/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "stylesettings.hxx" #include #include "helper/accessibilityclient.hxx" #include "helper/unopropertyarrayhelper.hxx" using namespace ::com::sun::star; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::UNO_QUERY; using ::com::sun::star::uno::RuntimeException; using ::com::sun::star::lang::EventObject; using ::com::sun::star::awt::XWindowListener2; using ::com::sun::star::awt::XDockableWindowListener; using ::com::sun::star::awt::XDevice; using ::com::sun::star::awt::XStyleSettings; using ::com::sun::star::lang::DisposedException; using ::com::sun::star::style::VerticalAlignment; using ::com::sun::star::style::VerticalAlignment_TOP; using ::com::sun::star::style::VerticalAlignment_MIDDLE; using ::com::sun::star::style::VerticalAlignment_BOTTOM; using ::com::sun::star::style::VerticalAlignment_MAKE_FIXED_SIZE; namespace WritingMode2 = ::com::sun::star::text::WritingMode2; //= VCLXWindowImpl class VCLXWindowImpl { private: typedef ::std::vector< VCLXWindow::Callback > CallbackArray; private: VCLXWindow& mrAntiImpl; ::toolkit::AccessibilityClient maAccFactory; bool mbDisposed; bool mbDrawingOntoParent; // no bit mask, is passed around by reference bool mbEnableVisible; bool mbDirectVisible; ::osl::Mutex maListenerContainerMutex; ::comphelper::OInterfaceContainerHelper2 maWindow2Listeners; ::comphelper::OInterfaceContainerHelper2 maDockableWindowListeners; EventListenerMultiplexer maEventListeners; FocusListenerMultiplexer maFocusListeners; WindowListenerMultiplexer maWindowListeners; KeyListenerMultiplexer maKeyListeners; MouseListenerMultiplexer maMouseListeners; MouseMotionListenerMultiplexer maMouseMotionListeners; PaintListenerMultiplexer maPaintListeners; VclContainerListenerMultiplexer maContainerListeners; TopWindowListenerMultiplexer maTopWindowListeners; CallbackArray maCallbackEvents; ImplSVEvent * mnCallbackEventId; public: bool mbDisposing : 1; bool mbDesignMode : 1; bool mbSynthesizingVCLEvent : 1; bool mbWithDefaultProps : 1; sal_uLong mnListenerLockLevel; sal_Int16 mnWritingMode; sal_Int16 mnContextWritingMode; std::unique_ptr mpPropHelper; css::uno::Reference< css::awt::XPointer > mxPointer; css::uno::Reference< css::accessibility::XAccessibleContext > mxAccessibleContext; css::uno::Reference< css::awt::XGraphics > mxViewGraphics; css::uno::Reference< css::awt::XStyleSettings > mxWindowStyleSettings; public: bool& getDrawingOntoParent_ref() { return mbDrawingOntoParent; } public: /** ctor @param _pAntiImpl the VCLXWindow instance which the object belongs to. Must live longer then the object just being constructed. */ VCLXWindowImpl( VCLXWindow& _rAntiImpl, bool _bWithDefaultProps ); VCLXWindowImpl( const VCLXWindowImpl& ) = delete; const VCLXWindowImpl& operator=(const VCLXWindowImpl&) = delete; /** synchronously mbEnableVisible */ void setEnableVisible( bool bEnableVisible ) { mbEnableVisible = bEnableVisible; } bool isEnableVisible() { return mbEnableVisible; } /** synchronously mbDirectVisible; */ void setDirectVisible( bool bDirectVisible ) { mbDirectVisible = bDirectVisible; } bool isDirectVisible() { return mbDirectVisible; } /** impl-version of VCLXWindow::ImplExecuteAsyncWithoutSolarLock */ void callBackAsync( const VCLXWindow::Callback& i_callback ); /** notifies the object that its VCLXWindow is being disposed */ void disposing(); inline ::toolkit::AccessibilityClient& getAccessibleFactory() { return maAccFactory; } Reference< XStyleSettings > getStyleSettings(); /** returns the container of registered XWindowListener2 listeners */ inline ::comphelper::OInterfaceContainerHelper2& getWindow2Listeners() { return maWindow2Listeners; } inline ::comphelper::OInterfaceContainerHelper2& getDockableWindowListeners(){ return maDockableWindowListeners; } inline EventListenerMultiplexer& getEventListeners() { return maEventListeners; } inline FocusListenerMultiplexer& getFocusListeners() { return maFocusListeners; } inline WindowListenerMultiplexer& getWindowListeners() { return maWindowListeners; } inline KeyListenerMultiplexer& getKeyListeners() { return maKeyListeners; } inline MouseListenerMultiplexer& getMouseListeners() { return maMouseListeners; } inline MouseMotionListenerMultiplexer& getMouseMotionListeners() { return maMouseMotionListeners; } inline PaintListenerMultiplexer& getPaintListeners() { return maPaintListeners; } inline VclContainerListenerMultiplexer& getContainerListeners() { return maContainerListeners; } inline TopWindowListenerMultiplexer& getTopWindowListeners() { return maTopWindowListeners; } private: DECL_LINK( OnProcessCallbacks, void*, void ); }; VCLXWindowImpl::VCLXWindowImpl( VCLXWindow& _rAntiImpl, bool _bWithDefaultProps ) :mrAntiImpl( _rAntiImpl ) ,mbDisposed( false ) ,mbDrawingOntoParent( false ) ,mbEnableVisible(true) ,mbDirectVisible(true) ,maListenerContainerMutex( ) ,maWindow2Listeners( maListenerContainerMutex ) ,maDockableWindowListeners( maListenerContainerMutex ) ,maEventListeners( _rAntiImpl ) ,maFocusListeners( _rAntiImpl ) ,maWindowListeners( _rAntiImpl ) ,maKeyListeners( _rAntiImpl ) ,maMouseListeners( _rAntiImpl ) ,maMouseMotionListeners( _rAntiImpl ) ,maPaintListeners( _rAntiImpl ) ,maContainerListeners( _rAntiImpl ) ,maTopWindowListeners( _rAntiImpl ) ,mnCallbackEventId( nullptr ) ,mbDisposing( false ) ,mbDesignMode( false ) ,mbSynthesizingVCLEvent( false ) ,mbWithDefaultProps( _bWithDefaultProps ) ,mnListenerLockLevel( 0 ) ,mnWritingMode( WritingMode2::CONTEXT ) ,mnContextWritingMode( WritingMode2::CONTEXT ) ,mpPropHelper( nullptr ) { } void VCLXWindowImpl::disposing() { SolarMutexGuard aGuard; if ( mnCallbackEventId ) Application::RemoveUserEvent( mnCallbackEventId ); mnCallbackEventId = nullptr; mbDisposed= true; css::lang::EventObject aEvent; aEvent.Source = mrAntiImpl; maDockableWindowListeners.disposeAndClear( aEvent ); maEventListeners.disposeAndClear( aEvent ); maFocusListeners.disposeAndClear( aEvent ); maWindowListeners.disposeAndClear( aEvent ); maKeyListeners.disposeAndClear( aEvent ); maMouseListeners.disposeAndClear( aEvent ); maMouseMotionListeners.disposeAndClear( aEvent ); maPaintListeners.disposeAndClear( aEvent ); maContainerListeners.disposeAndClear( aEvent ); maTopWindowListeners.disposeAndClear( aEvent ); ::toolkit::WindowStyleSettings* pStyleSettings = static_cast< ::toolkit::WindowStyleSettings* >( mxWindowStyleSettings.get() ); if ( pStyleSettings != nullptr ) pStyleSettings->dispose(); mxWindowStyleSettings.clear(); } void VCLXWindowImpl::callBackAsync( const VCLXWindow::Callback& i_callback ) { DBG_TESTSOLARMUTEX(); maCallbackEvents.push_back( i_callback ); if ( !mnCallbackEventId ) { // ensure our VCLXWindow is not destroyed while the event is underway mrAntiImpl.acquire(); mnCallbackEventId = Application::PostUserEvent( LINK( this, VCLXWindowImpl, OnProcessCallbacks ) ); } } IMPL_LINK_NOARG(VCLXWindowImpl, OnProcessCallbacks, void*, void) { const Reference< uno::XInterface > xKeepAlive( mrAntiImpl ); // work on a copy of the callback array CallbackArray aCallbacksCopy; { SolarMutexGuard aGuard; aCallbacksCopy = maCallbackEvents; maCallbackEvents.clear(); // we acquired our VCLXWindow once before posting the event, release this one ref now mrAntiImpl.release(); if ( !mnCallbackEventId ) // we were disposed while waiting for the mutex to lock return; mnCallbackEventId = nullptr; } { SolarMutexReleaser aReleaseSolar; for ( CallbackArray::const_iterator loop = aCallbacksCopy.begin(); loop != aCallbacksCopy.end(); ++loop ) { (*loop)(); } } } Reference< XStyleSettings > VCLXWindowImpl::getStyleSettings() { SolarMutexGuard aGuard; if ( mbDisposed ) throw DisposedException( OUString(), mrAntiImpl ); if ( !mxWindowStyleSettings.is() ) mxWindowStyleSettings = new ::toolkit::WindowStyleSettings( maListenerContainerMutex, mrAntiImpl ); return mxWindowStyleSettings; } // Uses an out-parameter instead of return value, due to the