plasma-framework/datacontainer.cpp
Marco Martin 99b597719c reset the pinter after deleting the storage service
svn path=/trunk/KDE/kdelibs/; revision=1159099
2010-08-04 12:03:31 +00:00

361 lines
11 KiB
C++

/*
* Copyright 2006-2007 Aaron Seigo <aseigo@kde.org>
*
* 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.
*/
#include "datacontainer.h"
#include "private/datacontainer_p.h"
#include "private/storage_p.h"
#include <kdebug.h>
#include "plasma.h"
namespace Plasma
{
DataContainer::DataContainer(QObject *parent)
: QObject(parent),
d(new DataContainerPrivate)
{
}
DataContainer::~DataContainer()
{
delete d;
}
const DataEngine::Data DataContainer::data() const
{
return d->data;
}
void DataContainer::setData(const QString &key, const QVariant &value)
{
if (!value.isValid()) {
d->data.remove(key);
} else {
d->data.insert(key, value);
}
d->dirty = true;
d->updateTs.start();
//check if storage is enabled and if storage is needed.
//If it is not set to be stored,then this is the first
//setData() since the last time it was stored. This
//gives us only one singleShot timer.
if (isStorageEnabled() && !needsToBeStored()) {
QTimer::singleShot(180000, this, SLOT(store()));
}
setNeedsToBeStored(true);
}
void DataContainer::removeAllData()
{
if (d->data.isEmpty()) {
// avoid an update if we don't have any data anyways
return;
}
d->data.clear();
d->dirty = true;
d->updateTs.start();
}
bool DataContainer::visualizationIsConnected(QObject *visualization) const
{
return d->relayObjects.contains(visualization);
}
void DataContainer::connectVisualization(QObject *visualization, uint pollingInterval,
Plasma::IntervalAlignment alignment)
{
//kDebug() << "connecting visualization" << visualization << "at interval of"
// << pollingInterval << "to" << objectName();
QMap<QObject *, SignalRelay *>::iterator objIt = d->relayObjects.find(visualization);
bool connected = objIt != d->relayObjects.end();
if (connected) {
// this visualization is already connected. just adjust the update
// frequency if necessary
SignalRelay *relay = objIt.value();
if (relay) {
// connected to a relay
//kDebug() << " already connected, but to a relay";
if (relay->m_interval == pollingInterval) {
//kDebug() << " already connected to a relay of the same interval of"
// << pollingInterval << ", nothing to do";
return;
}
if (relay->receiverCount() == 1) {
//kDebug() << " removing relay, as it is now unused";
d->relays.remove(relay->m_interval);
delete relay;
} else {
disconnect(relay, SIGNAL(dataUpdated(QString,Plasma::DataEngine::Data)),
visualization, SLOT(dataUpdated(QString,Plasma::DataEngine::Data)));
//relay->isUnused();
}
} else if (pollingInterval < 1) {
// the visualization was connected already, but not to a relay
// and it still doesn't want to connect to a relay, so we have
// nothing to do!
//kDebug() << " already connected, nothing to do";
return;
} else {
disconnect(this, SIGNAL(dataUpdated(QString,Plasma::DataEngine::Data)),
visualization, SLOT(dataUpdated(QString,Plasma::DataEngine::Data)));
}
} else {
connect(visualization, SIGNAL(destroyed(QObject*)),
this, SLOT(disconnectVisualization(QObject*)));//, Qt::QueuedConnection);
}
if (pollingInterval < 1) {
//kDebug() << " connecting directly";
d->relayObjects[visualization] = 0;
connect(this, SIGNAL(dataUpdated(QString,Plasma::DataEngine::Data)),
visualization, SLOT(dataUpdated(QString,Plasma::DataEngine::Data)));
} else {
//kDebug() << " connecting to a relay";
// we only want to do an imediate update if this is not the first object to connect to us
// if it is the first visualization, then the source will already have been populated
// engine's sourceRequested method
bool immediateUpdate = connected || d->relayObjects.count() > 1;
SignalRelay *relay = d->signalRelay(this, visualization, pollingInterval,
alignment, immediateUpdate);
connect(relay, SIGNAL(dataUpdated(QString,Plasma::DataEngine::Data)),
visualization, SLOT(dataUpdated(QString,Plasma::DataEngine::Data)));
}
}
void DataContainer::setStorageEnable(bool store)
{
QTime time = QTime::currentTime();
qsrand((uint)time.msec());
d->enableStorage = store;
if (store) {
QTimer::singleShot(qrand() % (2000 + 1) , this, SLOT(retrieve()));
}
}
bool DataContainer::isStorageEnabled() const
{
return d->enableStorage;
}
bool DataContainer::needsToBeStored() const
{
return !d->isStored;
}
void DataContainer::setNeedsToBeStored(bool store)
{
d->isStored = !store;
