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These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qaccelerometer.h" #include "qaccelerometer_p.h" QT_BEGIN_NAMESPACE IMPLEMENT_READING(QAccelerometerReading) /*! \class QAccelerometerReading \ingroup sensors_reading \inmodule QtSensors \brief The QAccelerometerReading class reports on linear acceleration along the X, Y and Z axes. \section2 QAccelerometerReading Units The scale of the values is meters per second squared. The axes are arranged as follows. \image sensors-coordinates2.jpg A monoblock device sitting at rest, face up on a desk will experience a force of approximately 9.8 on the Z axis (ie. towards the roof). This is the proper acceleration the device experiences relative to freefall. */ /*! \property QAccelerometerReading::x \brief the acceleration on the X axis. The scale of the values is meters per second squared. \sa {QAccelerometerReading Units} */ qreal QAccelerometerReading::x() const { return d->x; } /*! Sets the acceleration on the X axis to \a x. */ void QAccelerometerReading::setX(qreal x) { d->x = x; } /*! \property QAccelerometerReading::y \brief the acceleration on the Y axis. The scale of the values is meters per second squared. \sa {QAccelerometerReading Units} */ qreal QAccelerometerReading::y() const { return d->y; } /*! Sets the acceleration on the Y axis to \a y. */ void QAccelerometerReading::setY(qreal y) { d->y = y; } /*! \property QAccelerometerReading::z \brief the acceleration on the Z axis. The scale of the values is meters per second squared. \sa {QAccelerometerReading Units} */ qreal QAccelerometerReading::z() const { return d->z; } /*! Sets the acceleration on the Z axis to \a z. */ void QAccelerometerReading::setZ(qreal z) { d->z = z; } // ===================================================================== /*! \class QAccelerometerFilter \ingroup sensors_filter \inmodule QtSensors \brief The QAccelerometerFilter class is a convenience wrapper around QSensorFilter. The only difference is that the filter() method features a pointer to QAccelerometerReading instead of QSensorReading. */ /*! \fn QAccelerometerFilter::filter(QAccelerometerReading *reading) Called when \a reading changes. Returns false to prevent the reading from propagating. \sa QSensorFilter::filter() */ bool QAccelerometerFilter::filter(QSensorReading *reading) { return filter(static_cast(reading)); } char const * const QAccelerometer::type("QAccelerometer"); /*! \enum QAccelerometer::AccelerationMode \brief This enum represents the acceleration mode of an acceleration sensor. The acceleration mode controls how the sensor reports acceleration. QAccelerometer::Combined is the only mode in which the values can be directly physically measured, the others are an approximation. \value Combined Both the acceleration caused by gravity and the acceleration caused by the user moving the device is reported combined. \value Gravity Only the acceleration caused by gravity is reported. Movements of the device caused by the user have no effect other than changing the direction when the device is rotated. \value User Only the acceleration caused by the user moving the device is reported, the effect of gravity is canceled out. A device at rest therefore should report values of, or close to, zero. In other APIs, this mode might be known as \e {linear acceleration}. \sa QAccelerometer::accelerationMode \since 5.1 */ /*! \class QAccelerometer \ingroup sensors_type \inmodule QtSensors \brief The QAccelerometer class is a convenience wrapper around QSensor. The only behavioural difference is that this class sets the type properly. It also supports changing the acceleration mode, which controls whether the force of gravity is included in the accelerometer values or not. Furthermore, this class features a reading() function that returns a QAccelerometerReading instead of a QSensorReading. For details about how the sensor works, see \l QAccelerometerReading. \sa QAccelerometerReading */ /*! Construct the sensor as a child of \a parent. */ QAccelerometer::QAccelerometer(QObject *parent) : QSensor(QAccelerometer::type, *new QAccelerometerPrivate, parent) { } /*! Destroy the sensor. Stops the sensor if it has not already been stopped. */ QAccelerometer::~QAccelerometer() { } /*! \property QAccelerometer::accelerationMode \brief The acceleration mode controls how acceleration values are reported. \since 5.1 The acceleration mode controls how the acceleration sensor reports its values. The default mode is QAccelerometer::Combined, which means the acceleration caused by gravity is included in the reported values. Acceleration caused by gravity and acceleration caused by the user moving the device are physically impossible to distinguish because of general relativity. Most devices use sensor fusion to figure out which parts of the acceleration is caused by gravity, for example by using a rotation sensor to calculate the gravity direction and assuming a fixed magnitude for gravity. Therefore the result is only an approximation and may be inaccurate. The QAccelerometer::Combined mode is the most accurate one, as it does not involve approximating the gravity. Not all backends and devices might support setting the acceleration mode. For those cases, the default mode QAccelerometer::Combined is used, changing it has no effect. */ QAccelerometer::AccelerationMode QAccelerometer::accelerationMode() const { Q_D(const QAccelerometer); return d->accelerationMode; } /*! Sets the acceleration mode to \a accelerationMode. \since 5.1 */ void QAccelerometer::setAccelerationMode(QAccelerometer::AccelerationMode accelerationMode) { Q_D(QAccelerometer); if (d->accelerationMode != accelerationMode) { d->accelerationMode = accelerationMode; emit accelerationModeChanged(d->accelerationMode); } } /*! \fn QAccelerometer::reading() const Returns the reading class for this sensor. \sa QSensor::reading() */ QAccelerometerReading *QAccelerometer::reading() const { return static_cast(QSensor::reading()); } /*! \fn QAccelerometer::accelerationModeChanged(AccelerationMode accelerationMode) Emitted when the acceleration mode was changed. \since 5.1 */ #include "moc_qaccelerometer.cpp" QT_END_NAMESPACE