/* * 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 "runnercontext.h" #include #include #include #include #include #include #include #include #include #include #include #include #include "abstractrunner.h" #include "querymatch.h" //#define LOCK_FOR_READ(d) if (d->policy == Shared) { d->lock.lockForRead(); } //#define LOCK_FOR_WRITE(d) if (d->policy == Shared) { d->lock.lockForWrite(); } //#define UNLOCK(d) if (d->policy == Shared) { d->lock.unlock(); } #define LOCK_FOR_READ(d) d->lock.lockForRead(); #define LOCK_FOR_WRITE(d) d->lock.lockForWrite(); #define UNLOCK(d) d->lock.unlock(); namespace Plasma { /* Corrects the case of the last component in a path (e.g. /usr/liB -> /usr/lib) path: The path to be processed. correctCasePath: The corrected-case path mustBeDir: Tells whether the last component is a folder or doesn't matter Returns true on success and false on error, in case of error, correctCasePath is not modified */ bool correctLastComponentCase(const QString &path, QString &correctCasePath, const bool mustBeDir) { //kDebug() << "Correcting " << path; // If the file already exists then no need to search for it. if (QFile::exists(path)) { correctCasePath = path; //kDebug() << "Correct path is" << correctCasePath; return true; } const QFileInfo pathInfo(path); const QDir fileDir = pathInfo.dir(); //kDebug() << "Directory is" << fileDir; const QString filename = pathInfo.fileName(); //kDebug() << "Filename is" << filename; //kDebug() << "searching for a" << (mustBeDir ? "directory" : "directory/file"); const QStringList matchingFilenames = fileDir.entryList(QStringList(filename), mustBeDir ? QDir::Dirs : QDir::NoFilter); if (matchingFilenames.empty()) { //kDebug() << "No matches found!!\n"; return false; } else { /*if (matchingFilenames.size() > 1) { kDebug() << "Found multiple matches!!\n"; }*/ if (fileDir.path().endsWith(QDir::separator())) { correctCasePath = fileDir.path() + matchingFilenames[0]; } else { correctCasePath = fileDir.path() + QDir::separator() + matchingFilenames[0]; } //kDebug() << "Correct path is" << correctCasePath; return true; } } /* Corrects the case of a path (e.g. /uSr/loCAL/bIN -> /usr/local/bin) path: The path to be processed. corrected: The corrected-case path Returns true on success and false on error, in case of error, corrected is not modified */ bool correctPathCase(const QString& path, QString &corrected) { // early exit check if (QFile::exists(path)) { corrected = path; return true; } // path components QStringList components = QString(path).split(QDir::separator()); if (components.size() < 2) { return false; } const bool mustBeDir = components.back().isEmpty(); //kDebug() << "Components are" << components; QString correctPath; if (components.back().isEmpty()) { components.pop_back(); } const unsigned initialComponents = components.size(); for (unsigned i = 0; i < initialComponents - 1; i ++) { const QString tmp = components[0] + QDir::separator() + components[1]; if (!correctLastComponentCase(tmp, correctPath, components.size() > 2 || mustBeDir)) { //kDebug() << "search was not successful"; return false; } components.removeFirst(); components[0] = correctPath; } corrected = correctPath; return true; } class RunnerContextPrivate : public QSharedData { public: RunnerContextPrivate(RunnerContext *context) : QSharedData(), type(RunnerContext::UnknownType), q(context), singleRunnerQueryMode(false) { } RunnerContextPrivate(const RunnerContextPrivate &p) : QSharedData(), launchCounts(p.launchCounts), type(RunnerContext::None), q(p.q), singleRunnerQueryMode(false) { //kDebug() << "¿¿¿¿¿¿¿¿¿¿¿¿¿¿¿¿¿boo yeah" << type; } ~RunnerContextPrivate() { } /** * Determines