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koffice/chalk/ui/kis_dlg_preferences.cc

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/*
* preferencesdlg.cc - part of KImageShop
*
* Copyright (c) 1999 Michael Koch <koch@kde.org>
*
* 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 of the License, 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.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <tqbitmap.h>
#include <tqbuttongroup.h>
#include <tqcheckbox.h>
#include <tqcursor.h>
#include <tqlabel.h>
#include <tqlayout.h>
#include <tqlineedit.h>
#include <tqpixmap.h>
#include <tqpushbutton.h>
#include <tqslider.h>
#include <tqtoolbutton.h>
#include <tqvbox.h>
#ifdef HAVE_GL
#include <tqgl.h>
#endif
#include <KoImageResource.h>
#include <kcolorbutton.h>
#include <kcombobox.h>
#include <kfiledialog.h>
#include <kiconloader.h>
#include <klineedit.h>
#include <klocale.h>
#include <knuminput.h>
#include <kurlrequester.h>
#include "squeezedcombobox.h"
#include "kis_cmb_idlist.h"
#include "kis_colorspace.h"
#include "kis_colorspace_factory_registry.h"
#include "kis_cursor.h"
#include "kis_config.h"
#include "kis_dlg_preferences.h"
#include "kis_factory.h"
#include "kis_id.h"
#include "kis_meta_registry.h"
#include "kis_profile.h"
#include "kis_canvas.h"
#include "wdgcolorsettings.h"
#include "wdgperformancesettings.h"
#include "wdggeneralsettings.h"
// for the performance update
#include "tiles/kis_tilemanager.h"
GeneralTab::GeneralTab( TQWidget *_parent, const char *_name )
: WdgGeneralSettings( _parent, _name )
{
KisConfig cfg;
m_cmbCursorShape->setCurrentItem(cfg.cursorStyle());
grpDockability->setButton(cfg.dockability());
numDockerFontSize->setValue((int)cfg.dockerFontSize());
}
void GeneralTab::setDefault()
{
KisConfig cfg;
m_cmbCursorShape->setCurrentItem( cfg.getDefaultCursorStyle());
grpDockability->setButton(cfg.getDefaultDockability());
numDockerFontSize->setValue((int)(cfg.getDefaultDockerFontSize()));
}
enumCursorStyle GeneralTab::cursorStyle()
{
return (enumCursorStyle)m_cmbCursorShape->currentItem();
}
enumKoDockability GeneralTab::dockability()
{
return (enumKoDockability)grpDockability->selectedId();
}
float GeneralTab::dockerFontSize()
{
return (float)numDockerFontSize->value();
}
//---------------------------------------------------------------------------------------------------
ColorSettingsTab::ColorSettingsTab(TQWidget *parent, const char *name )
: TQWidget(parent, name)
{
// XXX: Make sure only profiles that fit the specified color model
// are shown in the profile combos
TQGridLayout * l = new TQGridLayout( this, 1, 1, KDialog::marginHint(), KDialog::spacingHint());
l->setMargin(0);
m_page = new WdgColorSettings(this);
l->addWidget( m_page, 0, 0);
KisConfig cfg;
m_page->cmbWorkingColorSpace->setIDList(KisMetaRegistry::instance()->csRegistry()->listKeys());
m_page->cmbWorkingColorSpace->setCurrentText(cfg.workingColorSpace());
m_page->cmbPrintingColorSpace->setIDList(KisMetaRegistry::instance()->csRegistry()->listKeys());
m_page->cmbPrintingColorSpace->setCurrentText(cfg.printerColorSpace());
refillMonitorProfiles(KisID("RGBA", ""));
refillPrintProfiles(KisID(cfg.printerColorSpace(), ""));
if(m_page->cmbMonitorProfile->contains(cfg.monitorProfile()))
