/* -*- 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 #if HAVE_FEATURE_OPENGL #include #endif #include #include #include #include #include #include #include #include #include #include #if OSL_DEBUG_LEVEL > 0 #include #endif #include #include #include #include #include #include #include #include using namespace ::com::sun::star; using namespace ::com::sun::star::uno; namespace { void InitSettings(ImplSVData* pSVData); } // keycodes handled internally by VCL vcl::KeyCode const ReservedKeys[] { vcl::KeyCode(KEY_F1,0) , vcl::KeyCode(KEY_F1,KEY_SHIFT) , vcl::KeyCode(KEY_F1,KEY_MOD1) , vcl::KeyCode(KEY_F2,KEY_SHIFT) , vcl::KeyCode(KEY_F4,KEY_MOD1) , vcl::KeyCode(KEY_F4,KEY_MOD2) , vcl::KeyCode(KEY_F4,KEY_MOD1|KEY_MOD2) , vcl::KeyCode(KEY_F6,0) , vcl::KeyCode(KEY_F6,KEY_MOD1) , vcl::KeyCode(KEY_F6,KEY_SHIFT) , vcl::KeyCode(KEY_F6,KEY_MOD1|KEY_SHIFT) , vcl::KeyCode(KEY_F10,0) #ifdef UNX , vcl::KeyCode(KEY_1,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_2,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_3,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_4,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_5,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_6,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_7,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_8,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_9,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_0,KEY_SHIFT|KEY_MOD1), vcl::KeyCode(KEY_ADD,KEY_SHIFT|KEY_MOD1) #endif }; extern "C" { typedef UnoWrapperBase* (*FN_TkCreateUnoWrapper)(); } struct ImplPostEventData { VclEventId mnEvent; VclPtr mpWin; ImplSVEvent * mnEventId; KeyEvent maKeyEvent; MouseEvent maMouseEvent; GestureEvent maGestureEvent; ImplPostEventData(VclEventId nEvent, vcl::Window* pWin, const KeyEvent& rKeyEvent) : mnEvent(nEvent) , mpWin(pWin) , mnEventId(nullptr) , maKeyEvent(rKeyEvent) {} ImplPostEventData(VclEventId nEvent, vcl::Window* pWin, const MouseEvent& rMouseEvent) : mnEvent(nEvent) , mpWin(pWin) , mnEventId(nullptr) , maMouseEvent(rMouseEvent) {} ImplPostEventData(VclEventId nEvent, vcl::Window* pWin, const GestureEvent& rGestureEvent) : mnEvent(nEvent) , mpWin(pWin) , mnEventId(nullptr) , maGestureEvent(rGestureEvent) {} }; Application* GetpApp() { ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData ) return nullptr; return pSVData->mpApp; } Application::Application() { // useful for themes at least, perhaps extensions too OUString aVar("LIBO_VERSION"), aValue(LIBO_VERSION_DOTTED); osl_setEnvironment(aVar.pData, aValue.pData); ImplGetSVData()->mpApp = this; } Application::~Application() { ImplDeInitSVData(); ImplGetSVData()->mpApp = nullptr; } int Application::Main() { SAL_WARN("vcl", "Application is a base class and should be overridden."); return EXIT_SUCCESS; } bool Application::QueryExit() { WorkWindow* pAppWin = ImplGetSVData()->maFrameData.mpAppWin; // call the close handler of the application window if ( pAppWin ) return pAppWin->Close(); else return true; } void Application::Shutdown() { } void Application::Init() { } void Application::InitFinished() { } void Application::DeInit() { } sal_uInt16 Application::GetCommandLineParamCount() { return static_cast(osl_getCommandArgCount()); } OUString Application::GetCommandLineParam( sal_uInt16 nParam ) { OUString aParam; osl_getCommandArg( nParam, &aParam.pData ); return aParam; } OUString Application::GetAppFileName() { ImplSVData* pSVData = ImplGetSVData(); SAL_WARN_IF( !pSVData->maAppData.mxAppFileName, "vcl", "AppFileName should be set to something after SVMain!" ); if ( pSVData->maAppData.mxAppFileName ) return *pSVData->maAppData.mxAppFileName; /* * provide a fallback for people without initialized vcl here (like setup * in responsefile mode) */ OUString aAppFileName; OUString aExeFileName; osl_getExecutableFile(&aExeFileName.pData); // convert path to native file format osl::FileBase::getSystemPathFromFileURL(aExeFileName, aAppFileName); return aAppFileName; } void Application::Exception( ExceptionCategory nCategory ) { switch ( nCategory ) { // System has precedence (so do nothing) case ExceptionCategory::System: case ExceptionCategory::UserInterface: break; #ifdef DBG_UTIL case ExceptionCategory::ResourceNotLoaded: Abort("Resource not loaded"); break; default: Abort("Unknown Error"); break; #else default: Abort(OUString()); break; #endif } } void Application::Abort( const OUString& rErrorText ) { //HACK: Dump core iff --norestore command line argument is given (assuming // this process is run by developers who are interested in cores, vs. end // users who are not): #if OSL_DEBUG_LEVEL > 0 bool dumpCore = true; #else bool dumpCore = false; sal_uInt16 n = GetCommandLineParamCount(); for (sal_uInt16 i = 0; i != n; ++i) { if (GetCommandLineParam(i) == "--norestore") { dumpCore = true; break; } } #endif SalAbort( rErrorText, dumpCore ); } size_t Application::GetReservedKeyCodeCount() { return SAL_N_ELEMENTS(ReservedKeys); } const vcl::KeyCode* Application::GetReservedKeyCode( size_t i ) { if( i >= GetReservedKeyCodeCount() ) return nullptr; else return &ReservedKeys[i]; } IMPL_STATIC_LINK_NOARG( ImplSVAppData, ImplEndAllPopupsMsg, void*, void ) { ImplSVData* pSVData = ImplGetSVData(); while (pSVData->mpWinData->mpFirstFloat) pSVData->mpWinData->mpFirstFloat->EndPopupMode(FloatWinPopupEndFlags::Cancel); } IMPL_STATIC_LINK_NOARG( ImplSVAppData, ImplEndAllDialogsMsg, void*, void ) { vcl::Window* pAppWindow = Application::GetFirstTopLevelWindow(); while (pAppWindow) { vcl::EndAllDialogs(pAppWindow); pAppWindow = Application::GetNextTopLevelWindow(pAppWindow); } } void Application::EndAllDialogs() { Application::PostUserEvent( LINK( nullptr, ImplSVAppData, ImplEndAllDialogsMsg ) ); } void Application::EndAllPopups() { Application::PostUserEvent( LINK( nullptr, ImplSVAppData, ImplEndAllPopupsMsg ) ); } namespace { VclPtr GetEventWindow() { VclPtr xWin(Application::GetFirstTopLevelWindow()); while (xWin) { if (xWin->IsVisible()) break; xWin.reset(Application::GetNextTopLevelWindow(xWin)); } return xWin; } bool InjectKeyEvent(SvStream& rStream) { VclPtr xWin(GetEventWindow()); if (!xWin) return false; // skip the first available cycle and insert on the next one when we // are trying the initial event, flagged by a triggered but undeleted // mpEventTestingIdle ImplSVData* pSVData = ImplGetSVData(); if (pSVData->maAppData.mpEventTestingIdle) { delete pSVData->maAppData.mpEventTestingIdle; pSVData->maAppData.mpEventTestingIdle = nullptr; return false; } sal_uInt16 nCode, nCharCode; rStream.ReadUInt16(nCode); rStream.ReadUInt16(nCharCode); if (!rStream.good()) return false; KeyEvent aVCLKeyEvt(nCharCode, nCode); Application::PostKeyEvent(VclEventId::WindowKeyInput, xWin.get(), &aVCLKeyEvt); Application::PostKeyEvent(VclEventId::WindowKeyUp, xWin.get(), &aVCLKeyEvt); return true; } void CloseDialogsAndQuit() { Application::EndAllPopups(); Application::EndAllDialogs(); Application::PostUserEvent( LINK( nullptr, ImplSVAppData, ImplPrepareExitMsg ) ); } } IMPL_LINK_NOARG(ImplSVAppData, VclEventTestingHdl, Timer *, void) { if (Application::AnyInput()) { mpEventTestingIdle->Start(); } else { Application::PostUserEvent( LINK( nullptr, ImplSVAppData, ImplVclEventTestingHdl ) ); } } IMPL_STATIC_LINK_NOARG( ImplSVAppData, ImplVclEventTestingHdl, void*, void ) { ImplSVData* pSVData = ImplGetSVData(); SAL_INFO("vcl.eventtesting", "EventTestLimit is " << pSVData->maAppData.mnEventTestLimit); if (pSVData->maAppData.mnEventTestLimit == 0) { delete pSVData->maAppData.mpEventTestInput; SAL_INFO("vcl.eventtesting", "Event Limit reached, exiting" << pSVData->maAppData.mnEventTestLimit); CloseDialogsAndQuit(); } else { if (InjectKeyEvent(*pSVData->maAppData.mpEventTestInput)) --pSVData->maAppData.mnEventTestLimit; if (!pSVData->maAppData.mpEventTestInput->good()) { SAL_INFO("vcl.eventtesting", "Event Input exhausted, exit next cycle"); pSVData->maAppData.mnEventTestLimit = 0; } Application::PostUserEvent( LINK( nullptr, ImplSVAppData, ImplVclEventTestingHdl ) ); } } IMPL_STATIC_LINK_NOARG( ImplSVAppData, ImplPrepareExitMsg, void*, void ) { //now close top level frames (void)GetpApp()->QueryExit(); } void Application::Execute() { ImplSVData* pSVData = ImplGetSVData(); pSVData->maAppData.mbInAppExecute = true; pSVData->maAppData.mbAppQuit = false; if (Application::IsEventTestingModeEnabled()) { pSVData->maAppData.mnEventTestLimit = 50; pSVData->maAppData.mpEventTestingIdle = new Idle("eventtesting"); pSVData->maAppData.mpEventTestingIdle->SetInvokeHandler(LINK(&(pSVData->maAppData), ImplSVAppData, VclEventTestingHdl)); pSVData->maAppData.mpEventTestingIdle->SetPriority(TaskPriority::HIGH_IDLE); pSVData->maAppData.mpEventTestInput = new SvFileStream("eventtesting", StreamMode::READ); pSVData->maAppData.mpEventTestingIdle->Start(); } while ( !pSVData->maAppData.mbAppQuit ) Application::Yield(); pSVData->maAppData.mbInAppExecute = false; GetpApp()->Shutdown(); } static bool ImplYield(bool i_bWait, bool i_bAllEvents) { ImplSVData* pSVData = ImplGetSVData(); SAL_INFO("vcl.schedule", "Enter ImplYield: " << (i_bWait ? "wait" : "no wait") << ": " << (i_bAllEvents ? "all events" : "one event")); // there's a data race here on WNT only because ImplYield may be // called without SolarMutex; but the only remaining use of mnDispatchLevel // is in OSX specific code pSVData->maAppData.mnDispatchLevel++; // do not wait for events if application was already quit; in that // case only dispatch events already available bool bProcessedEvent = pSVData->mpDefInst->DoYield( i_bWait && !pSVData->maAppData.mbAppQuit, i_bAllEvents ); pSVData->maAppData.mnDispatchLevel--; DBG_TESTSOLARMUTEX(); // must be locked on return from Yield SAL_INFO("vcl.schedule", "Leave ImplYield with return " << bProcessedEvent ); return bProcessedEvent; } bool Application::Reschedule( bool i_bAllEvents ) { return ImplYield(false, i_bAllEvents); } void Scheduler::ProcessEventsToIdle() { int nSanity = 1; while( Application::Reschedule( true ) ) { if (0 == ++nSanity % 1000) { SAL_WARN("vcl.schedule", "ProcessEventsToIdle: " << nSanity); } } #if OSL_DEBUG_LEVEL > 0 // If we yield from a non-main thread we just can guarantee that all idle // events were processed at