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|
/* ============================================================
*
* This file is a part of digiKam project
* http://www.digikam.org
*
* Date : 2004-06-06
* Description : Red eyes correction tool for image editor
*
* Copyright (C) 2004-2005 by Renchi Raju <[email protected]>
* Copyright (C) 2004-2008 by Gilles Caulier <caulier dot gilles at gmail dot com>
*
* 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 <tqcolor.h>
#include <tqhbox.h>
#include <tqhgroupbox.h>
#include <tqvgroupbox.h>
#include <tqhbuttongroup.h>
#include <tqvbox.h>
#include <tqlabel.h>
#include <tqlayout.h>
#include <tqframe.h>
#include <tqlabel.h>
#include <tqpushbutton.h>
#include <tqcombobox.h>
#include <tqwhatsthis.h>
#include <tqtooltip.h>
// KDE includes.
#include <kcolordialog.h>
#include <knuminput.h>
#include <klocale.h>
#include <kapplication.h>
#include <kconfig.h>
#include <kcursor.h>
#include <kstandarddirs.h>
#include <kcolordialog.h>
// Digikam includes.
#include "imageiface.h"
#include "imagewidget.h"
#include "histogramwidget.h"
#include "colorgradientwidget.h"
#include "bcgmodifier.h"
#include "dimg.h"
#include "dimgimagefilters.h"
// Local includes.
#include "imageeffect_redeye.h"
#include "imageeffect_redeye.moc"
namespace DigikamImagesPluginCore
{
ImageEffect_RedEye::ImageEffect_RedEye(TQWidget* parent)
: Digikam::ImageDlgBase(parent, i18n("Red Eye Reduction"), "redeye", false)
{
m_destinationPreviewData = 0;
setHelp("redeyecorrectiontool.anchor", "digikam");
m_previewWidget = new Digikam::ImageWidget("redeye Tool Dialog", plainPage(),
i18n("<p>Here you can see the image selection preview with "
"red eye reduction applied."),
true, Digikam::ImageGuideWidget::PickColorMode, true, true);
setPreviewAreaWidget(m_previewWidget);
// -------------------------------------------------------------
TQWidget *gboxSettings = new TQWidget(plainPage());
TQGridLayout* gridSettings = new TQGridLayout(gboxSettings, 11, 4, spacingHint());
TQLabel *label1 = new TQLabel(i18n("Channel:"), gboxSettings);
label1->tqsetAlignment ( 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("<p>Select the histogram channel to display here:<p>"
"<b>Luminosity</b>: display the image's luminosity values.<p>"
"<b>Red</b>: display the red image channel values.<p>"
"<b>Green</b>: display the green image channel values.<p>"
"<b>Blue</b>: display the blue image channel values.<p>"));
m_scaleBG = new TQHButtonGroup(gboxSettings);
m_scaleBG->setExclusive(true);
m_scaleBG->setFrameShape(TQFrame::NoFrame);
m_scaleBG->setInsideMargin(0);
TQWhatsThis::add( m_scaleBG, i18n("<p>Select the histogram scale here.<p>"
"If the image's maximum counts are small, you can use the linear scale.<p>"
"The logarithmic scale can be used when the maximal counts are big "
"to show all values (small and large) on the graph."));
TQPushButton *linHistoButton = new TQPushButton( m_scaleBG );
TQToolTip::add( linHistoButton, i18n( "<p>Linear" ) );
m_scaleBG->insert(linHistoButton, Digikam::HistogramWidget::LinScaleHistogram);
KGlobal::dirs()->addResourceType("histogram-lin", KGlobal::dirs()->kde_default("data") + "digikam/data");
TQString directory = KGlobal::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( "<p>Logarithmic" ) );
m_scaleBG->insert(logHistoButton, Digikam::HistogramWidget::LogScaleHistogram);
KGlobal::dirs()->addResourceType("histogram-log", KGlobal::dirs()->kde_default("data") + "digikam/data");
directory = KGlobal::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);
// -------------------------------------------------------------
TQVBox *histoBox = new TQVBox(gboxSettings);
m_histogramWidget = new Digikam::HistogramWidget(256, 140, histoBox, false, true, true);
TQWhatsThis::add( m_histogramWidget, i18n("<p>Here you can see the target preview image histogram "
"of the selected image channel. It is "
"updated upon setting 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"));
