UAS.cc 64.4 KB
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/****************************************************************************
 *
 *   (c) 2009-2016 QGROUNDCONTROL PROJECT <http://www.qgroundcontrol.org>
 *
 * QGroundControl is licensed according to the terms in the file
 * COPYING.md in the root of the source code directory.
 *
 ****************************************************************************/

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// NO NEW CODE HERE
// UASInterface, UAS.h/cc are deprecated. All new functionality should go into Vehicle.h/cc
//
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#include <QList>
#include <QTimer>
#include <QSettings>
#include <iostream>
#include <QDebug>
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#include <cmath>
#include <qmath.h>
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#include <limits>
#include <cstdlib>

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#include "UAS.h"
#include "LinkInterface.h"
#include "QGC.h"
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#include "AudioOutput.h"
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#include "MAVLinkProtocol.h"
#include "QGCMAVLink.h"
#include "LinkManager.h"
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#ifndef NO_SERIAL_LINK
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#include "SerialLink.h"
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#endif
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#include "FirmwarePluginManager.h"
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#include "QGCLoggingCategory.h"
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#include "Vehicle.h"
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#include "Joystick.h"
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#include "QGCApplication.h"
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QGC_LOGGING_CATEGORY(UASLog, "UASLog")
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// THIS CLASS IS DEPRECATED. ALL NEW FUNCTIONALITY SHOULD GO INTO Vehicle class
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UAS::UAS(MAVLinkProtocol* protocol, Vehicle* vehicle, FirmwarePluginManager * firmwarePluginManager) : UASInterface(),
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    lipoFull(4.2f),
    lipoEmpty(3.5f),
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    uasId(vehicle->id()),
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    unknownPackets(),
    mavlink(protocol),
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    receiveDropRate(0),
    sendDropRate(0),

    status(-1),

    startTime(QGC::groundTimeMilliseconds()),
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    onboardTimeOffset(0),
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    controlRollManual(true),
    controlPitchManual(true),
    controlYawManual(true),
    controlThrustManual(true),
    manualRollAngle(0),
    manualPitchAngle(0),
    manualYawAngle(0),
    manualThrust(0),
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#ifndef __mobile__
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    fileManager(this, vehicle),
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#endif
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    attitudeKnown(false),
    attitudeStamped(false),
    lastAttitude(0),
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    roll(0.0),
    pitch(0.0),
    yaw(0.0),

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    imagePackets(0),    // We must initialize to 0, otherwise extended data packets maybe incorrectly thought to be images

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    blockHomePositionChanges(false),
    receivedMode(false),

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    // Note variances calculated from flight case from this log: http://dash.oznet.ch/view/MRjW8NUNYQSuSZkbn8dEjY
    // TODO: calibrate stand-still pixhawk variances
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    xacc_var(0.6457f),
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    yacc_var(0.7048f),
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    zacc_var(0.97885f),
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    rollspeed_var(0.8126f),
    pitchspeed_var(0.6145f),
    yawspeed_var(0.5852f),
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    xmag_var(0.2393f),
    ymag_var(0.2283f),
    zmag_var(0.1665f),
    abs_pressure_var(0.5802f),
    diff_pressure_var(0.5802f),
    pressure_alt_var(0.5802f),
    temperature_var(0.7145f),
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    /*
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    xacc_var(0.0f),
    yacc_var(0.0f),
    zacc_var(0.0f),
    rollspeed_var(0.0f),
    pitchspeed_var(0.0f),
    yawspeed_var(0.0f),
    xmag_var(0.0f),
    ymag_var(0.0f),
    zmag_var(0.0f),
    abs_pressure_var(0.0f),
    diff_pressure_var(0.0f),
    pressure_alt_var(0.0f),
    temperature_var(0.0f),
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    */
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#ifndef __mobile__
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    simulation(0),
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#endif
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    // The protected members.
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    connectionLost(false),
    lastVoltageWarning(0),
    lastNonNullTime(0),
    onboardTimeOffsetInvalidCount(0),
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    hilEnabled(false),
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    sensorHil(false),
    lastSendTimeGPS(0),
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    lastSendTimeSensors(0),
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    lastSendTimeOpticalFlow(0),
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    _vehicle(vehicle),
    _firmwarePluginManager(firmwarePluginManager)
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{
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#ifndef __mobile__
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    connect(_vehicle, &Vehicle::mavlinkMessageReceived, &fileManager, &FileManager::receiveMessage);
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    color = UASInterface::getNextColor();
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#endif
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}

/**
* @ return the id of the uas
*/
int UAS::getUASID() const
{
    return uasId;
}

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void UAS::receiveMessage(mavlink_message_t message)
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{
    if (!components.contains(message.compid))
    {
        QString componentName;

        switch (message.compid)
        {
        case MAV_COMP_ID_ALL:
        {
            componentName = "ANONYMOUS";
            break;
        }
        case MAV_COMP_ID_IMU:
        {
            componentName = "IMU #1";
            break;
        }
        case MAV_COMP_ID_CAMERA:
        {
            componentName = "CAMERA";
            break;
        }
        case MAV_COMP_ID_MISSIONPLANNER:
        {
            componentName = "MISSIONPLANNER";
            break;
        }
        }

        components.insert(message.compid, componentName);
    }

    //    qDebug() << "UAS RECEIVED from" << message.sysid << "component" << message.compid << "msg id" << message.msgid << "seq no" << message.seq;

    // Only accept messages from this system (condition 1)
    // and only then if a) attitudeStamped is disabled OR b) attitudeStamped is enabled
    // and we already got one attitude packet
    if (message.sysid == uasId && (!attitudeStamped || (attitudeStamped && (lastAttitude != 0)) || message.msgid == MAVLINK_MSG_ID_ATTITUDE))
    {
        QString uasState;
        QString stateDescription;

        bool multiComponentSourceDetected = false;
        bool wrongComponent = false;

        switch (message.compid)
        {
        case MAV_COMP_ID_IMU_2:
            // Prefer IMU 2 over IMU 1 (FIXME)
            componentID[message.msgid] = MAV_COMP_ID_IMU_2;
            break;
        default:
            // Do nothing
            break;
        }

        // Store component ID
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        if (!componentID.contains(message.msgid))
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        {
            // Prefer the first component
            componentID[message.msgid] = message.compid;
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            componentMulti[message.msgid] = false;
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        }
        else
        {
            // Got this message already
            if (componentID[message.msgid] != message.compid)
            {
                componentMulti[message.msgid] = true;
                wrongComponent = true;
            }
        }

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        if (componentMulti[message.msgid] == true) {
            multiComponentSourceDetected = true;
        }
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        switch (message.msgid)
        {
        case MAVLINK_MSG_ID_HEARTBEAT:
        {
            if (multiComponentSourceDetected && wrongComponent)
            {
                break;
            }
            mavlink_heartbeat_t state;
            mavlink_msg_heartbeat_decode(&message, &state);
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            // Send the base_mode and system_status values to the plotter. This uses the ground time
            // so the Ground Time checkbox must be ticked for these values to display
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            quint64 time = getUnixTime();
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            QString name = QString("M%1:HEARTBEAT.%2").arg(message.sysid);
            emit valueChanged(uasId, name.arg("base_mode"), "bits", state.base_mode, time);
            emit valueChanged(uasId, name.arg("custom_mode"), "bits", state.custom_mode, time);
            emit valueChanged(uasId, name.arg("system_status"), "-", state.system_status, time);

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            // We got the mode
            receivedMode = true;
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        }

            break;
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        case MAVLINK_MSG_ID_SYS_STATUS:
        {
            if (multiComponentSourceDetected && wrongComponent)
            {
                break;
            }
            mavlink_sys_status_t state;
            mavlink_msg_sys_status_decode(&message, &state);

