/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the Qt Data Visualization module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:GPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 or (at your option) any later version ** approved by the KDE Free Qt Foundation. The licenses are as published by ** the Free Software Foundation and appearing in the file LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "abstractdeclarative_p.h" #include "declarativetheme_p.h" #include "declarativerendernode_p.h" #include #if defined(Q_OS_IOS) #include #endif #if defined(Q_OS_OSX) #include #endif QT_BEGIN_NAMESPACE_DATAVISUALIZATION static QList clearList; static QHash graphWindowList; static QHash windowClearList; AbstractDeclarative::AbstractDeclarative(QQuickItem *parent) : QQuickItem(parent), m_controller(0), m_contextWindow(0), m_renderMode(RenderIndirect), m_samples(0), m_windowSamples(0), m_initialisedSize(0, 0), #ifdef USE_SHARED_CONTEXT m_context(0), #else m_stateStore(0), #endif m_qtContext(0), m_mainThread(QThread::currentThread()), m_contextThread(0) { m_nodeMutex = QSharedPointer::create(); connect(this, &QQuickItem::windowChanged, this, &AbstractDeclarative::handleWindowChanged); // Set contents to false in case we are in qml designer to make component look nice m_runningInDesigner = QGuiApplication::applicationDisplayName() == "Qml2Puppet"; setFlag(ItemHasContents, !m_runningInDesigner); } AbstractDeclarative::~AbstractDeclarative() { destroyContext(); disconnect(this, 0, this, 0); checkWindowList(0); // Make sure not deleting locked mutex QMutexLocker locker(&m_mutex); locker.unlock(); m_nodeMutex.clear(); } void AbstractDeclarative::setRenderingMode(AbstractDeclarative::RenderingMode mode) { if (mode == m_renderMode) return; RenderingMode previousMode = m_renderMode; m_renderMode = mode; QQuickWindow *win = window(); switch (mode) { case RenderDirectToBackground: // Intentional flowthrough case RenderDirectToBackground_NoClear: m_initialisedSize = QSize(0, 0); if (previousMode == RenderIndirect) { update(); setFlag(ItemHasContents, false); if (win) { QObject::connect(win, &QQuickWindow::beforeRendering, this, &AbstractDeclarative::render, Qt::DirectConnection); checkWindowList(win); setAntialiasing(m_windowSamples > 0); if (m_windowSamples != m_samples) emit msaaSamplesChanged(m_windowSamples); } } break; case RenderIndirect: m_initialisedSize = QSize(0, 0); setFlag(ItemHasContents, !m_runningInDesigner); update(); if (win) { QObject::disconnect(win, &QQuickWindow::beforeRendering, this, &AbstractDeclarative::render); checkWindowList(win); } setAntialiasing(m_samples > 0); if (m_windowSamples != m_samples) emit msaaSamplesChanged(m_samples); break; } updateWindowParameters(); emit renderingModeChanged(mode); } AbstractDeclarative::RenderingMode AbstractDeclarative::renderingMode() const { return m_renderMode; } QSGNode *AbstractDeclarative::updatePaintNode(QSGNode *oldNode, UpdatePaintNodeData *) { QSize boundingSize = boundingRect().size().toSize() * m_controller->scene()->devicePixelRatio(); if (m_runningInDesigner || boundingSize.width() <= 0 || boundingSize.height() <= 0 || m_controller.isNull() || !window()) { delete oldNode; return 0; } DeclarativeRenderNode *node = static_cast(oldNode); if (!node) { node = new DeclarativeRenderNode(this, m_nodeMutex); node->setController(m_controller.data()); node->setQuickWindow(window()); } node->setSize(boundingSize); node->setSamples(m_samples); node->update(); node->markDirty(QSGNode::DirtyMaterial); return node; } Declarative3DScene* AbstractDeclarative::scene() const { return static_cast(m_controller->scene()); } void AbstractDeclarative::setTheme(Q3DTheme *theme) { m_controller->setActiveTheme(theme, isComponentComplete()); } Q3DTheme *AbstractDeclarative::theme() const { return m_controller->activeTheme(); } void AbstractDeclarative::clearSelection() { m_controller->clearSelection(); } void