예제 #1
0
void SeasidePerson::setAvatarPath(QUrl avatarPath)
{
    QContactAvatar avatarDetail = mContact.detail<QContactAvatar>();
    avatarDetail.setImageUrl(QUrl(avatarPath));
    mContact.saveDetail(&avatarDetail);
    emit avatarPathChanged();
}
예제 #2
0
void BusinessCardHandling::saveAvatar(const QString filename, QPixmap p, QContact& contact)
{

    // Path to store avatar picture
    QString path;
#ifdef Q_OS_SYMBIAN
    path.append("c:/System/");
#endif
    path.append(filename);

    // Remove same file if exists
    QFile file;
    if (file.exists(path))
        file.remove(path);

    // Save pixmap into file
    bool saveRet = p.save(path);

    if (saveRet) {
        // Create avatar
        QContactAvatar contactAvatar;
        contactAvatar.setImageUrl(QUrl(path));
        bool saveAvatar = contact.saveDetail(&contactAvatar);

        // Save contact
        if (saveAvatar)
            m_contactManager->saveContact(&contact);

        // NOTE: Do not remove picture, system needs it for showing avatar
        // Remove picture file
        //bool removeRet = file.remove(path);
    }
}
QContactDetail *CntTransformAvatar::transformItemField(const CContactItemField& field, const QContact &contact)
{
    Q_UNUSED(contact);
    QContactAvatar *avatar = new QContactAvatar();

    if (field.ContentType().ContainsFieldType(KUidContactFieldCodImage)) {
        CContactTextField* storage = field.TextStorage();
        QString avatarString = QString::fromUtf16(storage->Text().Ptr(), storage->Text().Length());
        avatar->setImageUrl(QUrl(avatarString));
    }

    return avatar;
}
예제 #4
0
int main(int argc, char  *argv[])
{
    QCoreApplication application(argc, argv);

    QMap<QString, QString> parameters;
    parameters.insert(QString::fromLatin1("mergePresenceChanges"), QString::fromLatin1("false"));

    QContactManager manager(QString::fromLatin1("org.nemomobile.contacts.sqlite"), parameters);

    QContactFetchRequest request;
    request.setManager(&manager);

    // Perform an initial request to ensure the database has been created before we start timing
    request.start();
    request.waitForFinished();

    qint64 elapsedTimeTotal = 0;

    QElapsedTimer asyncTotalTimer;
    asyncTotalTimer.start();

    // Fetch all, no optimization hints
    for (int i = 0; i < 3; ++i) {
        QElapsedTimer timer;
        timer.start();
        request.start();
        request.waitForFinished();

        qint64 elapsed = timer.elapsed();
        qDebug() << i << ": Fetch completed in" << elapsed << "ms";
        elapsedTimeTotal += elapsed;
    }

    // Skip relationships
    QContactFetchHint hint;
    hint.setOptimizationHints(QContactFetchHint::NoRelationships);
    request.setFetchHint(hint);

    for (int i = 0; i < 3; ++i) {
        QElapsedTimer timer;
        timer.start();
        request.start();
        request.waitForFinished();

        qint64 elapsed = timer.elapsed();
        qDebug() << i << ": No-relationships fetch completed in" << elapsed << "ms";
        elapsedTimeTotal += elapsed;
    }

    // Reduce data access
#ifdef USING_QTPIM
    hint.setDetailTypesHint(QList<QContactDetail::DetailType>() << QContactName::Type << QContactAddress::Type);
#else
    hint.setDetailDefinitionsHint(QStringList() << QContactName::DefinitionName << QContactAddress::DefinitionName);
#endif
    request.setFetchHint(hint);

    for (int i = 0; i < 3; ++i) {
        QElapsedTimer timer;
        timer.start();
        request.start();
        request.waitForFinished();

        qint64 elapsed = timer.elapsed();
        qDebug() << i << ": Reduced data fetch completed in" << elapsed << "ms";
        elapsedTimeTotal += elapsed;
    }

    // Reduce number of results
    hint.setMaxCountHint(request.contacts().count() / 8);
    request.setFetchHint(hint);

    for (int i = 0; i < 3; ++i) {
        QElapsedTimer timer;
        timer.start();
        request.start();
        request.waitForFinished();

        qint64 elapsed = timer.elapsed();
        qDebug() << i << ": Max count fetch completed in" << elapsed << "ms";
        elapsedTimeTotal += elapsed;
    }
    qint64 asyncTotalElapsed = asyncTotalTimer.elapsed();



    // Time some synchronous operations.  First, generate the test data.
    qsrand((int)asyncTotalElapsed);
    QList<int> nbrContacts;
    nbrContacts << 10 << 100 << 500 << 1000 << 2000;
    QList<QList<QContact> > testData;
    qDebug() << "\n\n\n\n\n";
    qDebug() << "Generating test data for timings...";
    for (int i = 0; i < nbrContacts.size(); ++i) {
        int howMany = nbrContacts.at(i);
        QList<QContact> newTestData;
        newTestData.reserve(howMany);

        for (int j = 0; j < howMany; ++j) {
            // Use testing sync target, so 'local' won't be modified into 'was_local' via aggregation
            newTestData.append(generateContact(QString::fromLatin1("testing")));
        }

        testData.append(newTestData);
    }


    // Perform the timings - these all create new contacts and assume an "empty" initial database
    QElapsedTimer syncTimer;
    for (int i = 0; i < testData.size(); ++i) {
        QList<QContact> td = testData.at(i);
        qint64 ste = 0;
        qDebug() << "Performing tests for" << td.size() << "contacts:";

        syncTimer.start();
        manager.saveContacts(&td);
        ste = syncTimer.elapsed();
        qDebug() << "    saving took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

        QContactDetailFilter testingFilter;
#ifdef USING_QTPIM
        testingFilter.setDetailType(QContactSyncTarget::Type, QContactSyncTarget::FieldSyncTarget);
#else
        testingFilter.setDetailDefinitionName(QContactSyncTarget::DefinitionName, QContactSyncTarget::FieldSyncTarget);
#endif
        testingFilter.setValue(QString::fromLatin1("testing"));

        QContactFetchHint fh;
        syncTimer.start();
        QList<QContact> readContacts = manager.contacts(testingFilter, QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        if (readContacts.size() != td.size()) {
            qWarning() << "Invalid retrieval count:" << readContacts.size() << "expecting:" << td.size();
        }
        qDebug() << "    reading all (" << readContacts.size() << "), all details, took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