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            // Prepare for sending data to the realtime plotter, which is every field excluding onboard_control_sensors_present.
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            quint64 time = getUnixTime();
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            QString name = QString("M%1:SYS_STATUS.%2").arg(message.sysid);
            emit valueChanged(uasId, name.arg("sensors_enabled"), "bits", state.onboard_control_sensors_enabled, time);
            emit valueChanged(uasId, name.arg("sensors_health"), "bits", state.onboard_control_sensors_health, time);
            emit valueChanged(uasId, name.arg("errors_comm"), "-", state.errors_comm, time);
            emit valueChanged(uasId, name.arg("errors_count1"), "-", state.errors_count1, time);
            emit valueChanged(uasId, name.arg("errors_count2"), "-", state.errors_count2, time);
            emit valueChanged(uasId, name.arg("errors_count3"), "-", state.errors_count3, time);
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            emit valueChanged(uasId, name.arg("errors_count4"), "-", state.errors_count4, time);

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            // Process CPU load.
            emit valueChanged(uasId, name.arg("load"), "%", state.load/10.0f, time);
            emit valueChanged(uasId, name.arg("drop_rate_comm"), "%", state.drop_rate_comm/100.0f, time);
        }
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            break;
        case MAVLINK_MSG_ID_ATTITUDE:
        {
            mavlink_attitude_t attitude;
            mavlink_msg_attitude_decode(&message, &attitude);
            quint64 time = getUnixReferenceTime(attitude.time_boot_ms);

            emit attitudeChanged(this, message.compid, QGC::limitAngleToPMPIf(attitude.roll), QGC::limitAngleToPMPIf(attitude.pitch), QGC::limitAngleToPMPIf(attitude.yaw), time);

            if (!wrongComponent)
            {
                lastAttitude = time;
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                setRoll(QGC::limitAngleToPMPIf(attitude.roll));
                setPitch(QGC::limitAngleToPMPIf(attitude.pitch));
                setYaw(QGC::limitAngleToPMPIf(attitude.yaw));
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                attitudeKnown = true;
                emit attitudeChanged(this, getRoll(), getPitch(), getYaw(), time);
            }
        }
            break;
        case MAVLINK_MSG_ID_ATTITUDE_QUATERNION:
        {
            mavlink_attitude_quaternion_t attitude;
            mavlink_msg_attitude_quaternion_decode(&message, &attitude);
            quint64 time = getUnixReferenceTime(attitude.time_boot_ms);

            double a = attitude.q1;
            double b = attitude.q2;
            double c = attitude.q3;
            double d = attitude.q4;

            double aSq = a * a;
            double bSq = b * b;
            double cSq = c * c;
            double dSq = d * d;
            float dcm[3][3];
            dcm[0][0] = aSq + bSq - cSq - dSq;
            dcm[0][1] = 2.0 * (b * c - a * d);
            dcm[0][2] = 2.0 * (a * c + b * d);
            dcm[1][0] = 2.0 * (b * c + a * d);
            dcm[1][1] = aSq - bSq + cSq - dSq;
            dcm[1][2] = 2.0 * (c * d - a * b);
            dcm[2][0] = 2.0 * (b * d - a * c);
            dcm[2][1] = 2.0 * (a * b + c * d);
            dcm[2][2] = aSq - bSq - cSq + dSq;

            float phi, theta, psi;
            theta = asin(-dcm[2][0]);

            if (fabs(theta - M_PI_2) < 1.0e-3f) {
                phi = 0.0f;
                psi = (atan2(dcm[1][2] - dcm[0][1],
                        dcm[0][2] + dcm[1][1]) + phi);

            } else if (fabs(theta + M_PI_2) < 1.0e-3f) {
                phi = 0.0f;
                psi = atan2f(dcm[1][2] - dcm[0][1],
                          dcm[0][2] + dcm[1][1] - phi);

            } else {
                phi = atan2f(dcm[2][1], dcm[2][2]);
                psi = atan2f(dcm[1][0], dcm[0][0]);
            }

            emit attitudeChanged(this, message.compid, QGC::limitAngleToPMPIf(phi),
                                 QGC::limitAngleToPMPIf(theta),
                                 QGC::limitAngleToPMPIf(psi), time);

            if (!wrongComponent)
            {
                lastAttitude = time;
                setRoll(QGC::limitAngleToPMPIf(phi));
                setPitch(QGC::limitAngleToPMPIf(theta));
                setYaw(QGC::limitAngleToPMPIf(psi));
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                attitudeKnown = true;
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                emit attitudeChanged(this, getRoll(), getPitch(), getYaw(), time);
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            }
        }
            break;
        case MAVLINK_MSG_ID_HIL_CONTROLS:
        {
            mavlink_hil_controls_t hil;
            mavlink_msg_hil_controls_decode(&message, &hil);
            emit hilControlsChanged(hil.time_usec, hil.roll_ailerons, hil.pitch_elevator, hil.yaw_rudder, hil.throttle, hil.mode, hil.nav_mode);
        }
            break;
        case MAVLINK_MSG_ID_VFR_HUD:
        {
            mavlink_vfr_hud_t hud;
            mavlink_msg_vfr_hud_decode(&message, &hud);
            quint64 time = getUnixTime();

            if (!attitudeKnown)
            {
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                setYaw(QGC::limitAngleToPMPId((((double)hud.heading)/180.0)*M_PI));
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                emit attitudeChanged(this, getRoll(), getPitch(), getYaw(), time);
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            }
        }
            break;
        case MAVLINK_MSG_ID_GLOBAL_VISION_POSITION_ESTIMATE:
        {
            mavlink_global_vision_position_estimate_t pos;
            mavlink_msg_global_vision_position_estimate_decode(&message, &pos);
            quint64 time = getUnixTime(pos.usec);
            emit attitudeChanged(this, message.compid, pos.roll, pos.pitch, pos.yaw, time);
        }
            break;
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        case MAVLINK_MSG_ID_PARAM_VALUE:
        {
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            mavlink_param_value_t rawValue;
            mavlink_msg_param_value_decode(&message, &rawValue);
            QByteArray bytes(rawValue.param_id, MAVLINK_MSG_PARAM_VALUE_FIELD_PARAM_ID_LEN);
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            // Construct a string stopping at the first NUL (0) character, else copy the whole
            // byte array (max MAVLINK_MSG_PARAM_VALUE_FIELD_PARAM_ID_LEN, so safe)
            QString parameterName(bytes);
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            mavlink_param_union_t paramVal;
            paramVal.param_float = rawValue.param_value;
            paramVal.type = rawValue.param_type;
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            processParamValueMsg(message, parameterName,rawValue,paramVal);
         }
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            break;
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        case MAVLINK_MSG_ID_ATTITUDE_TARGET:
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        {
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            mavlink_attitude_target_t out;
            mavlink_msg_attitude_target_decode(&message, &out);
            float roll, pitch, yaw;
            mavlink_quaternion_to_euler(out.q, &roll, &pitch, &yaw);
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            quint64 time = getUnixTimeFromMs(out.time_boot_ms);
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            // For plotting emit roll sp, pitch sp and yaw sp values
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            emit valueChanged(uasId, "roll sp", "rad", roll, time);
            emit valueChanged(uasId, "pitch sp", "rad", pitch, time);
            emit valueChanged(uasId, "yaw sp", "rad", yaw, time);
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        }
            break;
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        case MAVLINK_MSG_ID_STATUSTEXT:
        {
            QByteArray b;
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            b.resize(MAVLINK_MSG_STATUSTEXT_FIELD_TEXT_LEN+1);
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            mavlink_msg_statustext_get_text(&message, b.data());
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            // Ensure NUL-termination
            b[b.length()-1] = '\0';
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            QString text = QString(b);
            int severity = mavlink_msg_statustext_get_severity(&message);

