/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of Qt Creator. ** ** 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 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** 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. ** ****************************************************************************/ #include "qmlprofilerstatisticsmodel.h" #include "qmlprofilermodelmanager.h" #include "qmlprofilerdatamodel.h" #include #include #include #include #include #include #include namespace QmlProfiler { class QmlProfilerStatisticsModel::QmlProfilerStatisticsModelPrivate { public: QHash data; QHash workingSet; QPointer childrenModel; QPointer parentsModel; QmlProfilerModelManager *modelManager; int modelId; QList acceptedTypes; QSet eventsInBindingLoop; QHash notes; QStack callStack; QStack compileStack; qint64 qmlTime = 0; qint64 lastEndTime = 0; QHash > durations; }; QmlProfilerStatisticsModel::QmlProfilerStatisticsModel(QmlProfilerModelManager *modelManager, QObject *parent) : QObject(parent), d(new QmlProfilerStatisticsModelPrivate) { d->modelManager = modelManager; d->callStack.push(QmlEvent()); d->compileStack.push(QmlEvent()); connect(modelManager, &QmlProfilerModelManager::stateChanged, this, &QmlProfilerStatisticsModel::dataChanged); connect(modelManager->notesModel(), &Timeline::TimelineNotesModel::changed, this, &QmlProfilerStatisticsModel::notesChanged); d->modelId = modelManager->registerModelProxy(); d->acceptedTypes << Compiling << Creating << Binding << HandlingSignal << Javascript; modelManager->announceFeatures(Constants::QML_JS_RANGE_FEATURES, [this](const QmlEvent &event, const QmlEventType &type) { loadEvent(event, type); }, [this]() { finalize(); }); } QmlProfilerStatisticsModel::~QmlProfilerStatisticsModel() { delete d; } void QmlProfilerStatisticsModel::restrictToFeatures(qint64 features) { bool didChange = false; for (int i = 0; i < MaximumRangeType; ++i) { RangeType type = static_cast(i); quint64 featureFlag = 1ULL << featureFromRangeType(type); if (Constants::QML_JS_RANGE_FEATURES & featureFlag) { bool accepted = features & featureFlag; if (accepted && !d->acceptedTypes.contains(type)) { d->acceptedTypes << type; didChange = true; } else if (!accepted && d->acceptedTypes.contains(type)) { d->acceptedTypes.removeOne(type); didChange = true; } } } if (!didChange || d->modelManager->state() != QmlProfilerModelManager::Done) return; clear(); d->modelManager->qmlModel()->replayEvents(d->modelManager->traceTime()->startTime(), d->modelManager->traceTime()->endTime(), std::bind(&QmlProfilerStatisticsModel::loadEvent, this, std::placeholders::_1, std::placeholders::_2)); finalize(); notesChanged(-1); // Reload notes } const QHash &QmlProfilerStatisticsModel::getData() const { return d->data; } const QVector &QmlProfilerStatisticsModel::getTypes() const { return d->modelManager->qmlModel()->eventTypes(); } const QHash &QmlProfilerStatisticsModel::getNotes() const { return d->notes; } void QmlProfilerStatisticsModel::clear() { d->data.clear(); d->eventsInBindingLoop.clear(); d->notes.clear(); d->callStack.clear(); d->compileStack.clear(); d->callStack.push(QmlEvent()); d->compileStack.push(QmlEvent()); d->qmlTime = 0; d->lastEndTime = 0; d->durations.clear(); if (!d->childrenModel.isNull()) d->childrenModel->clear(); if (!d->parentsModel.isNull()) d->parentsModel->clear(); } void QmlProfilerStatisticsModel::setRelativesModel(QmlProfilerStatisticsRelativesModel *relative, QmlProfilerStatisticsRelation relation) { if (relation == QmlProfilerStatisticsParents) d->parentsModel = relative; else d->childrenModel = relative; } QmlProfilerModelManager *QmlProfilerStatisticsModel::modelManager() const { return d->modelManager; } void QmlProfilerStatisticsModel::dataChanged() { if (d->modelManager->state() == QmlProfilerModelManager::ClearingData) clear(); } void QmlProfilerStatisticsModel::notesChanged(int typeIndex) { const QmlProfilerNotesModel *notesModel = d->modelManager->notesModel(); if (typeIndex == -1) { d->notes.clear(); for (int noteId = 0; noteId < notesModel->count(); ++noteId) { int noteType = notesModel->typeId(noteId); if (noteType != -1) { QString ¬e = d->notes[noteType]; if (note.isEmpty()) { note = notesModel->text(noteId); } else { note.append(QStringLiteral("\n")).append(notesModel->text(noteId)); } } } } else { d->notes.remove(typeIndex); const QVariantList changedNotes = notesModel->byTypeId(typeIndex); if (!changedNotes.isEmpty()) { QStringList newNotes; for (QVariantList::ConstIterator it = changedNotes.begin(); it != changedNotes.end(); ++it) { newNotes << notesModel->text(it->toInt()); } d->notes[typeIndex] = newNotes.join(QStringLiteral("\n")); } } emit notesAvailable(typeIndex); } void QmlProfilerStatisticsModel::loadEvent(const QmlEvent &event, const QmlEventType &type) { if (!d->acceptedTypes.contains(type.rangeType())) return; QStack &stack = type.rangeType() == Compiling ? d->compileStack : d->callStack; switch (event.rangeStage()) { case RangeStart: // binding loop detection: check whether event is already in stack if (type.rangeType() == Binding || type.rangeType() == HandlingSignal) { for (int ii = 1; ii < stack.size(); ++ii) { if (stack.at(ii).typeIndex() == event.typeIndex()) { d->eventsInBindingLoop.insert(event.typeIndex()); break; } } } stack.push(event); break; case RangeEnd: { // update stats QmlEventStats *stats = &d->data[event.typeIndex()]; qint64 duration = event.timestamp() - stack.top().timestamp(); stats->duration += duration; stats->durationSelf += duration; if (duration < stats->minTime) stats->minTime = duration; if (duration > stats->maxTime) stats->maxTime = duration; stats->calls++; // for median computing d->durations[event.typeIndex()].append(duration); // qml time computation if (event.timestamp() > d->lastEndTime) { // assume parent event if starts before last end d->qmlTime += duration; d->lastEndTime = event.timestamp(); } stack.pop(); if (stack.count() > 1) d->data[stack.top().typeIndex()].durationSelf -= duration; break; } default: return; } if (!d->childrenModel.isNull()) d->childrenModel->loadEvent(type.rangeType(), event); if (!d->parentsModel.isNull()) d->parentsModel->loadEvent(type.rangeType(), event); } void QmlProfilerStatisticsModel::finalize() { // post-process: calc mean time, median time, percentoftime for (QHash::iterator it = d->data.begin(); it != d->data.end(); ++it) { QmlEventStats* stats = &it.value(); if (stats->calls > 0) stats->timePerCall = stats->duration / (double)stats->calls; QVector eventDurations = d->durations[it.key()]; if (!eventDurations.isEmpty()) { Utils::sort(eventDurations); stats->medianTime = eventDurations.at(eventDurations.count()/2); } stats->percentOfTime = stats->duration * 100.0 / d->qmlTime; stats->percentSelf = stats->durationSelf * 100.0 / d->qmlTime; } // set binding loop flag foreach (int typeIndex, d->eventsInBindingLoop) d->data[typeIndex].isBindingLoop = true; // insert root event QmlEventStats rootEvent; rootEvent.duration = rootEvent.minTime = rootEvent.maxTime = rootEvent.timePerCall = rootEvent.medianTime = d->qmlTime + 1; rootEvent.durationSelf = 1; rootEvent.calls = 1; rootEvent.percentOfTime = 100.0; rootEvent.percentSelf = 1.0 / rootEvent.duration; d->data.insert(-1, rootEvent); if (!d->childrenModel.isNull()) d->childrenModel->finalize(d->eventsInBindingLoop); if (!d->parentsModel.isNull()) d->parentsModel->finalize(d->eventsInBindingLoop); emit dataAvailable(); } int QmlProfilerStatisticsModel::count() const { return d->data.count(); } QmlProfilerStatisticsRelativesModel::QmlProfilerStatisticsRelativesModel( QmlProfilerModelManager *modelManager, QmlProfilerStatisticsModel *statisticsModel, QmlProfilerStatisticsRelation relation, QObject *parent) : QObject(parent), m_relation(relation) { QTC_CHECK(modelManager); m_modelManager = modelManager; QTC_CHECK(statisticsModel); statisticsModel->setRelativesModel(this, relation); // Load the child models whenever the parent model is done to get the filtering for JS/QML // right. connect(statisticsModel, &QmlProfilerStatisticsModel::dataAvailable, this, &QmlProfilerStatisticsRelativesModel::dataAvailable); } const QmlProfilerStatisticsRelativesModel::QmlStatisticsRelativesMap & QmlProfilerStatisticsRelativesModel::getData(int typeId) const { QHash ::ConstIterator it = m_data.find(typeId); if (it != m_data.end()) { return it.value(); } else { static const QmlStatisticsRelativesMap emptyMap; return emptyMap; } } const QVector &QmlProfilerStatisticsRelativesModel::getTypes() const { return m_modelManager->qmlModel()->eventTypes(); } void QmlProfilerStatisticsRelativesModel::loadEvent(RangeType type, const QmlEvent &event) { QStack &stack = (type == Compiling) ? m_compileStack : m_callStack; switch (event.rangeStage()) { case RangeStart: stack.push({event.timestamp(), event.typeIndex()}); break; case RangeEnd: { int parentTypeIndex = stack.count() > 1 ? stack[stack.count() - 2].typeId : -1; int relativeTypeIndex = (m_relation == QmlProfilerStatisticsParents) ? parentTypeIndex : event.typeIndex(); int selfTypeIndex = (m_relation == QmlProfilerStatisticsParents) ? event.typeIndex() : parentTypeIndex; QmlStatisticsRelativesMap &relativesMap = m_data[selfTypeIndex]; QmlStatisticsRelativesMap::Iterator it = relativesMap.find(relativeTypeIndex); if (it != relativesMap.end()) { it.value().calls++; it.value().duration += event.timestamp() - stack.top().startTime; } else { QmlStatisticsRelativesData relative = { event.timestamp() - stack.top().startTime, 1, false }; relativesMap.insert(relativeTypeIndex, relative); } stack.pop(); break; } default: break; } } void QmlProfilerStatisticsRelativesModel::finalize(const QSet &eventsInBindingLoop) { for (auto map = m_data.begin(), mapEnd = m_data.end(); map != mapEnd; ++map) { auto itemEnd = map->end(); foreach (int typeIndex, eventsInBindingLoop) { auto item = map->find(typeIndex); if (item != itemEnd) item->isBindingLoop = true; } } } QmlProfilerStatisticsRelation QmlProfilerStatisticsRelativesModel::relation() const { return m_relation; } int QmlProfilerStatisticsRelativesModel::count() const { return m_data.count(); } void QmlProfilerStatisticsRelativesModel::clear() { m_data.clear(); m_callStack.clear(); m_compileStack.clear(); } } // namespace QmlProfiler