Esempio n. 1
0
bool SynscanDriver::UnPark()
{
    SetParked(false);
    SetTrackMode(m_isAltAz ? 1 : 2);
    SetTrackEnabled(true);
    return true;
}
Esempio n. 2
0
bool Paramount::updateProperties()
{
    INDI::Telescope::updateProperties();

    if (isConnected())
    {
        if (isTheSkyTracking())
        {
            IUResetSwitch(&TrackModeSP);
            TrackModeS[TRACK_SIDEREAL].s = ISS_ON;
            TrackState = SCOPE_TRACKING;
        }
        else
        {
            IUResetSwitch(&TrackModeSP);
            TrackState = SCOPE_IDLE;
        }

        //defineSwitch(&TrackModeSP);
        //defineNumber(&TrackRateNP);

        defineNumber(&JogRateNP);

        defineNumber(&GuideNSNP);
        defineNumber(&GuideWENP);
        defineNumber(&GuideRateNP);

        // Initial currentRA and currentDEC to LST and +90 or -90
        if (InitPark())
        {
            // If loading parking data is successful, we just set the default parking values.
            SetAxis1ParkDefault(currentRA);
            SetAxis2ParkDefault(currentDEC);
        }
        else
        {
            // Otherwise, we set all parking data to default in case no parking data is found.
            SetAxis1Park(currentRA);
            SetAxis2Park(currentDEC);
            SetAxis1ParkDefault(currentRA);
            SetAxis2ParkDefault(currentDEC);
        }

        SetParked(isTheSkyParked());
    }
    else
    {
        //deleteProperty(TrackModeSP.name);
        //deleteProperty(TrackRateNP.name);

        deleteProperty(JogRateNP.name);

        deleteProperty(GuideNSNP.name);
        deleteProperty(GuideWENP.name);
        deleteProperty(GuideRateNP.name);
    }

    return true;
}
Esempio n. 3
0
void RollOff::TimerHit()
{

    if(isConnected() == false) return;  //  No need to reset timer if we are not connected anymore

    if (DomeMotionSP.s == IPS_BUSY)
    {
        // Abort called
        if (MotionRequest < 0)
        {
            DEBUG(INDI::Logger::DBG_SESSION, "Roof motion is stopped.");
            setDomeState(DOME_IDLE);
            SetTimer(1000);
            return;
        }

        // Roll off is opening
        if (DomeMotionS[DOME_CW].s == ISS_ON)
        {
            if (getFullOpenedLimitSwitch())
            {
                DEBUG(INDI::Logger::DBG_SESSION, "Roof is open.");
                SetParked(false);
                return;
            }
        }
        // Roll Off is closing
        else if (DomeMotionS[DOME_CCW].s == ISS_ON)
        {
            if (getFullClosedLimitSwitch())
            {
                DEBUG(INDI::Logger::DBG_SESSION, "Roof is closed.");
                SetParked(true);
                return;
            }
        }

        SetTimer(1000);
    }


    //SetTimer(1000);
}
Esempio n. 4
0
File: ieqpro.cpp Progetto: mp77/indi
bool IEQPro::UnPark()
{
    if (unpark_ieqpro(PortFD))
    {
        SetParked(false);
        TrackState = SCOPE_IDLE;
        return true;
    }
    else
        return false;
}
Esempio n. 5
0
bool ScopeScript::ReadScopeStatus()
{
    char name[1024];
    char *s = tmpnam(name);
    INDI_UNUSED(s);
    bool status = RunScript(SCRIPT_STATUS, name, nullptr);
    if (status)
    {
        int parked = 0;
        float ra = 0, dec = 0;
        FILE *file = fopen(name, "r");
        int ret = 0;

        ret = fscanf(file, "%d %f %f", &parked, &ra, &dec);
        fclose(file);
        unlink(name);
        if (parked != 0)
        {
            if (!isParked())
            {
                SetParked(true);
                LOG_INFO("Park succesfully executed");
            }
        }
        else
        {
            if (isParked())
            {
                SetParked(false);
                LOG_INFO("Unpark succesfully executed");
            }
        }
        NewRaDec(ra, dec);
    }
    else
    {
        LOG_ERROR("Failed to read status");
    }
    return status;
}
Esempio n. 6
0
/************************************************************************************
 *
* ***********************************************************************************/
void ScopeDome::TimerHit()
{
    if (!isConnected())
        return; //  No need to reset timer if we are not connected anymore

    readU16(GetStatus, currentStatus);
    // LOGF_INFO("Status: %x", currentStatus);
    UpdatePosition();