object reference void ImplInitWindowEvent( css::awt::WindowEvent& rEvent, vcl::Window* pWindow ) { Point aPos = pWindow->GetPosPixel(); Size aSz = pWindow->GetSizePixel(); rEvent.X = aPos.X(); rEvent.Y = aPos.Y(); rEvent.Width = aSz.Width(); rEvent.Height = aSz.Height(); pWindow->GetBorder( rEvent.LeftInset, rEvent.TopInset, rEvent.RightInset, rEvent.BottomInset ); } VCLXWindow::VCLXWindow( bool _bWithDefaultProps ) :mpImpl( nullptr ) { mpImpl = new VCLXWindowImpl( *this, _bWithDefaultProps ); } VCLXWindow::~VCLXWindow() { delete mpImpl; if ( GetWindow() ) { GetWindow()->RemoveEventListener( LINK( this, VCLXWindow, WindowEventListener ) ); GetWindow()->SetWindowPeer( nullptr, nullptr ); GetWindow()->SetAccessible( nullptr ); } } void VCLXWindow::ImplExecuteAsyncWithoutSolarLock( const Callback& i_callback ) { mpImpl->callBackAsync( i_callback ); } ::toolkit::IAccessibleFactory& VCLXWindow::getAccessibleFactory() { return mpImpl->getAccessibleFactory().getFactory(); } void VCLXWindow::SetWindow( const VclPtr &pWindow ) { if ( GetWindow() ) { GetWindow()->RemoveEventListener( LINK( this, VCLXWindow, WindowEventListener ) ); // GetWindow()->DbgAssertNoEventListeners(); } SetOutputDevice( pWindow ); if ( GetWindow() ) { GetWindow()->AddEventListener( LINK( this, VCLXWindow, WindowEventListener ) ); bool bDirectVisible = pWindow && pWindow->IsVisible(); mpImpl->setDirectVisible( bDirectVisible ); } } void VCLXWindow::suspendVclEventListening( ) { ++mpImpl->mnListenerLockLevel; } void VCLXWindow::resumeVclEventListening( ) { DBG_ASSERT( mpImpl->mnListenerLockLevel, "VCLXWindow::resumeVclEventListening: not suspended!" ); --mpImpl->mnListenerLockLevel; } void VCLXWindow::notifyWindowRemoved( vcl::Window& _rWindow ) { if ( mpImpl->getContainerListeners().getLength() ) { awt::VclContainerEvent aEvent; aEvent.Source = *this; aEvent.Child = static_cast< XWindow* >( _rWindow.GetWindowPeer() ); mpImpl->getContainerListeners().windowRemoved( aEvent ); } } IMPL_LINK( VCLXWindow, WindowEventListener, VclWindowEvent&, rEvent, void ) { if ( mpImpl->mnListenerLockLevel ) return; DBG_ASSERT( rEvent.GetWindow() && GetWindow(), "Window???" ); ProcessWindowEvent( rEvent ); } namespace { struct CallWindow2Listener { CallWindow2Listener( ::comphelper::OInterfaceContainerHelper2& i_rWindow2Listeners, const bool i_bEnabled, const EventObject& i_rEvent ) :m_rWindow2Listeners( i_rWindow2Listeners ) ,m_bEnabled( i_bEnabled ) ,m_aEvent( i_rEvent ) { } void operator()() { m_rWindow2Listeners.notifyEach( m_bEnabled ? &XWindowListener2::windowEnabled : &XWindowListener2::windowDisabled, m_aEvent ); } ::comphelper::OInterfaceContainerHelper2& m_rWindow2Listeners; const bool m_bEnabled; const EventObject m_aEvent; }; } void VCLXWindow::ProcessWindowEvent( const VclWindowEvent& rVclWindowEvent ) { css::uno::Reference< css::uno::XInterface > xThis( static_cast(this) ); switch ( rVclWindowEvent.GetId() ) { case VclEventId::WindowEnabled: case VclEventId::WindowDisabled: { Callback aCallback = CallWindow2Listener( mpImpl->getWindow2Listeners(), ( VclEventId::WindowEnabled == rVclWindowEvent.GetId() ), EventObject( *this ) ); ImplExecuteAsyncWithoutSolarLock( aCallback ); } break; case VclEventId::WindowPaint: { if ( mpImpl->getPaintListeners().getLength() ) { css::awt::PaintEvent aEvent; aEvent.Source = static_cast(this); aEvent.UpdateRect = AWTRectangle( *static_cast(rVclWindowEvent.GetData()) ); aEvent.Count = 0; mpImpl->getPaintListeners().windowPaint( aEvent ); } } break; case VclEventId::WindowMove: { if ( mpImpl->getWindowListeners().getLength() ) { css::awt::WindowEvent aEvent; aEvent.Source = static_cast(this); ImplInitWindowEvent( aEvent, rVclWindowEvent.GetWindow() ); mpImpl->getWindowListeners().windowMoved( aEvent ); } } break; case VclEventId::WindowResize: { if ( mpImpl->getWindowListeners().getLength() ) { css::awt::WindowEvent aEvent; aEvent.Source = static_cast(this); ImplInitWindowEvent( aEvent, rVclWindowEvent.GetWindow() ); mpImpl->getWindowListeners().windowResized( aEvent ); } } break; case VclEventId::WindowShow: { if ( mpImpl->getWindowListeners().getLength() ) { css::awt::WindowEvent aEvent; aEvent.Source = static_cast(this); ImplInitWindowEvent( aEvent, rVclWindowEvent.GetWindow() ); mpImpl->getWindowListeners().windowShown( aEvent ); } // For TopWindows this means opened... if ( mpImpl->getTopWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getTopWindowListeners().windowOpened( aEvent ); } } break; case VclEventId::WindowHide: { if ( mpImpl->getWindowListeners().getLength() ) { css::awt::WindowEvent aEvent; aEvent.Source = static_cast(this); ImplInitWindowEvent( aEvent, rVclWindowEvent.GetWindow() ); mpImpl->getWindowListeners().windowHidden( aEvent ); } // For TopWindows this means closed... if ( mpImpl->getTopWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getTopWindowListeners().windowClosed( aEvent ); } } break; case VclEventId::WindowActivate: { if ( mpImpl->getTopWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getTopWindowListeners().windowActivated( aEvent ); } } break; case VclEventId::WindowDeactivate: { if ( mpImpl->getTopWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getTopWindowListeners().windowDeactivated( aEvent ); } } break; case VclEventId::WindowClose: { if ( mpImpl->getDockableWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getDockableWindowListeners().notifyEach( &XDockableWindowListener::closed, aEvent ); } if ( mpImpl->getTopWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getTopWindowListeners().windowClosing( aEvent ); } } break; case VclEventId::ControlGetFocus: case VclEventId::WindowGetFocus: { if ( ( rVclWindowEvent.GetWindow()->IsCompoundControl() && rVclWindowEvent.GetId() == VclEventId::ControlGetFocus ) || ( !rVclWindowEvent.GetWindow()->IsCompoundControl() && rVclWindowEvent.GetId() == VclEventId::WindowGetFocus ) ) { if ( mpImpl->getFocusListeners().getLength() ) { css::awt::FocusEvent aEvent; aEvent.Source = static_cast(this); aEvent.FocusFlags = static_cast(rVclWindowEvent.GetWindow()->GetGetFocusFlags()); aEvent.Temporary = false; mpImpl->getFocusListeners().focusGained( aEvent ); } } } break; case VclEventId::ControlLoseFocus: case VclEventId::WindowLoseFocus: { if ( ( rVclWindowEvent.GetWindow()->IsCompoundControl() && rVclWindowEvent.GetId() == VclEventId::ControlLoseFocus ) || ( !rVclWindowEvent.GetWindow()->IsCompoundControl() && rVclWindowEvent.GetId() == VclEventId::WindowLoseFocus ) ) { if ( mpImpl->getFocusListeners().getLength() ) { css::awt::FocusEvent aEvent; aEvent.Source = static_cast(this); aEvent.FocusFlags = static_cast(rVclWindowEvent.GetWindow()->GetGetFocusFlags()); aEvent.Temporary = false; vcl::Window* pNext = Application::GetFocusWindow(); if ( pNext ) { // Don't care about internals if this control is compound vcl::Window* pNextC = pNext; while ( pNextC && !pNextC->IsCompoundControl() ) pNextC = pNextC->GetParent(); if ( pNextC ) pNext = pNextC; pNext->GetComponentInterface(); aEvent.NextFocus = static_cast(pNext->GetWindowPeer()); } mpImpl->getFocusListeners().focusLost( aEvent ); } } } break; case VclEventId::WindowMinimize: { if ( mpImpl->getTopWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getTopWindowListeners().windowMinimized( aEvent ); } } break; case VclEventId::WindowNormalize: { if ( mpImpl->getTopWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getTopWindowListeners().windowNormalized( aEvent ); } } break; case VclEventId::WindowKeyInput: { if ( mpImpl->getKeyListeners().getLength() ) { css::awt::KeyEvent aEvent( VCLUnoHelper::createKeyEvent( *static_cast(rVclWindowEvent.GetData()), *this ) ); mpImpl->getKeyListeners().keyPressed( aEvent ); } } break; case VclEventId::WindowKeyUp: { if ( mpImpl->getKeyListeners().getLength() ) { css::awt::KeyEvent aEvent( VCLUnoHelper::createKeyEvent( *static_cast(rVclWindowEvent.GetData()), *this ) ); mpImpl->getKeyListeners().keyReleased( aEvent ); } } break; case VclEventId::WindowCommand: { CommandEvent* pCmdEvt = static_cast(rVclWindowEvent.GetData()); if ( mpImpl->getMouseListeners().getLength() && ( pCmdEvt->GetCommand() == CommandEventId::ContextMenu ) ) { // CommandEventId::ContextMenu als mousePressed mit PopupTrigger = sal_True versenden... Point aWhere = static_cast< CommandEvent* >( rVclWindowEvent.GetData() )->GetMousePosPixel(); if ( !pCmdEvt->IsMouseEvent() ) { // for keyboard events, we set the coordinates to -1,-1. This is a slight HACK, but the current API // handles a context menu command as special case of a mouse event, which is simply wrong. // Without extending the API, we would not have another chance to notify listeners of a // keyboard-triggered context menu request aWhere = Point( -1, -1 ); } MouseEvent aMEvt( aWhere, 1, MouseEventModifiers::SIMPLECLICK, MOUSE_LEFT, 0 ); awt::MouseEvent aEvent( VCLUnoHelper::createMouseEvent( aMEvt, *this ) ); aEvent.PopupTrigger = true; Callback aCallback = [ this, aEvent ]() { this->mpImpl->getMouseListeners().mousePressed( aEvent ); }; ImplExecuteAsyncWithoutSolarLock( aCallback ); } } break; case VclEventId::WindowMouseMove: { MouseEvent* pMouseEvt = static_cast(rVclWindowEvent.GetData()); if ( mpImpl->getMouseListeners().getLength() && ( pMouseEvt->IsEnterWindow() || pMouseEvt->IsLeaveWindow() ) ) { awt::MouseEvent aEvent( VCLUnoHelper::createMouseEvent( *pMouseEvt, *this ) ); bool const isEnter(pMouseEvt->IsEnterWindow()); Callback aCallback = [ this, isEnter, aEvent ]() { MouseListenerMultiplexer& rMouseListeners = this->mpImpl->getMouseListeners(); (isEnter) ? rMouseListeners.mouseEntered(aEvent) : rMouseListeners.mouseExited(aEvent); }; ImplExecuteAsyncWithoutSolarLock( aCallback ); } if ( mpImpl->getMouseMotionListeners().getLength() && !pMouseEvt->IsEnterWindow() && !pMouseEvt->IsLeaveWindow() ) { awt::MouseEvent aEvent( VCLUnoHelper::createMouseEvent( *pMouseEvt, *this ) ); aEvent.ClickCount = 0; if ( pMouseEvt->GetMode() & MouseEventModifiers::SIMPLEMOVE ) mpImpl->getMouseMotionListeners().mouseMoved( aEvent ); else mpImpl->getMouseMotionListeners().mouseDragged( aEvent ); } } break; case VclEventId::WindowMouseButtonDown: { if ( mpImpl->getMouseListeners().getLength() ) { awt::MouseEvent aEvent( VCLUnoHelper::createMouseEvent( *static_cast(rVclWindowEvent.GetData()), *this ) ); Callback aCallback = [ this, aEvent ]() { this->mpImpl->getMouseListeners().mousePressed( aEvent ); }; ImplExecuteAsyncWithoutSolarLock( aCallback ); } } break; case VclEventId::WindowMouseButtonUp: { if ( mpImpl->getMouseListeners().getLength() ) { awt::MouseEvent aEvent( VCLUnoHelper::createMouseEvent( *static_cast(rVclWindowEvent.GetData()), *this ) ); Callback aCallback = [ this, aEvent ]() { this->mpImpl->getMouseListeners().mouseReleased( aEvent ); }; ImplExecuteAsyncWithoutSolarLock( aCallback ); } } break; case VclEventId::WindowStartDocking: { if ( mpImpl->getDockableWindowListeners().getLength() ) { DockingData *pData = static_cast(rVclWindowEvent.GetData()); if( pData ) { css::awt::DockingEvent aEvent; aEvent.Source = static_cast(this); aEvent.TrackingRectangle = AWTRectangle( pData->maTrackRect ); aEvent.MousePos.X = pData->maMousePos.X(); aEvent.MousePos.Y = pData->maMousePos.Y(); aEvent.bLiveMode = false; aEvent.bInteractive = true; mpImpl->getDockableWindowListeners().notifyEach( &XDockableWindowListener::startDocking, aEvent ); } } } break; case VclEventId::WindowDocking: { if ( mpImpl->getDockableWindowListeners().getLength() ) { DockingData *pData = static_cast(rVclWindowEvent.GetData()); if( pData ) { css::awt::DockingEvent aEvent; aEvent.Source = static_cast(this); aEvent.TrackingRectangle = AWTRectangle( pData->maTrackRect ); aEvent.MousePos.X = pData->maMousePos.X(); aEvent.MousePos.Y = pData->maMousePos.Y(); aEvent.bLiveMode = false; aEvent.bInteractive = true; Reference< XDockableWindowListener > xFirstListener; ::comphelper::OInterfaceIteratorHelper2 aIter( mpImpl->getDockableWindowListeners() ); while ( aIter.hasMoreElements() && !xFirstListener.is() ) { xFirstListener.set( aIter.next(), UNO_QUERY ); } css::awt::DockingData aDockingData = xFirstListener->docking( aEvent ); pData->maTrackRect = VCLRectangle( aDockingData.TrackingRectangle ); pData->mbFloating = aDockingData.bFloating; } } } break; case VclEventId::WindowEndDocking: { if ( mpImpl->getDockableWindowListeners().getLength() ) { EndDockingData *pData = static_cast(rVclWindowEvent.GetData()); if( pData ) { css::awt::EndDockingEvent aEvent; aEvent.Source = static_cast(this); aEvent.WindowRectangle = AWTRectangle( pData->maWindowRect ); aEvent.bFloating = pData->mbFloating; aEvent.bCancelled = pData->mbCancelled; mpImpl->getDockableWindowListeners().notifyEach( &XDockableWindowListener::endDocking, aEvent ); } } } break; case VclEventId::WindowPrepareToggleFloating: { if ( mpImpl->getDockableWindowListeners().getLength() ) { sal_Bool *p_bFloating = static_cast(rVclWindowEvent.GetData()); css::lang::EventObject aEvent; aEvent.Source = static_cast(this); Reference< XDockableWindowListener > xFirstListener; ::comphelper::OInterfaceIteratorHelper2 aIter( mpImpl->getDockableWindowListeners() ); while ( aIter.hasMoreElements() && !xFirstListener.is() ) { xFirstListener.set( aIter.next(), UNO_QUERY ); } *p_bFloating = xFirstListener->prepareToggleFloatingMode( aEvent ); } } break; case VclEventId::WindowToggleFloating: { if ( mpImpl->getDockableWindowListeners().getLength() ) { css::lang::EventObject aEvent; aEvent.Source = static_cast(this); mpImpl->getDockableWindowListeners().notifyEach( &XDockableWindowListener::toggleFloatingMode, aEvent ); } } break; case VclEventId::WindowEndPopupMode: { if ( mpImpl->getDockableWindowListeners().getLength() ) { EndPopupModeData *pData = static_cast(rVclWindowEvent.GetData()); if( pData ) { css::awt::EndPopupModeEvent aEvent; aEvent.Source = static_cast(this); aEvent.FloatingPosition.X = pData->maFloatingPos.X(); aEvent.FloatingPosition.Y = pData->maFloatingPos.Y(); aEvent.bTearoff = pData->mbTearoff; mpImpl->getDockableWindowListeners().notifyEach( &XDockableWindowListener::endPopupMode, aEvent ); } } } break; default: break; } } uno::Reference< accessibility::XAccessibleContext > VCLXWindow::CreateAccessibleContext() { SolarMutexGuard aGuard; return getAccessibleFactory().createAccessibleContext( this ); } void VCLXWindow::SetSynthesizingVCLEvent( bool _b ) { mpImpl->mbSynthesizingVCLEvent = _b; } bool VCLXWindow::IsSynthesizingVCLEvent() const { return mpImpl->mbSynthesizingVCLEvent; } Size VCLXWindow::ImplCalcWindowSize( const Size& rOutSz ) const { Size aSz = rOutSz; VclPtr pWindow = GetWindow(); if ( pWindow ) { sal_Int32 nLeft, nTop, nRight, nBottom; pWindow->GetBorder( nLeft, nTop, nRight, nBottom ); aSz.Width() += nLeft+nRight; aSz.Height() += nTop+nBottom; } return aSz; } // css::lang::XUnoTunnel sal_Int64 VCLXWindow::getSomething( const css::uno::Sequence< sal_Int8 >& rIdentifier ) { if( ( rIdentifier.getLength() == 16 ) && ( 0 == memcmp( VCLXWindow::GetUnoTunnelId().getConstArray(), rIdentifier.getConstArray(), 16 ) ) ) { return sal::static_int_cast< sal_Int64 >(reinterpret_cast< sal_IntPtr >(this)); } return VCLXDevice::getSomething( rIdentifier ); } namespace { class theVCLXWindowUnoTunnelId : public rtl::Static< UnoTunnelIdInit, theVCLXWindowUnoTunnelId> {}; } const css::uno::Sequence< sal_Int8 >& VCLXWindow::GetUnoTunnelId() throw() { return theVCLXWindowUnoTunnelId::get().getSeq(); } VCLXWindow* VCLXWindow::GetImplementation( const css::uno::Reference< css::uno::XInterface >& rxIFace ) { css::uno::Reference< css::lang::XUnoTunnel > xUT( rxIFace, css::uno::UNO_QUERY ); return xUT.is() ? reinterpret_cast(sal::static_int_cast(xUT->getSomething( VCLXWindow::GetUnoTunnelId() ))) : nullptr; } // css::lang::Component void VCLXWindow::dispose( ) { SolarMutexGuard aGuard; mpImpl->mxViewGraphics = nullptr; if ( !mpImpl->mbDisposing ) { mpImpl->mbDisposing = true; mpImpl->disposing(); if ( GetWindow() ) { VclPtr pOutDev = GetOutputDevice(); SetWindow( nullptr ); // so that handlers are logged off, if necessary (virtual) SetOutputDevice( nullptr ); pOutDev.disposeAndClear(); } // #i14103# dispose the accessible context after the window has been destroyed, // otherwise the old value in the child event fired in VCLXAccessibleComponent::ProcessWindowEvent() // for VclEventId::WindowChildDestroyed contains a reference to an already disposed accessible object try { css::uno::Reference< css::lang::XComponent > xComponent( mpImpl->mxAccessibleContext, css::uno::UNO_QUERY ); if ( xComponent.is() ) xComponent->dispose(); } catch ( const css::uno::Exception& ) { OSL_FAIL( "VCLXWindow::dispose: could not dispose the accessible context!" ); } mpImpl->mxAccessibleContext.clear(); mpImpl->mbDisposing = false; } } void VCLXWindow::addEventListener( const css::uno::Reference< css::lang::XEventListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getEventListeners().addInterface( rxListener ); } void VCLXWindow::removeEventListener( const css::uno::Reference< css::lang::XEventListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getEventListeners().removeInterface( rxListener ); } // css::awt::XWindow void VCLXWindow::setPosSize( sal_Int32 X, sal_Int32 Y, sal_Int32 Width, sal_Int32 Height, sal_Int16 Flags ) { SolarMutexGuard aGuard; if ( GetWindow() ) { if( vcl::Window::GetDockingManager()->IsDockable( GetWindow() ) ) vcl::Window::GetDockingManager()->SetPosSizePixel( GetWindow() , X, Y, Width, Height, static_cast(Flags) ); else GetWindow()->setPosSizePixel( X, Y, Width, Height, static_cast(Flags) ); } } css::awt::Rectangle VCLXWindow::getPosSize( ) { SolarMutexGuard aGuard; css::awt::Rectangle aBounds; if ( GetWindow() ) { if( vcl::Window::GetDockingManager()->IsDockable( GetWindow() ) ) aBounds = AWTRectangle( vcl::Window::GetDockingManager()->GetPosSizePixel( GetWindow() ) ); else aBounds = AWTRectangle( Rectangle( GetWindow()->GetPosPixel(), GetWindow()->GetSizePixel() ) ); } return aBounds; } void VCLXWindow::setVisible( sal_Bool bVisible ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if ( pWindow ) { mpImpl->setDirectVisible( bVisible ); pWindow->Show( bVisible && mpImpl->isEnableVisible() ); } } void VCLXWindow::setEnable( sal_Bool bEnable ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if ( pWindow ) { pWindow->Enable( bEnable, false ); // #95824# without children! pWindow->EnableInput( bEnable ); } } void VCLXWindow::setFocus( ) { SolarMutexGuard aGuard; if ( GetWindow() ) GetWindow()->GrabFocus(); } void VCLXWindow::addWindowListener( const css::uno::Reference< css::awt::XWindowListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getWindowListeners().addInterface( rxListener ); Reference< XWindowListener2 > xListener2( rxListener, UNO_QUERY ); if ( xListener2.is() ) mpImpl->getWindow2Listeners().addInterface( xListener2 ); // #100119# Get all resize events, even if height or width 0, or invisible if ( GetWindow() ) GetWindow()->EnableAllResize(); } void VCLXWindow::removeWindowListener( const css::uno::Reference< css::awt::XWindowListener >& rxListener ) { SolarMutexGuard aGuard; Reference< XWindowListener2 > xListener2( rxListener, UNO_QUERY ); if ( xListener2.is() ) mpImpl->getWindow2Listeners().removeInterface( xListener2 ); mpImpl->getWindowListeners().removeInterface( rxListener ); } void VCLXWindow::addFocusListener( const css::uno::Reference< css::awt::XFocusListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getFocusListeners().addInterface( rxListener ); } void VCLXWindow::removeFocusListener( const css::uno::Reference< css::awt::XFocusListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getFocusListeners().removeInterface( rxListener ); } void VCLXWindow::addKeyListener( const css::uno::Reference< css::awt::XKeyListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getKeyListeners().addInterface( rxListener ); } void VCLXWindow::removeKeyListener( const css::uno::Reference< css::awt::XKeyListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getKeyListeners().removeInterface( rxListener ); } void VCLXWindow::addMouseListener( const css::uno::Reference< css::awt::XMouseListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getMouseListeners().addInterface( rxListener ); } void VCLXWindow::removeMouseListener( const css::uno::Reference< css::awt::XMouseListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getMouseListeners().removeInterface( rxListener ); } void VCLXWindow::addMouseMotionListener( const css::uno::Reference< css::awt::XMouseMotionListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getMouseMotionListeners().addInterface( rxListener ); } void VCLXWindow::removeMouseMotionListener( const css::uno::Reference< css::awt::XMouseMotionListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getMouseMotionListeners().removeInterface( rxListener ); } void VCLXWindow::addPaintListener( const css::uno::Reference< css::awt::XPaintListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getPaintListeners().addInterface( rxListener ); } void VCLXWindow::removePaintListener( const css::uno::Reference< css::awt::XPaintListener >& rxListener ) { SolarMutexGuard aGuard; mpImpl->getPaintListeners().removeInterface( rxListener ); } // css::awt::XWindowPeer css::uno::Reference< css::awt::XToolkit > VCLXWindow::getToolkit( ) { // no guard. nothing to guard here. // 82463 - 12/21/00 - fs return Application::GetVCLToolkit(); } void VCLXWindow::setPointer( const css::uno::Reference< css::awt::XPointer >& rxPointer ) { SolarMutexGuard aGuard; VCLXPointer* pPointer = VCLXPointer::GetImplementation( rxPointer ); if ( pPointer ) { mpImpl->mxPointer = rxPointer; if ( GetWindow() ) GetWindow()->SetPointer( pPointer->GetPointer() ); } } void VCLXWindow::setBackground( sal_Int32 nColor ) { SolarMutexGuard aGuard; if ( GetWindow() ) { Color aColor( (sal_uInt32)nColor ); GetWindow()->SetBackground( aColor ); GetWindow()->SetControlBackground( aColor ); WindowType eWinType = GetWindow()->GetType(); if ( ( eWinType == WindowType::WINDOW ) || ( eWinType == WindowType::WORKWINDOW ) || ( eWinType == WindowType::FLOATINGWINDOW ) ) { GetWindow()->Invalidate(); } } } void VCLXWindow::invalidate( sal_Int16 nInvalidateFlags ) { SolarMutexGuard aGuard; if ( GetWindow() ) GetWindow()->Invalidate( static_cast(nInvalidateFlags) ); } void VCLXWindow::invalidateRect( const css::awt::Rectangle& rRect, sal_Int16 nInvalidateFlags ) { SolarMutexGuard aGuard; if ( GetWindow() ) GetWindow()->Invalidate( VCLRectangle(rRect), static_cast(nInvalidateFlags) ); } // css::awt::XVclWindowPeer sal_Bool VCLXWindow::isChild( const css::uno::Reference< css::awt::XWindowPeer >& rxPeer ) { SolarMutexGuard aGuard; bool bIsChild = false; VclPtr pWindow = GetWindow(); if ( pWindow ) { VclPtr pPeerWindow = VCLUnoHelper::GetWindow( rxPeer ); bIsChild = pPeerWindow && pWindow->IsChild( pPeerWindow ); } return bIsChild; } void VCLXWindow::setDesignMode( sal_Bool bOn ) { SolarMutexGuard aGuard; mpImpl->mbDesignMode = bOn; } sal_Bool VCLXWindow::isDesignMode( ) { SolarMutexGuard aGuard; return mpImpl->mbDesignMode; } void VCLXWindow::enableClipSiblings( sal_Bool bClip ) { SolarMutexGuard aGuard; if ( GetWindow() ) GetWindow()->EnableClipSiblings( bClip ); } void VCLXWindow::setForeground( sal_Int32 nColor ) { SolarMutexGuard aGuard; if ( GetWindow() ) { Color aColor( (sal_uInt32)nColor ); GetWindow()->SetControlForeground( aColor ); } } void VCLXWindow::setControlFont( const css::awt::FontDescriptor& rFont ) { SolarMutexGuard aGuard; if ( GetWindow() ) GetWindow()->SetControlFont( VCLUnoHelper::CreateFont( rFont, GetWindow()->GetControlFont() ) ); } void VCLXWindow::getStyles( sal_Int16 nType, css::awt::FontDescriptor& Font, sal_Int32& ForegroundColor, sal_Int32& BackgroundColor ) { SolarMutexGuard aGuard; if ( GetWindow() ) { const StyleSettings& rStyleSettings = GetWindow()->GetSettings().GetStyleSettings(); switch ( nType ) { case css::awt::Style::FRAME: { Font = VCLUnoHelper::CreateFontDescriptor( rStyleSettings.GetAppFont() ); ForegroundColor = rStyleSettings.GetWindowTextColor().GetColor(); BackgroundColor = rStyleSettings.GetWindowColor().GetColor(); } break; case css::awt::Style::DIALOG: { Font = VCLUnoHelper::CreateFontDescriptor( rStyleSettings.GetAppFont() ); ForegroundColor = rStyleSettings.GetDialogTextColor().GetColor(); BackgroundColor = rStyleSettings.GetDialogColor().GetColor(); } break; default: OSL_FAIL( "VCLWindow::getStyles() - unknown Type" ); } } } namespace toolkit { static void setColorSettings( vcl::Window* _pWindow, const css::uno::Any& _rValue, void (StyleSettings::*pSetter)( const Color& ), const Color& (StyleSettings::*pGetter)( ) const ) { sal_Int32 nColor = 0; if ( !