m_page->cmbMonitorProfile->setCurrentText(cfg.monitorProfile());
if(m_page->cmbPrintProfile->contains(cfg.printerProfile()))
m_page->cmbPrintProfile->setCurrentText(cfg.printerProfile());
m_page->chkBlackpoint->setChecked(cfg.useBlackPointCompensation());
m_page->grpPasteBehaviour->setButton(cfg.pasteBehaviour());
m_page->cmbMonitorIntent->setCurrentItem(cfg.renderIntent());
connect(m_page->cmbPrintingColorSpace, TQT_SIGNAL(activated(const KisID &)),
this, TQT_SLOT(refillPrintProfiles(const KisID &)));
}
void ColorSettingsTab::setDefault()
{
m_page->cmbWorkingColorSpace->setCurrentText("RGBA");
m_page->cmbPrintingColorSpace->setCurrentText("CMYK");
refillPrintProfiles(KisID("CMYK", ""));
m_page->chkBlackpoint->setChecked(false);
m_page->cmbMonitorIntent->setCurrentItem(INTENT_PERCEPTUAL);
m_page->grpPasteBehaviour->setButton(2);
}
void ColorSettingsTab::refillMonitorProfiles(const KisID & s)
{
KisColorSpaceFactory * csf = KisMetaRegistry::instance()->csRegistry()->get(s);
m_page->cmbMonitorProfile->clear();
if ( !csf )
return;
TQValueVector<KisProfile *> profileList = KisMetaRegistry::instance()->csRegistry()->profilesFor( csf );
TQValueVector<KisProfile *> ::iterator it;
for ( it = profileList.begin(); it != profileList.end(); ++it ) {
if ((*it)->deviceClass() == icSigDisplayClass)
m_page->cmbMonitorProfile->insertItem((*it)->productName());
}
m_page->cmbMonitorProfile->setCurrentText(csf->defaultProfile());
}
void ColorSettingsTab::refillPrintProfiles(const KisID & s)
{
KisColorSpaceFactory * csf = KisMetaRegistry::instance()->csRegistry()->get(s);
m_page->cmbPrintProfile->clear();
if ( !csf )
return;
TQValueVector<KisProfile *> profileList = KisMetaRegistry::instance()->csRegistry()->profilesFor( csf );
TQValueVector<KisProfile *> ::iterator it;
for ( it = profileList.begin(); it != profileList.end(); ++it ) {
if ((*it)->deviceClass() == icSigOutputClass)
m_page->cmbPrintProfile->insertItem((*it)->productName());
}
m_page->cmbPrintProfile->setCurrentText(csf->defaultProfile());
}
//---------------------------------------------------------------------------------------------------
PerformanceTab::PerformanceTab(TQWidget *parent, const char *name )
: WdgPerformanceSettings(parent, name)
{
// XXX: Make sure only profiles that fit the specified color model
// are shown in the profile combos
KisConfig cfg;
// it's scaled from 0 - 6, but the config is in 0 - 300
m_swappiness->setValue(cfg.swappiness() / 50);
m_maxTiles->setValue(cfg.maxTilesInMem());
}
void PerformanceTab::setDefault()
{
m_swappiness->setValue(3);
m_maxTiles->setValue(500);
}
//---------------------------------------------------------------------------------------------------
TabletSettingsTab::TabletSettingsTab( TQWidget *parent, const char *name)
: WdgTabletSettings( parent, name )
{
#ifdef EXTENDED_X11_TABLET_SUPPORT
initTabletDevices();
#else
grpTabletDevices->hide();
#endif
}
void TabletSettingsTab::setDefault()
{
}
void TabletSettingsTab::applySettings()
{
#ifdef EXTENDED_X11_TABLET_SUPPORT
applyTabletDeviceSettings();
#endif
}
#ifdef EXTENDED_X11_TABLET_SUPPORT
TabletSettingsTab::DeviceSettings::DeviceSettings(KisCanvasWidget::X11TabletDevice *tabletDevice, bool enabled,
TQ_INT32 xAxis, TQ_INT32 yAxis, TQ_INT32 pressureAxis,
TQ_INT32 xTiltAxis, TQ_INT32 yTiltAxis, TQ_INT32 wheelAxis,