    UpdateShutterStatus();
    IDSetSwitch(&DomeShutterSP, nullptr);

    UpdateRelayStatus();

    if (status == DOME_HOMING)
    {
        if ((currentStatus & 8) == 0 && getInputState(IN_HOME))
        {
            // Found home
            status   = DOME_READY;
            targetAz = DomeHomePositionN[0].value;

            // Reset counter
            writeCmd(ResetCounter);

            FindHomeSP.s   = IPS_OK;
            DomeAbsPosNP.s = IPS_OK;
            IDSetSwitch(&FindHomeSP, nullptr);
        }
        IDSetNumber(&DomeAbsPosNP, nullptr);
    }
    else if (status == DOME_DEROTATING)
    {
        if ((currentStatus & 2) == 0)
        {
            readS32(GetCounterExt, currentRotation);
            LOGF_INFO("Current rotation is %d", currentRotation);
            if (abs(currentRotation) < 100)
            {
                // Close enough
                status         = DOME_READY;
                DerotateSP.s   = IPS_OK;
                DomeAbsPosNP.s = IPS_OK;
                IDSetSwitch(&DerotateSP, nullptr);
            }
            else
            {
                if (currentRotation < 0)
                {
                    writeU16(CCWRotation, compensateInertia(-currentRotation));
                }
                else
                {
                    writeU16(CWRotation, compensateInertia(currentRotation));
                }
            }
        }
        IDSetNumber(&DomeAbsPosNP, nullptr);
    }
    else if (DomeAbsPosNP.s == IPS_BUSY)
    {
        if ((currentStatus & 2) == 0)
        {
            // Rotation idle, are we close enough?
            double azDiff = targetAz - DomeAbsPosN[0].value;
            if (azDiff > 180)
            {
                azDiff -= 360;
            }
            if (azDiff < -180)
            {
                azDiff += 360;
            }
            if (fabs(azDiff) <= DomeParamN[0].value)
            {
                DomeAbsPosN[0].value = targetAz;
                DomeAbsPosNP.s       = IPS_OK;
                LOG_INFO("Dome reached requested azimuth angle.");

                if (getDomeState() == DOME_PARKING)
                {
                    if (ParkShutterS[0].s == ISS_ON && getInputState(IN_CLOSED1) == ISS_OFF)
                    {
                        ControlShutter(SHUTTER_CLOSE);
                    }
                    else
                    {
                        SetParked(true);
                    }
                }
                else if (getDomeState() == DOME_UNPARKING)
                    SetParked(false);
                else
                    setDomeState(DOME_SYNCED);
            }
            else
            {
                // Refine azimuth
                MoveAbs(targetAz);
            }
        }

        IDSetNumber(&DomeAbsPosNP, nullptr);
    }
    else
        IDSetNumber(&DomeAbsPosNP, nullptr);

    // Read temperatures only every 10th time
    static int tmpCounter = 0;
    if (--tmpCounter <= 0)
    {
        UpdateSensorStatus();
        tmpCounter = 10;
    }

    SetTimer(POLLMS);
}
Esempio n. 7
0
/************************************************************************************
 *
* ***********************************************************************************/
bool ScopeDome::UpdateShutterStatus()
{
    int rc = readBuffer(GetAllDigitalExt, 5, digitalSensorState);
    if (rc != 0)
    {
        LOGF_ERROR("Error reading input state: %d", rc);
        return false;
    }
    // LOGF_INFO("digitalext %x %x %x %x %x", digitalSensorState[0],
    // digitalSensorState[1], digitalSensorState[2], digitalSensorState[3],
    // digitalSensorState[4]);
    SensorsS[0].s  = getInputState(IN_ENCODER);
    SensorsS[1].s  = ISS_OFF; // ?
    SensorsS[2].s  = getInputState(IN_HOME);
    SensorsS[3].s  = getInputState(IN_OPEN1);
    SensorsS[4].s  = getInputState(IN_CLOSED1);
    SensorsS[5].s  = getInputState(IN_OPEN2);
    SensorsS[6].s  = getInputState(IN_CLOSED2);
    SensorsS[7].s  = getInputState(IN_S_HOME);
    SensorsS[8].s  = getInputState(IN_CLOUDS);
    SensorsS[9].s  = getInputState(IN_CLOUD);
    SensorsS[10].s = getInputState(IN_SAFE);
    SensorsS[11].s = getInputState(IN_ROT_LINK);
    SensorsS[12].s = getInputState(IN_FREE);
    SensorsSP.s    = IPS_OK;
    IDSetSwitch(&SensorsSP, nullptr);

    DomeShutterSP.s = IPS_OK;
    IUResetSwitch(&DomeShutterSP);

    if (getInputState(IN_OPEN1) == ISS_ON) // shutter open switch triggered
    {
        if (shutterState == SHUTTER_MOVING && targetShutter == SHUTTER_OPEN)
        {
            LOGF_INFO("%s", GetShutterStatusString(SHUTTER_OPENED));
            setOutputState(OUT_OPEN1, ISS_OFF);
            shutterState = SHUTTER_OPENED;
            if (getDomeState() == DOME_UNPARKING)
                SetParked(false);
        }
        DomeShutterS[SHUTTER_OPEN].s = ISS_ON;
    }
    else if (getInputState(IN_CLOSED1) == ISS_ON) // shutter closed switch triggered
    {
        if (shutterState == SHUTTER_MOVING && targetShutter == SHUTTER_CLOSE)
        {
            LOGF_INFO("%s", GetShutterStatusString(SHUTTER_CLOSED));
            setOutputState(OUT_CLOSE1, ISS_OFF);
            shutterState = SHUTTER_CLOSED;

            if (getDomeState() == DOME_PARKING && DomeAbsPosNP.s != IPS_BUSY)
            {
                SetParked(true);
            }
        }
        DomeShutterS[SHUTTER_CLOSE].s = ISS_ON;
    }
    else
    {
        shutterState    = SHUTTER_MOVING;
        DomeShutterSP.s = IPS_BUSY;
    }
    return true;
}
Esempio n. 8
0
bool ScopeSim::UnPark()
{
    SetParked(false);
    return true;
}
Esempio n. 9
0
bool ScopeSim::ReadScopeStatus()
{
    static struct timeval ltv { 0, 0 };
    struct timeval tv { 0, 0 };
    double dt = 0, da_ra = 0, da_dec = 0, dx = 0, dy = 0, ra_guide_dt = 0, dec_guide_dt = 0;
    static double last_dx = 0, last_dy = 0;
    int nlocked, ns_guide_dir = -1, we_guide_dir = -1;
    char RA_DISP[64], DEC_DISP[64], RA_GUIDE[64], DEC_GUIDE[64], RA_PE[64], DEC_PE[64], RA_TARGET[64], DEC_TARGET[64];

    /* update elapsed time since last poll, don't presume exactly POLLMS */
    gettimeofday(&tv, nullptr);

    if (ltv.tv_sec == 0 && ltv.tv_usec == 0)
        ltv = tv;

    dt  = tv.tv_sec - ltv.tv_sec + (tv.tv_usec - ltv.tv_usec) / 1e6;
    ltv = tv;

    if (fabs(targetRA - currentRA) * 15. >= GOTO_LIMIT)
        da_ra = GOTO_RATE * dt;
    else if (fabs(targetRA - currentRA) * 15. >= SLEW_LIMIT)
        da_ra = SLEW_RATE * dt;
    else
        da_ra = FINE_SLEW_RATE * dt;

