool::slotGammaInputchanged(double val) { blockSignals(true); m_levels->setLevelGammaValue(m_channelCB->currentItem(), val); blockSignals(false); slotTimer(); } void AdjustLevelsTool::slotAdjustMinInputSpinBox(int val) { blockSignals(true); if ( val < m_hGradientMaxInput->value() ) val = m_hGradientMaxInput->value(); m_minInput->setValue(m_histoSegments - val); m_hGradientMinInput->setValue( val ); m_levels->setLevelLowInputValue(m_channelCB->currentItem(), m_histoSegments - val); blockSignals(false); slotTimer(); } void AdjustLevelsTool::slotAdjustMaxInputSpinBox(int val) { blockSignals(true); if ( val > m_hGradientMinInput->value() ) val = m_hGradientMinInput->value(); m_maxInput->setValue(m_histoSegments - val); m_hGradientMaxInput->setValue( val ); m_levels->setLevelHighInputValue(m_channelCB->currentItem(), m_histoSegments - val); blockSignals(false); slotTimer(); } void AdjustLevelsTool::slotAdjustMinOutputSpinBox(int val) { blockSignals(true); if ( val < m_hGradientMaxOutput->value() ) val = m_hGradientMaxOutput->value(); m_minOutput->setValue(m_histoSegments - val); m_hGradientMinOutput->setValue( val ); m_levels->setLevelLowOutputValue(m_channelCB->currentItem(), m_histoSegments - val); blockSignals(false); slotTimer(); } void AdjustLevelsTool::slotAdjustMaxOutputSpinBox(int val) { blockSignals(true); if ( val > m_hGradientMinOutput->value() ) val = m_hGradientMinOutput->value(); m_maxOutput->setValue(m_histoSegments - val); m_hGradientMaxOutput->setValue( val ); m_levels->setLevelHighOutputValue(m_channelCB->currentItem(), m_histoSegments - val); blockSignals(false); slotTimer(); } void AdjustLevelsTool::slotAdjustSliders() { adjustSliders(m_minInput->value(), m_gammaInput->value(), m_maxInput->value(), m_minOutput->value(), m_maxOutput->value()); } void AdjustLevelsTool::adjustSliders(int minIn, double gamIn, int maxIn, int minOut, int maxOut) { m_hGradientMinInput->setValue(m_histoSegments - minIn); m_hGradientMaxInput->setValue(m_histoSegments - maxIn); m_gammaInput->setValue(gamIn); m_hGradientMinOutput->setValue(m_histoSegments - minOut); m_hGradientMaxOutput->setValue(m_histoSegments - maxOut); } void AdjustLevelsTool::slotResetCurrentChannel() { m_levels->levelsChannelReset(m_channelCB->currentItem()); // Refresh the current levels config. slotChannelChanged(m_channelCB->currentItem()); m_levelsHistogramWidget->reset(); slotEffect(); m_histogramWidget->reset(); } void AdjustLevelsTool::slotAutoLevels() { // Calculate Auto levels. m_levels->levelsAuto(m_levelsHistogramWidget->m_imageHistogram); // Refresh the current levels config. slotChannelChanged(m_channelCB->currentItem()); slotEffect(); } void AdjustLevelsTool::slotEffect() { ImageIface* iface = m_previewWidget->imageIface(); uchar *orgData = iface->getPreviewImage(); int w = iface->previewWidth(); int h = iface->previewHeight(); bool sb = iface->previewSixteenBit(); // Create the new empty destination image data space. m_histogramWidget->stopHistogramComputation(); if (m_destinationPreviewData) delete [] m_destinationPreviewData; m_destinationPreviewData = new uchar[w*h*(sb ? 