// -------------------------------------------------------------
m_thresholdLabel = new TQLabel(i18n("Sensitivity:"), gboxSettings);
m_redThreshold = new KIntNumInput(gboxSettings);
m_redThreshold->setRange(10, 90, 1, true);
m_redThreshold->setValue(20);
TQWhatsThis::add(m_redThreshold, i18n("<p>Sets the red color pixels selection threshold. "
"Low values will select more red color pixels (agressive correction), high "
"values less (mild correction). Use low value if eye have been selected "
"exactly. Use high value if other parts of the face are also selected."));
m_smoothLabel = new TQLabel(i18n("Smooth:"), gboxSettings);
m_smoothLevel = new KIntNumInput(gboxSettings);
m_smoothLevel->setRange(0, 5, 1, true);
m_smoothLevel->setValue(1);
TQWhatsThis::add(m_smoothLevel, i18n("<p>Sets the smoothness value when blurring the border "
"of the changed pixels. "
"This leads to a more naturally looking pupil."));
TQLabel *label3 = new TQLabel(i18n("Coloring Tint:"), gboxSettings);
m_HSSelector = new KHSSelector(gboxSettings);
m_VSelector = new KValueSelector(gboxSettings);
m_HSSelector->setMinimumSize(200, 142);
m_VSelector->setMinimumSize(26, 142);
TQWhatsThis::add(m_HSSelector, i18n("<p>Sets a custom color to re-colorize the eyes."));
TQLabel *label4 = new TQLabel(i18n("Tint Level:"), gboxSettings);
m_tintLevel = new KIntNumInput(gboxSettings);
m_tintLevel->setRange(1, 200, 1, true);
m_tintLevel->setValue(128);
TQWhatsThis::add(m_tintLevel, i18n("<p>Set the tint level to adjust the luminosity of "
"the new color of the pupil."));
gridSettings->addMultiCellLayout(l1, 0, 0, 0, 4);
gridSettings->addMultiCellWidget(histoBox, 1, 2, 0, 4);
gridSettings->addMultiCellWidget(m_thresholdLabel, 3, 3, 0, 4);
gridSettings->addMultiCellWidget(m_redThreshold, 4, 4, 0, 4);
gridSettings->addMultiCellWidget(m_smoothLabel, 5, 5, 0, 4);
gridSettings->addMultiCellWidget(m_smoothLevel, 6, 6, 0, 4);
gridSettings->addMultiCellWidget(label3, 7, 7, 0, 4);
gridSettings->addMultiCellWidget(m_HSSelector, 8, 8, 0, 3);
gridSettings->addMultiCellWidget(m_VSelector, 8, 8, 4, 4);
gridSettings->addMultiCellWidget(label4, 9, 9, 0, 4);
gridSettings->addMultiCellWidget(m_tintLevel, 10, 10, 0, 4);
gridSettings->setRowStretch(11, 10);
gridSettings->setColStretch(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(spotPositionChangedFromTarget(const Digikam::DColor&, const TQPoint&)),
this, TQT_SLOT(slotColorSelectedFromTarget(const Digikam::DColor&)));
connect(m_previewWidget, TQT_SIGNAL(signalResized()),
this, TQT_SLOT(slotEffect()));
connect(m_redThreshold, TQT_SIGNAL(valueChanged(int)),
this, TQT_SLOT(slotTimer()));
connect(m_smoothLevel, TQT_SIGNAL(valueChanged(int)),
this, TQT_SLOT(slotTimer()));
connect(m_HSSelector, TQT_SIGNAL(valueChanged(int, int)),
this, TQT_SLOT(slotHSChanged(int, int)));
connect(m_VSelector, TQT_SIGNAL(valueChanged(int)),
this, TQT_SLOT(slotTimer()));
connect(m_tintLevel, TQT_SIGNAL(valueChanged(int)),
this, TQT_SLOT(slotTimer()));
}
ImageEffect_RedEye::~ImageEffect_RedEye()
{
m_histogramWidget->stopHistogramComputation();
if (m_destinationPreviewData)
delete [] m_destinationPreviewData;
delete m_histogramWidget;
delete m_previewWidget;
}
void ImageEffect_RedEye::slotHSChanged(int h, int s)
{
m_VSelector->blockSignals(true);
m_VSelector->setHue(h);
m_VSelector->setSaturation(s);
m_VSelector->updateContents();
m_VSelector->tqrepaint(false);
m_VSelector->blockSignals(false);
slotTimer();
}
void ImageEffect_RedEye::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->tqrepaint(false);
}
void ImageEffect_RedEye::slotScaleChanged(int scale)
{
m_histogramWidget->m_scaleType = scale;
m_histogramWidget->tqrepaint(false);
}
void ImageEffect_RedEye::slotColorSelectedFromTarget(const Digikam::DColor& color)
{
m_histogramWidget->setHistogramGuideByColor(color);
}
void ImageEffect_RedEye::readUserSettings()
{
KConfig* config = kapp->config();
config->setGroup("redeye Tool Dialog");
m_channelCB->setCurrentItem(config->readNumEntry("Histogram Channel", 0)); // Luminosity.