    if (fabs(targetDEC - currentDEC) >= GOTO_LIMIT)
        da_dec = GOTO_RATE * dt;
    else if (fabs(targetDEC - currentDEC) >= SLEW_LIMIT)
        da_dec = SLEW_RATE * dt;
    else
        da_dec = FINE_SLEW_RATE * dt;

    if (MovementNSSP.s == IPS_BUSY || MovementWESP.s == IPS_BUSY)
    {
        int rate = IUFindOnSwitchIndex(&SlewRateSP);

        switch (rate)
        {
            case SLEW_GUIDE:
                da_ra  = FINE_SLEW_RATE * dt * 0.05;
                da_dec = FINE_SLEW_RATE * dt * 0.05;
                break;

            case SLEW_CENTERING:
                da_ra  = FINE_SLEW_RATE * dt * .1;
                da_dec = FINE_SLEW_RATE * dt * .1;
                break;

            case SLEW_FIND:
                da_ra  = SLEW_RATE * dt;
                da_dec = SLEW_RATE * dt;
                break;

            default:
                da_ra  = GOTO_RATE * dt;
                da_dec = GOTO_RATE * dt;
                break;
        }

        switch (MovementNSSP.s)
        {
            case IPS_BUSY:
                if (MovementNSS[DIRECTION_NORTH].s == ISS_ON)
                    currentDEC += da_dec;
                else if (MovementNSS[DIRECTION_SOUTH].s == ISS_ON)
                    currentDEC -= da_dec;
                break;

            default:
                break;
        }

        switch (MovementWESP.s)
        {
            case IPS_BUSY:

                if (MovementWES[DIRECTION_WEST].s == ISS_ON)
                    currentRA += da_ra / 15.;
                else if (MovementWES[DIRECTION_EAST].s == ISS_ON)
                    currentRA -= da_ra / 15.;
                break;

            default:
                break;
        }

        NewRaDec(currentRA, currentDEC);
        return true;
    }

    /* Process per current state. We check the state of EQUATORIAL_EOD_COORDS_REQUEST and act acoordingly */
    switch (TrackState)
    {
        /*case SCOPE_IDLE:
            EqNP.s = IPS_IDLE;
            break;*/
        case SCOPE_SLEWING:
        case SCOPE_PARKING:
            /* slewing - nail it when both within one pulse @ SLEWRATE */
            nlocked = 0;

            dx = targetRA - currentRA;

            // Always take the shortcut, don't go all around the globe
            // If the difference between target and current is more than 12 hours, then we need to take the shortest path
            if (dx > 12)
                dx -= 24;
            else if (dx < -12)
                dx += 24;

            // In meridian flip, alway force eastward motion (increasing RA) until target is reached.
            if (forceMeridianFlip)
            {
                dx = fabs(dx);
                if (dx == 0)
                {
                    dx    = 1;
                    da_ra = GOTO_LIMIT;
                }
            }

            if (fabs(dx) * 15. <= da_ra)
            {
                currentRA = targetRA;
                nlocked++;
            }
            else if (dx > 0)
                currentRA += da_ra / 15.;
            else
                currentRA -= da_ra / 15.;

            currentRA = range24(currentRA);

            dy = targetDEC - currentDEC;
            if (fabs(dy) <= da_dec)
            {
                currentDEC = targetDEC;
                nlocked++;
            }
            else if (dy > 0)
                currentDEC += da_dec;
            else
                currentDEC -= da_dec;

            EqNP.s = IPS_BUSY;

            if (nlocked == 2)
            {
                forceMeridianFlip = false;

                if (TrackState == SCOPE_SLEWING)
                {
                    // Initially no PE in both axis.
                    EqPEN[0].value = currentRA;
                    EqPEN[1].value = currentDEC;

                    IDSetNumber(&EqPENV, nullptr);

                    TrackState = SCOPE_TRACKING;