8 : 4)]; // Calculate the LUT to apply on the image. m_levels->levelsLutSetup(ImageHistogram::AlphaChannel); // Apply the lut to the image. m_levels->levelsLutProcess(orgData, m_destinationPreviewData, w, h); iface->putPreviewImage(m_destinationPreviewData); m_previewWidget->updatePreview(); // Update histogram. m_histogramWidget->updateData(m_destinationPreviewData, w, h, sb, 0, 0, 0, false); delete [] orgData; } void AdjustLevelsTool::finalRendering() { kapp->setOverrideCursor( KCursor::waitCursor() ); ImageIface* iface = m_previewWidget->imageIface(); uchar *orgData = iface->getOriginalImage(); int w = iface->originalWidth(); int h = iface->originalHeight(); bool sb = iface->originalSixteenBit(); // Create the new empty destination image data space. uchar* desData = new uchar[w*h*(sb ? 8 : 4)]; // Calculate the LUT to apply on the image. m_levels->levelsLutSetup(ImageHistogram::AlphaChannel); // Apply the lut to the image. m_levels->levelsLutProcess(orgData, desData, w, h); iface->putOriginalImage(i18n("Adjust Level"), desData); kapp->restoreOverrideCursor(); delete [] orgData; delete [] desData; } void AdjustLevelsTool::slotChannelChanged(int channel) { switch(channel) { case LuminosityChannel: m_histogramWidget->m_channelType = HistogramWidget::ValueHistogram; m_levelsHistogramWidget->m_channelType = HistogramWidget::ValueHistogram; m_hGradientMinInput->setColors( TQColor( "black" ), TQColor( "white" ) ); m_hGradientMaxInput->setColors( TQColor( "black" ), TQColor( "white" ) ); m_hGradientMinOutput->setColors( TQColor( "black" ), TQColor( "white" ) ); m_hGradientMaxOutput->setColors( TQColor( "black" ), TQColor( "white" ) ); break; case RedChannel: m_histogramWidget->m_channelType = HistogramWidget::RedChannelHistogram; m_levelsHistogramWidget->m_channelType = HistogramWidget::RedChannelHistogram; m_hGradientMinInput->setColors( TQColor( "black" ), TQColor( "red" ) ); m_hGradientMaxInput->setColors( TQColor( "black" ), TQColor( "red" ) ); m_hGradientMinOutput->setColors( TQColor( "black" ), TQColor( "red" ) ); m_hGradientMaxOutput->setColors( TQColor( "black" ), TQColor( "red" ) ); break; case GreenChannel: m_histogramWidget->m_channelType = HistogramWidget::GreenChannelHistogram; m_levelsHistogramWidget->m_channelType = HistogramWidget::GreenChannelHistogram; m_hGradientMinInput->setColors( TQColor( "black" ), TQColor( "green" ) ); m_hGradientMaxInput->setColors( TQColor( "black" ), TQColor( "green" ) ); m_hGradientMinOutput->setColors( TQColor( "black" ), TQColor( "green" ) ); m_hGradientMaxOutput->setColors( TQColor( "black" ), TQColor( "green" ) ); break; case BlueChannel: m_histogramWidget->m_channelType = HistogramWidget::BlueChannelHistogram; m_levelsHistogramWidget->m_channelType = HistogramWidget::BlueChannelHistogram; m_hGradientMinInput->setColors( TQColor( "black" ), TQColor( "blue" ) ); m_hGradientMaxInput->setColors( TQColor( "black" ), TQColor( "blue" ) ); m_hGradientMinOutput->setColors( TQColor( "black" ), TQColor( "blue" ) ); m_hGradientMaxOutput->setColors( TQColor( "black" ), TQColor( "blue" ) ); break; case AlphaChannel: m_histogramWidget->m_channelType = HistogramWidget::AlphaChannelHistogram; m_levelsHistogramWidget->m_channelType = HistogramWidget::AlphaChannelHistogram; m_hGradientMinInput->setColors( TQColor( "black" ), TQColor( "white" ) ); m_hGradientMaxInput->setColors( TQColor( "black" ), TQColor( "white" ) ); m_hGradientMinOutput->setColors( TQColor( "black" ), TQColor( "white" ) ); m_hGradientMaxOutput->setColors( TQColor( "black" ), TQColor( "white" ) ); break; } adjustSliders(m_levels->getLevelLowInputValue(channel), m_levels->getLevelGammaValue(channel), m_levels->getLevelHighInputValue(channel), m_levels->getLevelLowOutputValue(channel), m_levels->getLevelHighOutputValue(channel)); m_levelsHistogramWidget->repaint(false); m_histogramWidget->repaint(false); } void