TQ_INT32 toolIDAxis, TQ_INT32 serialNumberAxis)
: m_tabletDevice(tabletDevice),
m_enabled(enabled),
m_xAxis(xAxis),
m_yAxis(yAxis),
m_pressureAxis(pressureAxis),
m_xTiltAxis(xTiltAxis),
m_yTiltAxis(yTiltAxis),
m_wheelAxis(wheelAxis),
m_toolIDAxis(toolIDAxis),
m_serialNumberAxis(serialNumberAxis)
{
}
TabletSettingsTab::DeviceSettings::DeviceSettings()
: m_tabletDevice(0),
m_enabled(false),
m_xAxis(KisCanvasWidget::X11TabletDevice::NoAxis),
m_yAxis(KisCanvasWidget::X11TabletDevice::NoAxis),
m_pressureAxis(KisCanvasWidget::X11TabletDevice::NoAxis),
m_xTiltAxis(KisCanvasWidget::X11TabletDevice::NoAxis),
m_yTiltAxis(KisCanvasWidget::X11TabletDevice::NoAxis),
m_wheelAxis(KisCanvasWidget::X11TabletDevice::NoAxis),
m_toolIDAxis(KisCanvasWidget::X11TabletDevice::NoAxis),
m_serialNumberAxis(KisCanvasWidget::X11TabletDevice::NoAxis)
{
}
void TabletSettingsTab::DeviceSettings::applySettings()
{
m_tabletDevice->setEnabled(enabled());
m_tabletDevice->setXAxis(xAxis());
m_tabletDevice->setYAxis(yAxis());
m_tabletDevice->setPressureAxis(pressureAxis());
m_tabletDevice->setXTiltAxis(xTiltAxis());
m_tabletDevice->setYTiltAxis(yTiltAxis());
m_tabletDevice->setWheelAxis(wheelAxis());
m_tabletDevice->setToolIDAxis(toolIDAxis());
m_tabletDevice->setSerialNumberAxis(serialNumberAxis());
m_tabletDevice->writeSettingsToConfig();
}
void TabletSettingsTab::DeviceSettings::setEnabled(bool enabled)
{
m_enabled = enabled;
}
bool TabletSettingsTab::DeviceSettings::enabled() const
{
return m_enabled;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::numAxes() const
{
return m_tabletDevice->numAxes();
}
void TabletSettingsTab::DeviceSettings::setXAxis(TQ_INT32 axis)
{
m_xAxis = axis;
}
void TabletSettingsTab::DeviceSettings::setYAxis(TQ_INT32 axis)
{
m_yAxis = axis;
}
void TabletSettingsTab::DeviceSettings::setPressureAxis(TQ_INT32 axis)
{
m_pressureAxis = axis;
}
void TabletSettingsTab::DeviceSettings::setXTiltAxis(TQ_INT32 axis)
{
m_xTiltAxis = axis;
}
void TabletSettingsTab::DeviceSettings::setYTiltAxis(TQ_INT32 axis)
{
m_yTiltAxis = axis;
}
void TabletSettingsTab::DeviceSettings::setWheelAxis(TQ_INT32 axis)
{
m_wheelAxis = axis;
}
void TabletSettingsTab::DeviceSettings::setToolIDAxis(TQ_INT32 axis)
{
m_toolIDAxis = axis;
}
void TabletSettingsTab::DeviceSettings::setSerialNumberAxis(TQ_INT32 axis)
{
m_serialNumberAxis = axis;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::xAxis() const
{
return m_xAxis;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::yAxis() const
{
return m_yAxis;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::pressureAxis() const
{
return m_pressureAxis;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::xTiltAxis() const
{
return m_xTiltAxis;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::yTiltAxis() const
{
return m_yTiltAxis;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::wheelAxis() const
{
return m_wheelAxis;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::toolIDAxis() const
{
return m_toolIDAxis;
}
TQ_INT32 TabletSettingsTab::DeviceSettings::serialNumberAxis() const
{
return m_serialNumberAxis;
}
TabletSettingsTab::TabletDeviceSettingsDialog::TabletDeviceSettingsDialog(const TQString& deviceName, DeviceSettings settings,
TQWidget *parent, const char *name)
: super(parent, name, true, "", Ok | Cancel)
{
setCaption(i18n("Configure %1").arg(deviceName));
m_page = new WdgTabletDeviceSettings(this);
setMainWidget(m_page);
resize(m_page->sizeHint());
for (TQ_INT32 axis = 0; axis < settings.numAxes(); axis++) {
TQString axisString;
axisString.setNum(axis);
m_page->cbX->insertItem(axisString);
m_page->cbY->insertItem(axisString);
m_page->cbPressure->insertItem(axisString);
m_page->cbXTilt->insertItem(axisString);
m_page->cbYTilt->insertItem(axisString);
m_page->cbWheel->insertItem(axisString);
// m_page->cbToolID->insertItem(axisString);
// m_page->cbSerialNumber->insertItem(axisString);
}
m_page->cbX->insertItem(i18n("None"));
m_page->cbY->insertItem(i18n("None"));
m_page->cbPressure->insertItem(i18n("None"));
m_page->cbXTilt->insertItem(i18n("None"));
m_page->cbYTilt->insertItem(i18n("None"));
m_page->cbWheel->insertItem(i18n("None"));
// m_page->cbToolID->insertItem(i18n("None"));
// m_page->cbSerialNumber->insertItem(i18n("None"));
if (settings.xAxis() != KisCanvasWidget::X11TabletDevice::NoAxis) {
m_page->cbX->setCurrentItem(settings.xAxis());
} else {
m_page->cbX->setCurrentItem(settings.numAxes());
}
if (settings.yAxis() != KisCanvasWidget::X11TabletDevice::NoAxis) {
m_page->cbY->setCurrentItem(settings.yAxis());
} else {
m_page->cbY->setCurrentItem(settings.numAxes());
}
if (settings.pressureAxis() != KisCanvasWidget::X11TabletDevice::NoAxis) {
m_page->cbPressure->setCurrentItem(settings.pressureAxis());
} else {
m_page->cbPressure->setCurrentItem(settings.numAxes());
}
if (settings.xTiltAxis() != KisCanvasWidget::X11TabletDevice::NoAxis) {
m_page->cbXTilt->setCurrentItem(settings.xTiltAxis());
} else {
m_page->cbXTilt->setCurrentItem(settings.numAxes());
}
if (settings.yTiltAxis() != KisCanvasWidget::X11TabletDevice::NoAxis) {
m_page->cbYTilt->setCurrentItem(settings.yTiltAxis());
} else {
m_page->cbYTilt->setCurrentItem(settings.numAxes());
}
if (settings.wheelAxis() != KisCanvasWidget::X11TabletDevice::NoAxis) {
m_page->cbWheel->setCurrentItem(settings.wheelAxis());
} else {
m_page->cbWheel->setCurrentItem(settings.numAxes());
}
// if (settings.toolIDAxis() != KisCanvasWidget::X11TabletDevice::NoAxis) {
// m_page->cbToolID->setCurrentItem(settings.toolIDAxis());
// } else {
// m_page->cbToolID->setCurrentItem(settings.numAxes());
// }
//
// if (settings.serialNumberAxis() != KisCanvasWidget::X11TabletDevice::NoAxis) {
// m_page->cbSerialNumber->setCurrentItem(settings.serialNumberAxis());
// } else {
// m_page->cbSerialNumber->setCurrentItem(settings.numAxes());
// }
m_settings = settings;
}
TabletSettingsTab::TabletDeviceSettingsDialog::~TabletDeviceSettingsDialog()
{
delete m_page;
}
TabletSettingsTab::DeviceSettings TabletSettingsTab::TabletDeviceSettingsDialog::settings()
{
const TQ_INT32 noAxis = m_settings.numAxes();
if (m_page->cbX->currentItem() != noAxis ) {
m_settings.setXAxis(m_page->cbX->currentItem());
} else {
m_settings.setXAxis(KisCanvasWidget::X11TabletDevice::NoAxis);
}
if (m_page->cbY->currentItem() != noAxis ) {
m_settings.setYAxis(m_page->cbY->currentItem());
} else {
m_settings.setYAxis(KisCanvasWidget::X11TabletDevice::NoAxis);
}
if (m_page->cbPressure->currentItem() != noAxis ) {
m_settings.setPressureAxis(m_page->cbPressure->currentItem());
