kwin/clients/nitrogen/nitrogen.cpp

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//////////////////////////////////////////////////////////////////////////////
// Nitrogenbutton.h
// -------------------
// Nitrogen window decoration for KDE.
// -------------------
// Copyright (c) 2006, 2007 Riccardo Iaconelli <riccardo@kde.org>
// Copyright (c) 2009, 2010 Hugo Pereira <hugo.pereira@free.fr>
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
// IN THE SOFTWARE.
//////////////////////////////////////////////////////////////////////////////
#include <assert.h>
#include <kconfiggroup.h>
#include <kdeversion.h>
#include <kwindowinfo.h>
#include <QApplication>
#include <QPainter>
#include <QTextStream>
#include "nitrogen.h"
#include "nitrogen.moc"
#include "nitrogenclient.h"
extern "C"
{
KDE_EXPORT KDecorationFactory* create_factory()
{ return new Nitrogen::NitrogenFactory(); }
}
namespace Nitrogen
{
// referenced from definition in Nitrogendclient.cpp
NitrogenHelper *nitrogenHelper();
// initialize static members
bool NitrogenFactory::initialized_ = false;
NitrogenConfiguration NitrogenFactory::defaultConfiguration_;
NitrogenExceptionList NitrogenFactory::exceptions_;
//___________________________________________________
NitrogenFactory::NitrogenFactory()
{
readConfig();
setInitialized( true );
}
//___________________________________________________
NitrogenFactory::~NitrogenFactory()
{ setInitialized( false ); }
//___________________________________________________
KDecoration* NitrogenFactory::createDecoration(KDecorationBridge* bridge )
{
NitrogenClient* client( new NitrogenClient( bridge, this ) );
connect( this, SIGNAL( configurationChanged() ), client, SLOT( resetConfiguration() ) );
return client->decoration();
}
//___________________________________________________
bool NitrogenFactory::reset(unsigned long changed)
{
QTextStream( stdout ) << "NitrogenConfig::reset." << endl;
// read in the configuration
setInitialized( false );
bool configuration_changed = readConfig();
setInitialized( true );
if( configuration_changed || (changed & (SettingDecoration | SettingButtons | SettingBorder)) )
{
emit configurationChanged();
return true;
} else {
emit configurationChanged();
resetDecorations(changed);
return false;
}
}
//___________________________________________________
bool NitrogenFactory::readConfig()
{
QTextStream( stdout ) << "NitrogenConfig::readConfig." << endl;
// create a config object
KConfig config("nitrogenrc");
KConfigGroup group( config.group("Windeco") );
NitrogenConfiguration configuration( group );
bool changed = !( configuration == defaultConfiguration() );
// check configurations
changed |= (NitrogenConfiguration::useCompiz() == NitrogenConfiguration::checkUseCompiz());
// read exceptionsreadConfig
NitrogenExceptionList exceptions( config );
if( !( exceptions == exceptions_ ) )
{
exceptions_ = exceptions;
changed = true;
}
if( changed )
{
nitrogenHelper()->invalidateCaches();
setDefaultConfiguration( configuration );
return true;
} else return false;
}
//_________________________________________________________________
bool NitrogenFactory::supports( Ability ability ) const
{
switch( ability )
{
// announce
case AbilityAnnounceButtons:
case AbilityAnnounceColors:
// buttons
case AbilityButtonMenu:
case AbilityButtonHelp:
case AbilityButtonMinimize:
case AbilityButtonMaximize:
case AbilityButtonClose:
case AbilityButtonOnAllDesktops:
case AbilityButtonAboveOthers:
case AbilityButtonBelowOthers:
case AbilityButtonSpacer:
case AbilityButtonShade:
// // colors
// case AbilityColorTitleBack:
// case AbilityColorTitleFore:
// case AbilityColorFrame:
// compositing
#if KDE_IS_VERSION(4,2,92)
case AbilityProvidesShadow: // TODO: UI option to use default shadows instead
case AbilityUsesAlphaChannel:
return !NitrogenConfiguration::useCompiz();
#else
case AbilityCompositingShadow:
return !NitrogenConfiguration::useCompiz();
#endif
// no colors supported at this time
default:
return false;
};
}
#if !KDE_IS_VERSION(4,2,92)
//////////////////////////////////////////////////////////////////////////////
// Shadows (kde4.2 version)
//_________________________________________________________________
QList< QList<QImage> > NitrogenFactory::shadowTextures()
{
QList< QList<QImage> > textureLists;
// in compiz mode, no textures are used
if( NitrogenConfiguration::useCompiz() )
{ return textureLists; }
textureLists.append( makeTextures( defaultConfiguration().useOxygenShadows() ? Active:Inactive ) );
textureLists.append( makeTextures( Inactive ) );
return textureLists;
}
//_________________________________________________________________
QList<QImage> NitrogenFactory::makeTextures( NitrogenFactory::Activity state ) const
{
#define shadowFuzzyness 10
#define shadowSize 10
// palette
QPalette palette = qApp->palette();
palette.setCurrentColorGroup(QPalette::Active);
// shadow size
qreal size = 25.5;
// prepare pixmap and painter
QPixmap shadow( size*2, size*2 );
shadow.fill( Qt::transparent );
QPainter p( &shadow );
p.setRenderHint( QPainter::Antialiasing );
p.setPen( Qt::NoPen );
// prepare colors
QColor color = palette.window().color();
QColor light = nitrogenHelper()->calcLightColor(nitrogenHelper()->backgroundTopColor(color));
QColor dark = nitrogenHelper()->calcDarkColor(nitrogenHelper()->backgroundBottomColor(color));
QLinearGradient lg = QLinearGradient(0.0, size-4.5, 0.0, size+4.5);
if( defaultConfiguration().frameBorder() <= NitrogenConfiguration::BorderTiny )
{
lg.setColorAt(0, nitrogenHelper()->backgroundTopColor(color) );
lg.setColorAt(0.52, nitrogenHelper()->backgroundTopColor(color));
lg.setColorAt(1.0, nitrogenHelper()->backgroundBottomColor(color) );
} else {
lg.setColorAt(0.52, light);
lg.setColorAt(1.0, dark);
}
switch( state )
{
case Active:
{
QColor glow = KDecoration::options()->color(ColorFrame);
QColor glow2 = KDecoration::options()->color(ColorTitleBar);
QRadialGradient rg( size, size, size );
QColor c = color;
c.setAlpha( 255 ); rg.setColorAt( 4.4/size, c );
c = glow;
c.setAlpha( 220 ); rg.setColorAt( 4.5/size, c );
c.setAlpha( 180 ); rg.setColorAt( 5/size, c );
c.setAlpha( 25 ); rg.setColorAt( 5.5/size, c );
c.setAlpha( 0 ); rg.setColorAt( 6.5/size, c );
p.setBrush( rg );
p.drawRect( shadow.rect() );
rg = QRadialGradient( size, size, size );
c = color;
c.setAlpha( 255 ); rg.setColorAt( 4.4/size, c );
c = glow2;
c.setAlpha( 0.58*255 ); rg.setColorAt( 4.5/size, c );
c.setAlpha( 0.43*255 ); rg.setColorAt( 5.5/size, c );
c.setAlpha( 0.30*255 ); rg.setColorAt( 6.5/size, c );
c.setAlpha( 0.22*255 ); rg.setColorAt( 7.5/size, c );