some point, but our check can't prevent further // processing in the main thread, which may add new events, so skip it. const ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData->mpDefInst->IsMainThread() ) return; for (int nTaskPriority = 0; nTaskPriority < PRIO_COUNT; ++nTaskPriority) { const ImplSchedulerData* pSchedulerData = pSVData->maSchedCtx.mpFirstSchedulerData[nTaskPriority]; while (pSchedulerData) { if (pSchedulerData->mpTask && !pSchedulerData->mbInScheduler) { Idle *pIdle = dynamic_cast(pSchedulerData->mpTask); if (pIdle && pIdle->IsActive()) { SAL_WARN("vcl.schedule", "Unprocessed Idle: " << pIdle << " " << pIdle->GetDebugName()); } } pSchedulerData = pSchedulerData->mpNext; } } #endif } extern "C" { /// used by unit tests that test only via the LOK API SAL_DLLPUBLIC_EXPORT void unit_lok_process_events_to_idle() { const SolarMutexGuard aGuard; Scheduler::ProcessEventsToIdle(); } } void Application::Yield() { ImplYield(true, false); } IMPL_STATIC_LINK_NOARG( ImplSVAppData, ImplQuitMsg, void*, void ) { assert(ImplGetSVData()->maAppData.mbAppQuit); } void Application::Quit() { ImplGetSVData()->maAppData.mbAppQuit = true; Application::PostUserEvent( LINK( nullptr, ImplSVAppData, ImplQuitMsg ) ); } comphelper::SolarMutex& Application::GetSolarMutex() { ImplSVData* pSVData = ImplGetSVData(); return *(pSVData->mpDefInst->GetYieldMutex()); } bool Application::IsMainThread() { return ImplGetSVData()->mnMainThreadId == osl::Thread::getCurrentIdentifier(); } sal_uInt32 Application::ReleaseSolarMutex() { ImplSVData* pSVData = ImplGetSVData(); return pSVData->mpDefInst->ReleaseYieldMutexAll(); } void Application::AcquireSolarMutex( sal_uInt32 nCount ) { ImplSVData* pSVData = ImplGetSVData(); pSVData->mpDefInst->AcquireYieldMutex( nCount ); } bool Application::IsInMain() { ImplSVData* pSVData = ImplGetSVData(); return pSVData && pSVData->maAppData.mbInAppMain; } bool Application::IsInExecute() { return ImplGetSVData()->maAppData.mbInAppExecute; } bool Application::IsInModalMode() { return (ImplGetSVData()->maAppData.mnModalMode != 0); } sal_uInt16 Application::GetDispatchLevel() { return ImplGetSVData()->maAppData.mnDispatchLevel; } bool Application::AnyInput( VclInputFlags nType ) { return ImplGetSVData()->mpDefInst->AnyInput( nType ); } sal_uInt64 Application::GetLastInputInterval() { return (tools::Time::GetSystemTicks()-ImplGetSVData()->maAppData.mnLastInputTime); } bool Application::IsUICaptured() { ImplSVData* pSVData = ImplGetSVData(); // If mouse was captured, or if in tracking- or in select-mode of a floatingwindow (e.g. menus // or pulldown toolboxes) another window should be created // D&D active !!! return pSVData->mpWinData->mpCaptureWin || pSVData->mpWinData->mpTrackWin || pSVData->mpWinData->mpFirstFloat || nImplSysDialog; } void Application::OverrideSystemSettings( AllSettings& /*rSettings*/ ) { } void Application::MergeSystemSettings( AllSettings& rSettings ) { vcl::Window* pWindow = ImplGetSVData()->maFrameData.mpFirstFrame; if( ! pWindow ) pWindow = ImplGetDefaultWindow(); if( pWindow ) { ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData->maAppData.mbSettingsInit ) { // side effect: ImplUpdateGlobalSettings does an ImplGetFrame()->UpdateSettings pWindow->ImplUpdateGlobalSettings( *pSVData->maAppData.mpSettings ); pSVData->maAppData.mbSettingsInit = true; } // side effect: ImplUpdateGlobalSettings does an ImplGetFrame()->UpdateSettings pWindow->ImplUpdateGlobalSettings( rSettings, false ); } } void Application::SetSettings( const AllSettings& rSettings ) { const SolarMutexGuard aGuard; ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData->maAppData.mpSettings ) { InitSettings(pSVData); *pSVData->maAppData.mpSettings = rSettings; } else { AllSettings aOldSettings = *pSVData->maAppData.mpSettings; if (aOldSettings.GetUILanguageTag().getLanguageType() != rSettings.GetUILanguageTag().getLanguageType() && pSVData->mbResLocaleSet) { pSVData->mbResLocaleSet = false; } *pSVData->maAppData.mpSettings = rSettings; AllSettingsFlags nChangeFlags = aOldSettings.GetChangeFlags( *pSVData->maAppData.mpSettings ); if ( bool(nChangeFlags) ) { DataChangedEvent aDCEvt( DataChangedEventType::SETTINGS, &aOldSettings, nChangeFlags ); // notify data change handler ImplCallEventListenersApplicationDataChanged( &aDCEvt); // Update all windows vcl::Window* pFirstFrame = pSVData->maFrameData.mpFirstFrame; // Reset data that needs to be re-calculated long nOldDPIX = 0; long nOldDPIY = 0; if ( pFirstFrame ) { nOldDPIX = pFirstFrame->GetDPIX(); nOldDPIY = pFirstFrame->GetDPIY(); vcl::Window::ImplInitAppFontData(pFirstFrame); } vcl::Window* pFrame = pFirstFrame; while ( pFrame ) { // call UpdateSettings from ClientWindow in order to prevent updating data twice vcl::Window* pClientWin = pFrame; while ( pClientWin->ImplGetClientWindow() ) pClientWin = pClientWin->ImplGetClientWindow(); pClientWin->UpdateSettings( rSettings, true ); vcl::Window* pTempWin = pFrame->mpWindowImpl->mpFrameData->mpFirstOverlap; while ( pTempWin ) { // call UpdateSettings from ClientWindow in order to prevent updating data twice