AbstractDeclarative::setSelectionMode(SelectionFlags mode) { int intmode = int(mode); m_controller->setSelectionMode(QAbstract3DGraph::SelectionFlags(intmode)); } AbstractDeclarative::SelectionFlags AbstractDeclarative::selectionMode() const { int intmode = int(m_controller->selectionMode()); return SelectionFlags(intmode); } void AbstractDeclarative::setShadowQuality(ShadowQuality quality) { m_controller->setShadowQuality(QAbstract3DGraph::ShadowQuality(quality)); } AbstractDeclarative::ShadowQuality AbstractDeclarative::shadowQuality() const { return ShadowQuality(m_controller->shadowQuality()); } bool AbstractDeclarative::shadowsSupported() const { return m_controller->shadowsSupported(); } int AbstractDeclarative::addCustomItem(QCustom3DItem *item) { return m_controller->addCustomItem(item); } void AbstractDeclarative::removeCustomItems() { m_controller->deleteCustomItems(); } void AbstractDeclarative::removeCustomItem(QCustom3DItem *item) { m_controller->deleteCustomItem(item); } void AbstractDeclarative::removeCustomItemAt(const QVector3D &position) { m_controller->deleteCustomItem(position); } void AbstractDeclarative::releaseCustomItem(QCustom3DItem *item) { m_controller->releaseCustomItem(item); } int AbstractDeclarative::selectedLabelIndex() const { return m_controller->selectedLabelIndex(); } QAbstract3DAxis *AbstractDeclarative::selectedAxis() const { return m_controller->selectedAxis(); } int AbstractDeclarative::selectedCustomItemIndex() const { return m_controller->selectedCustomItemIndex(); } QCustom3DItem *AbstractDeclarative::selectedCustomItem() const { return m_controller->selectedCustomItem(); } QQmlListProperty AbstractDeclarative::customItemList() { return QQmlListProperty(this, this, &AbstractDeclarative::appendCustomItemFunc, &AbstractDeclarative::countCustomItemFunc, &AbstractDeclarative::atCustomItemFunc, &AbstractDeclarative::clearCustomItemFunc); } void AbstractDeclarative::appendCustomItemFunc(QQmlListProperty *list, QCustom3DItem *item) { AbstractDeclarative *decl = reinterpret_cast(list->data); decl->addCustomItem(item); } int AbstractDeclarative::countCustomItemFunc(QQmlListProperty *list) { return reinterpret_cast(list->data)->m_controller->m_customItems.size(); } QCustom3DItem *AbstractDeclarative::atCustomItemFunc(QQmlListProperty *list, int index) { return reinterpret_cast(list->data)->m_controller->m_customItems.at(index); } void AbstractDeclarative::clearCustomItemFunc(QQmlListProperty *list) { AbstractDeclarative *decl = reinterpret_cast(list->data); decl->removeCustomItems(); } void AbstractDeclarative::setSharedController(Abstract3DController *controller) { Q_ASSERT(controller); m_controller = controller; if (!m_controller->isOpenGLES()) m_samples = 4; setAntialiasing(m_samples > 0); // Reset default theme, as the default C++ theme is Q3DTheme, not DeclarativeTheme3D. DeclarativeTheme3D *defaultTheme = new DeclarativeTheme3D; defaultTheme->d_ptr->setDefaultTheme(true); defaultTheme->setType(Q3DTheme::ThemeQt); m_controller->setActiveTheme(defaultTheme); QObject::connect(m_controller.data(), &Abstract3DController::shadowQualityChanged, this, &AbstractDeclarative::handleShadowQualityChange); QObject::connect(m_controller.data(), &Abstract3DController::activeInputHandlerChanged, this, &AbstractDeclarative::inputHandlerChanged); QObject::connect(m_controller.data(), &Abstract3DController::activeThemeChanged, this, &AbstractDeclarative::themeChanged); QObject::connect(m_controller.data(), &Abstract3DController::selectionModeChanged, this, &AbstractDeclarative::handleSelectionModeChange); QObject::connect(m_controller.data(), &Abstract3DController::elementSelected, this, &AbstractDeclarative::handleSelectedElementChange); QObject::connect(m_controller.data(), &Abstract3DController::axisXChanged, this, &AbstractDeclarative::handleAxisXChanged); QObject::connect(m_controller.data(), &Abstract