/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */ /* * 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 "QtSvpVirtualDevice.hxx" #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 QT_VERSION < QT_VERSION_CHECK(6, 0, 0) && ENABLE_GSTREAMER_1_0 && QT5_HAVE_GOBJECT #include #endif #include #include #include #ifdef EMSCRIPTEN #include Q_IMPORT_PLUGIN(QWasmIntegrationPlugin) #if defined DISABLE_DYNLOADING && ENABLE_QT6 #include #endif #endif namespace { /// TODO: not much Qt specific here? could be generalised, esp. for OSX... /// this subclass allows for the transfer of a closure for running on the main /// thread, to handle all the thread affine stuff in Qt; the SolarMutex is /// "loaned" to the main thread for the execution of the closure. /// @note it doesn't work to just use "emit" and signals/slots to move calls to /// the main thread, because the other thread has the SolarMutex; the other /// thread (typically) cannot release SolarMutex, because then the main thread /// will handle all sorts of events and whatnot; this design ensures that the /// main thread only runs the passed closure (unless the closure releases /// SolarMutex itself, which should probably be avoided). class QtYieldMutex : public SalYieldMutex { public: /// flag only accessed on main thread: /// main thread has "borrowed" SolarMutex from another thread bool m_bNoYieldLock = false; /// members for communication from non-main thread to main thread std::mutex m_RunInMainMutex; std::condition_variable m_InMainCondition; bool m_isWakeUpMain = false; std::function m_Closure; ///< code for main thread to run /// members for communication from main thread to non-main thread std::condition_variable m_ResultCondition; bool m_isResultReady = false; virtual bool IsCurrentThread() const override; virtual void doAcquire(sal_uInt32 nLockCount) override; virtual sal_uInt32 doRelease(bool const bUnlockAll) override; }; void lcl_setStandardButtons(QtInstanceMessageDialog& rMessageDialog, VclButtonsType eButtonType) { switch (eButtonType) { case VclButtonsType::NONE: break; case VclButtonsType::Ok: rMessageDialog.add_button(GetStandardText(StandardButtonType::OK), RET_OK); break; case VclButtonsType::Close: rMessageDialog.add_button(GetStandardText(StandardButtonType::Close), RET_CLOSE); break; case VclButtonsType::Cancel: rMessageDialog.add_button(GetStandardText(StandardButtonType::Cancel), RET_CANCEL); break; case VclButtonsType::YesNo: rMessageDialog.add_button(GetStandardText(StandardButtonType::Yes), RET_YES); rMessageDialog.add_button(GetStandardText(StandardButtonType::No), RET_NO); break; case VclButtonsType::OkCancel: rMessageDialog.add_button(GetStandardText(StandardButtonType::OK), RET_OK); rMessageDialog.add_button(GetStandardText(StandardButtonType::Cancel), RET_CANCEL); break; default: assert(false && "Unhandled VCLButtonsType"); } } } bool QtYieldMutex::IsCurrentThread() const { QtInstance& rQtInstance = GetQtInstance(); if (rQtInstance.IsMainThread() && m_bNoYieldLock) { return true; // main thread has borrowed SolarMutex } return SalYieldMutex::IsCurrentThread(); } void QtYieldMutex::doAcquire(sal_uInt32 nLockCount) { QtInstance& rQtInstance = GetQtInstance(); if (!rQtInstance.IsMainThread()) { SalYieldMutex::doAcquire(nLockCount); return; } if (m_bNoYieldLock) { return; // special case for main thread: borrowed from other thread } do // main thread acquire... { std::function func; // copy of closure on thread stack { std::unique_lock g(m_RunInMainMutex); if (m_aMutex.tryToAcquire()) { // if there's a closure, the other thread holds m_aMutex assert(!m_Closure); m_isWakeUpMain = false; --nLockCount; // have acquired once! ++m_nCount; break; } m_InMainCondition.wait(g, [this]() { return m_isWakeUpMain; }); m_isWakeUpMain = false; std::swap(func, m_Closure); } if (func) { assert(!m_bNoYieldLock); m_bNoYieldLock = true; // execute closure with borrowed SolarMutex func(); m_bNoYieldLock = false; std::scoped_lock g(m_RunInMainMutex); assert(!m_isResultReady); m_isResultReady = true; m_ResultCondition.notify_all(); // unblock other thread } } while (true); SalYieldMutex::doAcquire(nLockCount); } sal_uInt32 QtYieldMutex::doRelease(bool const bUnlockAll) { QtInstance& rQtInstance = GetQtInstance(); if (rQtInstance.IsMainThread() && m_bNoYieldLock) { return 1; // dummy value } std::scoped_lock g(m_RunInMainMutex); // read m_nCount before doRelease (it's guarded by m_aMutex) bool const isReleased(bUnlockAll || m_nCount == 1); sal_uInt32 nCount = SalYieldMutex::doRelease(bUnlockAll); if (isReleased && !rQtInstance.IsMainThread()) { m_isWakeUpMain = true; m_InMainCondition.notify_all(); // unblock main thread } return nCount; } // this could be abstracted to be independent of Qt by passing in the // event-trigger as another function parameter... // it could also be a template of the return type, then it could return the // result of func... but then how to handle the result in doAcquire? void QtInstance::RunInMainThread(std::function func) { DBG_TESTSOLARMUTEX(); if (IsMainThread()) { func(); return; } QtYieldMutex* const pMutex(static_cast(GetYieldMutex())); { std::scoped_lock g(pMutex->m_RunInMainMutex); assert(!pMutex->m_Closure); pMutex->m_Closure = func; // unblock main thread in case it is blocked on condition pMutex->m_isWakeUpMain = true; pMutex->m_InMainCondition.notify_all(); } TriggerUserEventProcessing(); { std::unique_lock g(pMutex->m_RunInMainMutex); pMutex->m_ResultCondition.wait(g, [pMutex]() { return pMutex->m_isResultReady; }); pMutex->m_isResultReady = false; } } OUString QtInstance::constructToolkitID(std::u16string_view sTKname) { OUString sID(sTKname + OUString::Concat(u" (")); if (m_bUseCairo) sID += "cairo+"; else sID += "qfont+"; sID += toOUString(QGuiApplication::platformName()) + OUString::Concat(u")"); return sID; } QtInstance::QtInstance(std::unique_ptr& pQApp) : SalGenericInstance(std::make_unique()) , m_bUseCairo(nullptr == getenv("SAL_VCL_QT_USE_QFONT")) , m_pTimer(nullptr) , m_bSleeping(false) , m_pQApplication(std::move(pQApp)) , m_aUpdateStyleTimer("vcl::qt5 m_aUpdateStyleTimer") , m_bUpdateFonts(false) , m_pActivePopup(nullptr) { ImplSVData* pSVData = ImplGetSVData(); const OUString sToolkit = "qt" + OUString::number(QT_VERSION_MAJOR); pSVData->maAppData.mxToolkitName = constructToolkitID(sToolkit); // this one needs to be blocking, so that the handling in main thread // is processed before the thread emitting the signal continues connect(this, &QtInstance::ImplYieldSignal, this, &QtInstance::ImplYield, Qt::BlockingQueuedConnection); // this one needs to be queued non-blocking // in order to have this event arriving to correct event processing loop connect(this, &QtInstance::deleteObjectLaterSignal, this, [](QObject* pObject) { QtInstance::deleteObjectLater(pObject); }, Qt::QueuedConnection); m_aUpdateStyleTimer.SetTimeout(50); m_aUpdateStyleTimer.SetInvokeHandler(LINK(this, QtInstance, updateStyleHdl)); QAbstractEventDispatcher* dispatcher = QAbstractEventDispatcher::instance(qApp->thread()); connect(dispatcher, &QAbstractEventDispatcher::awake, this, [this]() { m_bSleeping = false; }); connect(dispatcher, &QAbstractEventDispatcher::aboutToBlock, this, [this]() { m_bSleeping = true; }); connect(QGuiApplication::inputMethod(), &QInputMethod::localeChanged, this, &QtInstance::localeChanged); for (const QScreen* pCurScreen : QApplication::screens()) connectQScreenSignals(pCurScreen); connect(qApp, &QGuiApplication::primaryScreenChanged, this, &QtInstance::primaryScreenChanged); connect(qApp, &QGuiApplication::screenAdded, this, &QtInstance::screenAdded); connect(qApp, &QGuiApplication::screenRemoved, this, &QtInstance::screenRemoved); #ifndef EMSCRIPTEN m_bSupportsOpenGL = true; #elif !HAVE_EMSCRIPTEN_JSPI ImplGetSVData()->maAppData.m_bUseSystemLoop = true; #endif } QtInstance::~QtInstance() { // force freeing the QApplication before freeing the arguments, // as it uses references to the provided arguments! m_pQApplication.reset(); } void QtInstance::AfterAppInit() { // set the default application icon via desktop file just on Wayland, // as this otherwise overrides the individual desktop icons on X11. if (QGuiApplication::platformName() == "wayland") QGuiApplication::setDesktopFileName(QStringLiteral("libreoffice-startcenter")); QGuiApplication::setLayoutDirection(AllSettings::GetLayoutRTL() ? Qt::RightToLeft : Qt::LeftToRight); } void QtInstance::localeChanged() { SolarMutexGuard aGuard; const vcl::Window* pFocusWindow = Application::GetFocusWindow(); SalFrame* const pFocusFrame = pFocusWindow ? pFocusWindow->ImplGetFrame() : nullptr; if (!pFocusFrame) return; const LanguageTag aTag( toOUString(QGuiApplication::inputMethod()->locale().name().replace("_", "-"))); static_cast(pFocusFrame)->setInputLanguage(aTag.getLanguageType()); } void QtInstance::deleteObjectLater(QObject* pObject) { pObject->deleteLater(); } SalFrame* QtInstance::CreateChildFrame(SystemParentData* /*pParent*/, SalFrameStyleFlags nStyle) { SolarMutexGuard aGuard; SalFrame* pRet(nullptr); RunInMainThread([&, this]() { pRet = new QtFrame(nullptr, nStyle, useCairo()); }); assert(pRet); return pRet; } SalFrame* QtInstance::CreateFrame(SalFrame* pParent, SalFrameStyleFlags nStyle) { SolarMutexGuard aGuard; assert(!pParent || dynamic_cast(pParent)); SalFrame* pRet(nullptr); RunInMainThread( [&, this]() { pRet = new QtFrame(static_cast(pParent), nStyle, useCairo()); }); assert(pRet); return pRet; } void QtInstance::DestroyFrame(SalFrame* pFrame) { if (pFrame) { assert(dynamic_cast(pFrame)); Q_EMIT deleteObjectLaterSignal(static_cast(pFrame)); } } SalObject* QtInstance::CreateObject(SalFrame* pParent, SystemWindowData*, bool bShow) { SolarMutexGuard aGuard; assert(!pParent || dynamic_cast(pParent)); SalObject* pRet(nullptr); RunInMainThread([&]() { pRet = new QtObject(static_cast(pParent), bShow); }); assert(pRet); return pRet; } void QtInstance::DestroyObject(SalObject* pObject) { if (pObject) { assert(dynamic_cast(pObject)); Q_EMIT deleteObjectLaterSignal(static_cast(pObject)); } } std::unique_ptr QtInstance::CreateVirtualDevice(SalGraphics& rGraphics, tools::Long& nDX, tools::Long& nDY, DeviceFormat /*eFormat*/, const SystemGraphicsData* pGd) { if (m_bUseCairo) { SvpSalGraphics* pSvpSalGraphics = dynamic_cast(&rGraphics); assert(pSvpSalGraphics); // tdf#127529 see SvpSalInstance::CreateVirtualDevice for the rare case of a non-null