m_scaleBG->setButton(config->readNumEntry("Histogram Scale", Digikam::HistogramWidget::LogScaleHistogram));
m_redThreshold->setValue(config->readNumEntry("RedThreshold", 20));
m_smoothLevel->setValue(config->readNumEntry("SmoothLevel", 1));
m_HSSelector->setXValue(config->readNumEntry("HueColoringTint", 0));
m_HSSelector->setYValue(config->readNumEntry("SatColoringTint", 0));
m_VSelector->setValue(config->readNumEntry("ValColoringTint", 0));
m_tintLevel->setValue(config->readNumEntry("TintLevel", 128));
slotHSChanged(m_HSSelector->xValue(), m_HSSelector->yValue());
slotChannelChanged(m_channelCB->currentItem());
slotScaleChanged(m_scaleBG->selectedId());
}
void ImageEffect_RedEye::writeUserSettings()
{
KConfig* config = kapp->config();
config->setGroup("redeye Tool Dialog");
config->writeEntry("Histogram Channel", m_channelCB->currentItem());
config->writeEntry("Histogram Scale", m_scaleBG->selectedId());
config->writeEntry("RedThreshold", m_redThreshold->value());
config->writeEntry("SmoothLevel", m_smoothLevel->value());
config->writeEntry("HueColoringTint", m_HSSelector->xValue());
config->writeEntry("SatColoringTint", m_HSSelector->yValue());
config->writeEntry("ValColoringTint", m_VSelector->value());
config->writeEntry("TintLevel", m_tintLevel->value());
config->sync();
}
void ImageEffect_RedEye::resetValues()
{
m_redThreshold->blockSignals(true);
m_HSSelector->blockSignals(true);
m_VSelector->blockSignals(true);
m_tintLevel->blockSignals(true);
m_redThreshold->setValue(20);
m_smoothLevel->setValue(1);
// Black color by default
m_HSSelector->setXValue(0);
m_HSSelector->setYValue(0);
m_VSelector->setValue(0);
m_tintLevel->setValue(128);
m_redThreshold->blockSignals(false);
m_HSSelector->blockSignals(false);
m_VSelector->blockSignals(false);
m_tintLevel->blockSignals(false);
}
void ImageEffect_RedEye::slotEffect()
{
kapp->setOverrideCursor(KCursor::waitCursor());
m_histogramWidget->stopHistogramComputation();
if (m_destinationPreviewData)
delete [] m_destinationPreviewData;
// Here, we need to use the real selection image data because we will apply
// a Gaussian blur filter on pixels and we cannot use directly the preview scaled image
// else the blur radius will not give the same result between preview and final rendering.
Digikam::ImageIface* iface = m_previewWidget->imageIface();
m_destinationPreviewData = iface->getImageSelection();
int w = iface->selectedWidth();
int h = iface->selectedHeight();
bool sb = iface->originalSixteenBit();
bool a = iface->originalHasAlpha();
Digikam::DImg selection(w, h, sb, a, m_destinationPreviewData);
redEyeFilter(selection);
Digikam::DImg preview = selection.smoothScale(iface->previewWidth(), iface->previewHeight());
iface->putPreviewImage(preview.bits());
m_previewWidget->updatePreview();
// Update histogram.
memcpy(m_destinationPreviewData, selection.bits(), selection.numBytes());
m_histogramWidget->updateData(m_destinationPreviewData, w, h, sb, 0, 0, 0, false);
kapp->restoreOverrideCursor();
}
void ImageEffect_RedEye::finalRendering()
{
kapp->setOverrideCursor( KCursor::waitCursor() );
Digikam::ImageIface* iface = m_previewWidget->imageIface();
uchar *data = iface->getImageSelection();
int w = iface->selectedWidth();
int h = iface->selectedHeight();
bool sixteenBit = iface->originalSixteenBit();
bool hasAlpha = iface->originalHasAlpha();
Digikam::DImg selection(w, h, sixteenBit, hasAlpha, data);
delete [] data;
redEyeFilter(selection);
iface->putImageSelection(i18n("Red Eyes Correction"), selection.bits());
kapp->restoreOverrideCursor();
accept();
}
void ImageEffect_RedEye::redEyeFilter(Digikam::DImg& selection)
{
Digikam::DImg mask(selection.width(), selection.height(), selection.sixteenBit(), true,
selection.bits(), true);
selection = mask.copy();
float redThreshold = m_redThreshold->value()/10.0;
int hue = m_HSSelector->xValue();
int sat = m_HSSelector->yValue();
int val = m_VSelector->value();
KColor coloring;
coloring.setHsv(hue, sat, val);
struct channel
{
float red_gain;
float green_gain;
float blue_gain;
};
channel red_chan, green_chan, blue_chan;
red_chan.red_gain = 0.1;
red_chan.green_gain = 0.6;
red_chan.blue_gain = 0.3;
green_chan.red_gain = 0.0;
green_chan.green_gain = 1.0;
green_chan.blue_gain = 0.0;
blue_chan.red_gain = 0.0;
blue_chan.green_gain = 0.0;
blue_chan.blue_gain = 1.0;
float red_norm, green_norm, blue_norm;
int level = 201 - m_tintLevel->value();
red_norm = 1.0 / (red_chan.red_gain + red_chan.green_gain + red_chan.blue_gain);
green_norm = 1.0 / (green_chan.red_gain + green_chan.green_gain + green_chan.blue_gain);
blue_norm = 1.0 / (blue_chan.red_gain + blue_chan.green_gain + blue_chan.blue_gain);
red_norm *= coloring.red() / level;
green_norm *= coloring.green() / level;
blue_norm *= coloring.blue() / level;
// Perform a red color pixels detection in selection image and create a correction mask using an alpha channel.
