/* * Copyright 2006-2007 Aaron Seigo * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU Library General Public License as * published by the Free Software Foundation; either version 2, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details * * You should have received a copy of the GNU Library General Public * License along with this program; if not, write to the * Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef PLASMA_DATACONTAINER_P_H #define PLASMA_DATACONTAINER_P_H #include #include namespace Plasma { class SignalRelay; class DataContainer::Private { public: Private() : dirty(false), cached(false) {} SignalRelay* signalRelay(const DataContainer* dc, QObject *visualization, uint pollingInterval, Plasma::IntervalAlignment align); DataEngine::Data data; QMap relayObjects; QMap relays; QTime updateTs; bool dirty : 1; bool cached : 1; }; class SignalRelay : public QObject { Q_OBJECT public: SignalRelay(DataContainer* parent, DataContainer::Private *data, uint ival, Plasma::IntervalAlignment align) : QObject(parent), dc(parent), d(data), m_interval(ival), m_align(align), m_resetTimer(true), m_queued(false) { //kDebug() << "signal relay with time of" << m_timerId << "being set up"; m_timerId = startTimer(0); if (m_align != Plasma::NoAlignment) { checkAlignment(); } } int receiverCount() const { return receivers(SIGNAL(dataUpdated(QString,Plasma::DataEngine::Data))); } bool isUnused() { return receivers(SIGNAL(dataUpdated(QString,Plasma::DataEngine::Data))) < 1; } void checkAlignment() { int newTime = 0; QTime t = QTime::currentTime(); if (m_align == Plasma::AlignToMinute) { int seconds = t.second(); if (seconds > 2) { newTime = ((60 - seconds) * 1000) + 500; } } else if (m_align == Plasma::AlignToHour) { int minutes = t.minute(); int seconds = t.second(); if (minutes > 1 || seconds > 10) { newTime = ((60 - minutes) * 1000 * 60) + ((60 - seconds) * 1000) + 500; } } if (newTime) { killTimer(m_timerId); m_timerId = startTimer(newTime); m_resetTimer = true; } } void checkQueueing() { if (m_queued) { emit dataUpdated(dc->objectName(), d->data); m_queued = false; //TODO: should we re-align our timer at this point, to avoid // constant queueing due to more-or-less constant time // async update time? this might make sense for // staggered accesses to the same source by multiple // visualizations causing a minimumPollingInterval violation. // it may not make sense for purely async-and-takes-a-while // type operations (e.g. network fetching). // we need more real world data before making such a change // change // // killTimer(m_timerId); // m_timerId = startTime(m_interval); } } DataContainer *dc; DataContainer::Private *d; uint m_interval; Plasma::IntervalAlignment m_align; int m_timerId; bool m_resetTimer; bool m_queued; signals: void dataUpdated(const QString&, const Plasma::DataEngine::Data&); protected: void timerEvent(QTimerEvent *event) { if (m_resetTimer) { killTimer(m_timerId); m_timerId = startTimer(m_interval); m_resetTimer = false; } if (m_align != Plasma::NoAlignment) { checkAlignment(); } emit dc->updateRequested(dc); if (!dc->hasUpdates()) { // the source wasn't actually updated; so let's put ourselves in the queue // so we get an dataUpdated() when the data does arrive m_queued = true; } else { emit dataUpdated(dc->objectName(), d->data); } event->accept(); } }; SignalRelay* DataContainer::Private::signalRelay(const DataContainer* dc, QObject *visualization, uint pollingInterval, Plasma::IntervalAlignment align) { QMap::const_iterator relayIt = relays.find(pollingInterval); SignalRelay *relay = 0; //FIXME what if we have two applets with the same interval and different alignment? if (relayIt == relays.end()) { relay = new SignalRelay(const_cast(dc), this, pollingInterval, align); relays[pollingInterval] = relay; } else { relay = relayIt.value(); } relayObjects[visualization] = relay; return relay; } } #endif // multiple inclusion guard