#ifdef USING_QTPIM
        fh.setDetailTypesHint(QList<QContactDetail::DetailType>() << QContactDisplayLabel::Type
                << QContactName::Type << QContactAvatar::Type
                << QContactPhoneNumber::Type << QContactEmailAddress::Type);
#else
        fh.setDetailDefinitionsHint(QStringList() << QContactDisplayLabel::DefinitionName
                << QContactName::DefinitionName << QContactAvatar::DefinitionName
                << QContactPhoneNumber::DefinitionName << QContactEmailAddress::DefinitionName);
#endif
        syncTimer.start();
        readContacts = manager.contacts(testingFilter, QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        if (readContacts.size() != td.size()) {
            qWarning() << "Invalid retrieval count:" << readContacts.size() << "expecting:" << td.size();
        }
        qDebug() << "    reading all, common details, took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

        fh.setOptimizationHints(QContactFetchHint::NoRelationships);
#ifdef USING_QTPIM
        fh.setDetailTypesHint(QList<QContactDetail::DetailType>());
#else
        fh.setDetailDefinitionsHint(QStringList());
#endif
        syncTimer.start();
        readContacts = manager.contacts(testingFilter, QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        if (readContacts.size() != td.size()) {
            qWarning() << "Invalid retrieval count:" << readContacts.size() << "expecting:" << td.size();
        }
        qDebug() << "    reading all, no relationships, took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

#ifdef USING_QTPIM
        fh.setDetailTypesHint(QList<QContactDetail::DetailType>() << QContactDisplayLabel::Type
                << QContactName::Type << QContactAvatar::Type);
#else
        fh.setDetailDefinitionsHint(QStringList() << QContactDisplayLabel::DefinitionName
                << QContactName::DefinitionName << QContactAvatar::DefinitionName);
#endif
        syncTimer.start();
        readContacts = manager.contacts(testingFilter, QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        if (readContacts.size() != td.size()) {
            qWarning() << "Invalid retrieval count:" << readContacts.size() << "expecting:" << td.size();
        }
        qDebug() << "    reading all, display details + no rels, took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

        // Read the contacts, selected by ID
        QList<QContactId> idsToRetrieve;
        for (int j = 0; j < td.size(); ++j) {
            idsToRetrieve.append(retrievalId(td.at(j)));
        }

        syncTimer.start();
        readContacts = manager.contacts(idsToRetrieve, fh, 0);
        ste = syncTimer.elapsed();
        if (readContacts.size() != td.size()) {
            qWarning() << "Invalid retrieval count:" << readContacts.size() << "expecting:" << td.size();
        }
        qDebug() << "    reading all by IDs, display details + no rels, took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

        // Read the same set using ID filtering
#ifdef USING_QTPIM
        QContactIdFilter idFilter;
#else
        QContactLocalIdFilter idFilter;
#endif
        idFilter.setIds(idsToRetrieve);

        syncTimer.start();
        readContacts = manager.contacts(idFilter, QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        if (readContacts.size() != td.size()) {
            qWarning() << "Invalid retrieval count:" << readContacts.size() << "expecting:" << td.size();
        }
        qDebug() << "    reading all by ID filter, display details + no rels, took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

        // Read the same set, but filter everything out using syncTarget
        QContactDetailFilter aggregateFilter;
#ifdef USING_QTPIM
        aggregateFilter.setDetailType(QContactSyncTarget::Type, QContactSyncTarget::FieldSyncTarget);
#else
        aggregateFilter.setDetailDefinitionName(QContactSyncTarget::DefinitionName, QContactSyncTarget::FieldSyncTarget);
#endif
        aggregateFilter.setValue(QString::fromLatin1("aggregate"));

        syncTimer.start();
        readContacts = manager.contacts(idFilter & aggregateFilter, QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        if (readContacts.size() != 0) {
            qWarning() << "Invalid retrieval count:" << readContacts.size() << "expecting:" << 0;
        }
        qDebug() << "    reading all by ID filter & aggregate, display details + no rels, took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

        QContactDetailFilter firstNameStartsA;
#ifdef USING_QTPIM
        firstNameStartsA.setDetailType(QContactName::Type, QContactName::FieldFirstName);
#else
        firstNameStartsA.setDetailDefinitionName(QContactName::DefinitionName, QContactName::FieldFirstName);
#endif
        firstNameStartsA.setValue("A");
        firstNameStartsA.setMatchFlags(QContactDetailFilter::MatchStartsWith);
#ifdef USING_QTPIM
        fh.setDetailTypesHint(QList<QContactDetail::DetailType>());
#else
        fh.setDetailDefinitionsHint(QStringList());
#endif
        syncTimer.start();
        readContacts = manager.contacts(firstNameStartsA, QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        qDebug() << "    reading filtered (" << readContacts.size() << "), no relationships, took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

        QList<ContactIdType> idsToRemove;
        for (int j = 0; j < td.size(); ++j) {
            idsToRemove.append(retrievalId(td.at(j)));
        }

        syncTimer.start();
        manager.removeContacts(idsToRemove);
        ste = syncTimer.elapsed();
        qDebug() << "    removing test data took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;
    }

    // these tests are slightly different to those above.  They operate on much smaller
    // batches, but occur after the database has already been prefilled with some data.
    QList<int> smallerNbrContacts;
    smallerNbrContacts << 1 << 2 << 5 << 10 << 20 << 50;
    QList<QList<QContact> > smallerTestData;
    qDebug() << "\n\nGenerating smaller test data for prefilled timings...";
    for (int i = 0; i < smallerNbrContacts.size(); ++i) {
        int howMany = smallerNbrContacts.at(i);
        QList<QContact> newTestData;
        newTestData.reserve(howMany);

        for (int j = 0; j < howMany; ++j) {
            newTestData.append(generateContact());
        }

        smallerTestData.append(newTestData);
    }

    // prefill the database
    QList<QContact> prefillData;
    for (int i = 0; i < testData.size() && testData.at(i).size() < 1001; ++i) {
        prefillData = testData.at(i);
    }
    qDebug() << "Prefilling database with" << prefillData.size() << "contacts... this will take a while...";
    manager.saveContacts(&prefillData);
    qDebug() << "Now performing timings (shouldn't get aggregated)...";
    for (int i = 0; i < smallerTestData.size(); ++i) {
        QList<QContact> td = smallerTestData.at(i);
        qint64 ste = 0;
        qDebug() << "Performing tests for" << td.size() << "contacts:";

        syncTimer.start();
        manager.saveContacts(&td);
        ste = syncTimer.elapsed();
        qDebug() << "    saving took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;

        QContactFetchHint fh;
        syncTimer.start();
        QList<QContact> readContacts = manager.contacts(QContactFilter(), QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        qDebug() << "    reading all (" << readContacts.size() << "), all details, took" << ste << "milliseconds";
        elapsedTimeTotal += ste;