} else {
m_settings.setPressureAxis(KisCanvasWidget::X11TabletDevice::NoAxis);
}
if (m_page->cbXTilt->currentItem() != noAxis ) {
m_settings.setXTiltAxis(m_page->cbXTilt->currentItem());
} else {
m_settings.setXTiltAxis(KisCanvasWidget::X11TabletDevice::NoAxis);
}
if (m_page->cbYTilt->currentItem() != noAxis ) {
m_settings.setYTiltAxis(m_page->cbYTilt->currentItem());
} else {
m_settings.setYTiltAxis(KisCanvasWidget::X11TabletDevice::NoAxis);
}
if (m_page->cbWheel->currentItem() != noAxis ) {
m_settings.setWheelAxis(m_page->cbWheel->currentItem());
} else {
m_settings.setWheelAxis(KisCanvasWidget::X11TabletDevice::NoAxis);
}
// if (m_page->cbToolID->currentItem() != noAxis ) {
// m_settings.setToolIDAxis(m_page->cbToolID->currentItem());
// } else {
// m_settings.setToolIDAxis(KisCanvasWidget::X11TabletDevice::NoAxis);
// }
//
// if (m_page->cbSerialNumber->currentItem() != noAxis ) {
// m_settings.setSerialNumberAxis(m_page->cbSerialNumber->currentItem());
// } else {
// m_settings.setSerialNumberAxis(KisCanvasWidget::X11TabletDevice::NoAxis);
// }
return m_settings;
}
void TabletSettingsTab::initTabletDevices()
{
connect(cbTabletDevice, TQT_SIGNAL(activated(int)), TQT_SLOT(slotActivateDevice(int)));
connect(chkEnableTabletDevice, TQT_SIGNAL(toggled(bool)), TQT_SLOT(slotSetDeviceEnabled(bool)));
connect(btnConfigureTabletDevice, TQT_SIGNAL(clicked()), TQT_SLOT(slotConfigureDevice()));
KisCanvasWidget::X11XIDTabletDeviceMap& tabletDevices = KisCanvasWidget::tabletDeviceMap();
cbTabletDevice->clear();
if (!tabletDevices.empty()) {
KisCanvasWidget::X11XIDTabletDeviceMap::iterator it;
for (it = tabletDevices.begin(); it != tabletDevices.end(); ++it) {
KisCanvasWidget::X11TabletDevice& device = (*it).second;
m_deviceSettings.append(DeviceSettings(&device, device.enabled(), device.xAxis(), device.yAxis(),
device.pressureAxis(), device.xTiltAxis(), device.yTiltAxis(), device.wheelAxis(),
device.toolIDAxis(), device.serialNumberAxis()));
cbTabletDevice->insertItem(device.name());
}
slotActivateDevice(0);
} else {
cbTabletDevice->insertItem(i18n("No devices detected"));
cbTabletDevice->setEnabled(false);
chkEnableTabletDevice->setEnabled(false);
btnConfigureTabletDevice->setEnabled(false);
}
}
void TabletSettingsTab::slotActivateDevice(int deviceIndex)
{
bool deviceEnabled = m_deviceSettings[deviceIndex].enabled();
chkEnableTabletDevice->setChecked(deviceEnabled);
slotSetDeviceEnabled(deviceEnabled);
}
void TabletSettingsTab::slotSetDeviceEnabled(bool enabled)
{
btnConfigureTabletDevice->setEnabled(enabled);
m_deviceSettings[cbTabletDevice->currentItem()].setEnabled(enabled);
}
void TabletSettingsTab::slotConfigureDevice()
{
TabletDeviceSettingsDialog dialog(cbTabletDevice->currentText(), m_deviceSettings[cbTabletDevice->currentItem()],
this, "TabletDeviceSettings");
if (dialog.exec() == TQDialog::Accepted)
{
m_deviceSettings[cbTabletDevice->currentItem()] = dialog.settings();
}
}
void TabletSettingsTab::applyTabletDeviceSettings()
{
for (TQ_UINT32 deviceIndex = 0; deviceIndex < m_deviceSettings.count(); ++deviceIndex) {
m_deviceSettings[deviceIndex].applySettings();
}
}
#else // EXTENDED_X11_TABLET_SUPPORT
// Fix compilation. tqmoc seems to not see the undefined symbol needed
// for these slots to be declared.