c.setAlpha( 0.15*255 ); rg.setColorAt( 8.5/size, c );
c.setAlpha( 0.08*255 ); rg.setColorAt( 11.5/size, c );
c.setAlpha( 0); rg.setColorAt( 14.5/size, c );
p.setBrush( rg );
p.drawRect( shadow.rect() );
// draw the corner of the window - actually all 4 corners as one circle
p.setBrush( Qt::NoBrush );
p.setPen(QPen(lg, 0.8));
p.drawEllipse(QRectF(size-4, size-4, 8, 8));
// cut out the part of the texture that is under the window
p.setCompositionMode( QPainter::CompositionMode_DestinationOut );
p.setBrush( QColor( 0, 0, 0, 255 ));
p.setPen( Qt::NoPen );
p.drawEllipse(QRectF(size-3, size-3, 6, 6));
p.drawRect(QRectF(size-3, size-1, 6, 2));
p.drawRect(QRectF(size-1, size-3, 2, 6));
p.end();
return makeTextures( shadow );
}
case Inactive:
{
//---------------------------------------------------------------
// Inactive shadow texture
QRadialGradient rg( size, size+4, size );
QColor c( Qt::black );
c.setAlpha( 0.12*255 ); rg.setColorAt( 4.5/size, c );
c.setAlpha( 0.11*255 ); rg.setColorAt( 6.6/size, c );
c.setAlpha( 0.075*255 ); rg.setColorAt( 8.5/size, c );
c.setAlpha( 0.06*255 ); rg.setColorAt( 11.5/size, c );
c.setAlpha( 0.035*255 ); rg.setColorAt( 14.5/size, c );
c.setAlpha( 0.025*255 ); rg.setColorAt( 17.5/size, c );
c.setAlpha( 0.01*255 ); rg.setColorAt( 21.5/size, c );
c.setAlpha( 0.0*255 ); rg.setColorAt( 25.5/size, c );
p.setBrush( rg );
p.drawRect( shadow.rect() );
rg = QRadialGradient( size, size+2, size );
c = QColor( Qt::black );
c.setAlpha( 0.25*255 ); rg.setColorAt( 4.5/size, c );
c.setAlpha( 0.20*255 ); rg.setColorAt( 5.5/size, c );
c.setAlpha( 0.13*255 ); rg.setColorAt( 7.5/size, c );
c.setAlpha( 0.06*255 ); rg.setColorAt( 8.5/size, c );
c.setAlpha( 0.015*255 ); rg.setColorAt( 11.5/size, c );
c.setAlpha( 0.0*255 ); rg.setColorAt( 14.5/size, c );
p.setBrush( rg );
p.drawRect( shadow.rect() );
rg = QRadialGradient( size, size+0.2, size );
c = QColor( Qt::black );
c.setAlpha( 0.35*255 ); rg.setColorAt( 0/size, c );
c.setAlpha( 0.32*255 ); rg.setColorAt( 4.5/size, c );
c.setAlpha( 0.22*255 ); rg.setColorAt( 5.0/size, c );
c.setAlpha( 0.03*255 ); rg.setColorAt( 5.5/size, c );
c.setAlpha( 0.0*255 ); rg.setColorAt( 6.5/size, c );
p.setBrush( rg );
p.drawRect( shadow.rect() );
rg = QRadialGradient( size, size, size );
c = color;
c.setAlpha( 255 ); rg.setColorAt( 4.0/size, c );
c.setAlpha( 0 ); rg.setColorAt( 4.01/size, c );
p.setBrush( rg );
p.drawRect( shadow.rect() );
// draw the corner of the window - actually all 4 corners as one circle
p.setBrush( Qt::NoBrush );
p.setPen(QPen(lg, 0.8));
p.drawEllipse(QRectF(size-4, size-4, 8, 8));
// cut out the part of the texture that is under the window
p.setCompositionMode( QPainter::CompositionMode_DestinationOut );
p.setBrush( QColor( 0, 0, 0, 255 ));
p.setPen( Qt::NoPen );
p.drawEllipse(QRectF(size-3, size-3, 6, 6));
p.drawRect(QRectF(size-3, size-1, 6, 2));
p.drawRect(QRectF(size-1, size-3, 2, 6));
p.end();
return makeTextures( shadow );
}
default:
return QList<QImage>();
}
}
//______________________________________________________
QImage NitrogenFactory::makeTexture( const QPixmap& pixmap, const QRect& rect ) const
{
QPixmap dump( rect.size() );
dump.fill( Qt::transparent );
QPainter painter( &dump );
painter.drawPixmap( QPoint(0, 0), pixmap, rect );