AdjustLevelsTool::slotScaleChanged(int scale) { m_levelsHistogramWidget->m_scaleType = scale; m_histogramWidget->m_scaleType = scale; m_histogramWidget->repaint(false); m_levelsHistogramWidget->repaint(false); } void AdjustLevelsTool::readSettings() { TDEConfig* config = kapp->config(); config->setGroup("adjustlevels Tool"); m_channelCB->setCurrentItem(config->readNumEntry("Histogram Channel", 0)); // Luminosity. m_scaleBG->setButton(config->readNumEntry("Histogram Scale", HistogramWidget::LogScaleHistogram)); for (int i = 0 ; i < 5 ; i++) { bool sb = m_originalImage->sixteenBit(); int max = sb ? 65535 : 255; double gamma = config->readDoubleNumEntry(TQString("GammaChannel%1").arg(i), 1.0); int lowInput = config->readNumEntry(TQString("LowInputChannel%1").arg(i), 0); int lowOutput = config->readNumEntry(TQString("LowOutputChannel%1").arg(i), 0); int highInput = config->readNumEntry(TQString("HighInputChannel%1").arg(i), max); int highOutput = config->readNumEntry(TQString("HighOutputChannel%1").arg(i), max); m_levels->setLevelGammaValue(i, gamma); m_levels->setLevelLowInputValue(i, sb ? lowInput*255 : lowInput); m_levels->setLevelHighInputValue(i, sb ? highInput*255 : highInput); m_levels->setLevelLowOutputValue(i, sb ? lowOutput*255 : lowOutput); m_levels->setLevelHighOutputValue(i, sb ? highOutput*255 : highOutput); } m_levelsHistogramWidget->reset(); m_histogramWidget->reset(); slotChannelChanged(m_channelCB->currentItem()); slotScaleChanged(m_scaleBG->selectedId()); // This is mandatory here to set spinbox values because slot connections // can be not set completely at plugin startup. m_minInput->setValue(m_levels->getLevelLowInputValue(m_channelCB->currentItem())); m_minOutput->setValue(m_levels->getLevelLowOutputValue(m_channelCB->currentItem())); m_maxInput->setValue(m_levels->getLevelHighInputValue(m_channelCB->currentItem())); m_maxOutput->setValue(m_levels->getLevelHighOutputValue(m_channelCB->currentItem())); } void AdjustLevelsTool::writeSettings() { TDEConfig* config = kapp->config(); config->setGroup("adjustlevels Tool"); config->writeEntry("Histogram Channel", m_channelCB->currentItem()); config->writeEntry("Histogram Scale", m_scaleBG->selectedId()); for (int i = 0 ; i < 5 ; i++) { bool sb = m_originalImage->sixteenBit(); double gamma = m_levels->getLevelGammaValue(i); int lowInput = m_levels->getLevelLowInputValue(i); int lowOutput = m_levels->getLevelLowOutputValue(i); int highInput = m_levels->getLevelHighInputValue(i); int highOutput = m_levels->getLevelHighOutputValue(i); config->writeEntry(TQString("GammaChannel%1").arg(i), gamma); config->writeEntry(TQString("LowInputChannel%1").arg(i), sb ? lowInput/255 : lowInput); config->writeEntry(TQString("LowOutputChannel%1").arg(i), sb ? lowOutput/255 : lowOutput); config->writeEntry(TQString("HighInputChannel%1").arg(i), sb ? highInput/255 : highInput); config->writeEntry(TQString("HighOutputChannel%1").arg(i), sb ? highOutput/255 : highOutput); } m_previewWidget->writeSettings(); config->sync(); } void AdjustLevelsTool::slotResetSettings() { for (int channel = 0 ; channel < 5 ; ++channel) m_levels->levelsChannelReset(channel); // Refresh the current levels config. slotChannelChanged(m_channelCB->currentItem()); m_levelsHistogramWidget->reset(); slotEffect(); m_histogramWidget->reset(); } void AdjustLevelsTool::slotLoadSettings() { KURL