diff --git a/kstyle/breezeshadowhelper.cpp b/kstyle/breezeshadowhelper.cpp
index 7dedeeef..218897bf 100644
--- a/kstyle/breezeshadowhelper.cpp
+++ b/kstyle/breezeshadowhelper.cpp
@@ -1,597 +1,596 @@
 /*************************************************************************
  * Copyright (C) 2014 by Hugo Pereira Da Costa <hugo.pereira@free.fr>    *
  *                                                                       *
  * 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 .        *
  *************************************************************************/
 
 #include "breezeshadowhelper.h"
 
 #include "breeze.h"
 #include "breezehelper.h"
 #include "breezepropertynames.h"
 #include "breezestyleconfigdata.h"
 
 #include <QDockWidget>
 #include <QEvent>
 #include <QApplication>
 #include <QMenu>
 #include <QPainter>
 #include <QPixmap>
 #include <QToolBar>
 #include <QTextStream>
 
 #if BREEZE_HAVE_X11
 #include <QX11Info>
 #endif
 
 #if BREEZE_HAVE_KWAYLAND
 #include <KWayland/Client/buffer.h>
 #include <KWayland/Client/connection_thread.h>
 #include <KWayland/Client/registry.h>
 #include <KWayland/Client/shadow.h>
 #include <KWayland/Client/shm_pool.h>
 #include <KWayland/Client/surface.h>
 #endif
 
 namespace Breeze
 {
 
     const char ShadowHelper::netWMShadowAtomName[] ="_KDE_NET_WM_SHADOW";
 
     //_____________________________________________________
     int ShadowHelper::shadowSize( int shadowSizeEnum )
     {
 
         switch( shadowSizeEnum )
         {
             default:
             case Breeze::StyleConfigData::ShadowLarge: return 16;
             case Breeze::StyleConfigData::ShadowNone: return 0;
             case Breeze::StyleConfigData::ShadowSmall: return 12;
             case Breeze::StyleConfigData::ShadowMedium: return 14;
             case Breeze::StyleConfigData::ShadowVeryLarge: return 24;
         }
 
     }
 
 
     //_____________________________________________________
     ShadowHelper::ShadowHelper( QObject* parent, Helper& helper ):
         QObject( parent ),
         _helper( helper )
         #if BREEZE_HAVE_X11
         ,_gc( 0 ),
         _atom( 0 )
         #endif
         #if BREEZE_HAVE_KWAYLAND
         , _shadowManager( nullptr )
         , _shmPool( nullptr )
         #endif
     {
         // delay till event dispatcher is running as Wayland is highly async
         QMetaObject::invokeMethod(this, "initializeWayland", Qt::QueuedConnection);
     }
 
     //_______________________________________________________
     ShadowHelper::~ShadowHelper()
     {
 
         #if BREEZE_HAVE_X11
         if( Helper::isX11() )
         { foreach( const quint32& value, _pixmaps  ) xcb_free_pixmap( Helper::connection(), value ); }
         #endif
 
     }
 
     //_______________________________________________________
     void ShadowHelper::initializeWayland()
     {
         #if BREEZE_HAVE_KWAYLAND
         if( !Helper::isWayland() ) return;
 
         using namespace KWayland::Client;
         auto connection = ConnectionThread::fromApplication( this );
         if( !connection ) {
             return;
         }
         auto registry = new Registry( connection );
         registry->create( connection );
         connect(registry, &Registry::interfacesAnnounced, this,
             [registry, this] {
                 const auto interface = registry->interface( Registry::Interface::Shadow );
                 if( interface.name != 0 ) {
                     _shadowManager = registry->createShadowManager( interface.name, interface.version, registry );
                 }
                 const auto shmInterface = registry->interface( Registry::Interface::Shm );
                 if( shmInterface.name != 0 ) {
                     _shmPool = registry->createShmPool( shmInterface.name, shmInterface.version, registry );
                 }
             }
         );
 
         registry->setup();
         connection->roundtrip();
         #endif
     }
 
     //______________________________________________
     void ShadowHelper::reset()
     {
         #if BREEZE_HAVE_X11
         if( Helper::isX11() )
         { foreach( const quint32& value, _pixmaps  ) xcb_free_pixmap( Helper::connection(), value ); }
         #endif
 
