Positioning (C++)

The Location Positioning API enables location positioning by means of GPS or an NMEA data source.


The Positioning component of the Qt Location API is about the geographical position, size and address of some place. Positioning contains a QGeoCoordinate class, containing latitude, longitude and altitude in meters. QGeoLocation contains a QGeoCoordinate plus address and size information (a bounding box) so that positions can be more than mathematical points. Movement into or out of the defined bounding box areas can be monitored. The API also allows the developer to control the source of the positional information as well.

Location data involves a precisely specified position on the Earth’s surface — as provided by a latitude-longitude coordinate — along with associated data, such as:

  • The date and time at which the position was reported

  • The velocity of the device that reported the position

  • The altitude of the reported position (height above sea level)

  • The bearing of the device in degrees, relative to true north

This data can be extracted through a variety of methods. One of the most well known methods of positioning is GPS (Global Positioning System), a publicly available system that uses radiowave signals received from Earth-orbiting satellites to calculate the precise position and time of the receiver. Another popular method is ‘Cell Identifier Positioning’, which uses the cell identifier of the cell site that is currently serving the receiving device to calculate its approximate location. These and other positioning methods can all be used with the Location API; the only requirement for a location data source within the API is that it provides a latitude-longitude coordinate with a date/time value, with the option of providing the other attributes listed above.

Location data sources are created by subclassing QGeoPositionInfoSource and providing QGeoPositionInfo objects through the positionUpdated() signal. Clients that require location data can connect to the positionUpdated() signal and call startUpdates() or requestUpdate() to trigger the distribution of location data. The location data distribution can be stopped by calling the stopUpdates() function.

A default position source may be available on some platforms. Call createDefaultSource() to create an instance of the default position source; the method returns 0 if no default source is available for the platform.

If a problem occurs with access to the information source then an error() signal is emitted.

The QGeoAreaMonitorSource class enables client applications to be notified when the receiving device has moved in or out of a particular area, as specified by a coordinate and radius. If the platform provides built-in support for area monitoring, QGeoAreaMonitorSource::createDefaultMonitor() returns an instance of the default area monitor.

Satellite information can also be distributed through the QGeoSatelliteInfoSource class. Call createDefaultSource() to create an instance of the default satellite data source for the platform, if one is available. Alternatively, clients can subclass it to provide a custom satellite data source.

Requesting Location Data from Data Sources

To receive data from a source, connect to its positionUpdated() signal, then call either startUpdates() or requestUpdate() to begin.

Here is an example of a client that receives data from the default location data source, as returned by createDefaultSource() :

class MyClass : public QObject
    MyClass(QObject *parent = 0)
        : QObject(parent)
        QGeoPositionInfoSource *source = QGeoPositionInfoSource::createDefaultSource(this);
        if (source) {
            connect(source, SIGNAL(positionUpdated(QGeoPositionInfo)),
                    this, SLOT(positionUpdated(QGeoPositionInfo)));

private slots:
    void positionUpdated(const QGeoPositionInfo &info)
        qDebug() << "Position updated:" << info;

Controlling Aspects of Data Sources

The setUpdateInterval() method can be used to control the rate at which position updates are received. For example, if the client application only requires updates once every 30 seconds, it can call setUpdateInterval(30000) . (If no update interval is set, or setUpdateInterval() is called with a value of 0, the source uses a default interval or some other internal logic to determine when updates should be provided.)

setPreferredPositioningMethods() enables client applications to request that a certain type of positioning method be used. For example, if the application prefers to use only satellite positioning, which offers fairly precise outdoor positioning but can be a heavy user of power resources, it can call this method with the SatellitePositioningMethods value. However, this method should only be used in specialized client applications; in most cases, the default positioning methods should not be changed, as a source may internally use a variety of positioning methods that can be useful to the application.


NMEA is a common text-based protocol for specifying navigational data. For convenience, the QNmeaPositionInfoSource is provided to enable client applications to read and distribute NMEA data in either real-time mode (for example, when streaming from a GPS device) or simulation mode (for example, when reading from a NMEA log file). In simulation mode, the source will emit updates according to the time stamp of each NMEA sentence to produce a “replay” of the recorded data.

Generally, the capabilities provided by the default position source as returned by createDefaultSource() , along with the QNmeaPositionInfoSource class, are sufficient for retrieving location data. However, in some cases developers may wish to write their own custom location data source.

The Log File Position Source (C++) example demonstrates how to subclass QGeoPositionInfoSource to create a custom positioning source.


Flickr Example

The Flickr Example uses the current location to download thumbnail images from Flickr relevant to the current location.

Positioning Classes


The QGeoAddress class represents an address of a QGeoLocation.


The QGeoAreaMonitorInfo class describes the parameters of an area or region to be monitored for proximity.


The QGeoAreaMonitorSource class enables the detection of proximity changes for a specified set of coordinates.


The QGeoCircle class defines a circular geographic area.


The QGeoCoordinate class defines a geographical position on the surface of the Earth.


The QGeoLocation class represents basic information about a location.


The QGeoPath class defines a geographic path.


The QGeoPolygon class defines a geographic polygon.


The QGeoPositionInfo class contains information gathered on a global position, direction and velocity at a particular point in time.


The QGeoPositionInfoSource class is an abstract base class for the distribution of positional updates.


The QGeoRectangle class defines a rectangular geographic area.


The QGeoSatelliteInfo class contains basic information about a satellite.


The QGeoSatelliteInfoSource class is an abstract base class for the distribution of satellite information updates.


The QGeoShape class defines a geographic area.


The QNmeaPositionInfoSource class provides positional information using a NMEA data source.