                    EqNP.s = IPS_OK;
                    DEBUG(INDI::Logger::DBG_SESSION, "Telescope slew is complete. Tracking...");
                }
                else
                {
                    SetParked(true);
                    EqNP.s = IPS_IDLE;
                }
            }

            break;

        case SCOPE_IDLE:
                 //currentRA += (TRACKRATE_SIDEREAL/3600.0 * dt) / 15.0;
                currentRA += (TrackRateN[AXIS_RA].value/3600.0 * dt) / 15.0;
                currentRA = range24(currentRA);
        break;

        case SCOPE_TRACKING:
            // In case of custom tracking rate
            if (TrackModeS[1].s == ISS_ON)
            {
                currentRA  += ( ((TRACKRATE_SIDEREAL/3600.0) - (TrackRateN[AXIS_RA].value/3600.0)) * dt) / 15.0;
                currentDEC += ( (TrackRateN[AXIS_DE].value/3600.0) * dt);
            }

            dt *= 1000;

            if (guiderNSTarget[GUIDE_NORTH] > 0)
            {
                DEBUGF(INDI::Logger::DBG_DEBUG, "Commanded to GUIDE NORTH for %g ms", guiderNSTarget[GUIDE_NORTH]);
                ns_guide_dir = GUIDE_NORTH;
            }
            else if (guiderNSTarget[GUIDE_SOUTH] > 0)
            {
                DEBUGF(INDI::Logger::DBG_DEBUG, "Commanded to GUIDE SOUTH for %g ms", guiderNSTarget[GUIDE_SOUTH]);
                ns_guide_dir = GUIDE_SOUTH;
            }

            // WE Guide Selection
            if (guiderEWTarget[GUIDE_WEST] > 0)
            {
                we_guide_dir = GUIDE_WEST;
                DEBUGF(INDI::Logger::DBG_DEBUG, "Commanded to GUIDE WEST for %g ms", guiderEWTarget[GUIDE_WEST]);
            }
            else if (guiderEWTarget[GUIDE_EAST] > 0)
            {
                we_guide_dir = GUIDE_EAST;
                DEBUGF(INDI::Logger::DBG_DEBUG, "Commanded to GUIDE EAST for %g ms", guiderEWTarget[GUIDE_EAST]);
            }

            if (ns_guide_dir != -1)
            {
                dec_guide_dt = TrackRateN[AXIS_RA].value/3600.0 * GuideRateN[DEC_AXIS].value * guiderNSTarget[ns_guide_dir] / 1000.0 *
                               (ns_guide_dir == GUIDE_NORTH ? 1 : -1);

                // If time remaining is more that dt, then decrement and
                if (guiderNSTarget[ns_guide_dir] >= dt)
                    guiderNSTarget[ns_guide_dir] -= dt;
                else
                    guiderNSTarget[ns_guide_dir] = 0;

                if (guiderNSTarget[ns_guide_dir] == 0)
                {
                    GuideNSNP.s = IPS_IDLE;
                    IDSetNumber(&GuideNSNP, nullptr);
                }

                EqPEN[DEC_AXIS].value += dec_guide_dt;
            }

            if (we_guide_dir != -1)
            {
                ra_guide_dt = (TrackRateN[AXIS_RA].value/3600.0) / 15.0 * GuideRateN[RA_AXIS].value * guiderEWTarget[we_guide_dir] / 1000.0 *
                              (we_guide_dir == GUIDE_WEST ? -1 : 1);

                if (guiderEWTarget[we_guide_dir] >= dt)
                    guiderEWTarget[we_guide_dir] -= dt;
                else
                    guiderEWTarget[we_guide_dir] = 0;

                if (guiderEWTarget[we_guide_dir] == 0)
                {
                    GuideWENP.s = IPS_IDLE;
                    IDSetNumber(&GuideWENP, nullptr);
                }