         _pixmaps.clear();
         _shadowTiles = TileSet();
 
     }
 
     //_______________________________________________________
     bool ShadowHelper::registerWidget( QWidget* widget, bool force )
     {
         // make sure widget is not already registered
         if( _widgets.contains( widget ) ) return false;
 
         // check if widget qualifies
         if( !( force || acceptWidget( widget ) ) )
         { return false; }
 
         // try create shadow directly
         if( installShadows( widget ) ) _widgets.insert( widget, widget->winId() );
         else _widgets.insert( widget, 0 );
 
         // install event filter
         widget->removeEventFilter( this );
         widget->installEventFilter( this );
 
         // connect destroy signal
         connect( widget, SIGNAL(destroyed(QObject*)), SLOT(objectDeleted(QObject*)) );
 
         return true;
 
     }
 
     //_______________________________________________________
     void ShadowHelper::unregisterWidget( QWidget* widget )
     {
         if( _widgets.remove( widget ) )
         { uninstallShadows( widget ); }
     }
 
     //_______________________________________________________
     void ShadowHelper::loadConfig()
     {
 
         // reset
         reset();
 
+        // create shadow tiles
+        shadowTiles();
+
         // update property for registered widgets
         for( QMap<QWidget*,WId>::const_iterator iter = _widgets.constBegin(); iter != _widgets.constEnd(); ++iter )
         { installShadows( iter.key() ); }
 
     }
 
     //_______________________________________________________
     bool ShadowHelper::eventFilter( QObject* object, QEvent* event )
     {
         if( Helper::isWayland() )
         {
 
             #if BREEZE_HAVE_KWAYLAND
             QWidget* widget( static_cast<QWidget*>( object ) );
             if( event->type() == QEvent::Paint )
             {
 
                 auto iter = _widgetSurfaces.constFind( widget );
                 if( iter == _widgetSurfaces.constEnd() )
                 {
                     // install shadows and update winId
                     installShadows( widget );
                 }
 
             } else if( event->type() == QEvent::Hide ) {
 
                 auto iter = _widgetSurfaces.find( widget );
                 if( iter != _widgetSurfaces.end() )
                 {
                     _widgetSurfaces.erase( iter );
                 }
 
             }
             #endif
 
         } else if( Helper::isX11() ) {
 
             // check event type
             if( event->type() != QEvent::WinIdChange ) return false;
 
             // cast widget
             QWidget* widget( static_cast<QWidget*>( object ) );
 
             // install shadows and update winId
             if( installShadows( widget ) )
             { _widgets.insert( widget, widget->winId() ); }
         }
 
         return false;
 
     }
 
     //_______________________________________________________
     TileSet ShadowHelper::shadowTiles()
     {
         // metrics
         const int shadowSize = this->shadowSize( StyleConfigData::shadowSize() );
         if( !shadowSize ) return TileSet();
         else if( !_shadowTiles.isValid() )
         {
 
             const QPalette palette( QApplication::palette() );
             const QColor shadowColor( StyleConfigData::shadowColor() );
             const int shadowOffset = qMax( shadowSize/2, Metrics::Shadow_Overlap*2 );
             const int shadowStrength = StyleConfigData::shadowStrength();
 
             // pixmap
             QPixmap pixmap = _helper.highDpiPixmap( shadowSize*2 );
             pixmap.fill( Qt::transparent );
 
             // create gradient
             // gaussian delta function
             auto alpha = [](qreal x) { return std::exp( -x*x/0.15 ); };
 
             // color calculation delta function
             auto gradientStopColor = [](QColor color, int alpha)
             {
                 color.setAlpha(alpha);
                 return color;
             };
 
             QRadialGradient radialGradient( shadowSize, shadowSize, shadowSize);
             for( int i = 0; i < 10; ++i )
             {
                 const qreal x( qreal( i )/9 );
                 radialGradient.setColorAt(x,  gradientStopColor(shadowColor, alpha(x)*shadowStrength));
             }
 
             radialGradient.setColorAt(1, gradientStopColor( shadowColor, 0 ) );
 
