/**************************************************************************** ** ** Copyright (C) 2014 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** 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 Digia. For licensing terms and ** conditions see http://www.qt.io/licensing. For further information ** use the contact form at http://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 or version 3 as published by the Free ** Software Foundation and appearing in the file LICENSE.LGPLv21 and ** LICENSE.LGPLv3 included in the packaging of this file. Please review the ** following information to ensure the GNU Lesser General Public License ** requirements will be met: https://www.gnu.org/licenses/lgpl.html and ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ****************************************************************************/ #include "qmlprofilertraceclient.h" namespace QmlDebug { class QmlProfilerTraceClientPrivate { public: QmlProfilerTraceClientPrivate(QmlProfilerTraceClient *_q) : q(_q) , inProgressRanges(0) , maximumTime(0) , recording(false) { ::memset(rangeCount, 0, MaximumRangeType * sizeof(int)); } void sendRecordingStatus(); QmlProfilerTraceClient *q; qint64 inProgressRanges; QStack rangeStartTimes[MaximumRangeType]; QStack rangeDatas[MaximumRangeType]; QStack rangeLocations[MaximumRangeType]; QStack bindingTypes; int rangeCount[MaximumRangeType]; qint64 maximumTime; bool recording; }; } // namespace QmlDebug using namespace QmlDebug; static const int GAP_TIME = 150; void QmlProfilerTraceClientPrivate::sendRecordingStatus() { QByteArray ba; QDataStream stream(&ba, QIODevice::WriteOnly); stream << recording; q->sendMessage(ba); } QmlProfilerTraceClient::QmlProfilerTraceClient(QmlDebugConnection *client) : QmlDebugClient(QLatin1String("CanvasFrameRate"), client) , d(new QmlProfilerTraceClientPrivate(this)) { } QmlProfilerTraceClient::~QmlProfilerTraceClient() { //Disable profiling if started by client //Profiling data will be lost!! if (isRecording()) setRecording(false); delete d; } void QmlProfilerTraceClient::clearData() { ::memset(d->rangeCount, 0, MaximumRangeType * sizeof(int)); for (int eventType = 0; eventType < MaximumRangeType; eventType++) { d->rangeDatas[eventType].clear(); d->rangeLocations[eventType].clear(); d->rangeStartTimes[eventType].clear(); } d->bindingTypes.clear(); emit cleared(); } void QmlProfilerTraceClient::sendRecordingStatus() { d->sendRecordingStatus(); } bool QmlProfilerTraceClient::isEnabled() const { return state() == Enabled; } bool QmlProfilerTraceClient::isRecording() const { return d->recording; } void QmlProfilerTraceClient::setRecording(bool v) { if (v == d->recording) return; d->recording = v; if (state() == Enabled) sendRecordingStatus(); emit recordingChanged(v); } void QmlProfilerTraceClient::setRecordingFromServer(bool v) { if (v == d->recording) return; d->recording = v; emit recordingChanged(v); } void QmlProfilerTraceClient::stateChanged(State /*status*/) { emit enabledChanged(); } void QmlProfilerTraceClient::messageReceived(const QByteArray &data) { QByteArray rwData = data; QDataStream stream(&rwData, QIODevice::ReadOnly); qint64 time; int messageType; stream >> time >> messageType; if (messageType >= MaximumMessage) return; if (time > (d->maximumTime + GAP_TIME) && 0 == d->inProgressRanges) emit gap(time); if (messageType == Event) { int event; stream >> event; // stop with the first data if (d->recording && event != StartTrace) setRecordingFromServer(false); else if ((!d->recording) && event == StartTrace) setRecordingFromServer(true); if (event == EndTrace) { emit this->traceFinished(time); d->maximumTime = time; d->maximumTime = qMax(time, d->maximumTime); } else if (event == AnimationFrame) { int frameRate, animationCount; int