pClientWin = pTempWin; while ( pClientWin->ImplGetClientWindow() ) pClientWin = pClientWin->ImplGetClientWindow(); pClientWin->UpdateSettings( rSettings, true ); pTempWin = pTempWin->mpWindowImpl->mpNextOverlap; } pFrame = pFrame->mpWindowImpl->mpFrameData->mpNextFrame; } // if DPI resolution for screen output was changed set the new resolution for all // screen compatible VirDev's pFirstFrame = pSVData->maFrameData.mpFirstFrame; if ( pFirstFrame ) { if ( (pFirstFrame->GetDPIX() != nOldDPIX) || (pFirstFrame->GetDPIY() != nOldDPIY) ) { VirtualDevice* pVirDev = pSVData->maGDIData.mpFirstVirDev; while ( pVirDev ) { if ( pVirDev->mbScreenComp && (pVirDev->GetDPIX() == nOldDPIX) && (pVirDev->GetDPIY() == nOldDPIY) ) { pVirDev->SetDPIX( pFirstFrame->GetDPIX() ); pVirDev->SetDPIY( pFirstFrame->GetDPIY() ); if ( pVirDev->IsMapModeEnabled() ) { MapMode aMapMode = pVirDev->GetMapMode(); pVirDev->SetMapMode(); pVirDev->SetMapMode( aMapMode ); } } pVirDev = pVirDev->mpNext; } } } } } } const AllSettings& Application::GetSettings() { ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData->maAppData.mpSettings ) { InitSettings(pSVData); } return *(pSVData->maAppData.mpSettings); } namespace { void InitSettings(ImplSVData* pSVData) { assert(!pSVData->maAppData.mpSettings && "initialization should not happen twice!"); pSVData->maAppData.mpSettings.reset(new AllSettings()); if (!utl::ConfigManager::IsFuzzing()) { pSVData->maAppData.mpCfgListener = new LocaleConfigurationListener; pSVData->maAppData.mpSettings->GetSysLocale().GetOptions().AddListener( pSVData->maAppData.mpCfgListener ); } } } void Application::NotifyAllWindows( DataChangedEvent& rDCEvt ) { ImplSVData* pSVData = ImplGetSVData(); vcl::Window* pFrame = pSVData->maFrameData.mpFirstFrame; while ( pFrame ) { pFrame->NotifyAllChildren( rDCEvt ); vcl::Window* pSysWin = pFrame->mpWindowImpl->mpFrameData->mpFirstOverlap; while ( pSysWin ) { pSysWin->NotifyAllChildren( rDCEvt ); pSysWin = pSysWin->mpWindowImpl->mpNextOverlap; } pFrame = pFrame->mpWindowImpl->mpFrameData->mpNextFrame; } } void Application::ImplCallEventListenersApplicationDataChanged( void* pData ) { ImplSVData* pSVData = ImplGetSVData(); VclWindowEvent aEvent( nullptr, VclEventId::ApplicationDataChanged, pData ); pSVData->maAppData.maEventListeners.Call( aEvent ); } void Application::ImplCallEventListeners( VclSimpleEvent& rEvent ) { ImplSVData* pSVData = ImplGetSVData(); pSVData->maAppData.maEventListeners.Call( rEvent ); } void Application::AddEventListener( const Link& rEventListener ) { ImplSVData* pSVData = ImplGetSVData(); pSVData->maAppData.maEventListeners.addListener( rEventListener ); } void Application::RemoveEventListener( const Link& rEventListener ) { ImplSVData* pSVData = ImplGetSVData(); pSVData->maAppData.maEventListeners.removeListener( rEventListener ); } void Application::AddKeyListener( const Link& rKeyListener ) { ImplSVData* pSVData = ImplGetSVData(); pSVData->maAppData.maKeyListeners.push_back( rKeyListener ); } void Application::RemoveKeyListener( const Link& rKeyListener ) { ImplSVData* pSVData = ImplGetSVData(); auto & rVec = pSVData->maAppData.maKeyListeners; rVec.erase( std::remove(rVec.begin(), rVec.end(), rKeyListener ), rVec.end() ); } bool Application::HandleKey( VclEventId nEvent, vcl::Window *pWin, KeyEvent* pKeyEvent ) { // let listeners process the key event VclWindowEvent aEvent( pWin, nEvent, static_cast(pKeyEvent) ); ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maAppData.maKeyListeners.empty() ) return false; bool bProcessed = false; // Copy the list, because this can be destroyed when calling a Link... std::vector> aCopy( pSVData->maAppData.maKeyListeners ); for ( const Link& rLink : aCopy ) { if( rLink.Call( aEvent ) ) { bProcessed = true; break; } } return bProcessed; } ImplSVEvent * Application::PostKeyEvent( VclEventId nEvent, vcl::Window *pWin, KeyEvent const * pKeyEvent ) { const SolarMutexGuard aGuard; ImplSVEvent * nEventId = nullptr; if( pWin && pKeyEvent ) { std::unique_ptr pPostEventData(new ImplPostEventData( nEvent, pWin, *pKeyEvent )); nEventId = PostUserEvent( LINK( nullptr, Application, PostEventHandler ), pPostEventData.get() ); if( nEventId ) { pPostEventData->mnEventId = nEventId; ImplGetSVData()->maAppData.maPostedEventList.emplace_back( pWin, pPostEventData.release() ); } } return nEventId; } ImplSVEvent* Application::PostGestureEvent(VclEventId nEvent, vcl::Window* pWin, GestureEvent const * pGestureEvent) { const SolarMutexGuard aGuard; ImplSVEvent * nEventId = nullptr; if (pWin && pGestureEvent) { Point aTransformedPosition(pGestureEvent->mnX, pGestureEvent->mnY); aTransformedPosition.AdjustX(pWin->GetOutOffXPixel()); aTransformedPosition.AdjustY(pWin->GetOutOffYPixel()); const GestureEvent aGestureEvent( sal_Int32(aTransformedPosition.X()), sal_Int32(aTransformedPosition.Y()), pGestureEvent->meEventType, pGestureEvent->mnOffset, pGestureEvent->meOrientation ); std::unique_ptr pPostEventData(new ImplPostEventData(nEvent, pWin, aGestureEvent)); nEventId = PostUserEvent( LINK( nullptr, Application, PostEventHandler ), pPostEventData.get()); if (nEventId) { pPostEventData->mnEventId = nEventId; ImplGetSVData()->maAppData.maPostedEventList.emplace_back(pWin, pPostEventData.release()); } } return nEventId; } ImplSVEvent* Application::PostMouseEvent( VclEventId nEvent, vcl::Window *pWin, MouseEvent const * pMouseEvent ) { const SolarMutexGuard aGuard; ImplSVEvent * nEventId = nullptr; if( pWin && pMouseEvent ) { Point aTransformedPos( pMouseEvent->GetPosPixel() ); // LOK uses (0, 0) as the origin of all windows; don't offset. if (!comphelper::LibreOfficeKit::isActive()) { aTransformedPos.AdjustX(pWin->GetOutOffXPixel()); aTransformedPos.AdjustY(pWin->GetOutOffYPixel()); } const MouseEvent aTransformedEvent( aTransformedPos, pMouseEvent->GetClicks(), pMouseEvent->GetMode(), pMouseEvent->GetButtons(), pMouseEvent->GetModifier() ); std::unique_ptr pPostEventData(new ImplPostEventData( nEvent, pWin, aTransformedEvent )); nEventId = PostUserEvent( LINK( nullptr, Application, PostEventHandler ), pPostEventData.get() ); if( nEventId ) { pPostEventData->mnEventId = nEventId; ImplGetSVData()->maAppData.maPostedEventList.emplace_back( pWin, pPostEventData.release() ); } } return nEventId; } IMPL_STATIC_LINK( Application, PostEventHandler, void*, pCallData, void ) { const SolarMutexGuard aGuard; ImplPostEventData* pData = static_cast< ImplPostEventData * >( pCallData ); const void* pEventData; SalEvent nEvent; ImplSVEvent * const nEventId = pData->mnEventId; switch( pData->mnEvent ) { case VclEventId::WindowMouseMove: nEvent = SalEvent::ExternalMouseMove; pEventData = &pData->maMouseEvent; break; case VclEventId::WindowMouseButtonDown: nEvent = SalEvent::ExternalMouseButtonDown; pEventData = &pData->maMouseEvent; break; case VclEventId::WindowMouseButtonUp: nEvent = SalEvent::ExternalMouseButtonUp; pEventData = &pData->maMouseEvent; break; case VclEventId::WindowKeyInput: nEvent = SalEvent::ExternalKeyInput; pEventData = &pData->maKeyEvent; break; case VclEventId::WindowKeyUp: nEvent = SalEvent::ExternalKeyUp; pEventData = &pData->maKeyEvent; break; case VclEventId::WindowGestureEvent: nEvent = SalEvent::ExternalGesture; pEventData = &pData->maGestureEvent; break; default: nEvent = SalEvent::NONE; pEventData = nullptr; break; } if( pData->mpWin && pData->mpWin->mpWindowImpl->mpFrameWindow && pEventData ) ImplWindowFrameProc( pData->mpWin->mpWindowImpl->mpFrameWindow.get(), nEvent, pEventData ); // remove this event from list of posted events, watch for destruction of internal data auto svdata = ImplGetSVData(); ::std::vector< ImplPostEventPair >::iterator aIter( svdata->maAppData.maPostedEventList.begin() ); while( aIter != svdata->maAppData.maPostedEventList.end() ) { if( nEventId == (*aIter).second->mnEventId ) { delete (*aIter).second; aIter = svdata->maAppData.maPostedEventList.erase( aIter ); } else ++aIter; } } void Application::RemoveMouseAndKeyEvents( vcl::Window* pWin ) { const SolarMutexGuard aGuard; // remove all events for specific window, watch for destruction of internal data auto svdata = ImplGetSVData(); ::std::vector< ImplPostEventPair >::iterator aIter( svdata->maAppData.maPostedEventList.begin() ); while( aIter != svdata->maAppData.maPostedEventList.end() ) { if( pWin == (*aIter).first ) { if( (*aIter).second->mnEventId ) RemoveUserEvent( (*aIter).second->mnEventId ); delete (*aIter).second; aIter = svdata->maAppData.maPostedEventList.erase( aIter ); } else ++aIter; } } ImplSVEvent * Application::PostUserEvent( const Link& rLink, void* pCaller, bool bReferenceLink ) { vcl::Window* pDefWindow = ImplGetDefaultWindow(); if ( pDefWindow == nullptr ) return nullptr; std::unique_ptr pSVEvent(new ImplSVEvent); pSVEvent->mpData = pCaller; pSVEvent->maLink = rLink; pSVEvent->mpWindow = nullptr; pSVEvent->mbCall = true; if (bReferenceLink) { SolarMutexGuard aGuard; // Double check that this is indeed a vcl::Window instance. assert(dynamic_cast( static_cast(rLink.GetInstance())) == static_cast(rLink.GetInstance())); pSVEvent->mpInstanceRef = static_cast(rLink.GetInstance()); } auto pTmpEvent = pSVEvent.get(); if (!pDefWindow->ImplGetFrame()->PostEvent( std::move(pSVEvent) )) return nullptr; return pTmpEvent; } void Application::RemoveUserEvent( ImplSVEvent * nUserEvent ) { if(nUserEvent) { SAL_WARN_IF( nUserEvent->mpWindow, "vcl", "Application::RemoveUserEvent(): Event is send to a window" ); SAL_WARN_IF( !nUserEvent->mbCall, "vcl", "Application::RemoveUserEvent(): Event is already removed" ); nUserEvent->mpWindow.clear(); nUserEvent->mpInstanceRef.clear(); nUserEvent->mbCall = false; } } void Application::LockFontUpdates(bool bLock) { OutputDevice::LockFontUpdates(bLock); } vcl::Window* Application::GetFocusWindow() { return ImplGetSVData()->mpWinData->mpFocusWin; } OutputDevice* Application::GetDefaultDevice() { return ImplGetDefaultWindow(); } vcl::Window* Application::GetFirstTopLevelWindow() { ImplSVData* pSVData = ImplGetSVData(); return pSVData->maFrameData.mpFirstFrame; } vcl::Window* Application::GetNextTopLevelWindow( vcl::Window const * pWindow ) { return pWindow->mpWindowImpl->mpFrameData->mpNextFrame; } long Application::GetTopWindowCount() { long