/** ****************************************************************************** * * @file ahrscalibration.cpp * @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2010. * @see The GNU Public License (GPL) Version 3 * @addtogroup GCSPlugins GCS Plugins * @{ * @addtogroup UAVObjectsPlugin UAVObjects Plugin * @{ * * @note Object definition file: ahrscalibration.xml. * This is an automatically generated file. * DO NOT modify manually. * * @brief The UAVUObjects GCS plugin *****************************************************************************/ /* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY * or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "ahrscalibration.h" #include "uavobjectfield.h" const QString AHRSCalibration::NAME = QString("AHRSCalibration"); /** * Constructor */ AHRSCalibration::AHRSCalibration(): UAVDataObject(OBJID, ISSINGLEINST, ISSETTINGS, NAME) { // Create fields QList fields; QStringList measure_varElemNames; measure_varElemNames.append("0"); QStringList measure_varEnumOptions; measure_varEnumOptions.append("SET"); measure_varEnumOptions.append("MEASURE"); measure_varEnumOptions.append("ECHO"); fields.append( new UAVObjectField(QString("measure_var"), QString(""), UAVObjectField::ENUM, measure_varElemNames, measure_varEnumOptions) ); QStringList accel_biasElemNames; accel_biasElemNames.append("X"); accel_biasElemNames.append("Y"); accel_biasElemNames.append("Z"); fields.append( new UAVObjectField(QString("accel_bias"), QString("raw"), UAVObjectField::FLOAT32, accel_biasElemNames, QStringList()) ); QStringList accel_scaleElemNames; accel_scaleElemNames.append("X"); accel_scaleElemNames.append("Y"); accel_scaleElemNames.append("Z"); fields.append( new UAVObjectField(QString("accel_scale"), QString("m/s"), UAVObjectField::FLOAT32, accel_scaleElemNames, QStringList()) ); QStringList accel_varElemNames; accel_varElemNames.append("X"); accel_varElemNames.append("Y"); accel_varElemNames.append("Z"); fields.append( new UAVObjectField(QString("accel_var"), QString("m^2/s^s"), UAVObjectField::FLOAT32, accel_varElemNames, QStringList()) ); QStringList gyro_biasElemNames; gyro_biasElemNames.append("X"); gyro_biasElemNames.append("Y"); gyro_biasElemNames.append("Z"); fields.append( new UAVObjectField(QString("gyro_bias"), QString("raw"), UAVObjectField::FLOAT32, gyro_biasElemNames, QStringList()) ); QStringList gyro_scaleElemNames; gyro_scaleElemNames.append("X"); gyro_scaleElemNames.append("Y"); gyro_scaleElemNames.append("Z"); fields.append( new UAVObjectField(QString("gyro_scale"), QString("deg/s"), UAVObjectField::FLOAT32, gyro_scaleElemNames, QStringList()) ); QStringList gyro_varElemNames; gyro_varElemNames.append("X"); gyro_varElemNames.append("Y"); gyro_varElemNames.append("Z"); fields.append( new UAVObjectField(QString("gyro_var"), QString("deg^s/s^2"), UAVObjectField::FLOAT32, gyro_varElemNames, QStringList()) ); QStringList mag_biasElemNames; mag_biasElemNames.append("X"); mag_biasElemNames.append("Y"); mag_biasElemNames.append("Z"); fields.append( new UAVObjectField(QString("mag_bias"), QString("mGau"), UAVObjectField::FLOAT32, mag_biasElemNames, QStringList()) ); QStringList mag_scaleElemNames; mag_scaleElemNames.append("X"); mag_scaleElemNames.append("Y"); mag_scaleElemNames.append("Z"); fields.append( new UAVObjectField(QString("mag_scale"), QString("mGau"), UAVObjectField::FLOAT32, mag_scaleElemNames, QStringList()) ); QStringList mag_varElemNames; mag_varElemNames.append("X"); mag_varElemNames.append("Y"); mag_varElemNames.append("Z"); fields.append( new UAVObjectField(QString("mag_var"), QString("mGau^s"), UAVObjectField::FLOAT32, mag_varElemNames, QStringList()) ); // Initialize object initializeFields(fields, (quint8*)&data, NUMBYTES); // Set the default field values setDefaultFieldValues(); } /** * Get the default metadata for this object */ UAVObject::Metadata AHRSCalibration::getDefaultMetadata() { UAVObject::Metadata metadata; metadata.flightAccess = ACCESS_READWRITE; metadata.gcsAccess = ACCESS_READWRITE; metadata.gcsTelemetryAcked = 1; metadata.gcsTelemetryUpdateMode = UAVObject::UPDATEMODE_ONCHANGE; metadata.gcsTelemetryUpdatePeriod = 0; metadata.flightTelemetryAcked = 1; metadata.flightTelemetryUpdateMode = UAVObject::UPDATEMODE_ONCHANGE; metadata.flightTelemetryUpdatePeriod = 0; metadata.loggingUpdateMode = UAVObject::UPDATEMODE_NEVER; metadata.loggingUpdatePeriod = 0; return metadata; } /** * Initialize object fields with the default values. * If a default value is not specified the object fields * will be initialized to zero. */ void AHRSCalibration::setDefaultFieldValues() { data.measure_var = 0; data.accel_bias[0] = 24; data.accel_bias[1] = 24; data.accel_bias[2] = 24; data.accel_scale[0] = 0.012; data.accel_scale[1] = 0.012; data.accel_scale[2] = 0.012; data.accel_var[0] = 5e-05; data.accel_var[1] = 5e-05; data.accel_var[2] = 5e-05; data.gyro_bias[0] = 23; data.gyro_bias[1] = 23; data.gyro_bias[2] = 23; data.gyro_scale[0] = -0.014; data.gyro_scale[1] = -0.014; data.gyro_scale[2] = -0.014; data.gyro_var[0] = 0.0001; data.gyro_var[1] = 0.0001; data.gyro_var[2] = 0.0001; data.mag_bias[0] = 0; data.mag_bias[1] = 0; data.mag_bias[2] = 0; data.mag_scale[0] = 1; data.mag_scale[1] = 1; data.mag_scale[2] = 1; data.mag_var[0] = 5e-05; data.mag_var[1] = 5e-05; data.mag_var[2] = 5e-05; } /** * Get the object data fields */ AHRSCalibration::DataFields AHRSCalibration::getData() { QMutexLocker locker(mutex); return data; } /** * Set the object data fields */ void AHRSCalibration::setData(const DataFields& data) { QMutexLocker locker(mutex); // Get metadata Metadata mdata = getMetadata(); // Update object if the access mode permits if ( mdata.gcsAccess == ACCESS_READWRITE ) { this->data = data; emit objectUpdatedAuto(this); // trigger object updated event emit objectUpdated(this); } } /** * Create a clone of this object, a new instance ID must be specified. * Do not use this function directly to create new instances, the * UAVObjectManager should be used instead. */ UAVDataObject* AHRSCalibration::clone(quint32 instID) { AHRSCalibration* obj = new AHRSCalibration(); obj->initialize(instID, this->getMetaObject()); return obj; } /** * Static function to retrieve an instance of the object. */ AHRSCalibration* AHRSCalibration::GetInstance(UAVObjectManager* objMngr, quint32 instID) { return dynamic_cast(objMngr->getObject(AHRSCalibration::OBJID, instID)); }