}
DataEngine* DataContainer::getDataEngine()
{
QObject *o = NULL;
DataEngine *de = NULL;
o = this;
while (de == NULL)
{
o = dynamic_cast<QObject *> (o->parent());
if (o == NULL) {
return NULL;
}
de = dynamic_cast<DataEngine *> (o);
}
return de;
}
void DataContainer::store()
{
if (!needsToBeStored()){
return;
}
DataEngine* de = getDataEngine();
if (de == NULL) {
return;
}
setNeedsToBeStored(false);
if (d->store == NULL) {
d->store = new Storage(de->name(), 0);
}
KConfigGroup op = d->store->operationDescription("save");
op.writeEntry("source", objectName());
DataEngine::Data dataToStore = data();
DataEngine::Data::const_iterator it = dataToStore.constBegin();
while (it != dataToStore.constEnd() && dataToStore.constEnd() == data().constEnd()) {
QVariant v = it.value();
if ((it.value().type() == QVariant::String) || (it.value().type() == QVariant::Int)) {
op.writeEntry("key", it.key());
op.writeEntry("data", it.value());
} else {
QByteArray b;
QDataStream ds(&b, QIODevice::WriteOnly);
ds << it.value();
op.writeEntry("key", "base64-" + it.key());
op.writeEntry("data", b.toBase64());
}
++it;
if (d->store == NULL) {
d->store = new Storage(de->name(), 0);
}
ServiceJob* job = d->store->startOperationCall(op);
d->storeCount++;
connect(job, SIGNAL(finished(KJob*)), this, SLOT(storeJobFinished(KJob*)));
}
}
void DataContainer::storeJobFinished(KJob* job)
{
d->storeCount--;
if (d->storeCount == 0) {
d->store->deleteLater();
d->store = 0;
}
}
void DataContainer::retrieve()
{
DataEngine* de = getDataEngine();
if (de == NULL) {
return;
}
Storage* store = new Storage(de->name(), 0);
KConfigGroup retrieveGroup = store->operationDescription("retrieve");
retrieveGroup.writeEntry("source", objectName());
ServiceJob* retrieveJob = store->startOperationCall(retrieveGroup);
connect(retrieveJob, SIGNAL(result(KJob*)), this,
SLOT(populateFromStoredData(KJob*)));
}
void DataContainer::populateFromStoredData(KJob *job)
{
if (job->error()) {
return;
}
DataEngine::Data dataToInsert;
ServiceJob* ret = dynamic_cast<ServiceJob*>(job);
QHash<QString, QVariant> h = ret->result().toHash();
foreach (QString key, h.keys()) {
if (key.startsWith("base64-")) {
QByteArray b = QByteArray::fromBase64(h[key].toString().toAscii());
QDataStream ds(&b, QIODevice::ReadOnly);
QVariant v(ds);
key.remove(0, 7);
dataToInsert.insert(key, v);
} else {
dataToInsert.insert(key, h[key]);
}
}
if (!(d->data.isEmpty()))
{
//Do not fill the source with old stored
//data if it is already populated with new data.
return;
}
d->data = dataToInsert;
d->dirty = true;
checkForUpdate();
}
void DataContainer::disconnectVisualization(QObject *visualization)
{
QMap<QObject *, SignalRelay *>::iterator objIt = d->relayObjects.find(visualization);
disconnect(visualization, SIGNAL(destroyed(QObject*)),
this, SLOT(disconnectVisualization(QObject*)));//, Qt::QueuedConnection);
if (objIt == d->relayObjects.end() || !objIt.value()) {
// it is connected directly to the DataContainer itself
disconnect(this, SIGNAL(dataUpdated(QString,Plasma::DataEngine::Data)),
visualization, SLOT(dataUpdated(QString,Plasma::DataEngine::Data)));
} else {
SignalRelay *relay = objIt.value();
if (relay->receiverCount() == 1) {
d->relays.remove(relay->m_interval);
delete relay;
} else {
disconnect(relay, SIGNAL(dataUpdated(QString,Plasma::DataEngine::Data)),
visualization, SLOT(dataUpdated(QString,Plasma::DataEngine::Data)));
}
}
d->relayObjects.erase(objIt);
checkUsage();
}
void DataContainer::checkForUpdate()
{
//kDebug() << objectName() << d->dirty;
if (d->dirty) {
emit dataUpdated(objectName(), d->data);
foreach (SignalRelay *relay, d->relays) {
relay->checkQueueing();
}
d->dirty = false;
}
}
void DataContainer::forceImmediateUpdate()
{
if (d->dirty) {
d->dirty = false;
emit dataUpdated(objectName(), d->data);
}
foreach (SignalRelay *relay, d->relays) {
relay->forceImmediateUpdate();
}
}
uint DataContainer::timeSinceLastUpdate() const
{
//FIXME: we still assume it's been <24h
//and ignore possible daylight savings changes
return d->updateTs.elapsed();
}
void DataContainer::setNeedsUpdate(bool update)
{
d->cached = update;
}
void DataContainer::checkUsage()
{
if (d->relays.count() < 1 &&
receivers(SIGNAL(dataUpdated(QString, Plasma::DataEngine::Data))) < 1) {
// DO NOT CALL ANYTHING AFTER THIS LINE AS IT MAY GET DELETED!
emit becameUnused(objectName());
}
}
} // Plasma namespace
#include "datacontainer.moc"