#ifdef USING_QTPIM
        fh.setDetailTypesHint(QList<QContactDetail::DetailType>() << QContactDisplayLabel::Type
                << QContactName::Type << QContactAvatar::Type
                << QContactPhoneNumber::Type << QContactEmailAddress::Type);
#else
        fh.setDetailDefinitionsHint(QStringList() << QContactDisplayLabel::DefinitionName
                << QContactName::DefinitionName << QContactAvatar::DefinitionName
                << QContactPhoneNumber::DefinitionName << QContactEmailAddress::DefinitionName);
#endif
        syncTimer.start();
        readContacts = manager.contacts(QContactFilter(), QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        qDebug() << "    reading all, common details, took" << ste << "milliseconds";
        elapsedTimeTotal += ste;

        fh.setOptimizationHints(QContactFetchHint::NoRelationships);
#ifdef USING_QTPIM
        fh.setDetailTypesHint(QList<QContactDetail::DetailType>());
#else
        fh.setDetailDefinitionsHint(QStringList());
#endif
        syncTimer.start();
        readContacts = manager.contacts(QContactFilter(), QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        qDebug() << "    reading all, no relationships, took" << ste << "milliseconds";
        elapsedTimeTotal += ste;

#ifdef USING_QTPIM
        fh.setDetailTypesHint(QList<QContactDetail::DetailType>() << QContactDisplayLabel::Type
                << QContactName::Type << QContactAvatar::Type);
#else
        fh.setDetailDefinitionsHint(QStringList() << QContactDisplayLabel::DefinitionName
                << QContactName::DefinitionName << QContactAvatar::DefinitionName);
#endif
        syncTimer.start();
        readContacts = manager.contacts(QContactFilter(), QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        qDebug() << "    reading all, display details + no rels, took" << ste << "milliseconds";
        elapsedTimeTotal += ste;

        QContactDetailFilter firstNameStartsA;
#ifdef USING_QTPIM
        firstNameStartsA.setDetailType(QContactName::Type, QContactName::FieldFirstName);
#else
        firstNameStartsA.setDetailDefinitionName(QContactName::DefinitionName, QContactName::FieldFirstName);
#endif
        firstNameStartsA.setValue("A");
        firstNameStartsA.setMatchFlags(QContactDetailFilter::MatchStartsWith);
#ifdef USING_QTPIM
        fh.setDetailTypesHint(QList<QContactDetail::DetailType>());
#else
        fh.setDetailDefinitionsHint(QStringList());
#endif
        syncTimer.start();
        readContacts = manager.contacts(firstNameStartsA, QList<QContactSortOrder>(), fh);
        ste = syncTimer.elapsed();
        qDebug() << "    reading filtered (" << readContacts.size() << "), no relationships, took" << ste << "milliseconds";
        elapsedTimeTotal += ste;

        QList<ContactIdType> idsToRemove;
        for (int j = 0; j < td.size(); ++j) {
            idsToRemove.append(retrievalId(td.at(j)));
        }

        syncTimer.start();
        manager.removeContacts(idsToRemove);
        ste = syncTimer.elapsed();
        qDebug() << "    removing test data took" << ste << "milliseconds (" << ((1.0 * ste) / (1.0 * td.size())) << "msec per contact )";
        elapsedTimeTotal += ste;
    }

    // The next test is about saving contacts which should get aggregated into others.
    // Aggregation is an expensive operation, so we expect these save operations to take longer.
    qDebug() << "\n\nPerforming aggregation tests";
    QList<QContact> contactsToAggregate;
    for (int i = 0; i < 100; ++i) {
        QContact existingContact = prefillData.at(prefillData.size() - 1 - i);
        QContact contactToAggregate;
        QContactSyncTarget newSyncTarget;
        newSyncTarget.setSyncTarget(QString(QLatin1String("fetchtimes-aggregation")));
        QContactName aggName = existingContact.detail<QContactName>(); // ensures it'll get aggregated
        QContactOnlineAccount newOnlineAcct; // new data, which should get promoted up etc.
        newOnlineAcct.setAccountUri(QString(QLatin1String("test-aggregation-%1@fetchtimes")).arg(i));
        contactToAggregate.saveDetail(&newSyncTarget);
        contactToAggregate.saveDetail(&aggName);
        contactToAggregate.saveDetail(&newOnlineAcct);
        contactsToAggregate.append(contactToAggregate);
    }

    syncTimer.start();
    manager.saveContacts(&contactsToAggregate);
    qint64 aggregationElapsed = syncTimer.elapsed();
    int totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "Average time for aggregation of" << contactsToAggregate.size() << "contacts (with" << totalAggregatesInDatabase << "existing in database):" << aggregationElapsed
             << "milliseconds (" << ((1.0 * aggregationElapsed) / (1.0 * contactsToAggregate.size())) << " msec per aggregated contact )";
    elapsedTimeTotal += aggregationElapsed;

    // Now perform the test again, this time with more aggregates, to test nonlinearity.
    contactsToAggregate.clear();
    for (int i = 200; i < 400; ++i) {
        QContact existingContact = prefillData.at(prefillData.size() - 1 - i);
        QContact contactToAggregate;
        QContactSyncTarget newSyncTarget;
        newSyncTarget.setSyncTarget(QString(QLatin1String("fetchtimes-aggregation")));
        QContactName aggName = existingContact.detail<QContactName>(); // ensures it'll get aggregated
        QContactOnlineAccount newOnlineAcct; // new data, which should get promoted up etc.
        newOnlineAcct.setAccountUri(QString(QLatin1String("test-aggregation-%1@fetchtimes")).arg(i));
        contactToAggregate.saveDetail(&newSyncTarget);
        contactToAggregate.saveDetail(&aggName);
        contactToAggregate.saveDetail(&newOnlineAcct);
        contactsToAggregate.append(contactToAggregate);
    }

    syncTimer.start();
    manager.saveContacts(&contactsToAggregate);
    aggregationElapsed = syncTimer.elapsed();
    totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "Average time for aggregation of" << contactsToAggregate.size() << "contacts (with" << totalAggregatesInDatabase << "existing in database):" << aggregationElapsed
             << "milliseconds (" << ((1.0 * aggregationElapsed) / (1.0 * contactsToAggregate.size())) << " msec per aggregated contact )";
    elapsedTimeTotal += aggregationElapsed;


    // The next test is about updating existing contacts, amongst a large set.
    // We're especially interested in presence updates, as these are common.
    qDebug() << "\n\nPerforming presence update tests:";

    // in the first presence update test, we update a small number of contacts.
    QStringList presenceAvatars = generateAvatarsList();
    QList<QContact> contactsToUpdate;
    for (int i = 0; i < 10; ++i) {
        contactsToUpdate.append(prefillData.at(prefillData.size() - 1 - i));
    }

    // modify the presence, nickname and avatar of the test data
    for (int j = 0; j < contactsToUpdate.size(); ++j) {
        QString genstr = QString::number(j);
        QContact curr = contactsToUpdate[j];
        QContactPresence cp = curr.detail<QContactPresence>();
        QContactNickname nn = curr.detail<QContactNickname>();
        QContactAvatar av = curr.detail<QContactAvatar>();
        cp.setNickname(genstr);
        cp.setCustomMessage(genstr);
        cp.setTimestamp(QDateTime::currentDateTime());
        cp.setPresenceState(static_cast<QContactPresence::PresenceState>(qrand() % 4));
        nn.setNickname(nn.nickname() + genstr);
        av.setImageUrl(genstr + presenceAvatars.at(qrand() % presenceAvatars.size()));
        curr.saveDetail(&cp);
        curr.saveDetail(&nn);
        curr.saveDetail(&av);
        contactsToUpdate.replace(j, curr);
    }

    // perform a batch save.
    syncTimer.start();
    manager.saveContacts(&contactsToUpdate);
    qint64 presenceElapsed = syncTimer.elapsed();
    totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "    update ( batch of" << contactsToUpdate.size() << ") presence+nick+avatar (with" << totalAggregatesInDatabase << "existing in database, all overlap):" << presenceElapsed
             << "milliseconds (" << ((1.0 * presenceElapsed) / (1.0 * contactsToUpdate.size())) << " msec per updated contact )";
    elapsedTimeTotal += presenceElapsed;

    // in the second presence update test, we update ALL of the contacts
    // This simulates having a large number of contacts from a single source (eg, a social network)
    // where (due to changed connectivity status) presence updates for the entire set become available.
    contactsToUpdate.clear();
    QDateTime timestamp = QDateTime::currentDateTime();
    for (int j = 0; j < prefillData.size(); ++j) {
        QContact curr = prefillData.at(j);
        QString genstr = QString::number(j) + "2";
        QContactPresence cp = curr.detail<QContactPresence>();
        QContactNickname nn = curr.detail<QContactNickname>();
        QContactAvatar av = curr.detail<QContactAvatar>();
        cp.setNickname(genstr);
        cp.setCustomMessage(genstr);
        cp.setTimestamp(timestamp);
        cp.setPresenceState(static_cast<QContactPresence::PresenceState>((qrand() % 4) + 1));
        nn.setNickname(nn.nickname() + genstr);
        av.setImageUrl(genstr + presenceAvatars.at(qrand() % presenceAvatars.size()));
        curr.saveDetail(&cp);
        curr.saveDetail(&nn);
        curr.saveDetail(&av);
        contactsToUpdate.append(curr);
    }

    // perform a batch save.
    syncTimer.start();
    manager.saveContacts(&contactsToUpdate);
    presenceElapsed = syncTimer.elapsed();
    totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "    update ( batch of" << contactsToUpdate.size() << ") presence+nick+avatar (with" << totalAggregatesInDatabase << "existing in database, all overlap):" << presenceElapsed
             << "milliseconds (" << ((1.0 * presenceElapsed) / (1.0 * contactsToUpdate.size())) << " msec per updated contact )";
    elapsedTimeTotal += presenceElapsed;

    // the third presence update test is identical to the previous, but with 2000 prefilled contacts in database.
    qDebug() << "    Adding more prefill data, please wait...";
    QList<QContact> morePrefillData;
    for (int i = 0; i < 1000; ++i) {
        morePrefillData.append(generateContact(QString::fromLatin1("testing")));
    }
    manager.saveContacts(&morePrefillData);

    // now do the updates and save.
    contactsToUpdate.clear();
    timestamp = QDateTime::currentDateTime();
    for (int j = 0; j < prefillData.size(); ++j) {
        QContact curr = prefillData.at(j);
        QString genstr = QString::number(j) + "3";
        QContactPresence cp = curr.detail<QContactPresence>();
        QContactNickname nn = curr.detail<QContactNickname>();
        QContactAvatar av = curr.detail<QContactAvatar>();
        cp.setNickname(genstr);
        cp.setCustomMessage(genstr);
        cp.setTimestamp(timestamp);
        cp.setPresenceState(static_cast<QContactPresence::PresenceState>((qrand() % 4) + 1));
        nn.setNickname(nn.nickname() + genstr);
        av.setImageUrl(genstr + presenceAvatars.at(qrand() % presenceAvatars.size()));
        curr.saveDetail(&cp);
        curr.saveDetail(&nn);
        curr.saveDetail(&av);
        contactsToUpdate.append(curr);
    }
    for (int j = 0; j < morePrefillData.size(); ++j) {
        QContact curr = morePrefillData.at(j);
        QString genstr = QString::number(j) + "3";
        QContactPresence cp = curr.detail<QContactPresence>();
        QContactNickname nn = curr.detail<QContactNickname>();
        QContactAvatar av = curr.detail<QContactAvatar>();
        cp.setNickname(genstr);
        cp.setCustomMessage(genstr);
        cp.setTimestamp(timestamp);
        cp.setPresenceState(static_cast<QContactPresence::PresenceState>((qrand() % 4) + 1));
        nn.setNickname(nn.nickname() + genstr);
        av.setImageUrl(genstr + presenceAvatars.at(qrand() % presenceAvatars.size()));
        curr.saveDetail(&cp);
        curr.saveDetail(&nn);
        curr.saveDetail(&av);
        contactsToUpdate.append(curr);
    }

    // perform a batch save.
    syncTimer.start();
    manager.saveContacts(&contactsToUpdate);
    presenceElapsed = syncTimer.elapsed();
    totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "    update ( batch of" << contactsToUpdate.size() << ") presence+nick+avatar (with" << totalAggregatesInDatabase << "existing in database, all overlap):" << presenceElapsed
             << "milliseconds (" << ((1.0 * presenceElapsed) / (1.0 * contactsToUpdate.size())) << " msec per updated contact )";
    elapsedTimeTotal += presenceElapsed;

    // clean up the "more prefill data"
    qDebug() << "    cleaning up extra prefill data, please wait...";
    QList<ContactIdType> morePrefillIds;
    for (int j = 0; j < morePrefillData.size(); ++j) {
        morePrefillIds.append(retrievalId(morePrefillData.at(j)));
    }

    manager.removeContacts(morePrefillIds);

    // the fourth presence update test checks update time for non-overlapping sets of data.
    qDebug() << "    generating non-overlapping / aggregated prefill data, please wait...";
    morePrefillData.clear();
    for (int i = 0; i < 1000; ++i) {
        morePrefillData.append(generateContact("test-presence-4", false)); // false = don't aggregate.
    }
    manager.saveContacts(&morePrefillData);

    // now do the update
    contactsToUpdate.clear();
    timestamp = QDateTime::currentDateTime();
    for (int j = 0; j < morePrefillData.size(); ++j) {
        QContact curr = morePrefillData.at(j);
        QString genstr = QString::number(j) + "4";
        QContactPresence cp = curr.detail<QContactPresence>();
        QContactNickname nn = curr.detail<QContactNickname>();
        QContactAvatar av = curr.detail<QContactAvatar>();
        cp.setNickname(genstr);
        cp.setCustomMessage(genstr);
        cp.setTimestamp(timestamp);
        cp.setPresenceState(static_cast<QContactPresence::PresenceState>((qrand() % 4) + 1));
        nn.setNickname(nn.nickname() + genstr);
        av.setImageUrl(genstr + presenceAvatars.at(qrand() % presenceAvatars.size()));
        curr.saveDetail(&cp);
        curr.saveDetail(&nn);
        curr.saveDetail(&av);
        contactsToUpdate.append(curr);
    }

    // perform a batch save.
    syncTimer.start();
    manager.saveContacts(&contactsToUpdate);
    presenceElapsed = syncTimer.elapsed();
    totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "    update ( batch of" << contactsToUpdate.size() << ") presence+nick+avatar (with" << totalAggregatesInDatabase << "existing in database, no overlap):" << presenceElapsed
             << "milliseconds (" << ((1.0 * presenceElapsed) / (1.0 * contactsToUpdate.size())) << " msec per updated contact )";
    elapsedTimeTotal += presenceElapsed;

    // clean up the "more prefill data"
    qDebug() << "    cleaning up extra prefill data, please wait...";
#ifdef USING_QTPIM
    morePrefillIds.clear();
    for (int j = 0; j < morePrefillData.size(); ++j) {
        morePrefillIds.append(morePrefillData.at(j).id());
    }
#else
    morePrefillIds.clear();
    for (int j = 0; j < morePrefillData.size(); ++j) {
        morePrefillIds.append(morePrefillData.at(j).localId());
    }
#endif
    manager.removeContacts(morePrefillIds);

    // the fifth presence update test is similar to the above except that half of
    // the extra contacts have a (high) chance of being aggregated into an existing contact.
    // So, database should have 2000 constituents, 1000 from "local", 1000 from "test-presence-5"
    // with 1500 aggregates (about 500 of test-presence-5 contacts will share an aggregate with
    // a local contact).  TODO: check what happens if multiple aggregates for local contacts
    // could possibly match a given test-presence-5 contact (which is possible, since the backend
    // never aggregates two contacts from the same sync source...)
    qDebug() << "    generating partially-overlapping / aggregated prefill data, please wait...";
    morePrefillData.clear();
    for (int i = 0; i < 1000; ++i) {
        if (i < 500) {
            morePrefillData.append(generateContact("test-presence-5", false)); // false = don't aggregate.
        } else {
            morePrefillData.append(generateContact("test-presence-5", true));  // true = possibly aggregate.
        }
    }
    manager.saveContacts(&morePrefillData);

    // now do the update
    contactsToUpdate.clear();
    timestamp = QDateTime::currentDateTime();
    for (int j = 0; j < morePrefillData.size(); ++j) {
        QContact curr = morePrefillData.at(j);
        QString genstr = QString::number(j) + "5";
        QContactPresence cp = curr.detail<QContactPresence>();
        QContactNickname nn = curr.detail<QContactNickname>();
        QContactAvatar av = curr.detail<QContactAvatar>();
        cp.setNickname(genstr);
        cp.setCustomMessage(genstr);
        cp.setTimestamp(timestamp);
        cp.setPresenceState(static_cast<QContactPresence::PresenceState>((qrand() % 4) + 1));
        nn.setNickname(nn.nickname() + genstr);
        av.setImageUrl(genstr + presenceAvatars.at(qrand() % presenceAvatars.size()));
        curr.saveDetail(&cp);
        curr.saveDetail(&nn);
        curr.saveDetail(&av);
        contactsToUpdate.append(curr);
    }

    // perform a batch save.
    syncTimer.start();
    manager.saveContacts(&contactsToUpdate);
    presenceElapsed = syncTimer.elapsed();
    totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "    update ( batch of" << contactsToUpdate.size() << ") presence+nick+avatar (with" << totalAggregatesInDatabase << "existing in database, 500 overlap):" << presenceElapsed
             << "milliseconds (" << ((1.0 * presenceElapsed) / (1.0 * contactsToUpdate.size())) << " msec per updated contact )";
    elapsedTimeTotal += presenceElapsed;

    // the sixth presence update test is identical to the fifth test, except that we ONLY
    // update the presence status (not nickname or avatar).
    morePrefillData = contactsToUpdate;
    contactsToUpdate.clear();
    for (int j = 0; j < morePrefillData.size(); ++j) {
        QContact curr = morePrefillData.at(j);
        QContactPresence cp = curr.detail<QContactPresence>();
        cp.setPresenceState(static_cast<QContactPresence::PresenceState>((qrand() % 4) + 1));
        curr.saveDetail(&cp);
        contactsToUpdate.append(curr);
    }

    // perform a batch save.
    syncTimer.start();
    manager.saveContacts(&contactsToUpdate);
    presenceElapsed = syncTimer.elapsed();
    totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "    update ( batch of" << contactsToUpdate.size() << ") presence only (with" << totalAggregatesInDatabase << "existing in database, 500 overlap):" << presenceElapsed
             << "milliseconds (" << ((1.0 * presenceElapsed) / (1.0 * contactsToUpdate.size())) << " msec per updated contact )";
    elapsedTimeTotal += presenceElapsed;

    // the seventh presence update test is identical to the 6th test, except that
    // we also pass a "detail type mask" to the update.  This allows the backend
    // to perform optimisation based upon which details are modified.
    morePrefillData = contactsToUpdate;
    contactsToUpdate.clear();
    for (int j = 0; j < morePrefillData.size(); ++j) {
        QContact curr = morePrefillData.at(j);
        QContactPresence cp = curr.detail<QContactPresence>();
        cp.setPresenceState(static_cast<QContactPresence::PresenceState>((qrand() % 4) + 1));
        curr.saveDetail(&cp);
        contactsToUpdate.append(curr);
    }

    // perform a batch save.
#ifdef USING_QTPIM
    QList<QContactDetail::DetailType> typeMask;
    typeMask << QContactDetail::TypePresence;
#else
    QStringList typeMask;
    typeMask << QString(QLatin1String(QContactPresence::DefinitionName));
#endif
    syncTimer.start();
    manager.saveContacts(&contactsToUpdate, typeMask);
    presenceElapsed = syncTimer.elapsed();
    totalAggregatesInDatabase = manager.contactIds().count();
    qDebug() << "    update ( batch of" << contactsToUpdate.size() << ") masked presence only (with" << totalAggregatesInDatabase << "existing in database, 500 overlap):" << presenceElapsed
             << "milliseconds (" << ((1.0 * presenceElapsed) / (1.0 * contactsToUpdate.size())) << " msec per updated contact )";
    elapsedTimeTotal += presenceElapsed;

    // clean up the "more prefill data"
    qDebug() << "    cleaning up extra prefill data, please wait...";
#ifdef USING_QTPIM
    morePrefillIds.clear();
    for (int j = 0; j < morePrefillData.size(); ++j) {
        morePrefillIds.append(morePrefillData.at(j).id());
    }
#else
    morePrefillIds.clear();
    for (int j = 0; j < morePrefillData.size(); ++j) {
        morePrefillIds.append(morePrefillData.at(j).localId());
    }
#endif
    manager.removeContacts(morePrefillIds);

    qDebug() << "\n\nCumulative elapsed time:" << elapsedTimeTotal << "milliseconds";
    return 0;
}
예제 #5
0
QContact generateContact(const QString &syncTarget = QString(QLatin1String("local")), bool possiblyAggregate = false)
{
    static const QStringList firstNames(generateFirstNamesList());
    static const QStringList middleNames(generateMiddleNamesList());
    static const QStringList lastNames(generateLastNamesList());
    static const QStringList nonOverlappingFirstNames(generateNonOverlappingFirstNamesList());
    static const QStringList nonOverlappingLastNames(generateNonOverlappingLastNamesList());
    static const QStringList phoneNumbers(generatePhoneNumbersList());
    static const QStringList emailProviders(generateEmailProvidersList());
    static const QStringList avatars(generateAvatarsList());
    static const QStringList hobbies(generateHobbiesList());

    // we randomly determine whether to generate various details
    // to ensure that we have heterogeneous contacts in the db.
    QContact retn;
    int random = qrand();
    bool preventAggregate = (syncTarget != QLatin1String("local") && !possiblyAggregate);

    // We always have a sync target.
    QContactSyncTarget synctarget;
    synctarget.setSyncTarget(syncTarget);
    retn.saveDetail(&synctarget);

    // We always have a name.  Select an overlapping name if the sync target
    // is something other than "local" and possiblyAggregate is true.
    QContactName name;
    name.setFirstName(preventAggregate ?
            nonOverlappingFirstNames.at(random % nonOverlappingFirstNames.size()) :
            firstNames.at(random % firstNames.size()));
    name.setLastName(preventAggregate ?
            nonOverlappingLastNames.at(random % nonOverlappingLastNames.size()) :
            lastNames.at(random % lastNames.size()));
    if ((random % 6) == 0) name.setMiddleName(middleNames.at(random % middleNames.size()));
    if ((random % 17) == 0) name.setPrefix(QLatin1String("Dr."));
    retn.saveDetail(&name);

    // Favorite
    if ((random % 31) == 0) {
        QContactFavorite fav;
        fav.setFavorite(true);
        retn.saveDetail(&fav);
    }

    // Phone number
    if ((random % 3) == 0) {
        QContactPhoneNumber phn;
        QString randomPhn = phoneNumbers.at(random % phoneNumbers.size());
        phn.setNumber(preventAggregate ? QString(QString::number(random % 500000) + randomPhn) : randomPhn);
        if ((random % 9) == 0) phn.setContexts(QContactDetail::ContextWork);
        retn.saveDetail(&phn);
    }

    // Email
    if ((random % 2) == 0) {
        QContactEmailAddress em;
        em.setEmailAddress(QString(QLatin1String("%1%2%3%4"))
                .arg(preventAggregate ? QString(QString::number(random % 500000) + syncTarget) : QString())
                .arg(name.firstName()).arg(name.lastName())
                .arg(emailProviders.at(random % emailProviders.size())));
        if (random % 9) em.setContexts(QContactDetail::ContextWork);
        retn.saveDetail(&em);
    }

    // Avatar
    if ((random % 5) == 0) {
        QContactAvatar av;
        av.setImageUrl(name.firstName() + avatars.at(random % avatars.size()));
        retn.saveDetail(&av);
    }

    // Hobby
    if ((random % 21) == 0) {
        QContactHobby h1;
        h1.setHobby(hobbies.at(random % hobbies.size()));
        retn.saveDetail(&h1);

        int newRandom = qrand();
        if ((newRandom % 2) == 0) {
            QContactHobby h2;
            h2.setHobby(hobbies.at(newRandom % hobbies.size()));
            retn.saveDetail(&h2);
        }
    }

    return retn;
}
void SeasideCache::reset()
{
    for (int i = 0; i < FilterTypesCount; ++i) {
        m_contacts[i].clear();
        m_populated[i] = false;
        m_models[i] = 0;
    }

    m_cache.clear();
    m_cacheIndices.clear();

    for (uint i = 0; i < sizeof(contactsData) / sizeof(Contact); ++i) {
        QContact contact;

        // This is specific to the qtcontacts-sqlite backend:
        const QString idStr(QString::fromLatin1("qtcontacts:org.nemomobile.contacts.sqlite::sql-%1"));
        contact.setId(QContactId::fromString(idStr.arg(i + 1)));

        QContactName name;
        name.setFirstName(QString::fromLatin1(contactsData[i].firstName));
        name.setMiddleName(QString::fromUtf8(contactsData[i].middleName));
        name.setLastName(QString::fromLatin1(contactsData[i].lastName));
        contact.saveDetail(&name);

        if (contactsData[i].avatar) {
            QContactAvatar avatar;
            avatar.setImageUrl(QUrl(QLatin1String(contactsData[i].avatar)));
            contact.saveDetail(&avatar);
        }

        QContactStatusFlags statusFlags;

        if (contactsData[i].email) {
            QContactEmailAddress email;
            email.setEmailAddress(QLatin1String(contactsData[i].email));
            contact.saveDetail(&email);
            statusFlags.setFlag(QContactStatusFlags::HasEmailAddress, true);
        }

        if (contactsData[i].phoneNumber) {
            QContactPhoneNumber phoneNumber;
            phoneNumber.setNumber(QLatin1String(contactsData[i].phoneNumber));
            contact.saveDetail(&phoneNumber);
            statusFlags.setFlag(QContactStatusFlags::HasPhoneNumber, true);
        }

        contact.saveDetail(&statusFlags);

        m_cacheIndices.insert(internalId(contact), m_cache.count());
        m_cache.append(CacheItem(contact));

        QString fullName = name.firstName() + QChar::fromLatin1(' ') + name.lastName();

        CacheItem &cacheItem = m_cache.last();
        cacheItem.nameGroup = determineNameGroup(&cacheItem);
        cacheItem.displayLabel = fullName;
    }

    insert(FilterAll, 0, getContactsForFilterType(FilterAll));
    insert(FilterFavorites, 0, getContactsForFilterType(FilterFavorites));
    insert(FilterOnline, 0, getContactsForFilterType(FilterOnline));
}
예제 #7
0
void SeasidePhotoHandler::propertyProcessed(const QVersitDocument &, const QVersitProperty &property, const QContact &, bool *alreadyProcessed, QList<QContactDetail> * updatedDetails)
{
    // if the property is a PHOTO property, store the data to disk
    // and then create an avatar detail which points to it.
    if (property.name().toLower() != QLatin1String("photo"))
        return;

#ifndef QT_VERSION_5
    // The Qt4 / QtMobility version has QContactThumbnail support.
    // We need to remove any such thumbnail detail from the output,
    // as some backends (such as qtcontacts-sqlite) do not support
    // that detail type.
    for (int i = 0; i < updatedDetails->size(); ++i) {
        if (updatedDetails->at(i).definitionName() == QContactThumbnail::DefinitionName) {
            updatedDetails->removeAt(i);
            --i;
        }
    }
#endif

    // The data might be either a URL, a file path, or encoded image data
    // It's hard to tell what the content is, because versit removes the encoding
    // information in the process of decoding the data...

    // Try to interpret the data as a URL
    QString path(property.variantValue().toString());
    QUrl url(path);
    if (url.isValid()) {
        // Treat remote URL as a true URL, and reference it in the avatar
        if (!url.scheme().isEmpty() && !url.isLocalFile()) {
            QContactAvatar newAvatar;
            newAvatar.setImageUrl(url);
            updatedDetails->append(newAvatar);

            // we have successfully processed this PHOTO property.
            *alreadyProcessed = true;
            return;
        }
    }

    if (!url.isValid()) {
        // See if we can resolve the data as a local file path
        url = QUrl::fromLocalFile(path);
    }

    QByteArray photoData;

    if (url.isValid()) {
        // Try to read the data from the referenced file
        const QString filePath(url.path());
        if (QFile::exists(filePath)) {
            QFile file(filePath);
            if (!file.open(QIODevice::ReadOnly)) {
                qWarning() << "Unable to process photo data as file:" << path;
                return;
            } else {
                photoData = file.readAll();
            }
        }
    }

    if (photoData.isEmpty()) {
        // Try to interpret the encoded property data as the image
        photoData = property.variantValue().toByteArray();
        if (photoData.isEmpty()) {
            qWarning() << "Failed to extract avatar data from vCard PHOTO property";
            return;
        }
    }

    QImage img;
    bool loaded = img.loadFromData(photoData);
    if (!loaded) {
        qWarning() << "Failed to load avatar image from vCard PHOTO data";
        return;
    }

    // We will save the avatar image to disk in the system's data location
    // Since we're importing user data, it should not require privileged access
    const QString subdirectory(QString::fromLatin1(".local/share/system/Contacts/avatars"));
    const QString photoDirPath(QDir::home().filePath(subdirectory));

    // create the photo file dir if it doesn't exist.
    QDir photoDir;
    if (!photoDir.mkpath(photoDirPath)) {
        qWarning() << "Failed to create avatar image directory when loading avatar image from vCard PHOTO data";
        return;
    }

    // construct the filename of the new avatar image.
    QString photoFilePath = QString::fromLatin1(QCryptographicHash::hash(photoData, QCryptographicHash::Md5).toHex());
    photoFilePath = photoDirPath + QDir::separator() + photoFilePath + QString::fromLatin1(".jpg");

    // save the file to disk
    bool saved = img.save(photoFilePath);
    if (!saved) {
        qWarning() << "Failed to save avatar image from vCard PHOTO data to" << photoFilePath;
        return;
    }

    qWarning() << "Successfully saved avatar image from vCard PHOTO data to" << photoFilePath;

    // save the avatar detail - TODO: mark the avatar as "owned by the contact" (remove on delete)
    QContactAvatar newAvatar;
    newAvatar.setImageUrl(QUrl::fromLocalFile(photoFilePath));
    updatedDetails->append(newAvatar);

    // we have successfully processed this PHOTO property.
    *alreadyProcessed = true;
}
/**
 * Method to get the result for a network request.
 * @param aOperation The type of operation to be requested
 * @param aTransportResult The result of transport operation
 * @param aResponse The QByteArray instance containing the network response.
 * The plugins should delete this instance once they have read the 
 * data from it.
 * @param aResult [out] An output parameter to the plugin manager.If the 
 * return value is SmfSendRequestAgain, QVariant will be of type 
 * SmfPluginRequestData.
 * For SmfGalleryPlugin: If last operation was pictures(), aResult will 
 * be of type QList<SmfPicture>. If last operation was description(), 
 * aResult will be of type QString. If last operation was upload() or 
 * postComment(), aResult will be of type bool.
 * @param aRetType [out] SmfPluginRetType
 * @param aPageResult [out] The SmfResultPage structure variable
 */
SmfPluginError FlickrContactFetcherPlugin::responseAvailable( 
		const SmfRequestTypeID aOperation,
		const SmfTransportResult &aTransportResult, 
		QByteArray *aResponse, 
		QVariant* aResult, 
		SmfPluginRetType &aRetType,
		SmfResultPage &aPageResult )
	{
	Q_UNUSED(aPageResult)
	qDebug()<<"Inside FlickrContactFetcherPlugin::responseAvailable()";
	
	SmfPluginError error = SmfPluginErrNetworkError;
	
	if( !aResponse || (0 == aResponse->size()) )
		{
		qDebug()<<"Response is NULL or empty";
		aRetType = SmfRequestError;
		return error;
		}
	
	QByteArray response(*aResponse);
	delete aResponse;
	