                EqPEN[RA_AXIS].value += ra_guide_dt;
            }

            //Mention the followng:
            // Current RA displacemet and direction
            // Current DEC displacement and direction
            // Amount of RA GUIDING correction and direction
            // Amount of DEC GUIDING correction and direction

            dx = EqPEN[RA_AXIS].value - targetRA;
            dy = EqPEN[DEC_AXIS].value - targetDEC;
            fs_sexa(RA_DISP, fabs(dx), 2, 3600);
            fs_sexa(DEC_DISP, fabs(dy), 2, 3600);

            fs_sexa(RA_GUIDE, fabs(ra_guide_dt), 2, 3600);
            fs_sexa(DEC_GUIDE, fabs(dec_guide_dt), 2, 3600);

            fs_sexa(RA_PE, EqPEN[RA_AXIS].value, 2, 3600);
            fs_sexa(DEC_PE, EqPEN[DEC_AXIS].value, 2, 3600);

            fs_sexa(RA_TARGET, targetRA, 2, 3600);
            fs_sexa(DEC_TARGET, targetDEC, 2, 3600);

            if (dx != last_dx || dy != last_dy || ra_guide_dt != 0.0 || dec_guide_dt != 0.0)
            {
                last_dx = dx;
                last_dy = dy;
                //DEBUGF(INDI::Logger::DBG_DEBUG, "dt is %g\n", dt);
                DEBUGF(INDI::Logger::DBG_DEBUG, "RA Displacement (%c%s) %s -- %s of target RA %s", dx >= 0 ? '+' : '-',
                       RA_DISP, RA_PE, (EqPEN[RA_AXIS].value - targetRA) > 0 ? "East" : "West", RA_TARGET);
                DEBUGF(INDI::Logger::DBG_DEBUG, "DEC Displacement (%c%s) %s -- %s of target RA %s", dy >= 0 ? '+' : '-',
                       DEC_DISP, DEC_PE, (EqPEN[DEC_AXIS].value - targetDEC) > 0 ? "North" : "South", DEC_TARGET);
                DEBUGF(INDI::Logger::DBG_DEBUG, "RA Guide Correction (%g) %s -- Direction %s", ra_guide_dt, RA_GUIDE,
                       ra_guide_dt > 0 ? "East" : "West");
                DEBUGF(INDI::Logger::DBG_DEBUG, "DEC Guide Correction (%g) %s -- Direction %s", dec_guide_dt, DEC_GUIDE,
                       dec_guide_dt > 0 ? "North" : "South");
            }

            if (ns_guide_dir != -1 || we_guide_dir != -1)
                IDSetNumber(&EqPENV, nullptr);

            break;

        default:
            break;
    }

    char RAStr[64], DecStr[64];

    fs_sexa(RAStr, currentRA, 2, 3600);
    fs_sexa(DecStr, currentDEC, 2, 3600);

    DEBUGF(DBG_SCOPE, "Current RA: %s Current DEC: %s", RAStr, DecStr);

    NewRaDec(currentRA, currentDEC);
    return true;
}
Esempio n. 10
0
void ioptronHC8406::mountSim()
{
    static struct timeval ltv;
    struct timeval tv;
    double dt, da, dx;
    int nlocked;

    /* update elapsed time since last poll, don't presume exactly POLLMS */
    gettimeofday(&tv, nullptr);

    if (ltv.tv_sec == 0 && ltv.tv_usec == 0)
        ltv = tv;

    dt  = tv.tv_sec - ltv.tv_sec + (tv.tv_usec - ltv.tv_usec) / 1e6;
    ltv = tv;
    da  = SLEWRATE * dt;

    /* Process per current state. We check the state of EQUATORIAL_COORDS and act acoordingly */
    switch (TrackState)
    {
    case SCOPE_TRACKING:
        /* RA moves at sidereal, Dec stands still */
        currentRA += (SIDRATE * dt / 15.);
        break;

    case SCOPE_SLEWING:
    case SCOPE_PARKING:
        /* slewing - nail it when both within one pulse @ SLEWRATE */
        nlocked = 0;

        dx = targetRA - currentRA;

        if (fabs(dx) <= da)
        {
            currentRA = targetRA;
            nlocked++;
        }
        else if (dx > 0)
            currentRA += da / 15.;
        else
            currentRA -= da / 15.;