if (!selection.sixteenBit()) // 8 bits image.
{
uchar* ptr = selection.bits();
uchar* mptr = mask.bits();
uchar r, g, b, r1, g1, b1;
for (uint i = 0 ; i < selection.width() * selection.height() ; i++)
{
b = ptr[0];
g = ptr[1];
r = ptr[2];
mptr[3] = 255;
if (r >= ( redThreshold * g))
{
r1 = TQMIN(255, (int)(red_norm * (red_chan.red_gain * r +
red_chan.green_gain * g +
red_chan.blue_gain * b)));
g1 = TQMIN(255, (int)(green_norm * (green_chan.red_gain * r +
green_chan.green_gain * g +
green_chan.blue_gain * b)));
b1 = TQMIN(255, (int)(blue_norm * (blue_chan.red_gain * r +
blue_chan.green_gain * g +
blue_chan.blue_gain * b)));
mptr[0] = b1;
mptr[1] = g1;
mptr[2] = r1;
mptr[3] = TQMIN( (int)((r-g) / 150.0 * 255.0), 255);
}
ptr += 4;
mptr+= 4;
}
}
else // 16 bits image.
{
unsigned short* ptr = (unsigned short*)selection.bits();
unsigned short* mptr = (unsigned short*)mask.bits();
unsigned short r, g, b, r1, g1, b1;
for (uint i = 0 ; i < selection.width() * selection.height() ; i++)
{
b = ptr[0];
g = ptr[1];
r = ptr[2];
mptr[3] = 65535;
if (r >= ( redThreshold * g))
{
r1 = TQMIN(65535, (int)(red_norm * (red_chan.red_gain * r +
red_chan.green_gain * g +
red_chan.blue_gain * b)));
g1 = TQMIN(65535, (int)(green_norm * (green_chan.red_gain * r +
green_chan.green_gain * g +
green_chan.blue_gain * b)));
b1 = TQMIN(65535, (int)(blue_norm * (blue_chan.red_gain * r +
blue_chan.green_gain * g +
blue_chan.blue_gain * b)));
mptr[0] = b1;
mptr[1] = g1;
mptr[2] = r1;
mptr[3] = TQMIN( (int)((r-g) / 38400.0 * 65535.0), 65535);;
}
ptr += 4;
mptr+= 4;
}
}
// Now, we will blur only the transparency pixels from the mask.
Digikam::DImg mask2 = mask.copy();
Digikam::DImgImageFilters filter;
filter.gaussianBlurImage(mask2.bits(), mask2.width(), mask2.height(),
mask2.sixteenBit(), m_smoothLevel->value());
if (!selection.sixteenBit()) // 8 bits image.
{
uchar* mptr = mask.bits();
uchar* mptr2 = mask2.bits();
for (uint i = 0 ; i < mask2.width() * mask2.height() ; i++)
{
if (mptr2[3] < 255)
{
mptr[0] = mptr2[0];
mptr[1] = mptr2[1];
mptr[2] = mptr2[2];
mptr[3] = mptr2[3];
}
mptr += 4;
mptr2+= 4;
}
}
else // 16 bits image.
{
unsigned short* mptr = (unsigned short*)mask.bits();
unsigned short* mptr2 = (unsigned short*)mask2.bits();
for (uint i = 0 ; i < mask2.width() * mask2.height() ; i++)
{
if (mptr2[3] < 65535)
{
mptr[0] = mptr2[0];
mptr[1] = mptr2[1];
mptr[2] = mptr2[2];
mptr[3] = mptr2[3];
}
mptr += 4;
mptr2+= 4;
}
}
// - Perform pixels blending using alpha channel between the mask and the selection.
Digikam::DColorComposer *composer = Digikam::DColorComposer::getComposer(Digikam::DColorComposer::PorterDuffSrcOver);
// NOTE: 'mask' is the Source image, 'selection' is the Destination image.
selection.bitBlendImage(composer, &mask,
0, 0, mask.width(), mask.height(),
0, 0);
}
} // NameSpace DigikamImagesPluginCore
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