3DController::axisYChanged, this, &AbstractDeclarative::handleAxisYChanged); QObject::connect(m_controller.data(), &Abstract3DController::axisZChanged, this, &AbstractDeclarative::handleAxisZChanged); QObject::connect(m_controller.data(), &Abstract3DController::measureFpsChanged, this, &AbstractDeclarative::measureFpsChanged); QObject::connect(m_controller.data(), &Abstract3DController::currentFpsChanged, this, &AbstractDeclarative::currentFpsChanged); QObject::connect(m_controller.data(), &Abstract3DController::orthoProjectionChanged, this, &AbstractDeclarative::orthoProjectionChanged); QObject::connect(m_controller.data(), &Abstract3DController::aspectRatioChanged, this, &AbstractDeclarative::aspectRatioChanged); QObject::connect(m_controller.data(), &Abstract3DController::optimizationHintsChanged, this, &AbstractDeclarative::handleOptimizationHintChange); QObject::connect(m_controller.data(), &Abstract3DController::polarChanged, this, &AbstractDeclarative::polarChanged); QObject::connect(m_controller.data(), &Abstract3DController::radialLabelOffsetChanged, this, &AbstractDeclarative::radialLabelOffsetChanged); QObject::connect(m_controller.data(), &Abstract3DController::horizontalAspectRatioChanged, this, &AbstractDeclarative::horizontalAspectRatioChanged); QObject::connect(m_controller.data(), &Abstract3DController::reflectionChanged, this, &AbstractDeclarative::reflectionChanged); QObject::connect(m_controller.data(), &Abstract3DController::reflectivityChanged, this, &AbstractDeclarative::reflectivityChanged); QObject::connect(m_controller.data(), &Abstract3DController::localeChanged, this, &AbstractDeclarative::localeChanged); QObject::connect(m_controller.data(), &Abstract3DController::queriedGraphPositionChanged, this, &AbstractDeclarative::queriedGraphPositionChanged); QObject::connect(m_controller.data(), &Abstract3DController::marginChanged, this, &AbstractDeclarative::marginChanged); } void AbstractDeclarative::activateOpenGLContext(QQuickWindow *window) { #ifdef USE_SHARED_CONTEXT // We can assume we are not in middle of AbstractDeclarative destructor when we are here, // since m_context creation is always done when this function is called from // synchDataToRenderer(), which blocks main thread -> no need to mutex. if (!m_context || !m_qtContext || m_contextWindow != window) { QOpenGLContext *currentContext = QOpenGLContext::currentContext(); // Note: Changing graph to different window when using multithreaded renderer will break! delete m_context; m_contextThread = QThread::currentThread(); m_contextWindow = window; m_qtContext = currentContext; m_context = new QOpenGLContext(); m_context->setFormat(m_qtContext->format()); m_context->setShareContext(m_qtContext); m_context->create(); m_context->makeCurrent(window); m_controller->initializeOpenGL(); // Make sure context gets deleted. QObject::connect(m_contextThread, &QThread::finished, this, &AbstractDeclarative::destroyContext, Qt::DirectConnection); } else { m_context->makeCurrent(window); } #else // Shared contexts don't work properly in some platforms, so just store the // context state on those if (!m_stateStore || !m_qtContext || m_contextWindow != window) { QOpenGLContext *currentContext = QOpenGLContext::currentContext(); // Note: Changing graph to different window when using multithreaded renderer will break! delete m_stateStore; m_contextThread = QThread::currentThread(); m_contextWindow = window; m_qtContext = currentContext; m_stateStore = new GLStateStore(QOpenGLContext::currentContext()); m_stateStore->storeGLState(); m_controller->initializeOpenGL(); // Make sure state store gets deleted. QObject::connect(m_contextThread, &QThread::finished, this, &AbstractDeclarative::destroyContext, Qt::DirectConnection); } else { m_stateStore->storeGLState(); } #endif } void AbstractDeclarative::doneOpenGLContext(QQuickWindow *window) { #ifdef USE_SHARED_CONTEXT