             // fill
             QPainter p(&pixmap);
             p.setRenderHint( QPainter::Antialiasing, true );
             p.fillRect( pixmap.rect(), radialGradient);
 
             p.setPen( Qt::NoPen );
             p.setBrush( Qt::black );
 
             QRectF innerRect(
                 shadowSize - Metrics::Shadow_Overlap, shadowSize - shadowOffset - Metrics::Shadow_Overlap,
                 2*Metrics::Shadow_Overlap,shadowOffset + 2*Metrics::Shadow_Overlap );
 
             p.setCompositionMode(QPainter::CompositionMode_DestinationOut );
 
             const qreal radius( _helper.frameRadius() );
             p.drawRoundedRect( innerRect, radius, radius );
             p.end();
 
             // create tiles from pixmap
             _shadowTiles = TileSet( pixmap,
                 shadowSize,
                 shadowSize,
                 1, 1 );
 
         }
 
         return _shadowTiles;
 
     }
 
 
     //_______________________________________________________
     void ShadowHelper::objectDeleted( QObject* object )
     { _widgets.remove( static_cast<QWidget*>( object ) ); }
 
     //_______________________________________________________
     bool ShadowHelper::isMenu( QWidget* widget ) const
     { return qobject_cast<QMenu*>( widget ); }
 
     //_______________________________________________________
     bool ShadowHelper::isToolTip( QWidget* widget ) const
     { return widget->inherits( "QTipLabel" ) || (widget->windowFlags() & Qt::WindowType_Mask) == Qt::ToolTip; }
 
     //_______________________________________________________
     bool ShadowHelper::isDockWidget( QWidget* widget ) const
     { return qobject_cast<QDockWidget*>( widget ); }
 
     //_______________________________________________________
     bool ShadowHelper::isToolBar( QWidget* widget ) const
     { return qobject_cast<QToolBar*>( widget ); }
 
     //_______________________________________________________
     bool ShadowHelper::acceptWidget( QWidget* widget ) const
     {
 
         // flags
         if( widget->property( PropertyNames::netWMSkipShadow ).toBool() ) return false;
         if( widget->property( PropertyNames::netWMForceShadow ).toBool() ) return true;
 
         // menus
         if( isMenu( widget ) ) return true;
 
         // combobox dropdown lists
         if( widget->inherits( "QComboBoxPrivateContainer" ) ) return true;
 
         // tooltips
         if( isToolTip( widget ) && !widget->inherits( "Plasma::ToolTip" ) )
         { return true; }
 
         // detached widgets
         if( isDockWidget( widget ) || isToolBar( widget ) )
         { return true; }
 
         // reject
         return false;
     }
 
     //______________________________________________
     const QVector<quint32>& ShadowHelper::createPixmapHandles()
     {
 
         /**
         shadow atom and property specification available at
         http://community.kde.org/KWin/Shadow
         */
 
         // create atom
         #if BREEZE_HAVE_X11
         if( !_atom && Helper::isX11() ) _atom = _helper.createAtom( QLatin1String( netWMShadowAtomName ) );
         #endif
 
-        shadowTiles();
-
         // make sure size is valid
-        if( _pixmaps.empty() && _shadowTiles.isValid() )
+        if( _pixmaps.empty() )
         {
 
             _pixmaps.append( createPixmap( _shadowTiles.pixmap( 1 ) ) );
             _pixmaps.append( createPixmap( _shadowTiles.pixmap( 2 ) ) );
             _pixmaps.append( createPixmap( _shadowTiles.pixmap( 5 ) ) );
             _pixmaps.append( createPixmap( _shadowTiles.pixmap( 8 ) ) );
             _pixmaps.append( createPixmap( _shadowTiles.pixmap( 7 ) ) );
             _pixmaps.append( createPixmap( _shadowTiles.pixmap( 6 ) ) );
             _pixmaps.append( createPixmap( _shadowTiles.pixmap( 3 ) ) );
             _pixmaps.append( createPixmap( _shadowTiles.pixmap( 0 ) ) );
 