void TabletSettingsTab::slotActivateDevice(int /*deviceIndex*/)
{
}
void TabletSettingsTab::slotSetDeviceEnabled(bool /*enabled*/)
{
}
void TabletSettingsTab::slotConfigureDevice()
{
}
void TabletSettingsTab::applyTabletDeviceSettings()
{
}
#endif
//---------------------------------------------------------------------------------------------------
DisplaySettingsTab::DisplaySettingsTab( TQWidget *parent, const char *name)
: WdgDisplaySettings( parent, name )
{
#ifdef HAVE_GL
KisConfig cfg;
if (!TQGLFormat::hasOpenGL()) {
cbUseOpenGL->setEnabled(false);
//cbUseOpenGLShaders->setEnabled(false);
} else {
cbUseOpenGL->setChecked(cfg.useOpenGL());
//cbUseOpenGLShaders->setChecked(cfg.useOpenGLShaders());
//cbUseOpenGLShaders->setEnabled(cfg.useOpenGL());
}
#else
cbUseOpenGL->setEnabled(false);
//cbUseOpenGLShaders->setEnabled(false);
#endif
connect(cbUseOpenGL, TQT_SIGNAL(toggled(bool)), TQT_SLOT(slotUseOpenGLToggled(bool)));
}
void DisplaySettingsTab::setDefault()
{
cbUseOpenGL->setChecked(false);
//cbUseOpenGLShaders->setChecked(false);
//cbUseOpenGLShaders->setEnabled(false);
}
void DisplaySettingsTab::slotUseOpenGLToggled(bool /*isChecked*/)
{
//cbUseOpenGLShaders->setEnabled(isChecked);
}
//---------------------------------------------------------------------------------------------------
GridSettingsTab::GridSettingsTab(TQWidget* parent) : WdgGridSettingsBase(parent)
{
KisConfig cfg;
selectMainStyle->setCurrentItem(cfg.getGridMainStyle());
selectSubdivisionStyle->setCurrentItem(cfg.getGridSubdivisionStyle());
#if KDE_IS_VERSION(3,4,0)
colorMain->setDefaultColor( TQColor( 99, 99, 99 ) );
colorSubdivision->setDefaultColor( TQColor( 200, 200, 200 ) );
#endif
colorMain->setColor(cfg.getGridMainColor());
colorSubdivision->setColor(cfg.getGridSubdivisionColor());
intHSpacing->setValue( cfg.getGridHSpacing() );
intVSpacing->setValue( cfg.getGridVSpacing() );
intSubdivision->setValue( cfg.getGridSubdivisions());
intOffsetX->setValue( cfg.getGridOffsetX());
intOffsetY->setValue( cfg.getGridOffsetY());
linkSpacingToggled(true);
connect(bnLinkSpacing, TQT_SIGNAL(toggled(bool)), this, TQT_SLOT(linkSpacingToggled( bool )));
connect(intHSpacing, TQT_SIGNAL(valueChanged(int)),this,TQT_SLOT(spinBoxHSpacingChanged(int)));
connect(intVSpacing, TQT_SIGNAL(valueChanged(int)),this,TQT_SLOT(spinBoxVSpacingChanged(int)));
}
void GridSettingsTab::setDefault()
{
KisConfig cfg;
selectMainStyle->setCurrentItem(0);
selectSubdivisionStyle->setCurrentItem(1);
colorMain->setColor(TQColor(99,99,99));
colorSubdivision->setColor(TQColor(199,199,199));
intHSpacing->setValue( 10 );
intVSpacing->setValue( 10 );
intSubdivision->setValue( 1 );
intOffsetX->setValue( 0 );
intOffsetY->setValue( 0 );
}
void GridSettingsTab::spinBoxHSpacingChanged(int v)
{
if(m_linkSpacing)
{
intVSpacing->setValue(v);
}
}
void GridSettingsTab::spinBoxVSpacingChanged(int v )
{
if(m_linkSpacing)
{
intHSpacing->setValue(v);
}
}
void GridSettingsTab::linkSpacingToggled(bool b)
{
m_linkSpacing = b;
KoImageResource kir;
if (b) {
bnLinkSpacing->setPixmap(kir.chain());
}
else {
bnLinkSpacing->setPixmap(kir.chainBroken());
}
}
//---------------------------------------------------------------------------------------------------
PreferencesDialog::PreferencesDialog( TQWidget* parent, const char* name )
: KDialogBase( IconList, i18n("Preferences"), Ok | Cancel | Help | Default /*| Apply*/, Ok, parent, name, true, true )
{
TQVBox *vbox;