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        // If the message is NOTIFY or higher severity, or starts with a '#',
        // then read it aloud.
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            if (text.startsWith("#") || severity <= MAV_SEVERITY_NOTICE)
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            {
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                text.remove("#");
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                emit textMessageReceived(uasId, message.compid, severity, text);
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                _say(text.toLower(), severity);
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            }
            else
            {
                emit textMessageReceived(uasId, message.compid, severity, text);
            }
        }
            break;
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        case MAVLINK_MSG_ID_DATA_TRANSMISSION_HANDSHAKE:
        {
            mavlink_data_transmission_handshake_t p;
            mavlink_msg_data_transmission_handshake_decode(&message, &p);
            imageSize = p.size;
            imagePackets = p.packets;
            imagePayload = p.payload;
            imageQuality = p.jpg_quality;
            imageType = p.type;
            imageWidth = p.width;
            imageHeight = p.height;
            imageStart = QGC::groundTimeMilliseconds();
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            imagePacketsArrived = 0;

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        }
            break;

        case MAVLINK_MSG_ID_ENCAPSULATED_DATA:
        {
            mavlink_encapsulated_data_t img;
            mavlink_msg_encapsulated_data_decode(&message, &img);
            int seq = img.seqnr;
            int pos = seq * imagePayload;

            // Check if we have a valid transaction
            if (imagePackets == 0)
            {
                // NO VALID TRANSACTION - ABORT
                // Restart statemachine
                imagePacketsArrived = 0;
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                break;
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            }

            for (int i = 0; i < imagePayload; ++i)
            {
                if (pos <= imageSize) {
                    imageRecBuffer[pos] = img.data[i];
                }
                ++pos;
            }

            ++imagePacketsArrived;

            // emit signal if all packets arrived
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            if (imagePacketsArrived >= imagePackets)
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            {
                // Restart statemachine
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                imagePackets = 0;
                imagePacketsArrived = 0;
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                emit imageReady(this);
            }
        }
            break;

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        case MAVLINK_MSG_ID_LOG_ENTRY:
        {
            mavlink_log_entry_t log;
            mavlink_msg_log_entry_decode(&message, &log);
            emit logEntry(this, log.time_utc, log.size, log.id, log.num_logs, log.last_log_num);
        }
            break;

        case MAVLINK_MSG_ID_LOG_DATA:
        {
            mavlink_log_data_t log;
            mavlink_msg_log_data_decode(&message, &log);
            emit logData(this, log.ofs, log.id, log.count, log.data);
        }
            break;

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        default:
            break;
        }
    }
}

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void UAS::startCalibration(UASInterface::StartCalibrationType calType)
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{
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    if (!_vehicle) {
        return;
    }
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    int gyroCal = 0;
    int magCal = 0;
    int airspeedCal = 0;
    int radioCal = 0;
    int accelCal = 0;
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    int pressureCal = 0;
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    int escCal = 0;
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    switch (calType) {
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    case StartCalibrationGyro:
        gyroCal = 1;
        break;
    case StartCalibrationMag:
        magCal = 1;
        break;
    case StartCalibrationAirspeed:
        airspeedCal = 1;
        break;
    case StartCalibrationRadio:
        radioCal = 1;
        break;
    case StartCalibrationCopyTrims:
        radioCal = 2;
        break;
    case StartCalibrationAccel:
        accelCal = 1;
        break;
    case StartCalibrationLevel:
        accelCal = 2;
        break;
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    case StartCalibrationPressure:
        pressureCal = 1;
        break;
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    case StartCalibrationEsc:
        escCal = 1;
        break;
    case StartCalibrationUavcanEsc:
        escCal = 2;
        break;
    case StartCalibrationCompassMot:
        airspeedCal = 1; // ArduPilot, bit of a hack
        break;
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    }
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    // We can't use sendMavCommand here since we have no idea how long it will be before the command returns a result. This in turn
    // causes the retry logic to break down.
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    mavlink_message_t msg;
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    mavlink_msg_command_long_pack_chan(mavlink->getSystemId(),
                                       mavlink->getComponentId(),
                                       _vehicle->priorityLink()->mavlinkChannel(),
                                       &msg,
                                       uasId,
                                       _vehicle->defaultComponentId(),   // target component
                                       MAV_CMD_PREFLIGHT_CALIBRATION,    // command id
                                       0,                                // 0=first transmission of command
                                       gyroCal,                          // gyro cal
                                       magCal,                           // mag cal
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                                       pressureCal,                      // ground pressure
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                                       radioCal,                         // radio cal
                                       accelCal,                         // accel cal
                                       airspeedCal,                      // PX4: airspeed cal, ArduPilot: compass mot
                                       escCal);                          // esc cal
    _vehicle->sendMessageOnLink(_vehicle->priorityLink(), msg);
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}

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void UAS::stopCalibration(void)
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{
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    if (!_vehicle) {
        return;
    }
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    _vehicle->sendMavCommand(_vehicle->defaultComponentId(),    // target component
                             MAV_CMD_PREFLIGHT_CALIBRATION,     // command id
                             true,                              // showError
                             0,                                 // gyro cal
                             0,                                 // mag cal
                             0,                                 // ground pressure
                             0,                                 // radio cal
                             0,                                 // accel cal
                             0,                                 // airspeed cal
                             0);                                // unused
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}

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void UAS::startBusConfig(UASInterface::StartBusConfigType calType)
{
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    if (!_vehicle) {
        return;
    }
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   int actuatorCal = 0;
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    switch (calType) {
        case StartBusConfigActuators:
            actuatorCal = 1;
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        break;
        case EndBusConfigActuators:
            actuatorCal = 0;
        break;
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    }

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    _vehicle->sendMavCommand(_vehicle->defaultComponentId(),    // target component
                             MAV_CMD_PREFLIGHT_UAVCAN,          // command id
                             true,                              // showError
                             actuatorCal);                      // actuators
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}

void UAS::stopBusConfig(void)
{
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    if (!_vehicle) {
        return;
    }
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    _vehicle->sendMavCommand(_vehicle->defaultComponentId(),    // target component
                             MAV_CMD_PREFLIGHT_UAVCAN,          // command id
                             true,                              // showError
                             0);                                // cancel
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}

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/**
* Check if time is smaller than 40 years, assuming no system without Unix
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* timestamp runs longer than 40 years continuously without reboot. In worst case
* this will add/subtract the communication delay between GCS and MAV, it will
* never alter the timestamp in a safety critical way.
*/
quint64 UAS::getUnixReferenceTime(quint64 time)
{
    // Same as getUnixTime, but does not react to attitudeStamped mode
    if (time == 0)
    {
        //        qDebug() << "XNEW time:" <<QGC::groundTimeMilliseconds();
        return QGC::groundTimeMilliseconds();
    }
    // Check if time is smaller than 40 years,
    // assuming no system without Unix timestamp
    // runs longer than 40 years continuously without
    // reboot. In worst case this will add/subtract the
    // communication delay between GCS and MAV,
    // it will never alter the timestamp in a safety
    // critical way.
    //
    // Calculation:
    // 40 years
    // 365 days
    // 24 hours
    // 60 minutes
    // 60 seconds
    // 1000 milliseconds
    // 1000 microseconds
#ifndef _MSC_VER
    else if (time < 1261440000000000LLU)
#else
    else if (time < 1261440000000000)
#endif
    {
        //        qDebug() << "GEN time:" << time/1000 + onboardTimeOffset;
        if (onboardTimeOffset == 0)
        {
            onboardTimeOffset = QGC::groundTimeMilliseconds() - time/1000;
        }
        return time/1000 + onboardTimeOffset;
    }
    else
    {
        // Time is not zero and larger than 40 years -> has to be
        // a Unix epoch timestamp. Do nothing.
        return time/1000;
    }
}

/**
* @warning If attitudeStamped is enabled, this function will not actually return
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* the precise time stamp of this measurement augmented to UNIX time, but will
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* MOVE the timestamp IN TIME to match the last measured attitude. There is no
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* reason why one would want this, except for system setups where the onboard
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* clock is not present or broken and datasets should be collected that are still
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* roughly synchronized. PLEASE NOTE THAT ENABLING ATTITUDE STAMPED RUINS THE
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* SCIENTIFIC NATURE OF THE CORRECT LOGGING FUNCTIONS OF QGROUNDCONTROL!
*/
quint64 UAS::getUnixTimeFromMs(quint64 time)
{
    return getUnixTime(time*1000);
}

