#include "SlugsMAV.h" #include SlugsMAV::SlugsMAV(MAVLinkProtocol* mavlink, int id) : UAS(mavlink, id)//, // Place other initializers here { widgetTimer = new QTimer (this); widgetTimer->setInterval(200);//SLUGS_UPDATE_RATE); qDebug() << "SLUGS_UPDATE_RATE: " << SLUGS_UPDATE_RATE; connect (widgetTimer, SIGNAL(timeout()), this, SLOT(emitSignals())); widgetTimer->start(); // clear all the state structures memset(&mlRawImuData ,0, sizeof(mavlink_raw_imu_t)); #ifdef MAVLINK_ENABLED_SLUGS memset(&mlGpsData, 0, sizeof(mavlink_gps_raw_t)); memset(&mlCpuLoadData, 0, sizeof(mavlink_cpu_load_t)); memset(&mlAirData, 0, sizeof(mavlink_air_data_t)); memset(&mlSensorBiasData, 0, sizeof(mavlink_sensor_bias_t)); memset(&mlDiagnosticData, 0, sizeof(mavlink_diagnostic_t)); memset(&mlPilotConsoleData, 0, sizeof(mavlink_pilot_console_t)); memset(&mlFilteredData ,0, sizeof(mavlink_filtered_data_t)); memset(&mlBoot ,0, sizeof(mavlink_boot_t)); memset(&mlGpsDateTime ,0, sizeof(mavlink_gps_date_time_t)); memset(&mlApMode ,0, sizeof(mavlink_set_mode_t)); memset(&mlPwmCommands ,0, sizeof(mavlink_pwm_commands_t)); memset(&mlPidValues ,0, sizeof(mavlink_pid_values_t)); memset(&mlSinglePid ,0, sizeof(mavlink_pid_t)); memset(&mlNavigation ,0, sizeof(mavlink_slugs_navigation_t)); memset(&mlDataLog ,0, sizeof(mavlink_data_log_t)); memset(&mlPassthrough ,0, sizeof(mavlink_ctrl_srfc_pt_t)); memset(&mlActionAck,0, sizeof(mavlink_action_ack_t)); memset(&mlAction ,0, sizeof(mavlink_slugs_action_t)); updateRoundRobin = 0; uasId = id; #endif } /** * This function is called by MAVLink once a complete, uncorrupted (CRC check valid) * mavlink packet is received. * * @param link Hardware link the message came from (e.g. /dev/ttyUSB0 or UDP port). * messages can be sent back to the system via this link * @param message MAVLink message, as received from the MAVLink protocol stack */ void SlugsMAV::receiveMessage(LinkInterface* link, mavlink_message_t message) { // Let UAS handle the default message set UAS::receiveMessage(link, message); if (message.sysid == uasId) { #ifdef MAVLINK_ENABLED_SLUGS // Handle your special messages mavlink_message_t* msg = &message; switch (message.msgid) { case MAVLINK_MSG_ID_RAW_IMU: //mavlink_raw_imu_t t; mavlink_msg_raw_imu_decode(&message, &mlRawImuData); break; case MAVLINK_MSG_ID_BOOT: mavlink_msg_boot_decode(&message,&mlBoot); emit slugsBootMsg(uasId, mlBoot); break; case MAVLINK_MSG_ID_ATTITUDE: mavlink_msg_attitude_decode(&message, &mlAttitude); break; case MAVLINK_MSG_ID_GPS_RAW: mavlink_msg_gps_raw_decode(&message, &mlGpsData); break; case MAVLINK_MSG_ID_CPU_LOAD: //170 mavlink_msg_cpu_load_decode(&message,&mlCpuLoadData); break; case MAVLINK_MSG_ID_AIR_DATA: //171 mavlink_msg_air_data_decode(&message,&mlAirData); break; case MAVLINK_MSG_ID_SENSOR_BIAS: //172 mavlink_msg_sensor_bias_decode(&message,&mlSensorBiasData); break; case MAVLINK_MSG_ID_DIAGNOSTIC: //173 mavlink_msg_diagnostic_decode(&message,&mlDiagnosticData); break; case MAVLINK_MSG_ID_PILOT_CONSOLE: //174 mavlink_msg_pilot_console_decode(&message,&mlPilotConsoleData); break; case MAVLINK_MSG_ID_PWM_COMMANDS: //175 mavlink_msg_pwm_commands_decode(&message,&mlPwmCommands); break; case MAVLINK_MSG_ID_SLUGS_NAVIGATION://176 mavlink_msg_slugs_navigation_decode(&message,&mlNavigation); break; case MAVLINK_MSG_ID_DATA_LOG: //177 mavlink_msg_data_log_decode(&message,&mlDataLog); break; case MAVLINK_MSG_ID_FILTERED_DATA: //178 mavlink_msg_filtered_data_decode(&message,&mlFilteredData); break; case MAVLINK_MSG_ID_GPS_DATE_TIME: //179 mavlink_msg_gps_date_time_decode(&message,&mlGpsDateTime); break; case MAVLINK_MSG_ID_MID_LVL_CMDS: //180 mavlink_msg_mid_lvl_cmds_decode(&message, &mlMidLevelCommands); break; case MAVLINK_MSG_ID_CTRL_SRFC_PT: //181 mavlink_msg_ctrl_srfc_pt_decode(&message, &mlPassthrough); break; case MAVLINK_MSG_ID_PID: //182 memset(&mlSinglePid,0,sizeof(mavlink_pid_t)); mavlink_msg_pid_decode(&message, &mlSinglePid); // qDebug() << "\nSLUGS RECEIVED PID Message = "< 10? 1: updateRoundRobin + 1; } #ifdef MAVLINK_ENABLED_SLUGS void SlugsMAV::emitGpsSignals (void){ // qDebug()<<"After Emit GPS Signal"< 0){ emit globalPositionChanged(this, mlGpsData.lon, mlGpsData.lat, mlGpsData.alt, 0.0); emit slugsGPSCogSog(uasId,mlGpsData.hdg, mlGpsData.v); // // Smaller than threshold and not NaN // if (mlGpsData.v < 1000000 && mlGpsData.v == mlGpsData.v){ // // emit speedChanged(this, (double)mlGpsData.v, 0.0, 0.0, 0.0); // } // else { // emit textMessageReceived(uasId, uasId, 255, QString("GCS ERROR: RECEIVED INVALID SPEED OF %1 m/s").arg(mlGpsData.v)); // } //} } void SlugsMAV::emitPidSignal() { // qDebug() << "\nSLUGS RECEIVED PID Message"; emit slugsPidValues(uasId, mlSinglePid); } mavlink_pwm_commands_t* SlugsMAV::getPwmCommands() { return &mlPwmCommands; } #endif // MAVLINK_ENABLED_SLUGS