         }
 
         // return relevant list of pixmap handles
         return _pixmaps;
 
     }
 
     //______________________________________________
     quint32 ShadowHelper::createPixmap( const QPixmap& source )
     {
 
         // do nothing for invalid pixmaps
         if( source.isNull() ) return 0;
         if( !Helper::isX11() ) return 0;
 
         /*
         in some cases, pixmap handle is invalid. This is the case notably
         when Qt uses to RasterEngine. In this case, we create an X11 Pixmap
         explicitly and draw the source pixmap on it.
         */
 
         #if BREEZE_HAVE_X11
 
         const int width( source.width() );
         const int height( source.height() );
 
         // create X11 pixmap
         xcb_pixmap_t pixmap = xcb_generate_id( Helper::connection() );
         xcb_create_pixmap( Helper::connection(), 32, pixmap, QX11Info::appRootWindow(), width, height );
 
         // create gc
         if( !_gc )
         {
             _gc = xcb_generate_id( Helper::connection() );
             xcb_create_gc( Helper::connection(), _gc, pixmap, 0, nullptr );
         }
 
         // create image from QPixmap and assign to pixmap
         QImage image( source.toImage() );
         xcb_put_image( Helper::connection(), XCB_IMAGE_FORMAT_Z_PIXMAP, pixmap, _gc, image.width(), image.height(), 0, 0, 0, 32, image.byteCount(), image.constBits());
 
         return pixmap;
 
         #else
         return 0;
         #endif
 
     }
 
     //_______________________________________________________
     bool ShadowHelper::installShadows( QWidget* widget )
     {
-        if( !widget ) return false;
+        if( !widget || !_shadowTiles.isValid() ) return false;
 
         /*
         From bespin code. Supposibly prevent playing with some 'pseudo-widgets'
         that have winId matching some other -random- window
         */
         if( !(widget->testAttribute(Qt::WA_WState_Created) && widget->internalWinId() ))
         { return false; }
 
         if( Helper::isX11() ) return installX11Shadows( widget );
         if( Helper::isWayland() ) return installWaylandShadows( widget );
 
         return false;
     }
 
     //_______________________________________________________
     bool ShadowHelper::installX11Shadows( QWidget* widget )
     {
         #if BREEZE_HAVE_X11
         #ifndef QT_NO_XRENDER
 
         // create pixmap handles if needed
         const QVector<quint32>& pixmaps( createPixmapHandles() );
         if( pixmaps.size() != numPixmaps ) return false;
 
         // create data
         // add pixmap handles
         QVector<quint32> data;
         foreach( const quint32& value, pixmaps )
         { data.append( value ); }
 
         const QMargins margins = shadowMargins( widget );
         const int topSize = margins.top();
         const int bottomSize = margins.bottom();
         const int leftSize( margins.left() );
         const int rightSize( margins.right() );
 
         // assign to data and xcb property
         data << topSize << rightSize << bottomSize << leftSize;
         xcb_change_property( Helper::connection(), XCB_PROP_MODE_REPLACE, widget->winId(), _atom, XCB_ATOM_CARDINAL, 32, data.size(), data.constData() );
         xcb_flush( Helper::connection() );
 
         return true;
 
         #endif
         #endif
 
         return false;
 
     }
 
     //_______________________________________________________
     bool ShadowHelper::installWaylandShadows( QWidget* widget )
     {
         #if BREEZE_HAVE_KWAYLAND
         if( widget->windowHandle()->parent() ) return false;
         if( !_shadowManager || !_shmPool ) return false;
 
-        if( !_shadowTiles.isValid() ) return false;
-
         // create shadow
         using namespace KWayland::Client;
         auto s = Surface::fromWindow( widget->windowHandle() );
         if( !s ) return false;
 
         auto shadow = _shadowManager->createShadow( s, widget );
         if( !shadow->isValid() ) return false;
 