threadId; stream >> frameRate >> animationCount; if (!stream.atEnd()) stream >> threadId; else threadId = 0; emit rangedEvent(Event, MaximumRangeType, AnimationFrame, time, 0, QString(), QmlDebug::QmlEventLocation(), frameRate, animationCount, threadId,0,0); d->maximumTime = qMax(time, d->maximumTime); } else if (event == StartTrace) { emit this->traceStarted(time); d->maximumTime = time; } else if (event < MaximumEventType) { emit this->event((EventType)event, time); d->maximumTime = qMax(time, d->maximumTime); } } else if (messageType == Complete) { emit complete(d->maximumTime); } else if (messageType == SceneGraphFrame) { int sgEventType; int count = 0; qint64 params[5]; stream >> sgEventType; while (!stream.atEnd()) { stream >> params[count++]; } while (count<5) params[count++] = 0; emit rangedEvent(SceneGraphFrame, QmlDebug::MaximumRangeType, sgEventType,time, 0, QString(), QmlDebug::QmlEventLocation(), params[0], params[1], params[2], params[3], params[4]); } else if (messageType == PixmapCacheEvent) { int pixEvTy, width = 0, height = 0, refcount = 0; QString pixUrl; stream >> pixEvTy >> pixUrl; if (pixEvTy == (int)PixmapReferenceCountChanged || pixEvTy == (int)PixmapCacheCountChanged) { stream >> refcount; } else if (pixEvTy == (int)PixmapSizeKnown) { stream >> width >> height; refcount = 1; } emit rangedEvent(QmlDebug::PixmapCacheEvent, QmlDebug::MaximumRangeType, pixEvTy, time, 0, QString(), QmlDebug::QmlEventLocation(pixUrl,0,0), width, height, refcount, 0, 0); d->maximumTime = qMax(time, d->maximumTime); } else if (messageType == MemoryAllocation) { int type; qint64 delta; stream >> type >> delta; emit rangedEvent(QmlDebug::MemoryAllocation, QmlDebug::MaximumRangeType, type, time, 0, QString(), QmlDebug::QmlEventLocation(), delta, 0, 0, 0, 0); d->maximumTime = qMax(time, d->maximumTime); } else { int range; stream >> range; if (range >= MaximumRangeType) return; if (messageType == RangeStart) { d->rangeStartTimes[range].push(time); d->inProgressRanges |= (static_cast(1) << range); ++d->rangeCount[range]; // read binding type if ((RangeType)range == Binding) { int bindingType = (int)QmlBinding; if (!stream.atEnd()) stream >> bindingType; d->bindingTypes.push((BindingType)bindingType); } // stop with the first data if (d->recording) setRecordingFromServer(false); } else if (messageType == RangeData) { QString data; stream >> data; int count = d->rangeCount[range]; if (count > 0) { while (d->rangeDatas[range].count() < count) d->rangeDatas[range].push(QString()); d->rangeDatas[range][count-1] = data; } } else if (messageType == RangeLocation) { QString fileName; int line; int column = -1; stream >> fileName >> line; if (!stream.atEnd()) stream >> column; if (d->rangeCount[range] > 0) d->rangeLocations[range].push(QmlEventLocation(fileName, line, column)); } else { if (d->rangeCount[range] > 0) { --d->rangeCount[range]; if (d->inProgressRanges & (static_cast(1) << range)) d->inProgressRanges &= ~(static_cast(1) << range); d->maximumTime = qMax(time, d->maximumTime); QString data = d->rangeDatas[range].count() ? d->rangeDatas[range].pop() : QString(); QmlEventLocation location = d->rangeLocations[range].count() ? d->rangeLocations[range].pop() : QmlEventLocation(); qint64 startTime = d->rangeStartTimes[range].pop(); BindingType bindingType = QmlBinding; if ((RangeType)range == Binding) bindingType = d->bindingTypes.pop(); if ((RangeType)range == Painting) bindingType = QPainterEvent; emit rangedEvent(MaximumMessage, (RangeType)range, bindingType, startTime, time - startTime, data, location, 0, 0, 0, 0, 0); if (d->rangeCount[range] == 0) { int count = d->rangeDatas[range].count() + d->rangeStartTimes[range].count() + d->rangeLocations[range].count(); if (count != 0) qWarning() << "incorrectly nested data"; } } } } }