/*! Sets the wrap mode of the z dimension to \a z. \note this is only available on 3D textures. */ void QTextureWrapMode::setZ(WrapMode z) { Q_D(QTextureWrapMode); if (d->m_z != z) { d->m_z = z; emit zChanged(); } }
void GyroState::setz(float value) { mutex->lock(); bool changed = data.z != value; data.z = value; mutex->unlock(); if (changed) emit zChanged(value); }
void MagSensor::setz(float value) { mutex->lock(); bool changed = data.z != value; data.z = value; mutex->unlock(); if (changed) emit zChanged(value); }
void GyroState::emitNotifications() { //if (data.x != oldData.x) emit xChanged(data.x); //if (data.y != oldData.y) emit yChanged(data.y); //if (data.z != oldData.z) emit zChanged(data.z); }
void MagSensor::emitNotifications() { //if (data.x != oldData.x) emit xChanged(data.x); //if (data.y != oldData.y) emit yChanged(data.y); //if (data.z != oldData.z) emit zChanged(data.z); }
void QDeclarativeGeoMapObject::setMapObject(QGeoMapObject *object) { if (!object) return; object_ = object; object_->setVisible(visible_); connect(this, SIGNAL(zChanged()), this, SLOT(parentZChanged())); object_->setZValue(zValue()); }
void tst_QGraphicsObject::z() { MyGraphicsObject object; QSignalSpy zSpy(&object, SIGNAL(zChanged())); QVERIFY(object.zValue() == 0); object.setZValue(10); QCOMPARE(zSpy.count(), 1); QVERIFY(object.zValue() == 10); object.setZValue(10); QCOMPARE(zSpy.count(), 1); object.setProperty("z", 0); QCOMPARE(zSpy.count(), 2); QVERIFY(object.property("z") == 0); }
void QmlRotationSensorReading::readingUpdate() { qreal rX = m_sensor->reading()->x(); if (m_x != rX) { m_x = rX; Q_EMIT xChanged(); } qreal rY = m_sensor->reading()->y(); if (m_y != rY) { m_y = rY; Q_EMIT yChanged(); } qreal rZ = m_sensor->reading()->z(); if (m_z != rZ) { m_z = rZ; Q_EMIT zChanged(); } }
void QmlGyroscopeReading::readingUpdate() { qreal gx = m_sensor->reading()->x(); if (m_x != gx) { m_x = gx; Q_EMIT xChanged(); } qreal gy = m_sensor->reading()->y(); if (m_y != gy) { m_y = gy; Q_EMIT yChanged(); } qreal gz = m_sensor->reading()->z(); if (m_z != gz) { m_z = gz; Q_EMIT zChanged(); } }
void QmlMagnetometerReading::readingUpdate() { qreal magX = m_sensor->reading()->x(); if (m_x != magX) { m_x = magX; Q_EMIT xChanged(); } qreal magY = m_sensor->reading()->y(); if (m_y != magY) { m_y = magY; Q_EMIT yChanged(); } qreal magZ = m_sensor->reading()->z(); if (m_z != magZ) { m_z = magZ; Q_EMIT zChanged(); } qreal calLevel = m_sensor->reading()->calibrationLevel(); if (m_calibrationLevel != calLevel) { m_calibrationLevel = calLevel; Q_EMIT calibrationLevelChanged(); } }
void Rotation::updateZ() { emit zChanged(); emit rotationChanged(); }
void THREEQuaternion::setZ(float z) { if (m_z != z) { m_z = z; emit zChanged(z); } }
void QDeclarativeGeoMapObjectView::setZValue(qreal zValue) { group_.setZValue(zValue); emit zChanged(); }