painter.end();
return dump.toImage();
}
//___________________________________________________________
QList<QImage> NitrogenFactory::makeTextures( const QPixmap& shadow ) const
{
QList<QImage> textures;
int w = shadow.width() / 2;
int h = shadow.height() / 2;
textures.append( makeTexture( shadow, QRect( 0, h+1, w, h ) ) );
textures.append( makeTexture( shadow, QRect( w, h+1, 1, h ) ) );
textures.append( makeTexture( shadow, QRect( w+1, h+1, w, h ) ) );
textures.append( makeTexture( shadow, QRect( 0, h, w, 1 ) ) );
textures.append( makeTexture( shadow, QRect( w+1, h, w, 1 ) ) );
textures.append( makeTexture( shadow, QRect( 0, 0, w, h ) ) );
textures.append( makeTexture( shadow, QRect( w, 0, 1, h ) ) );
textures.append( makeTexture( shadow, QRect( w+1, 0, w, h ) ) );
return textures;
}
//_________________________________________________________________
int NitrogenFactory::shadowTextureList( ShadowType type ) const
{
switch( type ) {
case ShadowBorderedInactive: return 1;
default: return 0;
}
abort(); // Should never be reached
}
//_________________________________________________________________
QList<QRect> NitrogenFactory::shadowQuads( ShadowType, QSize ) const
{ return QList<QRect>(); }
//____________________________________________________________________
double NitrogenFactory::shadowOpacity( ShadowType ) const
{ return 1.0; }
#endif
//____________________________________________________________________
NitrogenConfiguration NitrogenFactory::configuration( const NitrogenClient& client )
{
QString window_title;
QString class_name;
for( NitrogenExceptionList::const_iterator iter = exceptions_.constBegin(); iter != exceptions_.constEnd(); iter++ )
{
// discard disabled exceptions
if( !iter->enabled() ) continue;
/*
decide which value is to be compared
to the regular expression, based on exception type
*/
QString value;
switch( iter->type() )
{
case NitrogenException::WindowTitle:
{
value = window_title.isEmpty() ? (window_title = client.caption()):window_title;
break;
}
case NitrogenException::WindowClassName:
{
if( class_name.isEmpty() )
{
// retrieve class name
KWindowInfo info( client.windowId(), 0, NET::WM2WindowClass );
QString window_class_name( info.windowClassName() );
QString window_class( info.windowClassClass() );
class_name = window_class_name + " " + window_class;
}
value = class_name;
break;
}
default: assert( false );
}
if( iter->regExp().indexIn( value ) < 0 ) continue;
NitrogenConfiguration configuration( defaultConfiguration() );
// propagate all features found in mask to the output configuration
if( iter->mask() & NitrogenException::FrameBorder ) configuration.setFrameBorder( iter->frameBorder() );
if( iter->mask() & NitrogenException::BlendColor ) configuration.setBlendColor( iter->blendColor() );
if( iter->mask() & NitrogenException::DrawSeparator ) configuration.setDrawSeparator( iter->drawSeparator() );
if( iter->mask() & NitrogenException::ShowStripes ) configuration.setShowStripes( iter->showStripes() );
if( iter->mask() & NitrogenException::OverwriteColors ) configuration.setOverwriteColors( iter->overwriteColors() );
if( iter->mask() & NitrogenException::DrawSizeGrip ) configuration.setDrawSizeGrip( iter->drawSizeGrip() );
return configuration;
}
return defaultConfiguration();
}
} //namespace Nitrogen