nRet = 0; ImplSVData* pSVData = ImplGetSVData(); vcl::Window *pWin = pSVData ? pSVData->maFrameData.mpFirstFrame.get() : nullptr; while( pWin ) { if( pWin->ImplGetWindow()->IsTopWindow() ) nRet++; pWin = pWin->mpWindowImpl->mpFrameData->mpNextFrame; } return nRet; } vcl::Window* Application::GetTopWindow( long nIndex ) { long nIdx = 0; ImplSVData* pSVData = ImplGetSVData(); vcl::Window *pWin = pSVData ? pSVData->maFrameData.mpFirstFrame.get() : nullptr; while( pWin ) { if( pWin->ImplGetWindow()->IsTopWindow() ) { if( nIdx == nIndex ) return pWin->ImplGetWindow(); else nIdx++; } pWin = pWin->mpWindowImpl->mpFrameData->mpNextFrame; } return nullptr; } vcl::Window* Application::GetActiveTopWindow() { vcl::Window *pWin = ImplGetSVData()->mpWinData->mpFocusWin; while( pWin ) { if( pWin->IsTopWindow() ) return pWin; pWin = pWin->mpWindowImpl->mpParent; } return nullptr; } void Application::SetAppName( const OUString& rUniqueName ) { ImplSVData* pSVData = ImplGetSVData(); pSVData->maAppData.mxAppName = rUniqueName; } OUString Application::GetAppName() { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maAppData.mxAppName ) return *(pSVData->maAppData.mxAppName); else return OUString(); } enum {hwAll=0, hwEnv=1, hwUI=2}; OUString Application::GetHWOSConfInfo(const int bSelection) { ImplSVData* pSVData = ImplGetSVData(); OUStringBuffer aDetails; const auto appendDetails = [&aDetails](const OUStringLiteral& sep, auto&& val) { if (!aDetails.isEmpty() && sep.getLength()) aDetails.append(sep); aDetails.append(std::move(val)); }; if (bSelection != hwUI) { appendDetails("; ", VclResId(SV_APP_CPUTHREADS) + OUString::number(std::thread::hardware_concurrency())); OUString aVersion; if ( pSVData && pSVData->mpDefInst ) aVersion = pSVData->mpDefInst->getOSVersion(); else aVersion = "-"; appendDetails("; ", VclResId(SV_APP_OSVERSION) + aVersion); } if (bSelection != hwEnv) { appendDetails("; ", VclResId(SV_APP_UIRENDER)); #if HAVE_FEATURE_SKIA if ( SkiaHelper::isVCLSkiaEnabled() ) { switch(SkiaHelper::renderMethodToUse()) { case SkiaHelper::RenderVulkan: appendDetails("", VclResId(SV_APP_SKIA_VULKAN)); break; case SkiaHelper::RenderRaster: appendDetails("", VclResId(SV_APP_SKIA_RASTER)); break; } } else #endif #if HAVE_FEATURE_OPENGL if ( OpenGLWrapper::isVCLOpenGLEnabled() ) appendDetails("", VclResId(SV_APP_GL)); else #endif appendDetails("", VclResId(SV_APP_DEFAULT)); #if (defined LINUX || defined _WIN32 || defined MACOSX) appendDetails("; ", SV_APP_VCLBACKEND + GetToolkitName()); #endif } return aDetails.makeStringAndClear(); } void Application::SetDisplayName( const OUString& rName ) { ImplSVData* pSVData = ImplGetSVData(); pSVData->maAppData.mxDisplayName = rName; } OUString Application::GetDisplayName() { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maAppData.mxDisplayName ) return *(pSVData->maAppData.mxDisplayName); else if (pSVData->maFrameData.mpAppWin) return pSVData->maFrameData.mpAppWin->GetText(); else return OUString(); } unsigned int Application::GetScreenCount() { SalSystem* pSys = ImplGetSalSystem(); return pSys ? pSys->GetDisplayScreenCount() : 0; } bool Application::IsUnifiedDisplay() { SalSystem* pSys = ImplGetSalSystem(); return pSys == nullptr || pSys->IsUnifiedDisplay(); } unsigned int Application::GetDisplayBuiltInScreen() { SalSystem* pSys = ImplGetSalSystem(); return pSys ? pSys->GetDisplayBuiltInScreen() : 0; } unsigned int Application::GetDisplayExternalScreen() { // This is really unpleasant, in theory we could have multiple // external displays etc. int nExternal(0); switch (GetDisplayBuiltInScreen()) { case 0: nExternal = 1; break; case 1: nExternal = 0; break; default: // When the built-in display is neither 0 nor 1 // then place the full-screen presentation on the // first available screen. nExternal = 0; break; } return nExternal; } tools::Rectangle Application::GetScreenPosSizePixel( unsigned int nScreen ) { SalSystem* pSys = ImplGetSalSystem(); if (!pSys) { SAL_WARN("vcl", "Requesting screen size/pos for screen #" << nScreen << " failed"); assert(false); return tools::Rectangle(); } tools::Rectangle aRect = pSys->GetDisplayScreenPosSizePixel(nScreen); if (aRect.getHeight() == 0) SAL_WARN("vcl", "Requesting screen size/pos for screen #" << nScreen << " returned 0 height."); return aRect; } namespace { unsigned long calcDistSquare( const Point& i_rPoint, const tools::Rectangle& i_rRect ) { const Point aRectCenter( (i_rRect.Left() + i_rRect.Right())/2, (i_rRect.Top() + i_rRect.Bottom())/ 2 ); const long nDX = aRectCenter.X() - i_rPoint.X(); const long nDY = aRectCenter.Y() - i_rPoint.Y(); return nDX*nDX + nDY*nDY; } } unsigned int Application::GetBestScreen( const tools::Rectangle& i_rRect ) { if( !IsUnifiedDisplay() ) return GetDisplayBuiltInScreen(); const unsigned int nScreens = GetScreenCount(); unsigned int nBestMatchScreen = 0; unsigned long nOverlap = 0; for( unsigned int i = 0; i < nScreens; i++ ) { const tools::Rectangle aCurScreenRect( GetScreenPosSizePixel( i ) ); // if a screen contains the rectangle completely it is obviously the best screen if( aCurScreenRect.IsInside( i_rRect ) ) return i; // next the screen which contains most of the area of the rect is the best tools::Rectangle aIntersection( aCurScreenRect.GetIntersection( i_rRect ) ); if( ! aIntersection.IsEmpty() ) { const unsigned long nCurOverlap( aIntersection.GetWidth() * aIntersection.GetHeight() ); if( nCurOverlap > nOverlap ) { nOverlap = nCurOverlap; nBestMatchScreen = i; } } } if( nOverlap > 0 ) return nBestMatchScreen; // finally the screen which center is nearest to the rect is the best const Point aCenter( (i_rRect.Left() + i_rRect.Right())/2, (i_rRect.Top() + i_rRect.Bottom())/2 ); unsigned long nDist = ULONG_MAX; for( unsigned int i = 0; i < nScreens; i++ ) { const tools::Rectangle aCurScreenRect( GetScreenPosSizePixel( i ) ); const unsigned long nCurDist( calcDistSquare( aCenter, aCurScreenRect ) ); if( nCurDist < nDist ) { nBestMatchScreen = i; nDist = nCurDist; } } return nBestMatchScreen; } bool Application::InsertAccel( Accelerator* pAccel ) { ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData->maAppData.mpAccelMgr ) pSVData->maAppData.mpAccelMgr = new ImplAccelManager(); return pSVData->maAppData.mpAccelMgr->InsertAccel( pAccel ); } void Application::RemoveAccel( Accelerator const * pAccel ) { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maAppData.mpAccelMgr ) pSVData->maAppData.mpAccelMgr->RemoveAccel( pAccel ); } void Application::SetHelp( Help* pHelp ) { ImplGetSVData()->maAppData.mpHelp = pHelp; } void Application::UpdateMainThread() { ImplSVData* pSVData = ImplGetSVData(); if (pSVData && pSVData->mpDefInst) pSVData->mpDefInst->updateMainThread(); } Help* Application::GetHelp() { return ImplGetSVData()->maAppData.mpHelp; } OUString Application::GetToolkitName() { ImplSVData* pSVData = ImplGetSVData(); if ( pSVData->maAppData.mxToolkitName ) return *(pSVData->maAppData.mxToolkitName); else return OUString(); } vcl::Window* Application::GetDefDialogParent() { ImplSVData* pSVData = ImplGetSVData(); // find some useful dialog parent // always use the topmost parent of the candidate // window to avoid using dialogs or floaters // as DefDialogParent // current focus frame vcl::Window *pWin = pSVData->mpWinData->mpFocusWin; if (pWin && !pWin->IsMenuFloatingWindow()) { while (pWin->mpWindowImpl && pWin->mpWindowImpl->mpParent) pWin = pWin->mpWindowImpl->mpParent; // check for corrupted window hierarchy, #122232#, may be we now crash somewhere else if (!pWin->mpWindowImpl) { OSL_FAIL( "Window hierarchy corrupted!" ); pSVData->mpWinData->mpFocusWin = nullptr; // avoid further access return nullptr; } if ((pWin->mpWindowImpl->mnStyle & WB_INTROWIN) == 0) { return pWin->mpWindowImpl->mpFrameWindow->ImplGetWindow(); } } // last active application frame pWin = pSVData->maFrameData.mpActiveApplicationFrame; if (pWin) { return pWin->mpWindowImpl->mpFrameWindow->ImplGetWindow(); } // first visible top window (may be totally wrong...) pWin = pSVData->maFrameData.mpFirstFrame; while (pWin) { if( pWin->ImplGetWindow()->IsTopWindow() && pWin->mpWindowImpl->mbReallyVisible && (pWin->mpWindowImpl->mnStyle & WB_INTROWIN) == 0 ) { while( pWin->mpWindowImpl->mpParent ) pWin = pWin->mpWindowImpl->mpParent; return pWin->mpWindowImpl->mpFrameWindow->ImplGetWindow(); } pWin = pWin->mpWindowImpl->mpFrameData->mpNextFrame; } // use the desktop return nullptr; } DialogCancelMode Application::GetDialogCancelMode() { return ImplGetSVData()->maAppData.meDialogCancel; } void Application::SetDialogCancelMode( DialogCancelMode mode ) { ImplGetSVData()->maAppData.meDialogCancel = mode; } bool Application::IsDialogCancelEnabled() { return ImplGetSVData()->maAppData.meDialogCancel != DialogCancelMode::Off; } void Application::SetSystemWindowMode( SystemWindowFlags nMode ) { ImplGetSVData()->maAppData.mnSysWinMode = nMode; } SystemWindowFlags Application::GetSystemWindowMode() { return ImplGetSVData()->maAppData.mnSysWinMode; } css::uno::Reference< css::awt::XToolkit > Application::GetVCLToolkit() { css::uno::Reference< css::awt::XToolkit > xT; UnoWrapperBase* pWrapper = UnoWrapperBase::GetUnoWrapper(); if ( pWrapper ) xT = pWrapper->GetVCLToolkit(); return xT; } #ifdef DISABLE_DYNLOADING extern "C" { UnoWrapperBase* CreateUnoWrapper(); } #else extern "C" { static void thisModule() {} } #endif UnoWrapperBase* UnoWrapperBase::GetUnoWrapper( bool bCreateIfNotExist ) { ImplSVData* pSVData = ImplGetSVData(); static bool bAlreadyTriedToCreate = false; if ( !pSVData->mpUnoWrapper && bCreateIfNotExist && !bAlreadyTriedToCreate ) { #ifndef DISABLE_DYNLOADING osl::Module aTkLib; aTkLib.loadRelative(&thisModule, TK_DLL_NAME); if (aTkLib.is()) { FN_TkCreateUnoWrapper fnCreateWrapper = reinterpret_cast(aTkLib.getFunctionSymbol("CreateUnoWrapper")); if ( fnCreateWrapper ) { pSVData->mpUnoWrapper = fnCreateWrapper(); } aTkLib.release(); } SAL_WARN_IF( !pSVData->mpUnoWrapper, "vcl", "UnoWrapper could not be created!" ); #else pSVData->mpUnoWrapper = CreateUnoWrapper(); #endif bAlreadyTriedToCreate = true; } return pSVData->mpUnoWrapper; } void UnoWrapperBase::SetUnoWrapper( UnoWrapperBase* pWrapper ) { ImplSVData* pSVData = ImplGetSVData(); SAL_WARN_IF( pSVData->mpUnoWrapper, "vcl", "SetUnoWrapper: Wrapper already exists" ); pSVData->mpUnoWrapper = pWrapper; } css::uno::Reference< css::awt::XDisplayConnection > Application::GetDisplayConnection() { ImplSVData* pSVData = ImplGetSVData(); if( !pSVData->mxDisplayConnection.is() ) { pSVData->mxDisplayConnection.set( new vcl::DisplayConnectionDispatch ); pSVData->mxDisplayConnection->start(); } return pSVData->mxDisplayConnection.get(); } void Application::SetFilterHdl( const Link& rLink ) { ImplGetSVData()->maGDIData.mpGrfConverter->SetFilterHdl( rLink ); } const LocaleDataWrapper& Application::GetAppLocaleDataWrapper() { return GetSettings().GetLocaleDataWrapper(); } void Application::EnableHeadlessMode( bool dialogsAreFatal ) { DialogCancelMode eNewMode = dialogsAreFatal ? DialogCancelMode::Fatal : DialogCancelMode::Silent; DialogCancelMode eOldMode = GetDialogCancelMode(); assert(eOldMode == DialogCancelMode::Off || GetDialogCancelMode() == eNewMode); if (eOldMode != eNewMode) SetDialogCancelMode( eNewMode ); } bool Application::IsHeadlessModeEnabled() { return IsDialogCancelEnabled() || comphelper::LibreOfficeKit::isActive(); } void Application::EnableBitmapRendering() { ImplGetSVData()->maAppData.mbRenderToBitmaps = true; } bool Application::IsBitmapRendering() { return ImplGetSVData()->maAppData.mbRenderToBitmaps; } void Application::EnableConsoleOnly() { EnableHeadlessMode(true); EnableBitmapRendering(); } static bool bEventTestingMode = false; bool Application::IsEventTestingModeEnabled() { return bEventTestingMode; } void Application::EnableEventTestingMode() { bEventTestingMode = true; } static bool bSafeMode = false; bool Application::IsSafeModeEnabled() { return bSafeMode; } void Application::EnableSafeMode() { bSafeMode = true; } void Application::ShowNativeErrorBox(const OUString& sTitle , const OUString& sMessage) { int btn = ImplGetSalSystem()->ShowNativeMessageBox( sTitle, sMessage); if (btn != SALSYSTEM_SHOWNATIVEMSGBOX_BTN_OK) { SAL_WARN( "vcl", "ShowNativeMessageBox returned " << btn); } } const OUString& Application::GetDesktopEnvironment() { if (IsHeadlessModeEnabled()) { static const OUString aNone("none"); return aNone; } else return SalGetDesktopEnvironment(); } void Application::AddToRecentDocumentList(const OUString& rFileUrl, const OUString& rMimeType, const OUString& rDocumentService) { ImplSVData* pSVData = ImplGetSVData(); pSVData->mpDefInst->AddToRecentDocumentList(rFileUrl, rMimeType, rDocumentService); } bool InitAccessBridge() { // Disable MSAA bridge on UNIX #if defined UNX return true; #else bool bRet = ImplInitAccessBridge(); if( !bRet ) { // disable accessibility if the user chooses to continue AllSettings aSettings = Application::GetSettings(); MiscSettings aMisc = aSettings.GetMiscSettings(); aMisc.SetEnableATToolSupport( false ); aSettings.SetMiscSettings( aMisc ); Application::SetSettings( aSettings ); } return bRet; #endif // !UNX } // MT: AppEvent was in oldsv.cxx, but is still needed... void Application::AppEvent( const ApplicationEvent& /*rAppEvent*/ ) { } bool Application::hasNativeFileSelection() { ImplSVData* pSVData = ImplGetSVData(); return pSVData->mpDefInst->hasNativeFileSelection(); } Reference< ui::dialogs::XFilePicker2 > Application::createFilePicker( const Reference< uno::XComponentContext >& xSM ) { ImplSVData* pSVData = ImplGetSVData(); return pSVData->mpDefInst->createFilePicker( xSM ); } Reference< ui::dialogs::XFolderPicker2 > Application::createFolderPicker( const Reference< uno::XComponentContext >& xSM ) { ImplSVData* pSVData = ImplGetSVData(); return pSVData->mpDefInst->createFolderPicker( xSM ); } void Application::setDeInitHook(Link const & hook) { ImplSVData * pSVData = ImplGetSVData(); assert(!pSVData->maDeInitHook.IsSet()); pSVData->maDeInitHook = hook; // Fake this for VCLXToolkit ctor instantiated from // postprocess/CppunitTest_services.mk: pSVData->maAppData.mbInAppMain = true; } namespace vcl::lok { void registerPollCallbacks( LibreOfficeKitPollCallback pPollCallback, LibreOfficeKitWakeCallback pWakeCallback, void *pData) { ImplSVData * pSVData = ImplGetSVData(); if (pSVData) { pSVData->mpPollCallback = pPollCallback; pSVData->mpWakeCallback = pWakeCallback; pSVData->mpPollClosure = pData; } } void unregisterPollCallbacks() { ImplSVData * pSVData = ImplGetSVData(); if (pSVData) { // Not hyper-elegant - but in the case of Android & unipoll we need to detach // this thread from the JVM's clutches to avoid a crash closing document if (pSVData->mpPollClosure && pSVData->mpDefInst) pSVData->mpDefInst->releaseMainThread(); // Just set mpPollClosure to null as that is what calling this means, that the callback data // points to an object that no longer exists. In particular, don't set // pSVData->mpPollCallback to nullptr as that is used to detect whether Unipoll is in use in // isUnipoll(). pSVData->mpPollClosure = nullptr; } } bool isUnipoll() { ImplSVData * pSVData = ImplGetSVData(); return pSVData && pSVData->mpPollCallback != nullptr; } } // namespace lok, namespace vcl /* vim:set shiftwidth=4 softtabstop=4 expandtab: */