loadLevelsFile; loadLevelsFile = KFileDialog::getOpenURL(TDEGlobalSettings::documentPath(), TQString( "*" ), kapp->activeWindow(), TQString( i18n("Select Gimp Levels File to Load")) ); if( loadLevelsFile.isEmpty() ) return; if ( m_levels->loadLevelsFromGimpLevelsFile( loadLevelsFile ) == false ) { KMessageBox::error(kapp->activeWindow(), i18n("Cannot load from the Gimp levels text file.")); return; } // Refresh the current levels config. slotChannelChanged(m_channelCB->currentItem()); } void AdjustLevelsTool::slotSaveAsSettings() { KURL saveLevelsFile; saveLevelsFile = KFileDialog::getSaveURL(TDEGlobalSettings::documentPath(), TQString( "*" ), kapp->activeWindow(), TQString( i18n("Gimp Levels File to Save")) ); if( saveLevelsFile.isEmpty() ) return; if ( m_levels->saveLevelsToGimpLevelsFile( saveLevelsFile ) == false ) { KMessageBox::error(kapp->activeWindow(), i18n("Cannot save to the Gimp levels text file.")); return; } // Refresh the current levels config. slotChannelChanged(m_channelCB->currentItem()); } // See B.K.O #146636: use event filter with all level slider to display a // guide over level histogram. bool AdjustLevelsTool::eventFilter(TQObject *obj, TQEvent *ev) { if ( obj == m_hGradientMinInput ) { if ( ev->type() == TQEvent::MouseButtonPress) { connect(m_minInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotShowInputHistogramGuide(int))); return false; } if ( ev->type() == TQEvent::MouseButtonRelease) { disconnect(m_minInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotShowInputHistogramGuide(int))); m_levelsHistogramWidget->reset(); return false; } else { return false; } } if ( obj == m_hGradientMaxInput ) { if ( ev->type() == TQEvent::MouseButtonPress) { connect(m_maxInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotShowInputHistogramGuide(int))); return false; } if ( ev->type() == TQEvent::MouseButtonRelease) { disconnect(m_maxInput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotShowInputHistogramGuide(int))); m_levelsHistogramWidget->reset(); return false; } else { return false; } } if ( obj == m_hGradientMinOutput ) { if ( ev->type() == TQEvent::MouseButtonPress) { connect(m_minOutput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotShowOutputHistogramGuide(int))); return false; } if ( ev->type() == TQEvent::MouseButtonRelease) { disconnect(m_minOutput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotShowOutputHistogramGuide(int))); m_histogramWidget->reset(); return false; } else { return false; } } if ( obj == m_hGradientMaxOutput ) { if ( ev->type() == TQEvent::MouseButtonPress) { connect(m_maxOutput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotShowOutputHistogramGuide(int))); return false; } if ( ev->type() == TQEvent::MouseButtonRelease) { disconnect(m_maxOutput, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotShowOutputHistogramGuide(int))); m_histogramWidget->reset(); return false; } else { return false; } } else { // pass the event on to the parent class return EditorTool::eventFilter(obj, ev); } } void AdjustLevelsTool::slotShowInputHistogramGuide(int v) { DColor color(v, v, v, v, m_originalImage->sixteenBit()); m_levelsHistogramWidget->setHistogramGuideByColor(color); } void AdjustLevelsTool::slotShowOutputHistogramGuide(int v) { DColor color(v, v, v, v, m_originalImage->sixteenBit()); m_histogramWidget->setHistogramGuideByColor(color); } } // NameSpace DigikamAdjustLevelsImagesPlugin