/**
* @warning If attitudeStamped is enabled, this function will not actually return
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* the precise time stam of this measurement augmented to UNIX time, but will
* MOVE the timestamp IN TIME to match the last measured attitude. There is no
* reason why one would want this, except for system setups where the onboard
* clock is not present or broken and datasets should be collected that are
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* still roughly synchronized. PLEASE NOTE THAT ENABLING ATTITUDE STAMPED
* RUINS THE SCIENTIFIC NATURE OF THE CORRECT LOGGING FUNCTIONS OF QGROUNDCONTROL!
*/
quint64 UAS::getUnixTime(quint64 time)
{
    quint64 ret = 0;
    if (attitudeStamped)
    {
        ret = lastAttitude;
    }

    if (time == 0)
    {
        ret = QGC::groundTimeMilliseconds();
    }
    // Check if time is smaller than 40 years,
    // assuming no system without Unix timestamp
    // runs longer than 40 years continuously without
    // reboot. In worst case this will add/subtract the
    // communication delay between GCS and MAV,
    // it will never alter the timestamp in a safety
    // critical way.
    //
    // Calculation:
    // 40 years
    // 365 days
    // 24 hours
    // 60 minutes
    // 60 seconds
    // 1000 milliseconds
    // 1000 microseconds
#ifndef _MSC_VER
    else if (time < 1261440000000000LLU)
#else
    else if (time < 1261440000000000)
#endif
    {
        //        qDebug() << "GEN time:" << time/1000 + onboardTimeOffset;
        if (onboardTimeOffset == 0 || time < (lastNonNullTime - 100))
        {
            lastNonNullTime = time;
            onboardTimeOffset = QGC::groundTimeMilliseconds() - time/1000;
        }
        if (time > lastNonNullTime) lastNonNullTime = time;

        ret = time/1000 + onboardTimeOffset;
    }
    else
    {
        // Time is not zero and larger than 40 years -> has to be
        // a Unix epoch timestamp. Do nothing.
        ret = time/1000;
    }

    return ret;
}

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/**
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* Get the status of the code and a description of the status.
* Status can be unitialized, booting up, calibrating sensors, active
* standby, cirtical, emergency, shutdown or unknown.
*/
void UAS::getStatusForCode(int statusCode, QString& uasState, QString& stateDescription)
{
    switch (statusCode)
    {
    case MAV_STATE_UNINIT:
        uasState = tr("UNINIT");
        stateDescription = tr("Unitialized, booting up.");
        break;
    case MAV_STATE_BOOT:
        uasState = tr("BOOT");
        stateDescription = tr("Booting system, please wait.");
        break;
    case MAV_STATE_CALIBRATING:
        uasState = tr("CALIBRATING");
        stateDescription = tr("Calibrating sensors, please wait.");
        break;
    case MAV_STATE_ACTIVE:
        uasState = tr("ACTIVE");
        stateDescription = tr("Active, normal operation.");
        break;
    case MAV_STATE_STANDBY:
        uasState = tr("STANDBY");
        stateDescription = tr("Standby mode, ready for launch.");
        break;
    case MAV_STATE_CRITICAL:
        uasState = tr("CRITICAL");
        stateDescription = tr("FAILURE: Continuing operation.");
        break;
    case MAV_STATE_EMERGENCY:
        uasState = tr("EMERGENCY");
        stateDescription = tr("EMERGENCY: Land Immediately!");
        break;
        //case MAV_STATE_HILSIM:
        //uasState = tr("HIL SIM");
        //stateDescription = tr("HIL Simulation, Sensors read from SIM");
        //break;

    case MAV_STATE_POWEROFF:
        uasState = tr("SHUTDOWN");
        stateDescription = tr("Powering off system.");
        break;

    default:
        uasState = tr("UNKNOWN");
        stateDescription = tr("Unknown system state");
        break;
    }
}

QImage UAS::getImage()
{

//    qDebug() << "IMAGE TYPE:" << imageType;

    // RAW greyscale
    if (imageType == MAVLINK_DATA_STREAM_IMG_RAW8U)
    {
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        int imgColors = 255;
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        // Construct PGM header
        QString header("P5\n%1 %2\n%3\n");
        header = header.arg(imageWidth).arg(imageHeight).arg(imgColors);

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        QByteArray tmpImage(header.toStdString().c_str(), header.length());
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        tmpImage.append(imageRecBuffer);

        //qDebug() << "IMAGE SIZE:" << tmpImage.size() << "HEADER SIZE: (15):" << header.size() << "HEADER: " << header;

        if (imageRecBuffer.isNull())
        {
            qDebug()<< "could not convertToPGM()";
            return QImage();
        }

        if (!image.loadFromData(tmpImage, "PGM"))
        {
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            qDebug()<< __FILE__ << __LINE__ << "could not create extracted image";
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            return QImage();
        }

    }
    // BMP with header
    else if (imageType == MAVLINK_DATA_STREAM_IMG_BMP ||
             imageType == MAVLINK_DATA_STREAM_IMG_JPEG ||
             imageType == MAVLINK_DATA_STREAM_IMG_PGM ||
             imageType == MAVLINK_DATA_STREAM_IMG_PNG)
    {
        if (!image.loadFromData(imageRecBuffer))
        {
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            qDebug() << __FILE__ << __LINE__ << "Loading data from image buffer failed!";
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            return QImage();
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        }
    }
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    // Restart statemachine
    imagePacketsArrived = 0;
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    imagePackets = 0;
    imageRecBuffer.clear();
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    return image;
}

void UAS::requestImage()
{
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    if (!_vehicle) {
        return;
    }
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   qDebug() << "trying to get an image from the uas...";
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    // check if there is already an image transmission going on
    if (imagePacketsArrived == 0)
    {
        mavlink_message_t msg;
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        mavlink_msg_data_transmission_handshake_pack_chan(mavlink->getSystemId(),
                                                          mavlink->getComponentId(),
                                                          _vehicle->priorityLink()->mavlinkChannel(),
                                                          &msg,
                                                          MAVLINK_DATA_STREAM_IMG_JPEG,
                                                          0, 0, 0, 0, 0, 50);
        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), msg);
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    }
}


/* MANAGEMENT */

/**
 *
 * @return The uptime in milliseconds
 *
 */
quint64 UAS::getUptime() const
{
    if(startTime == 0)
    {
        return 0;
    }
    else
    {
        return QGC::groundTimeMilliseconds() - startTime;
    }
}

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//TODO update this to use the parameter manager / param data model instead
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void UAS::processParamValueMsg(mavlink_message_t& msg, const QString& paramName, const mavlink_param_value_t& rawValue,  mavlink_param_union_t& paramUnion)
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{
    int compId = msg.compid;

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    QVariant paramValue;
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    // Insert with correct type
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    switch (rawValue.param_type) {
        case MAV_PARAM_TYPE_REAL32:
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            paramValue = QVariant(paramUnion.param_float);
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            break;
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        case MAV_PARAM_TYPE_UINT8:
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            paramValue = QVariant(paramUnion.param_uint8);
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            break;
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        case MAV_PARAM_TYPE_INT8:
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            paramValue = QVariant(paramUnion.param_int8);
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            break;
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        case MAV_PARAM_TYPE_UINT16:
            paramValue = QVariant(paramUnion.param_uint16);
            break;

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        case MAV_PARAM_TYPE_INT16:
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            paramValue = QVariant(paramUnion.param_int16);
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            break;
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        case MAV_PARAM_TYPE_UINT32:
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            paramValue = QVariant(paramUnion.param_uint32);
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            break;
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        case MAV_PARAM_TYPE_INT32:
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            paramValue = QVariant(paramUnion.param_int32);
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            break;
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        //-- Note: These are not handled above:
        //
        //   MAV_PARAM_TYPE_UINT64
        //   MAV_PARAM_TYPE_INT64
        //   MAV_PARAM_TYPE_REAL64
        //
        //   No space in message (the only storage allocation is a "float") and not present in mavlink_param_union_t

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        default:
            qCritical() << "INVALID DATA TYPE USED AS PARAMETER VALUE: " << rawValue.param_type;
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    }
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    qCDebug(UASLog) << "Received PARAM_VALUE" << paramName << paramValue << rawValue.param_type;
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    emit parameterUpdate(uasId, compId, paramName, rawValue.param_count, rawValue.param_index, rawValue.param_type, paramValue);
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}

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/**
* Set the manual control commands.
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* This can only be done if the system has manual inputs enabled and is armed.
*/
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void UAS::setExternalControlSetpoint(float roll, float pitch, float yaw, float thrust, quint16 buttons, int joystickMode)
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{
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    if (!_vehicle) {
        return;
    }
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    if (!_vehicle->priorityLink()) {
        return;
    }

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    // Store the previous manual commands
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    static float manualRollAngle = 0.0;
    static float manualPitchAngle = 0.0;
    static float manualYawAngle = 0.0;
    static float manualThrust = 0.0;
    static quint16 manualButtons = 0;
    static quint8 countSinceLastTransmission = 0; // Track how many calls to this function have occurred since the last MAVLink transmission
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    // Transmit the external setpoints only if they've changed OR if it's been a little bit since they were last transmit. To make sure there aren't issues with
    // response rate, we make sure that a message is transmit when the commands have changed, then one more time, and then switch to the lower transmission rate
    // if no command inputs have changed.

    // The default transmission rate is 25Hz, but when no inputs have changed it drops down to 5Hz.
    bool sendCommand = false;
    if (countSinceLastTransmission++ >= 5) {
        sendCommand = true;
        countSinceLastTransmission = 0;
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    } else if ((!qIsNaN(roll) && roll != manualRollAngle) || (!qIsNaN(pitch) && pitch != manualPitchAngle) ||
             (!qIsNaN(yaw) && yaw != manualYawAngle) || (!qIsNaN(thrust) && thrust != manualThrust) ||
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             buttons != manualButtons) {
        sendCommand = true;

        // Ensure that another message will be sent the next time this function is called
        countSinceLastTransmission = 10;
    }
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    // Now if we should trigger an update, let's do that
    if (sendCommand) {
        // Save the new manual control inputs
        manualRollAngle = roll;
        manualPitchAngle = pitch;
        manualYawAngle = yaw;
        manualThrust = thrust;
        manualButtons = buttons;

        mavlink_message_t message;

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        if (joystickMode == Vehicle::JoystickModeAttitude) {
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            // send an external attitude setpoint command (rate control disabled)
            float attitudeQuaternion[4];
            mavlink_euler_to_quaternion(roll, pitch, yaw, attitudeQuaternion);
            uint8_t typeMask = 0x7; // disable rate control
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            mavlink_msg_set_attitude_target_pack_chan(mavlink->getSystemId(),
                                                      mavlink->getComponentId(),
                                                      _vehicle->priorityLink()->mavlinkChannel(),
                                                      &message,
                                                      QGC::groundTimeUsecs(),
                                                      this->uasId,
                                                      0,
                                                      typeMask,
                                                      attitudeQuaternion,
                                                      0,
                                                      0,
                                                      0,
                                                      thrust);
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        } else if (joystickMode == Vehicle::JoystickModePosition) {
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            // Send the the local position setpoint (local pos sp external message)
            static float px = 0;
            static float py = 0;
            static float pz = 0;
            //XXX: find decent scaling
            px -= pitch;
            py += roll;
            pz -= 2.0f*(thrust-0.5);
            uint16_t typeMask = (1<<11)|(7<<6)|(7<<3); // select only POSITION control
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            mavlink_msg_set_position_target_local_ned_pack_chan(mavlink->getSystemId(),
                                                                mavlink->getComponentId(),
                                                                _vehicle->priorityLink()->mavlinkChannel(),
                                                                &message,
                                                                QGC::groundTimeUsecs(),
                                                                this->uasId,
                                                                0,
                                                                MAV_FRAME_LOCAL_NED,
                                                                typeMask,
                                                                px,
                                                                py,
                                                                pz,
                                                                0,
                                                                0,
                                                                0,
                                                                0,
                                                                0,
                                                                0,
                                                                yaw,
                                                                0);
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        } else if (joystickMode == Vehicle::JoystickModeForce) {
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            // Send the the force setpoint (local pos sp external message)
            float dcm[3][3];
            mavlink_euler_to_dcm(roll, pitch, yaw, dcm);
            const float fx = -dcm[0][2] * thrust;
            const float fy = -dcm[1][2] * thrust;
            const float fz = -dcm[2][2] * thrust;
            uint16_t typeMask = (3<<10)|(7<<3)|(7<<0)|(1<<9); // select only FORCE control (disable everything else)
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            mavlink_msg_set_position_target_local_ned_pack_chan(mavlink->getSystemId(),
                                                                mavlink->getComponentId(),
                                                                _vehicle->priorityLink()->mavlinkChannel(),
                                                                &message,
                                                                QGC::groundTimeUsecs(),
                                                                this->uasId,
                                                                0,
                                                                MAV_FRAME_LOCAL_NED,
                                                                typeMask,
                                                                0,
                                                                0,
                                                                0,
                                                                0,
                                                                0,
                                                                0,
                                                                fx,
                                                                fy,
                                                                fz,
                                                                0,
                                                                0);
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        } else if (joystickMode == Vehicle::JoystickModeVelocity) {
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            // Send the the local velocity setpoint (local pos sp external message)
            static float vx = 0;
            static float vy = 0;
            static float vz = 0;
            static float yawrate = 0;
            //XXX: find decent scaling
            vx -= pitch;
            vy += roll;
            vz -= 2.0f*(thrust-0.5);
            yawrate += yaw; //XXX: not sure what scale to apply here
            uint16_t typeMask = (1<<10)|(7<<6)|(7<<0); // select only VELOCITY control
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            mavlink_msg_set_position_target_local_ned_pack_chan(mavlink->getSystemId(),
                                                                mavlink->getComponentId(),
                                                                _vehicle->priorityLink()->mavlinkChannel(),
                                                                &message,
                                                                QGC::groundTimeUsecs(),
                                                                this->uasId,
                                                                0,
                                                                MAV_FRAME_LOCAL_NED,
                                                                typeMask,
                                                                0,
                                                                0,
                                                                0,
                                                                vx,
                                                                vy,
                                                                vz,
                                                                0,
                                                                0,
                                                                0,
                                                                0,
                                                                yawrate);
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        } else if (joystickMode == Vehicle::JoystickModeRC) {
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            // Save the new manual control inputs
            manualRollAngle = roll;
            manualPitchAngle = pitch;
            manualYawAngle = yaw;
            manualThrust = thrust;
            manualButtons = buttons;

            // Store scaling values for all 3 axes
            const float axesScaling = 1.0 * 1000.0;
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            // Calculate the new commands for roll, pitch, yaw, and thrust
            const float newRollCommand = roll * axesScaling;
            // negate pitch value because pitch is negative for pitching forward but mavlink message argument is positive for forward
            const float newPitchCommand = -pitch * axesScaling;
            const float newYawCommand = yaw * axesScaling;
            const float newThrustCommand = thrust * axesScaling;

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            //qDebug() << newRollCommand << newPitchCommand << newYawCommand << newThrustCommand;
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            // Send the MANUAL_COMMAND message
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            mavlink_msg_manual_control_pack_chan(mavlink->getSystemId(),
                                                 mavlink->getComponentId(),
                                                 _vehicle->priorityLink()->mavlinkChannel(),
                                                 &message,
                                                 this->uasId,
                                                 newPitchCommand, newRollCommand, newThrustCommand, newYawCommand, buttons);
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        }
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        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), message);
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    }
}