( _rValue >>= nColor ) ) nColor = (Application::GetSettings().GetStyleSettings().*pGetter)().GetColor(); AllSettings aSettings = _pWindow->GetSettings(); StyleSettings aStyleSettings = aSettings.GetStyleSettings(); (aStyleSettings.*pSetter)( Color( nColor ) ); aSettings.SetStyleSettings( aStyleSettings ); _pWindow->SetSettings( aSettings, true ); } } // Terminated by BASEPROPERTY_NOTFOUND (or 0) void VCLXWindow::PushPropertyIds( std::vector< sal_uInt16 > &rIds, int nFirstId, ...) { va_list pVarArgs; va_start( pVarArgs, nFirstId ); for ( int nId = nFirstId; nId != BASEPROPERTY_NOTFOUND; nId = va_arg( pVarArgs, int ) ) rIds.push_back( (sal_uInt16) nId ); va_end( pVarArgs ); } void VCLXWindow::ImplGetPropertyIds( std::vector< sal_uInt16 > &rIds, bool bWithDefaults ) { // These are common across ~all VCLXWindow derived classes if( bWithDefaults ) PushPropertyIds( rIds, BASEPROPERTY_ALIGN, BASEPROPERTY_BACKGROUNDCOLOR, BASEPROPERTY_BORDER, BASEPROPERTY_BORDERCOLOR, BASEPROPERTY_DEFAULTCONTROL, BASEPROPERTY_ENABLED, BASEPROPERTY_FONTDESCRIPTOR, BASEPROPERTY_HELPTEXT, BASEPROPERTY_HELPURL, BASEPROPERTY_TEXT, BASEPROPERTY_PRINTABLE, BASEPROPERTY_ENABLEVISIBLE, // for visibility BASEPROPERTY_TABSTOP, 0); // lovely hack from: // void UnoControlModel::ImplRegisterProperty( sal_uInt16 nPropId ) std::vector< sal_uInt16 >::const_iterator iter; for( iter = rIds.begin(); iter != rIds.end(); ++iter) { if( *iter == BASEPROPERTY_FONTDESCRIPTOR ) { // some properties are not included in the FontDescriptor, but every time // when we have a FontDescriptor we want to have these properties too. // => Easier to register the here, instead everywhere where I register the FontDescriptor... rIds.push_back( BASEPROPERTY_TEXTCOLOR ); rIds.push_back( BASEPROPERTY_TEXTLINECOLOR ); rIds.push_back( BASEPROPERTY_FONTRELIEF ); rIds.push_back( BASEPROPERTY_FONTEMPHASISMARK ); break; } } } void VCLXWindow::GetPropertyIds( std::vector< sal_uInt16 >& _out_rIds ) { return ImplGetPropertyIds( _out_rIds, mpImpl->mbWithDefaultProps ); } ::comphelper::OInterfaceContainerHelper2& VCLXWindow::GetContainerListeners() { return mpImpl->getContainerListeners(); } ::comphelper::OInterfaceContainerHelper2& VCLXWindow::GetTopWindowListeners() { return mpImpl->getTopWindowListeners(); } namespace { void lcl_updateWritingMode( vcl::Window& _rWindow, const sal_Int16 _nWritingMode, const sal_Int16 _nContextWritingMode ) { bool bEnableRTL = false; switch ( _nWritingMode ) { case WritingMode2::LR_TB: bEnableRTL = false; break; case WritingMode2::RL_TB: bEnableRTL = true; break; case WritingMode2::CONTEXT: { // consult our ContextWritingMode. If it has an explicit RTL/LTR value, then use // it. If it doesn't (but is CONTEXT itself), then just ask the parent window of our // own window for its RTL mode switch ( _nContextWritingMode ) { case WritingMode2::LR_TB: bEnableRTL = false; break; case WritingMode2::RL_TB: bEnableRTL = true; break; case WritingMode2::CONTEXT: { const vcl::Window* pParent = _rWindow.GetParent(); OSL_ENSURE( pParent, "lcl_updateWritingMode: cannot determine context's writing mode!" ); if ( pParent ) bEnableRTL = pParent->IsRTLEnabled(); } break; } } break; default: OSL_FAIL( "lcl_updateWritingMode: unsupported WritingMode!" ); } // switch ( nWritingMode ) _rWindow.EnableRTL( bEnableRTL ); } } void VCLXWindow::setProperty( const OUString& PropertyName, const css::uno::Any& Value ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if ( !pWindow ) return; bool bVoid = Value.getValueType().getTypeClass() == css::uno::TypeClass_VOID; WindowType eWinType = pWindow->GetType(); sal_uInt16 nPropType = GetPropertyId( PropertyName ); switch ( nPropType ) { case BASEPROPERTY_REFERENCE_DEVICE: { Control* pControl = dynamic_cast< Control* >( pWindow.get() ); OSL_ENSURE( pControl, "VCLXWindow::setProperty( RefDevice ): need a Control for this!" ); if ( !pControl ) break; Reference< XDevice > xDevice( Value, UNO_QUERY ); OutputDevice* pDevice = VCLUnoHelper::GetOutputDevice( xDevice ); pControl->SetReferenceDevice( pDevice ); } break; case BASEPROPERTY_CONTEXT_WRITING_MODE: { OSL_VERIFY( Value >>= mpImpl->mnContextWritingMode ); if ( mpImpl->mnWritingMode == WritingMode2::CONTEXT ) lcl_updateWritingMode( *pWindow, mpImpl->mnWritingMode, mpImpl->mnContextWritingMode ); } break; case BASEPROPERTY_WRITING_MODE: { bool bProperType = ( Value >>= mpImpl->mnWritingMode ); OSL_ENSURE( bProperType, "VCLXWindow::setProperty( 'WritingMode' ): illegal value type!" ); if ( bProperType ) lcl_updateWritingMode( *pWindow, mpImpl->mnWritingMode, mpImpl->mnContextWritingMode ); } break; case BASEPROPERTY_MOUSE_WHEEL_BEHAVIOUR: { sal_uInt16 nWheelBehavior( css::awt::MouseWheelBehavior::SCROLL_FOCUS_ONLY ); OSL_VERIFY( Value >>= nWheelBehavior ); AllSettings aSettings = pWindow->GetSettings(); MouseSettings aMouseSettings = aSettings.GetMouseSettings(); MouseWheelBehaviour nVclBehavior( MouseWheelBehaviour::FocusOnly ); switch ( nWheelBehavior ) { case css::awt::MouseWheelBehavior::SCROLL_DISABLED: nVclBehavior = MouseWheelBehaviour::Disable; break; case css::awt::MouseWheelBehavior::SCROLL_FOCUS_ONLY: nVclBehavior = MouseWheelBehaviour::FocusOnly; break; case css::awt::MouseWheelBehavior::SCROLL_ALWAYS: nVclBehavior = MouseWheelBehaviour::ALWAYS; break; default: OSL_FAIL( "VCLXWindow::setProperty( 'MouseWheelBehavior' ): illegal property value!" ); } aMouseSettings.SetWheelBehavior( nVclBehavior ); aSettings.SetMouseSettings( aMouseSettings ); pWindow->SetSettings( aSettings, true ); } break; case BASEPROPERTY_NATIVE_WIDGET_LOOK: { bool bEnable( true ); OSL_VERIFY( Value >>= bEnable ); pWindow->EnableNativeWidget( bEnable ); } break; case BASEPROPERTY_PLUGINPARENT: { // set parent handle SetSystemParent_Impl( Value ); } break; case BASEPROPERTY_ENABLED: { bool b = bool(); if ( Value >>= b ) setEnable( b ); } break; case BASEPROPERTY_ENABLEVISIBLE: { bool b = false; if ( Value >>= b ) { if( b != mpImpl->isEnableVisible() ) { mpImpl->setEnableVisible( b ); pWindow->Show( b && mpImpl->isDirectVisible() ); } } } break; case BASEPROPERTY_TEXT: case BASEPROPERTY_LABEL: case BASEPROPERTY_TITLE: { OUString aText; if ( Value >>= aText ) { switch (eWinType) { case WindowType::OKBUTTON: case WindowType::CANCELBUTTON: case WindowType::HELPBUTTON: // Standard Button: overwrite only if not empty. if (!aText.isEmpty()) pWindow->SetText( aText ); break; default: pWindow->SetText( aText ); break; } } } break; case BASEPROPERTY_ACCESSIBLENAME: { OUString aText; if ( Value >>= aText ) pWindow->SetAccessibleName( aText ); } break; case BASEPROPERTY_HELPURL: { OUString aURL; if ( Value >>= aURL ) { INetURLObject aHelpURL( aURL ); if ( aHelpURL.GetProtocol() == INetProtocol::Hid ) pWindow->SetHelpId( OUStringToOString( aHelpURL.GetURLPath(), RTL_TEXTENCODING_UTF8 ) ); else pWindow->SetHelpId( OUStringToOString( aURL, RTL_TEXTENCODING_UTF8 ) ); } } break; case BASEPROPERTY_HELPTEXT: { OUString aHelpText; if ( Value >>= aHelpText ) { pWindow->SetQuickHelpText( aHelpText ); } } break; case BASEPROPERTY_FONTDESCRIPTOR: { if ( bVoid ) pWindow->SetControlFont( vcl::Font() ); else { css::awt::FontDescriptor aFont; if ( Value >>= aFont ) pWindow->SetControlFont( VCLUnoHelper::CreateFont( aFont, pWindow->GetControlFont() ) ); } } break; case BASEPROPERTY_FONTRELIEF: { sal_Int16 n = sal_Int16(); if ( Value >>= n ) { vcl::Font aFont = pWindow->GetControlFont(); aFont.SetRelief( (FontRelief)n ); pWindow->SetControlFont( aFont ); } } break; case BASEPROPERTY_FONTEMPHASISMARK: { sal_Int16 n = sal_Int16(); if ( Value >>= n ) { vcl::Font aFont = pWindow->GetControlFont(); aFont.SetEmphasisMark( (FontEmphasisMark)n ); pWindow->SetControlFont( aFont ); } } break; case BASEPROPERTY_BACKGROUNDCOLOR: if ( bVoid ) { switch ( eWinType ) { // set dialog color for default case WindowType::DIALOG: case WindowType::MESSBOX: case WindowType::INFOBOX: case WindowType::WARNINGBOX: case WindowType::ERRORBOX: case WindowType::QUERYBOX: case WindowType::TABPAGE: { Color aColor = pWindow->GetSettings().GetStyleSettings().GetDialogColor(); pWindow->SetBackground( aColor ); pWindow->SetControlBackground( aColor ); break; } case WindowType::FIXEDTEXT: case WindowType::CHECKBOX: case WindowType::RADIOBUTTON: case WindowType::GROUPBOX: case WindowType::FIXEDLINE: { // support transparency only for special controls pWindow->SetBackground(); pWindow->SetControlBackground(); pWindow->SetPaintTransparent( true ); break; } default: { // default code which enables transparency for // compound controls. It's not real transparency // as most of these controls repaint their client // area completely new. if ( pWindow->IsCompoundControl() ) pWindow->SetBackground(); pWindow->SetControlBackground(); break; } } } else { sal_Int32 nColor = 0; if ( Value >>= nColor ) { Color aColor( nColor ); pWindow->SetControlBackground( aColor ); pWindow->SetBackground( aColor ); switch ( eWinType ) { // reset paint transparent mode case WindowType::FIXEDTEXT: case WindowType::CHECKBOX: case WindowType::RADIOBUTTON: case WindowType::GROUPBOX: case WindowType::FIXEDLINE: pWindow->SetPaintTransparent( false ); break; default: break; } pWindow->Invalidate(); // Invalidate if control does not respond to it } } break; case BASEPROPERTY_TEXTCOLOR: if ( bVoid ) { pWindow->SetControlForeground(); } else { sal_Int32 nColor = 0; if ( Value >>= nColor ) { Color aColor( nColor ); pWindow->SetTextColor( aColor ); pWindow->SetControlForeground( aColor ); } } break; case BASEPROPERTY_TEXTLINECOLOR: if ( bVoid ) { pWindow->SetTextLineColor(); } else { sal_Int32 nColor = 0; if ( Value >>= nColor ) { Color aColor( nColor ); pWindow->SetTextLineColor( aColor ); } } break; case BASEPROPERTY_FILLCOLOR: if ( bVoid ) pWindow->SetFillColor(); else { sal_Int32 nColor = 0; if ( Value >>= nColor ) { Color aColor( nColor ); pWindow->SetFillColor( aColor ); } } break; case BASEPROPERTY_LINECOLOR: if ( bVoid ) pWindow->SetLineColor(); else { sal_Int32 nColor = 0; if ( Value >>= nColor ) { Color aColor( nColor ); pWindow->SetLineColor( aColor ); } } break; case BASEPROPERTY_BORDER: { WinBits nStyle = pWindow->GetStyle(); sal_uInt16 nTmp = 0; Value >>= nTmp; WindowBorderStyle nBorder = static_cast(nTmp); if ( !bool(nBorder) ) { pWindow->SetStyle( nStyle & ~WB_BORDER ); } else { pWindow->SetStyle( nStyle | WB_BORDER ); pWindow->SetBorderStyle( nBorder ); } } break; case BASEPROPERTY_TABSTOP: { WinBits nStyle = pWindow->GetStyle() & ~WB_TABSTOP; if ( !bVoid ) { bool bTab = false; Value >>= bTab; if ( bTab ) nStyle |= WB_TABSTOP; else nStyle |= WB_NOTABSTOP; } pWindow->SetStyle( nStyle ); } break; case BASEPROPERTY_VERTICALALIGN: { VerticalAlignment eAlign = VerticalAlignment_MAKE_FIXED_SIZE; WinBits nStyle = pWindow->GetStyle(); nStyle &= ~(WB_TOP|WB_VCENTER|WB_BOTTOM); if ( !bVoid ) Value >>= eAlign; switch ( eAlign ) { case VerticalAlignment_TOP: nStyle |= WB_TOP; break; case VerticalAlignment_MIDDLE: nStyle |= WB_VCENTER; break; case VerticalAlignment_BOTTOM: nStyle |= WB_BOTTOM; break; default: ; // for warning free code, MAKE_FIXED_SIZE } pWindow->SetStyle( nStyle ); } break; case BASEPROPERTY_ALIGN: { sal_Int16 nAlign = PROPERTY_ALIGN_LEFT; switch ( eWinType ) { case WindowType::COMBOBOX: case WindowType::BUTTON: case WindowType::PUSHBUTTON: case WindowType::OKBUTTON: case WindowType::CANCELBUTTON: case WindowType::HELPBUTTON: nAlign = PROPERTY_ALIGN_CENTER; SAL_FALLTHROUGH; case WindowType::FIXEDTEXT: case WindowType::EDIT: case WindowType::MULTILINEEDIT: case WindowType::CHECKBOX: case WindowType::RADIOBUTTON: case WindowType::LISTBOX: { WinBits nStyle = pWindow->GetStyle(); nStyle &= ~(WB_LEFT|WB_CENTER|WB_RIGHT); if ( !bVoid ) Value >>= nAlign; if ( nAlign == PROPERTY_ALIGN_LEFT ) nStyle |= WB_LEFT; else if ( nAlign == PROPERTY_ALIGN_CENTER ) nStyle |= WB_CENTER; else nStyle |= WB_RIGHT; pWindow->SetStyle( nStyle ); } break; default: break; } } break; case BASEPROPERTY_MULTILINE: { if ( ( eWinType == WindowType::FIXEDTEXT ) || ( eWinType == WindowType::CHECKBOX ) || ( eWinType == WindowType::RADIOBUTTON ) || ( eWinType == WindowType::BUTTON ) || ( eWinType == WindowType::PUSHBUTTON ) || ( eWinType == WindowType::OKBUTTON ) || ( eWinType == WindowType::CANCELBUTTON ) || ( eWinType == WindowType::HELPBUTTON ) ) { WinBits nStyle = pWindow->GetStyle(); bool bMulti = false; Value >>= bMulti; if ( bMulti ) nStyle |= WB_WORDBREAK; else nStyle &= ~WB_WORDBREAK; pWindow->SetStyle( nStyle ); } } break; case BASEPROPERTY_ORIENTATION: { if ( eWinType == WindowType::FIXEDLINE) { sal_Int32 nOrientation = 0; if ( Value >>= nOrientation ) { WinBits nStyle = pWindow->GetStyle(); nStyle &= ~(WB_HORZ|WB_VERT); if ( nOrientation == 0 ) nStyle |= WB_HORZ; else nStyle |= WB_VERT; pWindow->SetStyle( nStyle ); } } } break; case BASEPROPERTY_AUTOMNEMONICS: { bool bAutoMnemonics = false; Value >>= bAutoMnemonics; AllSettings aSettings = pWindow->GetSettings(); StyleSettings aStyleSettings = aSettings.GetStyleSettings(); if ( aStyleSettings.GetAutoMnemonic() != bAutoMnemonics ) { aStyleSettings.SetAutoMnemonic( bAutoMnemonics ); aSettings.SetStyleSettings( aStyleSettings ); pWindow->SetSettings( aSettings ); } } break; case BASEPROPERTY_MOUSETRANSPARENT: { bool bMouseTransparent = false; Value >>= bMouseTransparent; pWindow->SetMouseTransparent( bMouseTransparent ); } break; case BASEPROPERTY_PAINTTRANSPARENT: { bool bPaintTransparent = false; Value >>= bPaintTransparent; pWindow->SetPaintTransparent( bPaintTransparent ); // pWindow->SetBackground(); } break; case BASEPROPERTY_REPEAT: { bool bRepeat( false ); Value >>= bRepeat; WinBits nStyle = pWindow->GetStyle(); if ( bRepeat ) nStyle |= WB_REPEAT; else nStyle &= ~WB_REPEAT; pWindow->SetStyle( nStyle ); } break; case BASEPROPERTY_REPEAT_DELAY: { sal_Int32 nRepeatDelay = 0; if ( Value >>= nRepeatDelay ) { AllSettings aSettings = pWindow->GetSettings(); MouseSettings aMouseSettings = aSettings.GetMouseSettings(); aMouseSettings.SetButtonRepeat( nRepeatDelay ); aSettings.SetMouseSettings( aMouseSettings ); pWindow->SetSettings( aSettings, true ); } } break; case BASEPROPERTY_SYMBOL_COLOR: ::toolkit::setColorSettings( pWindow, Value, &StyleSettings::SetButtonTextColor, &StyleSettings::GetButtonTextColor ); break; case BASEPROPERTY_BORDERCOLOR: ::toolkit::setColorSettings( pWindow, Value, &StyleSettings::SetMonoColor, &StyleSettings::GetMonoColor); break; case BASEPROPERTY_DEFAULTCONTROL: { OUString aName; Value >>= aName; break; } } } css::uno::Any VCLXWindow::getProperty( const OUString& PropertyName ) { SolarMutexGuard aGuard; css::uno::Any aProp; if ( GetWindow() ) { WindowType eWinType = GetWindow()->GetType(); sal_uInt16 nPropType = GetPropertyId( PropertyName ); switch ( nPropType ) { case BASEPROPERTY_REFERENCE_DEVICE: { VclPtr pControl = GetAsDynamic(); OSL_ENSURE( pControl, "VCLXWindow::setProperty( RefDevice ): need a Control for this!" ); if ( !pControl ) break; VCLXDevice* pDevice = new VCLXDevice; pDevice->SetOutputDevice( pControl->GetReferenceDevice() ); aProp <<= Reference< XDevice >( pDevice ); } break; case BASEPROPERTY_CONTEXT_WRITING_MODE: aProp <<= mpImpl->mnContextWritingMode; break; case BASEPROPERTY_WRITING_MODE: aProp <<= mpImpl->mnWritingMode; break; case BASEPROPERTY_MOUSE_WHEEL_BEHAVIOUR: { MouseWheelBehaviour nVclBehavior = GetWindow()->GetSettings().GetMouseSettings().GetWheelBehavior(); sal_uInt16 nBehavior = css::awt::MouseWheelBehavior::SCROLL_FOCUS_ONLY; switch ( nVclBehavior ) { case MouseWheelBehaviour::Disable: nBehavior = css::awt::MouseWheelBehavior::SCROLL_DISABLED; break; case MouseWheelBehaviour::FocusOnly: nBehavior = css::awt::MouseWheelBehavior::SCROLL_FOCUS_ONLY; break; case MouseWheelBehaviour::ALWAYS: nBehavior = css::awt::MouseWheelBehavior::SCROLL_ALWAYS; break; default: OSL_FAIL( "VCLXWindow::getProperty( 'MouseWheelBehavior' ): illegal VCL value!" ); } aProp <<= nBehavior; } break; case BASEPROPERTY_NATIVE_WIDGET_LOOK: aProp <<= GetWindow()->IsNativeWidgetEnabled(); break; case BASEPROPERTY_ENABLED: aProp <<= GetWindow()->IsEnabled(); break; case BASEPROPERTY_ENABLEVISIBLE: aProp <<= mpImpl->isEnableVisible(); break; case BASEPROPERTY_HIGHCONTRASTMODE: aProp <<= GetWindow()->GetSettings().GetStyleSettings().GetHighContrastMode(); break; case BASEPROPERTY_TEXT: case BASEPROPERTY_LABEL: case BASEPROPERTY_TITLE: { OUString aText = GetWindow()->GetText(); aProp <<= aText; } break; case BASEPROPERTY_ACCESSIBLENAME: { OUString aText = GetWindow()->GetAccessibleName(); aProp <<= aText; } break; case BASEPROPERTY_HELPTEXT: { OUString aText = GetWindow()->GetQuickHelpText(); aProp <<= aText; } break; case BASEPROPERTY_HELPURL: { OUString aHelpId( OStringToOUString( GetWindow()->GetHelpId(), RTL_TEXTENCODING_UTF8 ) ); aProp <<= OUString( aHelpId ); } break; case BASEPROPERTY_FONTDESCRIPTOR: { vcl::Font aFont = GetWindow()->GetControlFont(); css::awt::FontDescriptor aFD = VCLUnoHelper::CreateFontDescriptor( aFont ); aProp <<= aFD; } break; case BASEPROPERTY_BACKGROUNDCOLOR: aProp <<= (sal_Int32) GetWindow()->GetControlBackground().GetColor(); break; case BASEPROPERTY_DISPLAYBACKGROUNDCOLOR: aProp <<= (sal_Int32) GetWindow()->GetDisplayBackground().GetColor().GetColor(); break; case BASEPROPERTY_FONTRELIEF: aProp <<= (sal_Int16) GetWindow()->GetControlFont().GetRelief(); break; case BASEPROPERTY_FONTEMPHASISMARK: aProp <<= (sal_Int16) GetWindow()->GetControlFont().GetEmphasisMark(); break; case BASEPROPERTY_TEXTCOLOR: aProp <<= (sal_Int32) GetWindow()->GetControlForeground().GetColor(); break; case BASEPROPERTY_TEXTLINECOLOR: aProp <<= (sal_Int32) GetWindow()->GetTextLineColor().GetColor(); break; case BASEPROPERTY_FILLCOLOR: aProp <<= (sal_Int32) GetWindow()->GetFillColor().GetColor(); break; case BASEPROPERTY_LINECOLOR: aProp <<= (sal_Int32) GetWindow()->GetLineColor().GetColor(); break; case BASEPROPERTY_BORDER: { WindowBorderStyle nBorder = WindowBorderStyle::NONE; if ( GetWindow()->GetStyle() & WB_BORDER ) nBorder = GetWindow()->GetBorderStyle(); aProp <<= static_cast(nBorder); } break; case BASEPROPERTY_TABSTOP: aProp <<= ( GetWindow()->GetStyle() & WB_TABSTOP ) != 0; break; case BASEPROPERTY_VERTICALALIGN: { WinBits nStyle = GetWindow()->GetStyle(); if ( nStyle & WB_TOP ) aProp <<= VerticalAlignment_TOP; else if ( nStyle & WB_VCENTER ) aProp <<= VerticalAlignment_MIDDLE; else if ( nStyle & WB_BOTTOM ) aProp <<= VerticalAlignment_BOTTOM; } break; case BASEPROPERTY_ALIGN: { switch ( eWinType ) { case WindowType::FIXEDTEXT: case WindowType::EDIT: case WindowType::MULTILINEEDIT: case WindowType::CHECKBOX: case WindowType::RADIOBUTTON: case WindowType::LISTBOX: case WindowType::COMBOBOX: case WindowType::BUTTON: case WindowType::PUSHBUTTON: case WindowType::OKBUTTON: case WindowType::CANCELBUTTON: case WindowType::HELPBUTTON: { WinBits nStyle = GetWindow()->GetStyle(); if ( nStyle & WB_LEFT ) aProp <<= (sal_Int16) PROPERTY_ALIGN_LEFT; else if ( nStyle & WB_CENTER ) aProp <<= (sal_Int16) PROPERTY_ALIGN_CENTER; else if ( nStyle & WB_RIGHT ) aProp <<= (sal_Int16) PROPERTY_ALIGN_RIGHT; } break; default: break; } } break; case BASEPROPERTY_MULTILINE: { if ( ( eWinType == WindowType::FIXEDTEXT ) || ( eWinType == WindowType::CHECKBOX ) || ( eWinType == WindowType::RADIOBUTTON ) || ( eWinType == WindowType::BUTTON ) || ( eWinType == WindowType::PUSHBUTTON ) || ( eWinType == WindowType::OKBUTTON ) || ( eWinType == WindowType::CANCELBUTTON ) || ( eWinType == WindowType::HELPBUTTON ) ) aProp <<= ( GetWindow()->GetStyle() & WB_WORDBREAK ) != 0; } break; case BASEPROPERTY_AUTOMNEMONICS: { bool bAutoMnemonics = GetWindow()->GetSettings().GetStyleSettings().GetAutoMnemonic(); aProp <<= bAutoMnemonics; } break; case BASEPROPERTY_MOUSETRANSPARENT: { bool bMouseTransparent = GetWindow()->IsMouseTransparent(); aProp <<= bMouseTransparent; } break; case BASEPROPERTY_PAINTTRANSPARENT: { bool bPaintTransparent = GetWindow()->IsPaintTransparent(); aProp <<= bPaintTransparent; } break; case BASEPROPERTY_REPEAT: aProp <<= ( 0 != ( GetWindow()->GetStyle() & WB_REPEAT ) ); break; case BASEPROPERTY_REPEAT_DELAY: { sal_Int32 nButtonRepeat = GetWindow()->GetSettings().GetMouseSettings().GetButtonRepeat(); aProp <<= (sal_Int32)nButtonRepeat; } break; case BASEPROPERTY_SYMBOL_COLOR: aProp <<= (sal_Int32)GetWindow()->GetSettings().GetStyleSettings().GetButtonTextColor().GetColor(); break; case BASEPROPERTY_BORDERCOLOR: aProp <<= (sal_Int32)GetWindow()->GetSettings().GetStyleSettings().GetMonoColor().GetColor(); break; } } return aProp; } // css::awt::XLayoutConstrains css::awt::Size VCLXWindow::getMinimumSize( ) { SolarMutexGuard aGuard; // Use this method only for those components which can be created through // css::awt::Toolkit , but do not have an interface Size aSz; if ( GetWindow() ) { WindowType nWinType = GetWindow()->GetType(); switch ( nWinType ) { case WindowType::CONTROL: aSz.Width() = GetWindow()->GetTextWidth( GetWindow()->GetText() )+2*12; aSz.Height() = GetWindow()->GetTextHeight()+2*6; break; case WindowType::PATTERNBOX: case WindowType::NUMERICBOX: case WindowType::METRICBOX: case WindowType::CURRENCYBOX: case WindowType::DATEBOX: case WindowType::TIMEBOX: case WindowType::LONGCURRENCYBOX: aSz.Width() = GetWindow()->GetTextWidth( GetWindow()->GetText() )+2*2; aSz.Height() = GetWindow()->GetTextHeight()+2*2; break; case WindowType::SCROLLBARBOX: return VCLXScrollBar::implGetMinimumSize( GetWindow() ); default: aSz = GetWindow()->get_preferred_size(); } } return css::awt::Size( aSz.Width(), aSz.Height() ); } css::awt::Size VCLXWindow::getPreferredSize( ) { return getMinimumSize(); } css::awt::Size VCLXWindow::calcAdjustedSize( const css::awt::Size& rNewSize ) { SolarMutexGuard aGuard; css::awt::Size aNewSize( rNewSize ); css::awt::Size aMinSize = getMinimumSize(); if ( aNewSize.Width < aMinSize.Width ) aNewSize.Width = aMinSize.Width; if ( aNewSize.Height < aMinSize.Height ) aNewSize.Height = aMinSize.Height; return aNewSize; } // css::awt::XView sal_Bool VCLXWindow::setGraphics( const css::uno::Reference< css::awt::XGraphics >& rxDevice ) { SolarMutexGuard aGuard; if ( VCLUnoHelper::GetOutputDevice( rxDevice ) ) mpImpl->mxViewGraphics = rxDevice; else mpImpl->mxViewGraphics = nullptr; return mpImpl->mxViewGraphics.is(); } css::uno::Reference< css::awt::XGraphics > VCLXWindow::getGraphics( ) { SolarMutexGuard aGuard; return mpImpl->mxViewGraphics; } css::awt::Size VCLXWindow::getSize( ) { SolarMutexGuard aGuard; Size aSz; if ( GetWindow() ) aSz = GetWindow()->GetSizePixel(); return css::awt::Size( aSz.Width(), aSz.Height() ); } void VCLXWindow::draw( sal_Int32 nX, sal_Int32 nY ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if ( !pWindow ) return; if ( isDesignMode() || mpImpl->isEnableVisible() ) { OutputDevice* pDev = VCLUnoHelper::GetOutputDevice( mpImpl->mxViewGraphics ); if (!pDev) pDev = pWindow->GetParent(); TabPage* pTabPage = dynamic_cast< TabPage* >( pWindow.get() ); if ( pTabPage ) { Point aPos( nX, nY ); Size aSize = pWindow->GetSizePixel(); aPos = pDev->PixelToLogic( aPos ); aSize = pDev->PixelToLogic( aSize ); pTabPage->Draw( pDev, aPos, aSize, DrawFlags::NONE ); return; } Point aPos( nX, nY ); if ( pWindow->GetParent() && !pWindow->IsSystemWindow() && ( pWindow->GetParent() == pDev ) ) { // #i40647# don't draw here if this is a recursive call // sometimes this is called recursively, because the Update call on the parent // (strangely) triggers another paint. Prevent a stack overflow here // Yes, this is only fixing symptoms for the moment .... // #i40647# / 2005-01-18 / frank.schoenheit@sun.com if ( !mpImpl->getDrawingOntoParent_ref() ) { ::comphelper::FlagGuard aDrawingflagGuard( mpImpl->getDrawingOntoParent_ref() ); bool bWasVisible = pWindow->IsVisible(); Point aOldPos( pWindow->GetPosPixel() ); if ( bWasVisible && aOldPos == aPos ) { pWindow->Update(); return; } pWindow->SetPosPixel( aPos ); // Update parent first to avoid painting the parent upon the update // of this window, as it may otherwise cause the parent // to hide this window again if( pWindow->GetParent() ) pWindow->GetParent()->Update(); pWindow->Show(); pWindow->Update(); pWindow->SetParentUpdateMode( false ); pWindow->Hide(); pWindow->SetParentUpdateMode( true ); pWindow->SetPosPixel( aOldPos ); if ( bWasVisible ) pWindow->Show(); } } else if ( pDev ) { Size aSz = pWindow->GetSizePixel(); aSz = pDev->PixelToLogic( aSz ); Point aP = pDev->PixelToLogic( aPos ); vcl::PDFExtOutDevData* pPDFExport = dynamic_cast(pDev->GetExtOutDevData()); bool bDrawSimple = ( pDev->GetOutDevType() == OUTDEV_PRINTER ) || ( pDev->GetOutDevViewType() == OutDevViewType::PrintPreview ) || ( pPDFExport != nullptr ); if ( bDrawSimple ) { pWindow->Draw( pDev, aP, aSz, DrawFlags::NoControls ); } else { bool bOldNW =pWindow->IsNativeWidgetEnabled(); if( bOldNW ) pWindow->EnableNativeWidget(false); pWindow->PaintToDevice( pDev, aP, aSz ); if( bOldNW ) pWindow->EnableNativeWidget(); } } } } void VCLXWindow::setZoom( float fZoomX, float /*fZoomY*/ ) { SolarMutexGuard aGuard; if ( GetWindow() ) { // Fraction::Fraction takes a double, but we have a float only. // The implicit conversion from float to double can result in a precision loss, i.e. 1.2 is converted to // 1.200000000047something. To prevent this, we convert explicitly to double, and round it. double nZoom( fZoomX ); Fraction aZoom(::rtl::math::round(nZoom, 4)); aZoom.ReduceInaccurate(10); // to avoid runovers and BigInt mapping GetWindow()->SetZoom(aZoom); } } // css::lang::XEventListener void SAL_CALL VCLXWindow::disposing( const css::lang::EventObject& _rSource ) { SolarMutexGuard aGuard; // check if it comes from our AccessibleContext uno::Reference< uno::XInterface > aAC( mpImpl->mxAccessibleContext, uno::UNO_QUERY ); uno::Reference< uno::XInterface > xSource( _rSource.Source, uno::UNO_QUERY ); if ( aAC.get() == xSource.get() ) { // yep, it does mpImpl->mxAccessibleContext.clear(); } } // css::accessibility::XAccessible css::uno::Reference< css::accessibility::XAccessibleContext > VCLXWindow::getAccessibleContext( ) { using namespace ::com::sun::star; SolarMutexGuard aGuard; // already disposed if( ! mpImpl ) return uno::Reference< accessibility::XAccessibleContext >(); if ( !mpImpl->mxAccessibleContext.is() && GetWindow() ) { mpImpl->mxAccessibleContext = CreateAccessibleContext(); // add as event listener to this component // in case somebody disposes it, we do not want to have a (though weak) reference to a dead // object uno::Reference< lang::XComponent > xComp( mpImpl->mxAccessibleContext, uno::UNO_QUERY ); if ( xComp.is() ) xComp->addEventListener( this ); } return mpImpl->mxAccessibleContext; } // css::awt::XDockable void SAL_CALL VCLXWindow::addDockableWindowListener( const css::uno::Reference< css::awt::XDockableWindowListener >& xListener ) { SolarMutexGuard aGuard; if ( xListener.is() ) mpImpl->getDockableWindowListeners().addInterface( xListener ); } void SAL_CALL VCLXWindow::removeDockableWindowListener( const css::uno::Reference< css::awt::XDockableWindowListener >& xListener ) { SolarMutexGuard aGuard; mpImpl->getDockableWindowListeners().removeInterface( xListener ); } void SAL_CALL VCLXWindow::enableDocking( sal_Bool bEnable ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if ( pWindow ) pWindow->EnableDocking( bEnable ); } sal_Bool SAL_CALL VCLXWindow::isFloating( ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if( pWindow ) return vcl::Window::GetDockingManager()->IsFloating( pWindow ); else return false; } void SAL_CALL VCLXWindow::setFloatingMode( sal_Bool bFloating ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if( pWindow ) vcl::Window::GetDockingManager()->SetFloatingMode( pWindow, bFloating ); } sal_Bool SAL_CALL VCLXWindow::isLocked( ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if( pWindow ) return vcl::Window::GetDockingManager()->IsLocked( pWindow ); else return false; } void SAL_CALL VCLXWindow::lock( ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if( pWindow && !vcl::Window::GetDockingManager()->IsFloating( pWindow ) ) vcl::Window::GetDockingManager()->Lock( pWindow ); } void SAL_CALL VCLXWindow::unlock( ) { SolarMutexGuard aGuard; VclPtr pWindow = GetWindow(); if( pWindow && !vcl::Window::GetDockingManager()->IsFloating( pWindow ) ) vcl::Window::GetDockingManager()->Unlock( pWindow ); } void SAL_CALL VCLXWindow::startPopupMode( const css::awt::Rectangle& ) { // TODO: remove interface in the next incompatible build } sal_Bool SAL_CALL VCLXWindow::isInPopupMode( ) { // TODO: remove interface in the next incompatible build return false; } // css::awt::XWindow2 void SAL_CALL VCLXWindow::setOutputSize( const css::awt::Size& aSize ) { SolarMutexGuard aGuard; VclPtr pWindow; if( (pWindow = GetWindow()) != nullptr ) { DockingWindow *pDockingWindow = dynamic_cast< DockingWindow* >(pWindow.get()); if( pDockingWindow ) pDockingWindow->SetOutputSizePixel( VCLSize( aSize ) ); else pWindow->SetOutputSizePixel( VCLSize( aSize ) ); } } css::awt::Size SAL_CALL VCLXWindow::getOutputSize( ) { SolarMutexGuard aGuard; VclPtr pWindow; if( (pWindow = GetWindow()) != nullptr ) { DockingWindow *pDockingWindow = dynamic_cast< DockingWindow* >(pWindow.get()); if( pDockingWindow ) return AWTSize( pDockingWindow->GetOutputSizePixel() ); else return AWTSize( pWindow->GetOutputSizePixel() ); } else return css::awt::Size(); } sal_Bool SAL_CALL VCLXWindow::isVisible( ) { SolarMutexGuard aGuard; if( GetWindow() ) return GetWindow()->IsVisible(); else return false; } sal_Bool SAL_CALL VCLXWindow::isActive( ) { SolarMutexGuard aGuard; if( GetWindow() ) return GetWindow()->IsActive(); else return false; } sal_Bool SAL_CALL VCLXWindow::isEnabled( ) { SolarMutexGuard aGuard; if( GetWindow() ) return GetWindow()->IsEnabled(); else return false; } sal_Bool SAL_CALL VCLXWindow::hasFocus( ) { SolarMutexGuard aGuard; if( GetWindow() ) return GetWindow()->HasFocus(); else return false; } // css::beans::XPropertySetInfo UnoPropertyArrayHelper * VCLXWindow::GetPropHelper() { SolarMutexGuard aGuard; if ( mpImpl->mpPropHelper == nullptr ) { std::vector< sal_uInt16 > aIDs; GetPropertyIds( aIDs ); mpImpl->mpPropHelper.reset( new UnoPropertyArrayHelper( aIDs ) ); } return mpImpl->mpPropHelper.get(); } css::uno::Sequence< css::beans::Property > SAL_CALL VCLXWindow::getProperties() { return GetPropHelper()->getProperties(); } css::beans::Property SAL_CALL VCLXWindow::getPropertyByName( const OUString& rName ) { return GetPropHelper()->getPropertyByName( rName ); } sal_Bool SAL_CALL VCLXWindow::hasPropertyByName( const OUString& rName ) { return GetPropHelper()->hasPropertyByName( rName ); } Reference< XStyleSettings > SAL_CALL VCLXWindow::getStyleSettings() { return mpImpl->getStyleSettings(); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */