Exemple #1
0
void GPSCorrelatorWidget::slotItemsCorrelated(const Digikam::TrackCorrelator::Correlation::List& correlatedItems)
{
    qCDebug(DIGIKAM_GENERAL_LOG) << correlatedItems.count();
    d->correlationTriedCount += correlatedItems.count();

    for (int i = 0; i < correlatedItems.count(); ++i)
    {
        const TrackCorrelator::Correlation& itemCorrelation = correlatedItems.at(i);
        const QPersistentModelIndex itemIndex               = itemCorrelation.userData.value<QPersistentModelIndex>();

        if (!itemIndex.isValid())
            continue;

        GPSImageItem* const imageItem                       = d->imageModel->itemFromIndex(itemIndex);

        if (!imageItem)
            continue;

        if (itemCorrelation.flags&TrackCorrelator::CorrelationFlagCoordinates)
        {
            d->correlationCorrelatedCount++;

            GPSDataContainer newData;
            newData.setCoordinates(itemCorrelation.coordinates);

            if (itemCorrelation.nSatellites >= 0)
                newData.setNSatellites(itemCorrelation.nSatellites);

            // if hDop is available, use it
            if (itemCorrelation.hDop >= 0)
                newData.setDop(itemCorrelation.hDop);

            // but if pDop is available, prefer pDop over hDop
            if (itemCorrelation.pDop >= 0)
                newData.setDop(itemCorrelation.pDop);

            if (itemCorrelation.fixType >= 0)
            {
                newData.setFixType(itemCorrelation.fixType);
            }
            if (itemCorrelation.speed >= 0)
            {
                newData.setSpeed(itemCorrelation.speed);
            }

            GPSUndoCommand::UndoInfo undoInfo(itemIndex);
            undoInfo.readOldDataFromItem(imageItem);

            imageItem->setGPSData(newData);
            undoInfo.readNewDataFromItem(imageItem);

            d->correlationUndoCommand->addUndoInfo(undoInfo);
        }
    }

    emit(signalProgressChanged(d->correlationTriedCount));
}
Exemple #2
0
void GPSImageDetails::slotApply()
{
    GPSDataContainer newData;

    if (d->cbCoordinates->isChecked())
    {
        const double lat = d->leLatitude->text().toDouble();
        const double lon = d->leLongitude->text().toDouble();
        newData.setCoordinates(GeoIface::GeoCoordinates(lat, lon));

        if (d->cbAltitude->isChecked())
        {
            const qreal alt = static_cast<qreal>(d->leAltitude->text().toDouble());
            newData.setAltitude(alt);
        }

        if (d->cbSpeed->isChecked())
        {
            const qreal speed = static_cast<qreal>(d->leSpeed->text().toDouble());
            newData.setSpeed(speed);
        }

        if (d->cbNSatellites->isChecked())
        {
            const int nSatellites = d->leNSatellites->text().toInt();
            newData.setNSatellites(nSatellites);
        }

        if (d->cbFixType->isChecked())
        {
            const int fixType = d->comboFixType->itemData(d->comboFixType->currentIndex()).toInt();
            newData.setFixType(fixType);
        }

        if (d->cbDop->isChecked())
        {
            const qreal dop = static_cast<qreal>(d->leDop->text().toDouble());
            newData.setDop(dop);
        }
    }

    GPSImageItem* const gpsItem      = d->imageModel->itemFromIndex(d->imageIndex);
    GPSUndoCommand* const undoCommand = new GPSUndoCommand();

    GPSUndoCommand::UndoInfo undoInfo(d->imageIndex);
    undoInfo.readOldDataFromItem(gpsItem);
    gpsItem->setGPSData(newData);
    undoInfo.readNewDataFromItem(gpsItem);
    undoCommand->addUndoInfo(undoInfo);
    undoCommand->setText(i18n("Details changed"));
    emit(signalUndoCommand(undoCommand));
}