vbox = addVBoxPage( i18n( "General"), i18n( "General"), BarIcon( "misc", KIcon::SizeMedium ));
m_general = new GeneralTab( vbox );
#ifdef HAVE_GL
vbox = addVBoxPage ( i18n( "Display" ), i18n( "Display" ), BarIcon( "kscreensaver", KIcon::SizeMedium ));
m_displaySettings = new DisplaySettingsTab( vbox );
#endif
vbox = addVBoxPage( i18n( "Color Management"), i18n( "Color"), BarIcon( "colorize", KIcon::SizeMedium ));
m_colorSettings = new ColorSettingsTab( vbox );
vbox = addVBoxPage( i18n( "Performance"), i18n( "Performance"), BarIcon( "fork", KIcon::SizeMedium ));
m_performanceSettings = new PerformanceTab ( vbox );
vbox = addVBoxPage ( i18n( "Tablet" ), i18n( "Tablet" ), BarIcon( "tablet", KIcon::SizeMedium ));
m_tabletSettings = new TabletSettingsTab( vbox );
vbox = addVBoxPage ( i18n( "Grid" ), i18n( "Grid" ), BarIcon( "grid", KIcon::SizeMedium ));
m_gridSettings = new GridSettingsTab( vbox );
}
PreferencesDialog::~PreferencesDialog()
{
}
void PreferencesDialog::slotDefault()
{
m_general->setDefault();
m_colorSettings->setDefault();
m_tabletSettings->setDefault();
m_performanceSettings->setDefault();
#ifdef HAVE_GL
m_displaySettings->setDefault();
#endif
m_gridSettings->setDefault();
}
bool PreferencesDialog::editPreferences()
{
PreferencesDialog* dialog;
dialog = new PreferencesDialog();
bool baccept = ( dialog->exec() == Accepted );
if( baccept )
{
KisConfig cfg;
cfg.setCursorStyle(dialog->m_general->cursorStyle());
cfg.setDockability( dialog->m_general->dockability() );
cfg.setDockerFontSize( dialog->m_general->dockerFontSize() );
// Color settings
cfg.setMonitorProfile( dialog->m_colorSettings->m_page->cmbMonitorProfile->currentText());
cfg.setWorkingColorSpace( dialog->m_colorSettings->m_page->cmbWorkingColorSpace->currentText());
cfg.setPrinterColorSpace( dialog->m_colorSettings->m_page->cmbPrintingColorSpace->currentText());
cfg.setPrinterProfile( dialog->m_colorSettings->m_page->cmbPrintProfile->currentText());
cfg.setUseBlackPointCompensation( dialog->m_colorSettings->m_page->chkBlackpoint->isChecked());
cfg.setPasteBehaviour( dialog->m_colorSettings->m_page->grpPasteBehaviour->selectedId());
cfg.setRenderIntent( dialog->m_colorSettings->m_page->cmbMonitorIntent->currentItem());
// it's scaled from 0 - 6, but the config is in 0 - 300
cfg.setSwappiness(dialog->m_performanceSettings->m_swappiness->value() * 50);
cfg.setMaxTilesInMem(dialog->m_performanceSettings->m_maxTiles->value());
// let the tile manager know
KisTileManager::instance()->configChanged();
dialog->m_tabletSettings->applySettings();
#ifdef HAVE_GL
cfg.setUseOpenGL(dialog->m_displaySettings->cbUseOpenGL->isChecked());
//cfg.setUseOpenGLShaders(dialog->m_displaySettings->cbUseOpenGLShaders->isChecked());
#endif
// Grid settings
cfg.setGridMainStyle( dialog->m_gridSettings->selectMainStyle->currentItem() );
cfg.setGridSubdivisionStyle( dialog->m_gridSettings->selectSubdivisionStyle->currentItem() );
cfg.setGridMainColor( dialog->m_gridSettings->colorMain->color() );
cfg.setGridSubdivisionColor(dialog->m_gridSettings->colorSubdivision->color() );
cfg.setGridHSpacing( dialog->m_gridSettings->intHSpacing->value( ));
cfg.setGridVSpacing( dialog->m_gridSettings->intVSpacing->value( ));
cfg.setGridSubdivisions( dialog->m_gridSettings->intSubdivision->value( ));
cfg.setGridOffsetX( dialog->m_gridSettings->intOffsetX->value( ));
cfg.setGridOffsetY( dialog->m_gridSettings->intOffsetY->value( ));
}
delete dialog;
return baccept;
}
#include "kis_dlg_preferences.moc"