pPreExistingTarget cairo_surface_t* pPreExistingTarget = pGd ? static_cast(pGd->pSurface) : nullptr; std::unique_ptr pVD( new QtSvpVirtualDevice(pSvpSalGraphics->getSurface(), pPreExistingTarget)); pVD->SetSize(nDX, nDY); return pVD; } else { std::unique_ptr pVD(new QtVirtualDevice(/*scale*/ 1)); pVD->SetSize(nDX, nDY); return pVD; } } std::unique_ptr QtInstance::CreateMenu(bool bMenuBar, Menu* pVCLMenu) { SolarMutexGuard aGuard; std::unique_ptr pRet; RunInMainThread([&pRet, bMenuBar, pVCLMenu]() { QtMenu* pSalMenu = new QtMenu(bMenuBar); pRet.reset(pSalMenu); pSalMenu->SetMenu(pVCLMenu); }); assert(pRet); return pRet; } std::unique_ptr QtInstance::CreateMenuItem(const SalItemParams& rItemData) { return std::unique_ptr(new QtMenuItem(&rItemData)); } SalTimer* QtInstance::CreateSalTimer() { m_pTimer = new QtTimer(); return m_pTimer; } SalSystem* QtInstance::CreateSalSystem() { return new QtSystem; } std::shared_ptr QtInstance::CreateSalBitmap() { if (m_bUseCairo) return std::make_shared(); else return std::make_shared(); } bool QtInstance::ImplYield(bool bWait, bool bHandleAllCurrentEvents) { // Re-acquire the guard for user events when called via Q_EMIT ImplYieldSignal SolarMutexGuard aGuard; bool wasEvent = DispatchUserEvents(bHandleAllCurrentEvents); if (!bHandleAllCurrentEvents && wasEvent) return true; /** * Quoting the Qt docs: [QAbstractEventDispatcher::processEvents] processes * pending events that match flags until there are no more events to process. */ SolarMutexReleaser aReleaser; QAbstractEventDispatcher* dispatcher = QAbstractEventDispatcher::instance(qApp->thread()); if (bWait && !wasEvent) wasEvent = dispatcher->processEvents(QEventLoop::WaitForMoreEvents); else wasEvent = dispatcher->processEvents(QEventLoop::AllEvents) || wasEvent; return wasEvent; } bool QtInstance::DoYield(bool bWait, bool bHandleAllCurrentEvents) { bool bWasEvent = false; if (qApp->thread() == QThread::currentThread()) { bWasEvent = ImplYield(bWait, bHandleAllCurrentEvents); if (bWasEvent) m_aWaitingYieldCond.set(); } else { { SolarMutexReleaser aReleaser; bWasEvent = Q_EMIT ImplYieldSignal(false, bHandleAllCurrentEvents); } if (!bWasEvent && bWait) { m_aWaitingYieldCond.reset(); SolarMutexReleaser aReleaser; m_aWaitingYieldCond.wait(); bWasEvent = true; } } return bWasEvent; } bool QtInstance::AnyInput(VclInputFlags nType) { bool bResult = false; if (nType & VclInputFlags::TIMER) bResult |= (m_pTimer && m_pTimer->remainingTime() == 0); if (nType & VclInputFlags::OTHER) bResult |= !m_bSleeping; return bResult; } OUString QtInstance::GetConnectionIdentifier() { return OUString(); } void QtInstance::AddToRecentDocumentList(const OUString&, const OUString&, const OUString&) {} #ifndef EMSCRIPTEN OpenGLContext* QtInstance::CreateOpenGLContext() { return new QtOpenGLContext; } #endif bool QtInstance::IsMainThread() const { return !qApp || (qApp->thread() == QThread::currentThread()); } void QtInstance::TriggerUserEventProcessing() { QAbstractEventDispatcher* dispatcher = QAbstractEventDispatcher::instance(qApp->thread()); dispatcher->wakeUp(); } void QtInstance::ProcessEvent(SalUserEvent aEvent) { aEvent.m_pFrame->CallCallback(aEvent.m_nEvent, aEvent.m_pData); } rtl::Reference QtInstance::createPicker(css::uno::Reference const& context, QFileDialog::FileMode eMode) { if (!IsMainThread()) { SolarMutexGuard g; rtl::Reference pPicker; RunInMainThread([&, this]() { pPicker = createPicker(context, eMode); }); assert(pPicker); return