/**************************************************************************** ** ** 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 "qmlprofileranimationsmodel.h" #include "qmlprofilermodelmanager.h" #include #include #include #include #include #include #include #include namespace QmlProfiler { namespace Internal { QmlProfilerAnimationsModel::QmlProfilerAnimationsModel(QmlProfilerModelManager *manager, Timeline::TimelineModelAggregator *parent) : QmlProfilerTimelineModel(manager, Event, MaximumRangeType, ProfileAnimations, parent) { m_minNextStartTimes[0] = m_minNextStartTimes[1] = 0; } void QmlProfilerAnimationsModel::clear() { m_minNextStartTimes[0] = m_minNextStartTimes[1] = 0; m_maxGuiThreadAnimations = m_maxRenderThreadAnimations = 0; m_data.clear(); QmlProfilerTimelineModel::clear(); } void QmlProfilerAnimationsModel::loadEvent(const QmlEvent &event, const QmlEventType &type) { Q_UNUSED(type) AnimationThread lastThread = (AnimationThread)event.number(2); // initial estimation of the event duration: 1/framerate qint64 estimatedDuration = event.number(0) > 0 ? 1e9 / event.number(0) : 1; // the profiler registers the animation events at the end of them qint64 realEndTime = event.timestamp(); // ranges should not overlap. If they do, our estimate wasn't accurate enough qint64 realStartTime = qMax(event.timestamp() - estimatedDuration, m_minNextStartTimes[lastThread]); // Sometimes our estimate is far off or the server has miscalculated the frame rate if (realStartTime >= realEndTime) realEndTime = realStartTime + 1; // Don't "fix" the framerate even if we've fixed the duration. // The server should know better after all and if it doesn't we want to see that. Item lastEvent; lastEvent.typeId = event.typeIndex(); lastEvent.framerate = event.number(0); lastEvent.animationcount = event.number(1); m_data.insert(insert(realStartTime, realEndTime - realStartTime, lastThread), lastEvent); if (lastThread == GuiThread) m_maxGuiThreadAnimations = qMax(lastEvent.animationcount, m_maxGuiThreadAnimations); else m_maxRenderThreadAnimations = qMax(lastEvent.animationcount, m_maxRenderThreadAnimations); m_minNextStartTimes[lastThread] = event.timestamp() + 1; } void QmlProfilerAnimationsModel::finalize() { computeNesting(); setExpandedRowCount((m_maxGuiThreadAnimations == 0 || m_maxRenderThreadAnimations == 0) ? 2 : 3); setCollapsedRowCount(expandedRowCount()); QmlProfilerTimelineModel::finalize(); } int QmlProfilerAnimationsModel::rowFromThreadId(int threadId) const { return (threadId == GuiThread || m_maxGuiThreadAnimations == 0) ? 1 : 2; } qint64 QmlProfilerAnimationsModel::rowMaxValue(int rowNumber) const { switch (rowNumber) { case 1: return m_maxGuiThreadAnimations > 0 ? m_maxGuiThreadAnimations : m_maxRenderThreadAnimations; case 2: return m_maxRenderThreadAnimations; default: return QmlProfilerTimelineModel::rowMaxValue(rowNumber); } } int QmlProfilerAnimationsModel::typeId(int index) const { return m_data[index].typeId; } int QmlProfilerAnimationsModel::expandedRow(int index) const { return rowFromThreadId(selectionId(index)); } int QmlProfilerAnimationsModel::collapsedRow(int index) const { return rowFromThreadId(selectionId(index)); } QRgb QmlProfilerAnimationsModel::color(int index) const { double fpsFraction = m_data[index].framerate / 60.0; if (fpsFraction > 1.0) fpsFraction = 1.0; if (fpsFraction < 0.0) fpsFraction = 0.0; return colorByFraction(fpsFraction); } float QmlProfilerAnimationsModel::relativeHeight(int index) const { return (float)m_data[index].animationcount / (float)(selectionId(index) == GuiThread ? m_maxGuiThreadAnimations : m_maxRenderThreadAnimations); } QVariantList QmlProfilerAnimationsModel::labels() const { QVariantList result; if (m_maxGuiThreadAnimations > 0) { QVariantMap element; element.insert(QLatin1String("displayName"), tr("Animations")); element.insert(QLatin1String("description"), tr("GUI Thread")); element.insert(QLatin1String("id"), GuiThread); result << element; } if (m_maxRenderThreadAnimations > 0) { QVariantMap element; element.insert(QLatin1String("displayName"), tr("Animations")); element.insert(QLatin1String("description"), tr("Render Thread")); element.insert(QLatin1String("id"), RenderThread); result << element; } return result; } QVariantMap QmlProfilerAnimationsModel::details(int index) const { QVariantMap result; result.insert(QStringLiteral("displayName"), displayName()); result.insert(tr("Duration"), Timeline::formatTime(duration(index))); result.insert(tr("Framerate"), QString::fromLatin1("%1 FPS").arg(m_data[index].framerate)); result.insert(tr("Animations"), QString::number(m_data[index].animationcount)); result.insert(tr("Context"), selectionId(index) == GuiThread ? tr("GUI Thread") : tr("Render Thread")); return result; } } // namespace Internal } // namespace QmlProfiler