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#ifndef __mobile__
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void UAS::setManual6DOFControlCommands(double x, double y, double z, double roll, double pitch, double yaw)
{
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    if (!_vehicle) {
        return;
    }
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    const uint8_t base_mode = _vehicle->baseMode();
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   // If system has manual inputs enabled and is armed
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    if(((base_mode & MAV_MODE_FLAG_DECODE_POSITION_MANUAL) && (base_mode & MAV_MODE_FLAG_DECODE_POSITION_SAFETY)) || (base_mode & MAV_MODE_FLAG_HIL_ENABLED))
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    {
        mavlink_message_t message;
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        float q[4];
        mavlink_euler_to_quaternion(roll, pitch, yaw, q);
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        float yawrate = 0.0f;

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        // Do not control rates and throttle
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        quint8 mask = (1 << 0) | (1 << 1) | (1 << 2); // ignore rates
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        mask |= (1 << 6); // ignore throttle
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        mavlink_msg_set_attitude_target_pack_chan(mavlink->getSystemId(),
                                                  mavlink->getComponentId(),
                                                  _vehicle->priorityLink()->mavlinkChannel(),
                                                  &message,
                                                  QGC::groundTimeMilliseconds(), this->uasId, _vehicle->defaultComponentId(),
                                                  mask, q, 0, 0, 0, 0);
        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), message);
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        quint16 position_mask = (1 << 3) | (1 << 4) | (1 << 5) |
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            (1 << 6) | (1 << 7) | (1 << 8);
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        mavlink_msg_set_position_target_local_ned_pack_chan(mavlink->getSystemId(), mavlink->getComponentId(),
                                                            _vehicle->priorityLink()->mavlinkChannel(),
                                                            &message, QGC::groundTimeMilliseconds(), this->uasId, _vehicle->defaultComponentId(),
                                                            MAV_FRAME_LOCAL_NED, position_mask, x, y, z, 0, 0, 0, 0, 0, 0, yaw, yawrate);
        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), message);
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        qDebug() << __FILE__ << __LINE__ << ": SENT 6DOF CONTROL MESSAGES: x" << x << " y: " << y << " z: " << z << " roll: " << roll << " pitch: " << pitch << " yaw: " << yaw;
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    }
    else
    {
        qDebug() << "3DMOUSE/MANUAL CONTROL: IGNORING COMMANDS: Set mode to MANUAL to send 3DMouse commands first";
    }
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}
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#endif
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/**
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* Order the robot to start receiver pairing
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*/
void UAS::pairRX(int rxType, int rxSubType)
{
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    if (_vehicle) {
        _vehicle->sendMavCommand(_vehicle->defaultComponentId(),    // target component
                                 MAV_CMD_START_RX_PAIR,             // command id
                                 true,                              // showError
                                 rxType,
                                 rxSubType);
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    }
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}
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/**
* If enabled, connect the flight gear link.
*/
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#ifndef __mobile__
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void UAS::enableHilFlightGear(bool enable, QString options, bool sensorHil, QObject * configuration)
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{
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    Q_UNUSED(configuration);
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    QGCFlightGearLink* link = dynamic_cast<QGCFlightGearLink*>(simulation);
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    if (!link) {
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        // Delete wrong sim
        if (simulation) {
            stopHil();
            delete simulation;
        }
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        simulation = new QGCFlightGearLink(_vehicle, options);
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    }
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    float noise_scaler = 0.0001f;
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    xacc_var = noise_scaler * 0.2914f;
    yacc_var = noise_scaler * 0.2914f;
    zacc_var = noise_scaler * 0.9577f;
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    rollspeed_var = noise_scaler * 0.8126f;
    pitchspeed_var = noise_scaler * 0.6145f;
    yawspeed_var = noise_scaler * 0.5852f;
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    xmag_var = noise_scaler * 0.0786f;
    ymag_var = noise_scaler * 0.0566f;
    zmag_var = noise_scaler * 0.0333f;
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    abs_pressure_var = noise_scaler * 0.5604f;
    diff_pressure_var = noise_scaler * 0.2604f;
    pressure_alt_var = noise_scaler * 0.5604f;
    temperature_var = noise_scaler * 0.7290f;
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    // Connect Flight Gear Link
    link = dynamic_cast<QGCFlightGearLink*>(simulation);
    link->setStartupArguments(options);
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    link->sensorHilEnabled(sensorHil);
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    // FIXME: this signal is not on the base hil configuration widget, only on the FG widget
    //QObject::connect(configuration, SIGNAL(barometerOffsetChanged(float)), link, SLOT(setBarometerOffset(float)));
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    if (enable)
    {
        startHil();
    }
    else
    {
        stopHil();
    }
}
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#endif
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/**
* If enabled, connect the JSBSim link.
*/
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#ifndef __mobile__
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void UAS::enableHilJSBSim(bool enable, QString options)
{
    QGCJSBSimLink* link = dynamic_cast<QGCJSBSimLink*>(simulation);
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    if (!link) {
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        // Delete wrong sim
        if (simulation) {
            stopHil();
            delete simulation;
        }
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        simulation = new QGCJSBSimLink(_vehicle, options);
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    }
    // Connect Flight Gear Link
    link = dynamic_cast<QGCJSBSimLink*>(simulation);
    link->setStartupArguments(options);
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    if (enable)
    {
        startHil();
    }
    else
    {
        stopHil();
    }
}
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#endif
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/**
* If enabled, connect the X-plane gear link.
*/
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#ifndef __mobile__
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void UAS::enableHilXPlane(bool enable)
{
    QGCXPlaneLink* link = dynamic_cast<QGCXPlaneLink*>(simulation);
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    if (!link) {
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        if (simulation) {
            stopHil();
            delete simulation;
        }
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        simulation = new QGCXPlaneLink(_vehicle);
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        float noise_scaler = 0.0001f;
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        xacc_var = noise_scaler * 0.2914f;
        yacc_var = noise_scaler * 0.2914f;
        zacc_var = noise_scaler * 0.9577f;
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        rollspeed_var = noise_scaler * 0.8126f;
        pitchspeed_var = noise_scaler * 0.6145f;
        yawspeed_var = noise_scaler * 0.5852f;
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        xmag_var = noise_scaler * 0.0786f;
        ymag_var = noise_scaler * 0.0566f;
        zmag_var = noise_scaler * 0.0333f;
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        abs_pressure_var = noise_scaler * 0.5604f;
        diff_pressure_var = noise_scaler * 0.2604f;
        pressure_alt_var = noise_scaler * 0.5604f;
        temperature_var = noise_scaler * 0.7290f;
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    }
    // Connect X-Plane Link
    if (enable)
    {
        startHil();
    }
    else
    {
        stopHil();
    }
}
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#endif
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/**
* @param time_us Timestamp (microseconds since UNIX epoch or microseconds since system boot)
* @param roll Roll angle (rad)
* @param pitch Pitch angle (rad)
* @param yaw Yaw angle (rad)
* @param rollspeed Roll angular speed (rad/s)
* @param pitchspeed Pitch angular speed (rad/s)
* @param yawspeed Yaw angular speed (rad/s)
* @param lat Latitude, expressed as * 1E7
* @param lon Longitude, expressed as * 1E7
* @param alt Altitude in meters, expressed as * 1000 (millimeters)
* @param vx Ground X Speed (Latitude), expressed as m/s * 100
* @param vy Ground Y Speed (Longitude), expressed as m/s * 100
* @param vz Ground Z Speed (Altitude), expressed as m/s * 100
* @param xacc X acceleration (mg)
* @param yacc Y acceleration (mg)
* @param zacc Z acceleration (mg)
*/
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#ifndef __mobile__
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void UAS::sendHilGroundTruth(quint64 time_us, float roll, float pitch, float yaw, float rollspeed,
                       float pitchspeed, float yawspeed, double lat, double lon, double alt,
                       float vx, float vy, float vz, float ind_airspeed, float true_airspeed, float xacc, float yacc, float zacc)
{
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    Q_UNUSED(time_us);
    Q_UNUSED(xacc);
    Q_UNUSED(yacc);
    Q_UNUSED(zacc);
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        // Emit attitude for cross-check
        emit valueChanged(uasId, "roll sim", "rad", roll, getUnixTime());
        emit valueChanged(uasId, "pitch sim", "rad", pitch, getUnixTime());
        emit valueChanged(uasId, "yaw sim", "rad", yaw, getUnixTime());