m_qtContext->makeCurrent(window); #else Q_UNUSED(window) m_stateStore->restoreGLState(); #endif } void AbstractDeclarative::synchDataToRenderer() { if (m_renderMode == RenderDirectToBackground && clearList.size()) clearList.clear(); QQuickWindow *win = window(); activateOpenGLContext(win); m_controller->synchDataToRenderer(); doneOpenGLContext(win); } int AbstractDeclarative::msaaSamples() const { if (m_renderMode == RenderIndirect) return m_samples; else return m_windowSamples; } void AbstractDeclarative::setMsaaSamples(int samples) { if (m_renderMode != RenderIndirect) { qWarning("Multisampling cannot be adjusted in this render mode"); } else { if (m_controller->isOpenGLES()) { if (samples > 0) qWarning("Multisampling is not supported in OpenGL ES2"); } else if (m_samples != samples) { m_samples = samples; setAntialiasing(m_samples > 0); emit msaaSamplesChanged(samples); update(); } } } void AbstractDeclarative::handleWindowChanged(QQuickWindow *window) { checkWindowList(window); if (!window) return; #if defined(Q_OS_OSX) bool previousVisibility = window->isVisible(); // Enable touch events for Mac touchpads window->setVisible(true); typedef void * (*EnableTouch)(QWindow*, bool); EnableTouch enableTouch = (EnableTouch)QGuiApplication::platformNativeInterface()->nativeResourceFunctionForIntegration("registertouchwindow"); if (enableTouch) enableTouch(window, true); window->setVisible(previousVisibility); #endif connect(window, &QObject::destroyed, this, &AbstractDeclarative::windowDestroyed); int oldWindowSamples = m_windowSamples; m_windowSamples = window->format().samples(); if (m_windowSamples < 0) m_windowSamples = 0; connect(window, &QQuickWindow::beforeSynchronizing, this, &AbstractDeclarative::synchDataToRenderer, Qt::DirectConnection); if (m_renderMode == RenderDirectToBackground_NoClear || m_renderMode == RenderDirectToBackground) { connect(window, &QQuickWindow::beforeRendering, this, &AbstractDeclarative::render, Qt::DirectConnection); setAntialiasing(m_windowSamples > 0); if (m_windowSamples != oldWindowSamples) emit msaaSamplesChanged(m_windowSamples); } connect(m_controller.data(), &Abstract3DController::needRender, window, &QQuickWindow::update); updateWindowParameters(); #if defined(Q_OS_IOS) // Scenegraph render cycle in iOS sometimes misses update after beforeSynchronizing signal. // This ensures we don't end up displaying the graph without any data, in case update is // skipped after synchDataToRenderer. QTimer::singleShot(0, window, SLOT(update())); #endif } void AbstractDeclarative::geometryChanged(const QRectF &newGeometry, const QRectF &oldGeometry) { QQuickItem::geometryChanged(newGeometry, oldGeometry); m_cachedGeometry = newGeometry; updateWindowParameters(); } void AbstractDeclarative::itemChange(ItemChange change, const ItemChangeData & value) { QQuickItem::itemChange(change, value); updateWindowParameters(); } void AbstractDeclarative::updateWindowParameters() { const QMutexLocker locker(&m_mutex); // Update the device pixel ratio, window size and bounding box QQuickWindow *win = window(); if (win && !m_controller.isNull()) { Q3DScene *scene = m_controller->scene(); if (win->devicePixelRatio() != scene->devicePixelRatio()) { scene->setDevicePixelRatio(win->devicePixelRatio()); win->update(); } bool directRender = m_renderMode == RenderDirectToBackground || m_renderMode == RenderDirectToBackground_NoClear; QSize windowSize; if (directRender) windowSize = win->size(); else windowSize = m_cachedGeometry.size().toSize(); if (windowSize != scene->d_ptr->windowSize()) { scene->d_ptr->setWindowSize(windowSize); win->update(); } if (directRender) { // Origin mapping is needed when rendering directly to background QPointF point = QQuickItem::mapToScene(QPointF(0.0, 0.0)); scene->d_ptr->setViewport(QRect(point.x() + 0.5f, point.y() + 0.5f, m_cachedGeometry.width() + 0.5f, m_cachedGeometry.height() + 0.5f)); } else { // No translation