         // add the shadow elements
         shadow->attachTop( _shmPool->createBuffer( _shadowTiles.pixmap( 1 ).toImage() ) );
         shadow->attachTopRight( _shmPool->createBuffer( _shadowTiles.pixmap( 2 ).toImage() ) );
         shadow->attachRight( _shmPool->createBuffer( _shadowTiles.pixmap( 5 ).toImage() ) );
         shadow->attachBottomRight( _shmPool->createBuffer( _shadowTiles.pixmap( 8 ).toImage() ) );
         shadow->attachBottom( _shmPool->createBuffer( _shadowTiles.pixmap( 7 ).toImage() ) );
         shadow->attachBottomLeft( _shmPool->createBuffer( _shadowTiles.pixmap( 6 ).toImage() ) );
         shadow->attachLeft( _shmPool->createBuffer( _shadowTiles.pixmap( 3 ).toImage() ) );
         shadow->attachTopLeft( _shmPool->createBuffer( _shadowTiles.pixmap( 0 ).toImage() ) );
 
         shadow->setOffsets( shadowMargins( widget ) );
         shadow->commit();
         s->commit( Surface::CommitFlag::None );
         _widgetSurfaces.insert(widget, s);
 
         return true;
         #else
         Q_UNUSED( widget );
         #endif
 
         return false;
     }
 
     //_______________________________________________________
     QMargins ShadowHelper::shadowMargins( QWidget* widget ) const
     {
         // get devicePixelRatio
         // for testing purposes only
         const qreal devicePixelRatio( _helper.devicePixelRatio( _shadowTiles.pixmap( 0 ) ) );
 
         // metrics
         const int shadowSize = this->shadowSize( StyleConfigData::shadowSize() );
         if( !shadowSize ) return QMargins();
         const int shadowOffset = qMax( shadowSize/2, Metrics::Shadow_Overlap*2 );
 
         // define shadows padding
         int size( shadowSize - Metrics::Shadow_Overlap );
         int topSize = ( size - shadowOffset ) * devicePixelRatio;
         int bottomSize = size * devicePixelRatio;
         const int leftSize( size * devicePixelRatio );
         const int rightSize( size * devicePixelRatio );
 
         if( widget->inherits( "QBalloonTip" ) )
         {
 
             // balloon tip needs special margins to deal with the arrow
             int top = 0;
             int bottom = 0;
             widget->getContentsMargins( nullptr, &top, nullptr, &bottom );
 
             // also need to decrement default size further due to extra hard coded round corner
             size -= 2 * devicePixelRatio;
 
             // it seems arrow can be either to the top or the bottom. Adjust margins accordingly
             if( top > bottom ) topSize -= (top - bottom);
             else bottomSize -= (bottom - top );
 
         }
 
         return QMargins( leftSize, topSize, rightSize, bottomSize );
     }
 
     //_______________________________________________________
     void ShadowHelper::uninstallShadows( QWidget* widget ) const
     {
         if( !( widget && widget->testAttribute(Qt::WA_WState_Created) ) ) return;
         if( Helper::isX11() ) uninstallX11Shadows( widget );
         if( Helper::isWayland() ) uninstallWaylandShadows( widget );
     }
 
     //_______________________________________________________
     void ShadowHelper::uninstallX11Shadows( QWidget* widget ) const
     {
         #if BREEZE_HAVE_X11
         xcb_delete_property( Helper::connection(), widget->winId(), _atom);
         #else
         Q_UNUSED( widget )
         #endif
 
     }
 
     //_______________________________________________________
     void ShadowHelper::uninstallWaylandShadows( QWidget* widget ) const
     {
         #if BREEZE_HAVE_KWAYLAND
         if( widget->windowHandle() && widget->windowHandle()->parent() ) return;
         if( !_shadowManager ) return;
 
         using namespace KWayland::Client;
         auto s = Surface::fromWindow( widget->windowHandle() );
         if( !s ) return;
 
         _shadowManager->removeShadow( s );
         s->commit( Surface::CommitFlag::None );
         #else
         Q_UNUSED( widget )
         #endif
     }
 
 }