        emit valueChanged(uasId, "roll rate sim", "rad/s", rollspeed, getUnixTime());
        emit valueChanged(uasId, "pitch rate sim", "rad/s", pitchspeed, getUnixTime());
        emit valueChanged(uasId, "yaw rate sim", "rad/s", yawspeed, getUnixTime());

        emit valueChanged(uasId, "lat sim", "deg", lat*1e7, getUnixTime());
        emit valueChanged(uasId, "lon sim", "deg", lon*1e7, getUnixTime());
        emit valueChanged(uasId, "alt sim", "deg", alt*1e3, getUnixTime());

        emit valueChanged(uasId, "vx sim", "m/s", vx*1e2, getUnixTime());
        emit valueChanged(uasId, "vy sim", "m/s", vy*1e2, getUnixTime());
        emit valueChanged(uasId, "vz sim", "m/s", vz*1e2, getUnixTime());

        emit valueChanged(uasId, "IAS sim", "m/s", ind_airspeed, getUnixTime());
        emit valueChanged(uasId, "TAS sim", "m/s", true_airspeed, getUnixTime());
}
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#endif
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/**
* @param time_us Timestamp (microseconds since UNIX epoch or microseconds since system boot)
* @param roll Roll angle (rad)
* @param pitch Pitch angle (rad)
* @param yaw Yaw angle (rad)
* @param rollspeed Roll angular speed (rad/s)
* @param pitchspeed Pitch angular speed (rad/s)
* @param yawspeed Yaw angular speed (rad/s)
* @param lat Latitude, expressed as * 1E7
* @param lon Longitude, expressed as * 1E7
* @param alt Altitude in meters, expressed as * 1000 (millimeters)
* @param vx Ground X Speed (Latitude), expressed as m/s * 100
* @param vy Ground Y Speed (Longitude), expressed as m/s * 100
* @param vz Ground Z Speed (Altitude), expressed as m/s * 100
* @param xacc X acceleration (mg)
* @param yacc Y acceleration (mg)
* @param zacc Z acceleration (mg)
*/
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#ifndef __mobile__
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void UAS::sendHilState(quint64 time_us, float roll, float pitch, float yaw, float rollspeed,
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                       float pitchspeed, float yawspeed, double lat, double lon, double alt,
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                       float vx, float vy, float vz, float ind_airspeed, float true_airspeed, float xacc, float yacc, float zacc)
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{
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    if (!_vehicle) {
        return;
    }
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    if (_vehicle->hilMode())
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    {
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        float q[4];

        double cosPhi_2 = cos(double(roll) / 2.0);
        double sinPhi_2 = sin(double(roll) / 2.0);
        double cosTheta_2 = cos(double(pitch) / 2.0);
        double sinTheta_2 = sin(double(pitch) / 2.0);
        double cosPsi_2 = cos(double(yaw) / 2.0);
        double sinPsi_2 = sin(double(yaw) / 2.0);
        q[0] = (cosPhi_2 * cosTheta_2 * cosPsi_2 +
                sinPhi_2 * sinTheta_2 * sinPsi_2);
        q[1] = (sinPhi_2 * cosTheta_2 * cosPsi_2 -
                cosPhi_2 * sinTheta_2 * sinPsi_2);
        q[2] = (cosPhi_2 * sinTheta_2 * cosPsi_2 +
                sinPhi_2 * cosTheta_2 * sinPsi_2);
        q[3] = (cosPhi_2 * cosTheta_2 * sinPsi_2 -
                sinPhi_2 * sinTheta_2 * cosPsi_2);

        mavlink_message_t msg;
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        mavlink_msg_hil_state_quaternion_pack_chan(mavlink->getSystemId(),
                                                   mavlink->getComponentId(),
                                                   _vehicle->priorityLink()->mavlinkChannel(),
                                                   &msg,
                                                   time_us, q, rollspeed, pitchspeed, yawspeed,
                                                   lat*1e7f, lon*1e7f, alt*1000, vx*100, vy*100, vz*100, ind_airspeed*100, true_airspeed*100, xacc*1000/9.81, yacc*1000/9.81, zacc*1000/9.81);
        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), msg);
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    }
    else
    {
        // Attempt to set HIL mode
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        _vehicle->setHilMode(true);
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        qDebug() << __FILE__ << __LINE__ << "HIL is onboard not enabled, trying to enable.";
    }
}
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#endif
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#ifndef __mobile__
float UAS::addZeroMeanNoise(float truth_meas, float noise_var)
{
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    /* Calculate normally distributed variable noise with mean = 0 and variance = noise_var.  Calculated according to
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    Box-Muller transform */
    static const float epsilon = std::numeric_limits<float>::min(); //used to ensure non-zero uniform numbers
    static float z0; //calculated normal distribution random variables with mu = 0, var = 1;
    float u1, u2;        //random variables generated from c++ rand();
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    /*Generate random variables in range (0 1] */
    do
    {
        //TODO seed rand() with srand(time) but srand(time should be called once on startup)
        //currently this will generate repeatable random noise
        u1 = rand() * (1.0 / RAND_MAX);
        u2 = rand() * (1.0 / RAND_MAX);
    }
    while ( u1 <= epsilon );  //Have a catch to ensure non-zero for log()

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    z0 = sqrt(-2.0 * log(u1)) * cos(2.0f * M_PI * u2); //calculate normally distributed variable with mu = 0, var = 1
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    //TODO add bias term that changes randomly to simulate accelerometer and gyro bias the exf should handle these
    //as well
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    float noise = z0 * sqrt(noise_var); //calculate normally distributed variable with mu = 0, std = var^2
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    //Finally guard against any case where the noise is not real
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    if(std::isfinite(noise)) {
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            return truth_meas + noise;
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    } else {
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        return truth_meas;
    }
}
#endif