pPicker; } return new QtFilePicker(context, eMode); } css::uno::Reference QtInstance::createFilePicker(const css::uno::Reference& context) { return css::uno::Reference( createPicker(context, QFileDialog::ExistingFile)); } css::uno::Reference QtInstance::createFolderPicker(const css::uno::Reference& context) { return css::uno::Reference( createPicker(context, QFileDialog::Directory)); } css::uno::Reference QtInstance::CreateClipboard(const css::uno::Sequence& arguments) { OUString sel; if (arguments.getLength() == 0) { sel = "CLIPBOARD"; } else if (arguments.getLength() != 1 || !(arguments[0] >>= sel)) { throw css::lang::IllegalArgumentException(u"bad QtInstance::CreateClipboard arguments"_ustr, css::uno::Reference(), -1); } // This could also use RunInMain, but SolarMutexGuard is enough // since at this point we're not accessing the clipboard, just get the // accessor to the clipboard. SolarMutexGuard aGuard; auto it = m_aClipboards.find(sel); if (it != m_aClipboards.end()) return it->second; css::uno::Reference xClipboard = QtClipboard::create(sel); if (xClipboard.is()) m_aClipboards[sel] = xClipboard; return xClipboard; } css::uno::Reference QtInstance::ImplCreateDragSource(const SystemEnvData* pSysEnv) { return vcl::X11DnDHelper(new QtDragSource(), pSysEnv->aShellWindow); } css::uno::Reference QtInstance::ImplCreateDropTarget(const SystemEnvData* pSysEnv) { return vcl::X11DnDHelper(new QtDropTarget(), pSysEnv->aShellWindow); } IMPL_LINK_NOARG(QtInstance, updateStyleHdl, Timer*, void) { SolarMutexGuard aGuard; SalFrame* pFrame = anyFrame(); if (pFrame) { pFrame->CallCallback(SalEvent::SettingsChanged, nullptr); if (m_bUpdateFonts) { pFrame->CallCallback(SalEvent::FontChanged, nullptr); m_bUpdateFonts = false; } } } void QtInstance::UpdateStyle(bool bFontsChanged) { if (bFontsChanged) m_bUpdateFonts = true; if (!m_aUpdateStyleTimer.IsActive()) m_aUpdateStyleTimer.Start(); } void* QtInstance::CreateGStreamerSink(const SystemChildWindow* pWindow) { // As of 2021-09, qt-gstreamer is unmaintained and there is no Qt 6 video sink #if QT_VERSION < QT_VERSION_CHECK(6, 0, 0) && ENABLE_GSTREAMER_1_0 && QT5_HAVE_GOBJECT auto pSymbol = gstElementFactoryNameSymbol(); if (!pSymbol) return nullptr; const SystemEnvData* pEnvData = pWindow->GetSystemData(); if (!pEnvData) return nullptr; if (pEnvData->platform != SystemEnvData::Platform::Wayland) return nullptr; GstElement* pVideosink = pSymbol("qwidget5videosink", "qwidget5videosink"); if (pVideosink) { QWidget* pQWidget = static_cast(pEnvData->pWidget); g_object_set(G_OBJECT(pVideosink), "widget", pQWidget, nullptr); } else { SAL_WARN("vcl.qt", "Couldn't initialize qwidget5videosink." " Video playback might not work as expected." " Please install Qt5 packages for QtGStreamer."); // with no videosink explicitly set, GStreamer will open its own (misplaced) window(s) to display video } return pVideosink; #else Q_UNUSED(pWindow); return nullptr; #endif } void QtInstance::connectQScreenSignals(const QScreen* pScreen) { connect(pScreen, &QScreen::orientationChanged, this, &QtInstance::orientationChanged); connect(pScreen, &QScreen::virtualGeometryChanged, this, &QtInstance::virtualGeometryChanged); } void QtInstance::notifyDisplayChanged() { SolarMutexGuard aGuard; SalFrame* pAnyFrame = anyFrame(); if (pAnyFrame) pAnyFrame->CallCallback(SalEvent::DisplayChanged, nullptr); } void QtInstance::orientationChanged(Qt::ScreenOrientation) { notifyDisplayChanged(); } void QtInstance::primaryScreenChanged(QScreen*) { notifyDisplayChanged(); } void QtInstance::screenAdded(QScreen* pScreen) { connectQScreenSignals(pScreen); if (QApplication::screens().size() == 1) notifyDisplayChanged(); } void QtInstance::screenRemoved(QScreen*) { notifyDisplayChanged(); } void QtInstance::virtualGeometryChanged(const QRect&) { notifyDisplayChanged(); } void QtInstance::AllocFakeCmdlineArgs(std::unique_ptr& rFakeArgv, std::unique_ptr& rFakeArgc, std::vector& rFakeArgvFreeable) { OString aVersion(qVersion()); SAL_INFO("vcl.qt", "qt version string is " << aVersion); const sal_uInt32 nParams = osl_getCommandArgCount(); sal_uInt32 nDisplayValueIdx = 0; OUString aParam, aBin; for (sal_uInt32 nIdx = 0; nIdx < nParams; ++nIdx) { osl_getCommandArg(nIdx, &aParam.pData); if (aParam != "-display") continue; ++nIdx; nDisplayValueIdx = nIdx; } osl_getExecutableFile(&aParam.pData); osl_getSystemPathFromFileURL(aParam.pData, &aBin.pData); OString aExec = OUStringToOString(aBin, osl_getThreadTextEncoding()); std::vector aFakeArgvFreeable; aFakeArgvFreeable.reserve(4); aFakeArgvFreeable.emplace_back(strdup(aExec.getStr())); aFakeArgvFreeable.emplace_back(strdup("--nocrashhandler")); if (nDisplayValueIdx) { aFakeArgvFreeable.emplace_back(strdup("-display")); osl_getCommandArg(nDisplayValueIdx, &aParam.pData); OString aDisplay = OUStringToOString(aParam, osl_getThreadTextEncoding()); aFakeArgvFreeable.emplace_back(strdup(aDisplay.getStr())); } rFakeArgvFreeable.swap(aFakeArgvFreeable); const int nFakeArgc = rFakeArgvFreeable.size(); rFakeArgv.reset(new char*[nFakeArgc]); for (int i = 0; i < nFakeArgc; i++) rFakeArgv[i] = rFakeArgvFreeable[i].get(); rFakeArgc.reset(new int); *rFakeArgc = nFakeArgc; } void QtInstance::MoveFakeCmdlineArgs(std::unique_ptr& rFakeArgv, std::unique_ptr& rFakeArgc, std::vector& rFakeArgvFreeable) { m_pFakeArgv = std::move(rFakeArgv); m_pFakeArgc = std::move(rFakeArgc); m_pFakeArgvFreeable.swap(rFakeArgvFreeable); } std::unique_ptr QtInstance::CreateQApplication(int& nArgc, char** pArgv) { #if QT_VERSION < QT_VERSION_CHECK(6, 0, 0) // for Qt 6, setting Qt::AA_EnableHighDpiScaling and Qt::AA_UseHighDpiPixmaps // is deprecated, they're always enabled QApplication::setAttribute(Qt::AA_EnableHighDpiScaling); // for scaled icons in the native menus QApplication::setAttribute(Qt::AA_UseHighDpiPixmaps); #endif // force Qt::HighDpiScaleFactorRoundingPolicy::Round, which is the Qt 5 default // policy and prevents incorrect rendering with the Qt 6 default policy // Qt::HighDpiScaleFactorRoundingPolicy::PassThrough (tdf#159915) QGuiApplication::setHighDpiScaleFactorRoundingPolicy( Qt::HighDpiScaleFactorRoundingPolicy::Round); FreeableCStr session_manager; if (getenv("SESSION_MANAGER") != nullptr) { session_manager.reset(strdup(getenv("SESSION_MANAGER"))); unsetenv("SESSION_MANAGER"); } std::unique_ptr pQApp = std::make_unique(nArgc, pArgv); if (session_manager != nullptr) { // coverity[tainted_string] - trusted source for setenv setenv("SESSION_MANAGER", session_manager.get(), 1); } QApplication::setQuitOnLastWindowClosed(false); return pQApp; } bool QtInstance::DoExecute(int& nExitCode) { const bool bIsOnSystemEventLoop = Application::IsOnSystemEventLoop(); if (bIsOnSystemEventLoop) { #if defined EMSCRIPTEN // For Emscripten, QApplication::exec() will unwind the stack by throwing a JavaScript // exception, so we need to manually undo the call of AcquireYieldMutex() done in InitVCL: ReleaseYieldMutex(false); #endif nExitCode = QApplication::exec(); #if defined EMSCRIPTEN O3TL_UNREACHABLE; #endif } return bIsOnSystemEventLoop; } void QtInstance::DoQuit() { if (Application::IsOnSystemEventLoop()) QApplication::quit(); } void QtInstance::setActivePopup(QtFrame* pFrame) { assert(!pFrame || pFrame->isPopup()); m_pActivePopup = pFrame; } QWidget* QtInstance::GetNativeParentFromWeldParent(weld::Widget* pParent) { if (!pParent) return nullptr; if (QtInstanceWidget* pQtInstanceWidget = dynamic_cast(pParent)) return pQtInstanceWidget->getQWidget(); // the parent is not welded/not a native Qt widget; get QWidget via frame if (SalInstanceWidget* pSalWidget = dynamic_cast(pParent)) { if (vcl::Window* pWindow = pSalWidget->getWidget()) { if (QtFrame* pFrame = static_cast(pWindow->ImplGetFrame())) return pFrame->GetQWidget(); } } return nullptr; } std::unique_ptr QtInstance::CreateBuilder(weld::Widget* pParent, const OUString& rUIRoot, const OUString& rUIFile) { // for now, require explicitly enabling use of QtInstanceBuilder via SAL_VCL_QT_USE_WELDED_WIDGETS static const bool bUseWeldedWidgets = (getenv("SAL_VCL_QT_USE_WELDED_WIDGETS") != nullptr); if (bUseWeldedWidgets && !QtData::noWeldedWidgets() && QtInstanceBuilder::IsUIFileSupported(rUIFile)) { QWidget* pQtParent = GetNativeParentFromWeldParent(pParent); return std::make_unique(pQtParent, rUIRoot, rUIFile); } else { return SalInstance::CreateBuilder(pParent, rUIRoot, rUIFile); } } weld::MessageDialog* QtInstance::CreateMessageDialog(weld::Widget* pParent, VclMessageType eMessageType, VclButtonsType eButtonsType, const OUString& rPrimaryMessage) { SolarMutexGuard g; if (!IsMainThread()) { weld::MessageDialog* pDialog; RunInMainThread([&] { pDialog = CreateMessageDialog(pParent, eMessageType, eButtonsType, rPrimaryMessage); }); return pDialog; } if (QtData::noWeldedWidgets()) { return SalInstance::CreateMessageDialog(pParent, eMessageType, eButtonsType, rPrimaryMessage); } else { QWidget* pQtParent = GetNativeParentFromWeldParent(pParent); QMessageBox* pMessageBox = new QMessageBox(pQtParent); pMessageBox->setText(toQString(rPrimaryMessage)); pMessageBox->setIcon(vclMessageTypeToQtIcon(eMessageType)); pMessageBox->setWindowTitle(vclMessageTypeToQtTitle(eMessageType)); QtInstanceMessageDialog* pDialog = new QtInstanceMessageDialog(pMessageBox); lcl_setStandardButtons(*pDialog, eButtonsType); return pDialog; } } static void initResources() { #if defined EMSCRIPTEN && defined DISABLE_DYNLOADING && ENABLE_QT6 // Make sure the resources from Qt6's plugins/platforms/libqwasm.a are not stripped out of a // statically linked binary (and this code cannot be directly in extern "C" create_SalInstance, // as the expansion of Q_INIT_RESOURCE contains extern function declarations that would then // erroneously be C function declarations): Q_INIT_RESOURCE(wasmfonts); Q_INIT_RESOURCE(wasmwindow); #endif } extern "C" { VCLPLUG_QT_PUBLIC SalInstance* create_SalInstance() { initResources(); std::unique_ptr pFakeArgv; std::unique_ptr pFakeArgc; std::vector aFakeArgvFreeable; QtInstance::AllocFakeCmdlineArgs(pFakeArgv, pFakeArgc, aFakeArgvFreeable); std::unique_ptr pQApp = QtInstance::CreateQApplication(*pFakeArgc, pFakeArgv.get()); QtInstance* pInstance = new QtInstance(pQApp); pInstance->MoveFakeCmdlineArgs(pFakeArgv, pFakeArgc, aFakeArgvFreeable); new QtData(); return pInstance; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab cinoptions=b1,g0,N-s cinkeys+=0=break: */