/* * 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. */ #include "abstractrunner.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include "private/abstractrunner_p.h" #include "runnercontext.h" #include "scripting/runnerscript.h" namespace Plasma { K_GLOBAL_STATIC(QMutex, s_bigLock) AbstractRunner::AbstractRunner(QObject *parent, const QString &serviceId) : QObject(parent), d(new AbstractRunnerPrivate(this, KService::serviceByStorageId(serviceId))) { } AbstractRunner::AbstractRunner(QObject *parent, const QVariantList &args) : QObject(parent), d(new AbstractRunnerPrivate(this, KService::serviceByStorageId(args.count() > 0 ? args[0].toString() : QString()))) { } AbstractRunner::~AbstractRunner() { delete d; } KConfigGroup AbstractRunner::config() const { QString group = objectName(); if (group.isEmpty()) { group = "UnnamedRunner"; } KConfigGroup runners(KGlobal::config(), "Runners"); return KConfigGroup(&runners, group); } void AbstractRunner::reloadConfiguration() { if (d->script) { emit d->script->reloadConfiguration(); } } void AbstractRunner::addSyntax(const RunnerSyntax &syntax) { d->syntaxes.append(syntax); } void AbstractRunner::setSyntaxes(const QList &syntaxes) { d->syntaxes = syntaxes; } QList AbstractRunner::syntaxes() const { return d->syntaxes; } void AbstractRunner::performMatch(Plasma::RunnerContext &localContext) { static const int reasonableRunTime = 1500; static const int fastEnoughTime = 250; QTime time; time.restart(); //The local copy is already obtained in the job match(localContext); // automatically rate limit runners that become slooow const int runtime = time.elapsed(); bool slowed = speed() == SlowSpeed; if (!slowed && runtime > reasonableRunTime) { // we punish runners that return too slowly, even if they don't bring // back matches kDebug() << id() << "runner is too slow, putting it on the back burner."; d->fastRuns = 0; setSpeed(SlowSpeed); } if (slowed && runtime < fastEnoughTime && localContext.query().size() > 2) { ++d->fastRuns; if (d->fastRuns > 2) { // we reward slowed runners who bring back matches fast enough // 3 times in a row kDebug() << id() << "runner is faster than we thought, kicking it up a notch"; setSpeed(NormalSpeed); } } } QList AbstractRunner::actionsForMatch(const Plasma::QueryMatch &match) { Q_UNUSED(match) QList ret; if (d->script) { emit d->script->actionsForMatch(match, &ret); } return ret; } QAction* AbstractRunner::addAction(const QString &id, const QIcon &icon, const QString &text) { QAction *a = new QAction(icon, text, this); d->actions.insert(id, a); return a; } void AbstractRunner::addAction(const QString &id, QAction *action) { d->actions.insert(id, action); } void AbstractRunner::removeAction(const QString &id) { QAction *a = d->actions.take(id); delete a; } QAction* AbstractRunner::action(const QString &id) const { return d->actions.value(id); } QHash AbstractRunner::actions() const { return d->actions; } void AbstractRunner::clearActions() { qDeleteAll(d->actions); d->actions.clear(); } bool AbstractRunner::hasRunOptions() { return d->hasRunOptions; } void AbstractRunner::setHasRunOptions(bool hasRunOptions) { d->hasRunOptions = hasRunOptions; } void AbstractRunner::createRunOptions(QWidget *parent) { if (d->script) { emit d->script->createRunOptions(parent); } } AbstractRunner::Speed AbstractRunner::speed() const { // the only time the read lock will fail is if we were slow are going to speed up // or if we were fast and are going to slow down; so don't wait in this case, just // say we're slow. we either will be soon or were just a moment ago and it doesn't // hurt to do one more run the slow way if (!d->speedLock.tryLockForRead()) { return SlowSpeed; } Speed s = d->speed; d->speedLock.unlock(); return s; } void AbstractRunner::setSpeed(Speed speed) { d->speedLock.lockForWrite(); d->speed = speed; d->speedLock.unlock(); } AbstractRunner::Priority AbstractRunner::priority() const { return d->priority; } void AbstractRunner::setPriority(Priority priority) { d->priority = priority; } RunnerContext::Types AbstractRunner::ignoredTypes() const { return d->blackListed; } void AbstractRunner::setIgnoredTypes(RunnerContext::Types types) { d->blackListed = types; } KService::List AbstractRunner::serviceQuery(const QString &serviceType, const QString &constraint) const { return KServiceTypeTrader::self()->query(serviceType, constraint); } QMutex* AbstractRunner::bigLock() { return s_bigLock; } void AbstractRunner::run(const Plasma::RunnerContext &search, const Plasma::QueryMatch &action) { if (d->script) { return d->script->run(search, action); } } void AbstractRunner::match(Plasma::RunnerContext &search) { if (d->script) { return d->script->match(search); } } QString AbstractRunner::name() const { if (!d->runnerDescription.isValid()) { return objectName(); } return d->runnerDescription.name(); } QIcon AbstractRunner::icon() const { if (!d->runnerDescription.isValid()) { return QIcon(); } return KIcon(d->runnerDescription.icon()); } QString AbstractRunner::id() const { if (!d->runnerDescription.isValid()) { return objectName(); } return d->runnerDescription.pluginName(); } QString AbstractRunner::description() const { if (!d->runnerDescription.isValid()) { return objectName(); } return d->runnerDescription.property("Comment").toString(); } const Package* AbstractRunner::package() const { return d->package; } void AbstractRunner::init() { if (d->script) { d->setupScriptSupport(); d->script->init(); } } DataEngine *AbstractRunner::dataEngine(const QString &name) const { return d->dataEngine(name); } AbstractRunnerPrivate::AbstractRunnerPrivate(AbstractRunner *r, KService::Ptr service) : priority(AbstractRunner::NormalPriority), speed(AbstractRunner::NormalSpeed), blackListed(0), script(0), runnerDescription(service), runner(r), fastRuns(0), package(0), hasRunOptions(false) { if (runnerDescription.isValid()) { const QString api = runnerDescription.property("X-Plasma-API").toString(); if (!api.isEmpty()) { const QString path = KStandardDirs::locate("data", "plasma/runners/" + runnerDescription.pluginName() + '/'); PackageStructure::Ptr structure = Plasma::packageStructure(api, Plasma::RunnerComponent); structure->setPath(path); package = new Package(path, structure); script = Plasma::loadScriptEngine(api, runner); if (!script) { kDebug() << "Could not create a(n)" << api << "ScriptEngine for the" << runnerDescription.name() << "Runner."; delete package; package = 0; } } } } AbstractRunnerPrivate::~AbstractRunnerPrivate() { delete script; script = 0; delete package; package = 0; } // put all setup routines for script here. at this point we can assume that // package exists and that we have a script engine void AbstractRunnerPrivate::setupScriptSupport() { if (!package) { return; } kDebug() << "setting up script support, package is in" << package->path() << "which is a" << package->structure()->type() << "package" << ", main script is" << package->filePath("mainscript"); QString translationsPath = package->filePath("translations"); if (!translationsPath.isEmpty()) { //FIXME: we should _probably_ use a KComponentData to segregate the applets // from each other; but I want to get the basics working first :) KGlobal::dirs()->addResourceDir("locale", translationsPath); KGlobal::locale()->insertCatalog(package->metadata().pluginName()); } } } // Plasma namespace #include "abstractrunner.moc"