type of query */ void determineType() { // NOTE! this method must NEVER be called from // code that may be running in multiple threads // with the same data. type = RunnerContext::UnknownType; QString path = QDir::cleanPath(KShell::tildeExpand(term)); int space = path.indexOf(' '); if (!KStandardDirs::findExe(path.left(space)).isEmpty()) { // it's a shell command if there's a space because that implies // that it has arguments! type = (space > 0) ? RunnerContext::ShellCommand : RunnerContext::Executable; } else if (path.indexOf('/') == -1 && path.indexOf('\\') == -1 ) { //if a path doesn't have any slashes is a single word or //sentence: is too ambiguous to be sure we're in a filesystem context return; } else { KUrl url(term); QString correctCasePath; if (!url.protocol().isEmpty() && !url.isLocalFile()) { type = RunnerContext::NetworkLocation; } else if (correctPathCase(path, correctCasePath)) { path = correctCasePath; QFileInfo info(path); if (info.isSymLink()) { path = info.canonicalFilePath(); info = QFileInfo(path); } if (info.isDir()) { type = RunnerContext::Directory; mimeType = "inode/folder"; } else if (info.isFile()) { type = RunnerContext::File; KMimeType::Ptr mimeTypePtr = KMimeType::findByPath(path); if (mimeTypePtr) { mimeType = mimeTypePtr->name(); } } } } } void invalidate() { q = &s_dummyContext; } QReadWriteLock lock; QList matches; QMap matchesById; QHash launchCounts; QString term; QString mimeType; RunnerContext::Type type; RunnerContext * q; static RunnerContext s_dummyContext; bool singleRunnerQueryMode; }; RunnerContext RunnerContextPrivate::s_dummyContext; RunnerContext::RunnerContext(QObject *parent) : QObject(parent), d(new RunnerContextPrivate(this)) { } //copy ctor RunnerContext::RunnerContext(RunnerContext &other, QObject *parent) : QObject(parent) { LOCK_FOR_READ(other.d) d = other.d; UNLOCK(other.d) } RunnerContext::~RunnerContext() { } RunnerContext &RunnerContext::operator=(const RunnerContext &other) { if (this->d == other.d) { return *this; } QExplicitlySharedDataPointer oldD = d; LOCK_FOR_WRITE(d) LOCK_FOR_READ(other.d) d = other.d; UNLOCK(other.d) UNLOCK(oldD) return *this; } void RunnerContext::reset() { // We will detach if we are a copy of someone. But we will reset // if we are the 'main' context others copied from. Resetting // one RunnerContext makes all the copies obsolete. // We need to mark the q pointer of the detached RunnerContextPrivate // as dirty on detach to avoid receiving results for old queries d->invalidate(); d.detach(); // Now that we detached the d pointer we need to reset its q pointer d->q = this; // we still have to remove all the matches, since if the // ref count was 1 (e.g. only the RunnerContext is using // the dptr) then we won't get a copy made if (!d->matches.isEmpty()) { d->matchesById.clear(); d->matches.clear(); emit matchesChanged(); } d->term.clear(); d->mimeType.clear(); d->type = UnknownType; d->singleRunnerQueryMode = false; //kDebug() << "match count" << d->matches.count(); } void RunnerContext::setQuery(const QString &term) { reset(); if (term.isEmpty()) { return; } d->term = term; d->determineType(); } QString RunnerContext::query() const { // the query term should never be set after // a search starts. in fact, reset() ensures this // and setQuery(QString) calls reset() return d->term; } RunnerContext::Type RunnerContext::type() const { return d->type; } QString RunnerContext::mimeType() const { return d->mimeType; } bool RunnerContext::isValid() const { // if our qptr is dirty, we aren't useful anymore return (d->q != &(d->s_dummyContext)); } bool RunnerContext::addMatches(const QString &term, const QList &matches) { Q_UNUSED(term) if (matches.isEmpty() || !isValid()) { //Bail out if the query is empty or the qptr is dirty return false; } LOCK_FOR_WRITE(d) foreach (QueryMatch match, matches) { // Give previously launched matches a slight boost in relevance if (int count = d->launchCounts.value(match.id())) { match.setRelevance(match.relevance() + 0.05 * count); } d->matches.append(match); #ifndef NDEBUG if (d->matchesById.contains(match.id())) { kDebug() << "Duplicate match id " << match.id() << "from" << match.runner()->name(); } #endif d->matchesById.insert(match.id(), &d->matches.at(d->matches.size() - 1)); } UNLOCK(d); //kDebug()<< "add matches"; // A copied searchContext may share the d pointer, // we always want to sent the signal of the object that created // the d pointer emit d->q->matchesChanged(); return true; } bool RunnerContext::addMatch(const QString &term, const QueryMatch &match) { Q_UNUSED(term) if (!isValid()) { // Bail out if the qptr is dirty return false; } QueryMatch m(match); // match must be non-const to modify relevance LOCK_FOR_WRITE(d) if (int count = d->launchCounts.value(m.id())) { m.setRelevance(m.relevance() + 0.05 * count); } d->matches.append(m); d->matchesById.insert(m.id(), &d->matches.at(d->matches.size() - 1)); UNLOCK(d); //kDebug()<< "added match" << match->text(); emit d->q->matchesChanged(); return true; } bool RunnerContext::removeMatches(const QStringList matchIdList) { if (!isValid()) { return false; } QStringList presentMatchIdList; QList presentMatchList; LOCK_FOR_READ(d) foreach(const QString &matchId, matchIdList) { const QueryMatch* match = d->matchesById.value(matchId, 0); if (match) { presentMatchList << match; presentMatchIdList << matchId; } } UNLOCK(d) if (presentMatchIdList.isEmpty()) { return false; } LOCK_FOR_WRITE(d) foreach(const QueryMatch *match, presentMatchList) { d->matches.removeAll(*match); } foreach(const QString &matchId, presentMatchIdList) { d->matchesById.remove(matchId); } UNLOCK(d) emit d->q->matchesChanged(); return true; } bool RunnerContext::removeMatch(const QString matchId) { if (!isValid()) { return false; } LOCK_FOR_READ(d) const QueryMatch* match = d->matchesById.value(matchId, 0); UNLOCK(d) if (!match) { return false; } LOCK_FOR_WRITE(d) d->matches.removeAll(*match); d->matchesById.remove(matchId); UNLOCK(d) emit d->q->matchesChanged(); return true; } QList RunnerContext::matches() const { LOCK_FOR_READ(d) QList matches = d->matches; UNLOCK(d); return matches; } QueryMatch RunnerContext::match(const QString &id) const { LOCK_FOR_READ(d) const QueryMatch *match = d->matchesById.value(id, 0); UNLOCK(d) if (match) { return *match; } return QueryMatch(0); } void RunnerContext::setSingleRunnerQueryMode(bool enabled) { d->singleRunnerQueryMode = enabled; } bool RunnerContext::singleRunnerQueryMode() const { return d->singleRunnerQueryMode; } void RunnerContext::restore(const KConfigGroup &config) { const QStringList cfgList = config.readEntry("LaunchCounts", QStringList()); const QRegExp r("(\\d*) (.*)"); foreach (const QString& entry, cfgList) { r.indexIn(entry); int count = r.cap(1).toInt(); QString id = r.cap(2); d->launchCounts[id] = count; } } void RunnerContext::save(KConfigGroup &config) { QStringList countList; typedef QHash::const_iterator Iterator; Iterator end = d->launchCounts.constEnd(); for (Iterator i = d->launchCounts.constBegin(); i != end; ++i) { countList << QString("%2 %1").arg(i.key()).arg(i.value()); } config.writeEntry("LaunchCounts", countList); config.sync(); } void RunnerContext::run(const QueryMatch &match) { ++d->launchCounts[match.id()]; match.run(*this); } } // Plasma namespace #include "runnercontext.moc"