needed when rendering to FBO scene->d_ptr->setViewport(QRect(0.0, 0.0, m_cachedGeometry.width() + 0.5f, m_cachedGeometry.height() + 0.5f)); } } } void AbstractDeclarative::handleSelectionModeChange(QAbstract3DGraph::SelectionFlags mode) { int intmode = int(mode); emit selectionModeChanged(SelectionFlags(intmode)); } void AbstractDeclarative::handleShadowQualityChange(QAbstract3DGraph::ShadowQuality quality) { emit shadowQualityChanged(ShadowQuality(quality)); } void AbstractDeclarative::handleSelectedElementChange(QAbstract3DGraph::ElementType type) { emit selectedElementChanged(ElementType(type)); } void AbstractDeclarative::handleOptimizationHintChange(QAbstract3DGraph::OptimizationHints hints) { int intHints = int(hints); emit optimizationHintsChanged(OptimizationHints(intHints)); } void AbstractDeclarative::render() { updateWindowParameters(); // If we're not rendering directly to the background, return if (m_renderMode != RenderDirectToBackground && m_renderMode != RenderDirectToBackground_NoClear) return; // Clear the background once per window as that is not done by default QQuickWindow *win = window(); activateOpenGLContext(win); QOpenGLFunctions *funcs = QOpenGLContext::currentContext()->functions(); if (m_renderMode == RenderDirectToBackground && !clearList.contains(win)) { clearList.append(win); QColor clearColor = win->color(); funcs->glClearColor(clearColor.redF(), clearColor.greenF(), clearColor.blueF(), 1.0f); funcs->glClear(GL_COLOR_BUFFER_BIT); } if (isVisible()) { funcs->glDepthMask(GL_TRUE); funcs->glEnable(GL_DEPTH_TEST); funcs->glDepthFunc(GL_LESS); funcs->glEnable(GL_CULL_FACE); funcs->glCullFace(GL_BACK); funcs->glDisable(GL_BLEND); m_controller->render(); funcs->glEnable(GL_BLEND); } doneOpenGLContext(win); } QAbstract3DInputHandler* AbstractDeclarative::inputHandler() const { return m_controller->activeInputHandler(); } void AbstractDeclarative::setInputHandler(QAbstract3DInputHandler *inputHandler) { m_controller->setActiveInputHandler(inputHandler); } void AbstractDeclarative::mouseDoubleClickEvent(QMouseEvent *event) { m_controller->mouseDoubleClickEvent(event); } void AbstractDeclarative::touchEvent(QTouchEvent *event) { m_controller->touchEvent(event); window()->update(); } void AbstractDeclarative::mousePressEvent(QMouseEvent *event) { QPoint mousePos = event->pos(); m_controller->mousePressEvent(event, mousePos); } void AbstractDeclarative::mouseReleaseEvent(QMouseEvent *event) { QPoint mousePos = event->pos(); m_controller->mouseReleaseEvent(event, mousePos); } void AbstractDeclarative::mouseMoveEvent(QMouseEvent *event) { QPoint mousePos = event->pos(); m_controller->mouseMoveEvent(event, mousePos); } #if QT_CONFIG(wheelevent) void AbstractDeclarative::wheelEvent(QWheelEvent *event) { m_controller->wheelEvent(event); } #endif void AbstractDeclarative::checkWindowList(QQuickWindow *window) { QQuickWindow *oldWindow = graphWindowList.value(this); graphWindowList[this] = window; if (oldWindow != window && oldWindow) { QObject::disconnect(oldWindow, &QObject::destroyed, this, &AbstractDeclarative::windowDestroyed); QObject::disconnect(oldWindow, &QQuickWindow::beforeSynchronizing, this, &AbstractDeclarative::synchDataToRenderer); QObject::disconnect(oldWindow, &QQuickWindow::beforeRendering, this, &AbstractDeclarative::render); if (!m_controller.isNull()) { QObject::disconnect(m_controller.data(), &Abstract3DController::needRender, oldWindow, &QQuickWindow::update); } } QList windowList; foreach (AbstractDeclarative *graph, graphWindowList.keys()) { if (graph->m_renderMode == RenderDirectToBackground || graph->m_renderMode == RenderDirectToBackground_NoClear) { windowList.append(graphWindowList.value(graph)); } } if (oldWindow && !windowList.contains(oldWindow) && windowClearList.values(oldWindow).size() != 0) { // Return window clear value oldWindow->setClearBeforeRendering(windowClearList.value(oldWindow)); windowClearList.remove(oldWindow); } if (!window) { graphWindowList.remove(this); return; } if ((m_renderMode == RenderDirectToBackground || m_renderMode == RenderDirectToBackground_NoClear) && windowClearList.values(window).size() == 0) { // Save old clear value windowClearList[window] = window->clearBeforeRendering(); // Disable clearing of the window as we render underneath window->setClearBeforeRendering(false); } } void AbstractDeclarative::setMeasureFps(bool enable) { m_controller->setMeasureFps(enable); } bool AbstractDeclarative::measureFps() const { return m_controller->measureFps(); } qreal AbstractDeclarative::currentFps() const { return m_controller->currentFps(); } void AbstractDeclarative::setOrthoProjection(bool enable) { m_controller->setOrthoProjection(enable); } bool AbstractDeclarative::isOrthoProjection() const { return m_controller->isOrthoProjection(); } AbstractDeclarative::ElementType AbstractDeclarative::selectedElement() const { return ElementType(m_controller->selectedElement()); } void AbstractDeclarative::setAspectRatio(qreal ratio) { m_controller->setAspectRatio(ratio); } qreal AbstractDeclarative::aspectRatio() const { return m_controller->aspectRatio(); } void AbstractDeclarative::setOptimizationHints(OptimizationHints hints) { int intmode = int(hints); m_controller->setOptimizationHints(QAbstract3DGraph::OptimizationHints(intmode)); } AbstractDeclarative::OptimizationHints AbstractDeclarative::optimizationHints() const { int intmode = int(m_controller->optimizationHints()); return OptimizationHints(intmode); } void AbstractDeclarative::setPolar(bool enable) { m_controller->setPolar(enable); } bool AbstractDeclarative::isPolar() const { return m_controller->isPolar(); } void AbstractDeclarative::setRadialLabelOffset(float offset) { m_controller->setRadialLabelOffset(offset); } float AbstractDeclarative::radialLabelOffset() const { return m_controller->radialLabelOffset(); } void AbstractDeclarative::setHorizontalAspectRatio(qreal ratio) { m_controller->setHorizontalAspectRatio(ratio); } qreal AbstractDeclarative::horizontalAspectRatio() const { return m_controller->horizontalAspectRatio(); } void AbstractDeclarative::setReflection(bool enable) { m_controller->setReflection(enable); } bool AbstractDeclarative::isReflection() const { return m_controller->reflection(); } void AbstractDeclarative::setReflectivity(qreal reflectivity) { m_controller->setReflectivity(reflectivity); } qreal AbstractDeclarative::reflectivity() const { return m_controller->reflectivity(); } void AbstractDeclarative::setLocale(const QLocale &locale) { m_controller->setLocale(locale); } QLocale AbstractDeclarative::locale() const { return m_controller->locale(); } QVector3D AbstractDeclarative::queriedGraphPosition() const { return m_controller->queriedGraphPosition(); } void AbstractDeclarative::setMargin(qreal margin) { m_controller->setMargin(margin); } qreal AbstractDeclarative::margin() const { return m_controller->margin(); } void AbstractDeclarative::windowDestroyed(QObject *obj) { // Remove destroyed window from window lists QQuickWindow *win = static_cast(obj); QQuickWindow *oldWindow = graphWindowList.value(this); if (win == oldWindow) graphWindowList.remove(this); windowClearList.remove(win); } void AbstractDeclarative::destroyContext() { #ifdef USE_SHARED_CONTEXT // Context can be in another thread, don't delete it directly in that case if (m_contextThread && m_contextThread != m_mainThread) { if (m_context) m_context->deleteLater(); } else { delete m_context; } m_context = 0; #else if (m_contextThread && m_contextThread != m_mainThread) { if (m_stateStore) m_stateStore->deleteLater(); } else { delete m_stateStore; } m_stateStore = 0; #endif if (m_contextThread) { QObject::disconnect(m_contextThread, &QThread::finished, this, &AbstractDeclarative::destroyContext); m_contextThread = 0; } } QT_END_NAMESPACE_DATAVISUALIZATION