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/*
* @param abs_pressure Absolute Pressure (hPa)
* @param diff_pressure Differential Pressure  (hPa)
*/
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#ifndef __mobile__
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void UAS::sendHilSensors(quint64 time_us, float xacc, float yacc, float zacc, float rollspeed, float pitchspeed, float yawspeed,
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                                    float xmag, float ymag, float zmag, float abs_pressure, float diff_pressure, float pressure_alt, float temperature, quint32 fields_changed)
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{
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    if (!_vehicle) {
        return;
    }
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    if (_vehicle->hilMode())
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    {
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        float xacc_corrupt = addZeroMeanNoise(xacc, xacc_var);
        float yacc_corrupt = addZeroMeanNoise(yacc, yacc_var);
        float zacc_corrupt = addZeroMeanNoise(zacc, zacc_var);
        float rollspeed_corrupt = addZeroMeanNoise(rollspeed,rollspeed_var);
        float pitchspeed_corrupt = addZeroMeanNoise(pitchspeed,pitchspeed_var);
        float yawspeed_corrupt = addZeroMeanNoise(yawspeed,yawspeed_var);
        float xmag_corrupt = addZeroMeanNoise(xmag, xmag_var);
        float ymag_corrupt = addZeroMeanNoise(ymag, ymag_var);
        float zmag_corrupt = addZeroMeanNoise(zmag, zmag_var);
        float abs_pressure_corrupt = addZeroMeanNoise(abs_pressure,abs_pressure_var);
        float diff_pressure_corrupt = addZeroMeanNoise(diff_pressure, diff_pressure_var);
        float pressure_alt_corrupt = addZeroMeanNoise(pressure_alt, pressure_alt_var);
        float temperature_corrupt = addZeroMeanNoise(temperature,temperature_var);
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        mavlink_message_t msg;
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        mavlink_msg_hil_sensor_pack_chan(mavlink->getSystemId(),
                                         mavlink->getComponentId(),
                                         _vehicle->priorityLink()->mavlinkChannel(),
                                         &msg,
                                         time_us, xacc_corrupt, yacc_corrupt, zacc_corrupt, rollspeed_corrupt, pitchspeed_corrupt,
                                         yawspeed_corrupt, xmag_corrupt, ymag_corrupt, zmag_corrupt, abs_pressure_corrupt,
                                         diff_pressure_corrupt, pressure_alt_corrupt, temperature_corrupt, fields_changed);
        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), msg);
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        lastSendTimeSensors = QGC::groundTimeMilliseconds();
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    }
    else
    {
        // Attempt to set HIL mode
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        _vehicle->setHilMode(true);
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        qDebug() << __FILE__ << __LINE__ << "HIL is onboard not enabled, trying to enable.";
    }
}
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#endif
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#ifndef __mobile__
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void UAS::sendHilOpticalFlow(quint64 time_us, qint16 flow_x, qint16 flow_y, float flow_comp_m_x,
                    float flow_comp_m_y, quint8 quality, float ground_distance)
{
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    if (!_vehicle) {
        return;
    }
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    // FIXME: This needs to be updated for new mavlink_msg_hil_optical_flow_pack api
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    Q_UNUSED(time_us);
    Q_UNUSED(flow_x);
    Q_UNUSED(flow_y);
    Q_UNUSED(flow_comp_m_x);
    Q_UNUSED(flow_comp_m_y);
    Q_UNUSED(quality);
    Q_UNUSED(ground_distance);
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    if (_vehicle->hilMode())
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    {
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#if 0
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        mavlink_message_t msg;
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        mavlink_msg_hil_optical_flow_pack_chan(mavlink->getSystemId(),
                                               mavlink->getComponentId(),
                                               _vehicle->priorityLink()->mavlinkChannel(),
                                               &msg,
                                               time_us, 0, 0 /* hack */, flow_x, flow_y, 0.0f /* hack */, 0.0f /* hack */, 0.0f /* hack */, 0 /* hack */, quality, ground_distance);
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        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), msg);
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        lastSendTimeOpticalFlow = QGC::groundTimeMilliseconds();
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#endif
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    }
    else
    {
        // Attempt to set HIL mode
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        _vehicle->setHilMode(true);
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        qDebug() << __FILE__ << __LINE__ << "HIL is onboard not enabled, trying to enable.";
    }

}
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#endif
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#ifndef __mobile__
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void UAS::sendHilGps(quint64 time_us, double lat, double lon, double alt, int fix_type, float eph, float epv, float vel, float vn, float ve, float vd, float cog, int satellites)
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{
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    if (!_vehicle) {
        return;
    }
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    // Only send at 10 Hz max rate
    if (QGC::groundTimeMilliseconds() - lastSendTimeGPS < 100)
        return;

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    if (_vehicle->hilMode())
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    {
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        float course = cog;
        // map to 0..2pi
        if (course < 0)
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            course += 2.0f * static_cast<float>(M_PI);
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        // scale from radians to degrees
        course = (course / M_PI) * 180.0f;

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        mavlink_message_t msg;
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        mavlink_msg_hil_gps_pack_chan(mavlink->getSystemId(),
                                      mavlink->getComponentId(),
                                      _vehicle->priorityLink()->mavlinkChannel(),
                                      &msg,
                                      time_us, fix_type, lat*1e7, lon*1e7, alt*1e3, eph*1e2, epv*1e2, vel*1e2, vn*1e2, ve*1e2, vd*1e2, course*1e2, satellites);
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        lastSendTimeGPS = QGC::groundTimeMilliseconds();
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        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), msg);
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    }
    else
    {
        // Attempt to set HIL mode
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        _vehicle->setHilMode(true);
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        qDebug() << __FILE__ << __LINE__ << "HIL is onboard not enabled, trying to enable.";
    }
}
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#endif
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/**
* Connect flight gear link.
**/
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#ifndef __mobile__
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void UAS::startHil()
{
    if (hilEnabled) return;
    hilEnabled = true;
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    sensorHil = false;
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    _vehicle->setHilMode(true);
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    qDebug() << __FILE__ << __LINE__ << "HIL is onboard not enabled, trying to enable.";
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    // Connect HIL simulation link
    simulation->connectSimulation();
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}
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#endif
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/**
* disable flight gear link.
*/
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#ifndef __mobile__
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void UAS::stopHil()
{
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   if (simulation && simulation->isConnected()) {
       simulation->disconnectSimulation();
       _vehicle->setHilMode(false);
       qDebug() << __FILE__ << __LINE__ << "HIL is onboard not enabled, trying to disable.";
   }
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    hilEnabled = false;
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    sensorHil = false;
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}
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#endif
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/**
* @rerturn the map of the components
*/
QMap<int, QString> UAS::getComponents()
{
    return components;
}

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void UAS::sendMapRCToParam(QString param_id, float scale, float value0, quint8 param_rc_channel_index, float valueMin, float valueMax)
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{
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    if (!_vehicle) {
        return;
    }
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    mavlink_message_t message;

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    char param_id_cstr[MAVLINK_MSG_PARAM_MAP_RC_FIELD_PARAM_ID_LEN] = {};
    // Copy string into buffer, ensuring not to exceed the buffer size
    for (unsigned int i = 0; i < sizeof(param_id_cstr); i++)
    {
        if ((int)i < param_id.length())
        {
            param_id_cstr[i] = param_id.toLatin1()[i];
        }
    }

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    mavlink_msg_param_map_rc_pack_chan(mavlink->getSystemId(),
                                       mavlink->getComponentId(),
                                       _vehicle->priorityLink()->mavlinkChannel(),
                                       &message,
                                       this->uasId,
                                       _vehicle->defaultComponentId(),
                                       param_id_cstr,
                                       -1,
                                       param_rc_channel_index,
                                       value0,
                                       scale,
                                       valueMin,
                                       valueMax);
    _vehicle->sendMessageOnLink(_vehicle->priorityLink(), message);
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    //qDebug() << "Mavlink message sent";
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}
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void UAS::unsetRCToParameterMap()
{
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    if (!_vehicle) {
        return;
    }
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    char param_id_cstr[MAVLINK_MSG_PARAM_MAP_RC_FIELD_PARAM_ID_LEN] = {};

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    for (int i = 0; i < 3; i++) {
        mavlink_message_t message;
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        mavlink_msg_param_map_rc_pack_chan(mavlink->getSystemId(),
                                           mavlink->getComponentId(),
                                           _vehicle->priorityLink()->mavlinkChannel(),
                                           &message,
                                           this->uasId,
                                           _vehicle->defaultComponentId(),
                                           param_id_cstr,
                                           -2,
                                           i,
                                           0.0f,
                                           0.0f,
                                           0.0f,
                                           0.0f);
        _vehicle->sendMessageOnLink(_vehicle->priorityLink(), message);
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    }
}
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void UAS::_say(const QString& text, int severity)
{
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    Q_UNUSED(severity);
    qgcApp()->toolbox()->audioOutput()->say(text);
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}
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void UAS::shutdownVehicle(void)
{
#ifndef __mobile__
    stopHil();
    if (simulation) {
        // wait for the simulator to exit
        simulation->wait();
        simulation->disconnectSimulation();
        simulation->deleteLater();
    }
#endif
    _vehicle = NULL;
}