	QFile respFile("c://data//SmfPluginFlickrContactResponse.txt");
	if(!respFile.open(QIODevice::WriteOnly))
		{
		qDebug()<<"File to write the response could not be opened, so writing to this file";
		qDebug()<<"Flickr response = "<<QString(response);
		}
	else
		{
		respFile.write(response);
		respFile.close();
		qDebug()<<"Writing FB response to a file named 'SmfPluginFlickrContactResponse.txt'";
		}
	qDebug()<<"FB response size = "<<response.size();
	
	if(SmfTransportOpNoError == aTransportResult)
		{
		qDebug()<<"No transport error";
		
#ifndef TESTINGTHISFUNCTION	
		if(SmfContactGetFriends == aOperation)
#else
		if(SmfContactGetFriends == aOperation ||aOperation == SmfContactGetFollowers||aOperation== SmfContactSearch ||aOperation ==SmfContactSearchNear||aOperation ==SmfContactSearchInGroup)
#endif
			{
			qDebug()<<"For getting friends response";
			
			QList<SmfContact> list;
			
#ifdef SMF_XMLPARSING // Xml parsing
			// For getting contacts from xml response
			QXmlStreamReader xml(response);
			while (!xml.atEnd())
				{
				xml.readNext();
				if (xml.tokenType() == QXmlStreamReader::StartElement)
					{
					// If the tag is contact
					if (xml.name() == "contact")
						{
						qDebug()<<"Contact tag found";
						SmfContact contact;
						QStringRef str;
						QContactName contactname;
						QString username = xml.attributes().value("username").toString();
						qDebug()<<"Username = "******"Name",namevar1);
						list.append(contact);
						}
					}
				}
#else
			// To remove the "jsonFlickrApi(" and also remove the last ")" from the response,
			// as these gives a Json parsing error
			response.remove(0, 14);
			response.chop(1);
			
			// For getting contacts from json response
			bool ok;
			SmfPluginUtil util;
			QVariantMap result = util.parse(response, &ok).toMap();
			if (!ok) {
				qDebug()<<"An error occurred during json parsing";
				aResult->setValue(list);
				aRetType = SmfRequestError;
				return SmfPluginErrParsingFailed;
			}
			
			QVariantMap map1 = result["contacts"].toMap();
			qDebug()<<"page = "<<map1["page"].toString();
			qDebug()<<"pages = "<<map1["pages"].toString();
			qDebug()<<"per_page = "<<map1["per_page"].toString();
			qDebug()<<"perpage = "<<map1["perpage"].toString();
			qDebug()<<"total = "<<map1["perpage"].toString();
			
			QList<QVariant> list1 = map1["contact"].toList();
			
			QListIterator<QVariant> i(list1);
			while(i.hasNext())
				{
				SmfContact contact;
				QVariantMap map2 = i.next().toMap();
				qDebug()<<"nsid = "<<map2["nsid"].toString();
				qDebug()<<"username = "******"username"].toString();
				qDebug()<<"iconserver = "<<map2["iconserver"].toString();
				qDebug()<<"iconfarm = "<<map2["iconfarm"].toString();
				qDebug()<<"ignored = "<<map2["ignored"].toString();
				qDebug()<<"realname = "<<map2["realname"].toString();
				qDebug()<<"friend = "<<map2["friend"].toString();
				qDebug()<<"family = "<<map2["family"].toString();
				qDebug()<<"path_alias = "<<map2["path_alias"].toString();
				qDebug()<<"location = "<<map2["location"].toString();
				
				// Contact Name
				QContactName contactname;
				QString username = map2["username"].toString();
				qDebug()<<"Username = "******"Name",nameVar);
				
				// Contact's Flickr Specific ID to QContactGuid
				QContactGuid guid;
				guid.setGuid(map2["nsid"].toString());
				QVariant guidVar = QVariant::fromValue(guid);
				contact.setValue("Guid",guidVar);
					
				// Contact's profile image url
				QUrl url;
				if((0 == map2["iconfarm"].toInt()) && (0 == map2["iconserver"].toInt()))
					url = QString("http://www.flickr.com/images/buddyicon.jpg");
				else
					{
					QString str("http://farm");
					str.append(map2["iconfarm"].toString());
					str.append(".static.flickr.com/");
					str.append(map2["iconserver"].toString());
					str.append("/buddyicons/");
					str.append(map2["nsid"].toString());
					str.append(".jpg");
					url = str;
					}
				QContactAvatar avatar;
				qDebug()<<"Profile image URL = "<<url.toString();
				avatar.setImageUrl(url);
				QVariant avatarVar = QVariant::fromValue(avatar);
				contact.setValue("Avatar",avatarVar);
				
				
				list.append(contact);
				}
#endif
			
			qDebug()<<"list count = "<<list.count();
			aResult->setValue(list);
			aRetType = SmfRequestComplete;
			error = SmfPluginErrNone;
			}
		else if(aOperation==SmfContactGetGroups)
			{
		        response.remove(0, 14);
				response.chop(1);
			
			    bool ok;
				qDebug()<<"Before Parser--";

				SmfPluginUtil util;
				QVariant result = util.parse(response, &ok);
				if (!ok) 
				{
				    qDebug()<<"An error occurred during json parsing";
					aRetType = SmfRequestError;
					return SmfPluginErrParsingFailed;
								 //return 0;
				}
							
				QVariantMap map1 = result.toMap();
		        QList<SmfGroup> list;
				QVariantMap map2 = map1["groups"].toMap();
				int page = map2["page"].toInt(&ok);
				qDebug()<<"PAGE = "<<map2["page"].toString();
				QList<QVariant> list1 = map2["group"].toList();
				QListIterator<QVariant> iter(list1);
						
				//Getting the group list from QJson Parser 
				 while(iter.hasNext())
				 {
					QVariantMap map2 = iter.next().toMap();
					qDebug()<<"name = "<<map2["name"].toString();
					qDebug()<<"id = "<<map2["id"].toString();
					SmfGroup group;
					QString id(map2["id"].toString());
					group.setId(id);
					QString grpname(map2["name"].toString());
					group.setName(grpname);
						   
					list.append(group);
						   
				 }//end While
				 qDebug()<<"list count = "<<QString::number(list.count(),10);
				aResult->setValue(list);
			}
		else
			{
			qDebug()<<"Service unsupported, currently only SmfContactGetFriends !!!";
			aRetType = SmfRequestError;
			error = SmfPluginErrServiceNotSupported;
			}
		}

	else if(SmfTransportOpOperationCanceledError == aTransportResult)
		{
		qDebug()<<"Operation Cancelled !!!";
		error = SmfPluginErrCancelComplete;
		aRetType = SmfRequestComplete;
		}

	else
		{
		qDebug()<<"Transport Error !!!";
		error = SmfPluginErrNetworkError;
		aRetType = SmfRequestError;
		}
	
	return error;
	}