        dx = targetDEC - currentDEC;
        if (fabs(dx) <= da)
        {
            currentDEC = targetDEC;
            nlocked++;
        }
        else if (dx > 0)
            currentDEC += da;
        else
            currentDEC -= da;

        if (nlocked == 2)
        {
            if (TrackState == SCOPE_SLEWING)
                TrackState = SCOPE_TRACKING;
            else
                SetParked(true);
        }

        break;

    default:
        break;
    }

    NewRaDec(currentRA, currentDEC);
}
Esempio n. 11
0
bool ioptronHC8406::UnPark()
{
    SetParked(false);
    return true;
}
Esempio n. 12
0
void DomeScript::TimerHit()
{
    if (!isConnected())
        return;
    char name[1024]={0};
    // N.B. INDI_UNUSED to make it compile on MacOS
    // DO NOT CHANGE
    char *s = tmpnam(name);
    INDI_UNUSED(s);
    bool status = RunScript(SCRIPT_STATUS, name, nullptr);
    if (status)
    {
        int parked = 0, shutter = 0;
        float az   = 0;
        FILE *file = fopen(name, "r");
        int ret    = 0;

        ret = fscanf(file, "%d %d %f", &parked, &shutter, &az);
        fclose(file);
        unlink(name);
        DomeAbsPosN[0].value = az = round(range360(az) * 10) / 10;
        if (parked != 0)
        {
            if (getDomeState() == DOME_PARKING || getDomeState() == DOME_UNPARKED)
            {
                SetParked(true);
                TargetAz = az;
                LOG_INFO("Park succesfully executed");
            }
        }
        else
        {
            if (getDomeState() == DOME_UNPARKING || getDomeState() == DOME_PARKED)
            {
                SetParked(false);
                TargetAz = az;
                LOG_INFO("Unpark succesfully executed");
            }
        }
        if (std::round(az * 10) != std::round(TargetAz * 10))
        {
            LOGF_INFO("Moving %g -> %g %d", std::round(az * 10) / 10,
                   std::round(TargetAz * 10) / 10, getDomeState());
            IDSetNumber(&DomeAbsPosNP, nullptr);
        }
        else if (getDomeState() == DOME_MOVING)
        {
            setDomeState(DOME_SYNCED);
            IDSetNumber(&DomeAbsPosNP, nullptr);
        }
        if (shutterState == SHUTTER_OPENED)
        {
            if (shutter == 0)
            {
                shutterState    = SHUTTER_CLOSED;
                DomeShutterSP.s = IPS_OK;
                IDSetSwitch(&DomeShutterSP, nullptr);
                LOG_INFO("Shutter was succesfully closed");
            }
        }
        else
        {
            if (shutter == 1)
            {
                shutterState    = SHUTTER_OPENED;
                DomeShutterSP.s = IPS_OK;
                IDSetSwitch(&DomeShutterSP, nullptr);
                LOG_INFO("Shutter was succesfully opened");
            }
        }
    }
    else
    {
        LOG_ERROR("Failed to read status");
    }
    SetTimer(POLLMS);
    if (!isParked() && TimeSinceUpdate++ > 4)
    {
        TimeSinceUpdate = 0;
        UpdateMountCoords();
    }
}
Esempio n. 13
0
/************************************************************************************
 *
* ***********************************************************************************/
void BaaderDome::TimerHit()
{
    if (!isConnected())
        return; //  No need to reset timer if we are not connected anymore

    UpdatePosition();

    if (DomeAbsPosNP.s == IPS_BUSY)
    {
        if (sim)
        {
            double speed = 0;
            if (fabs(targetAz - DomeAbsPosN[0].value) > SIM_DOME_HI_SPEED)
                speed = SIM_DOME_HI_SPEED;
            else
                speed = SIM_DOME_LO_SPEED;

            if (DomeRelPosNP.s == IPS_BUSY)
            {
                // CW
                if (DomeMotionS[0].s == ISS_ON)
                    DomeAbsPosN[0].value += speed;
                // CCW
                else
                    DomeAbsPosN[0].value -= speed;
            }
            else
            {
                if (targetAz > DomeAbsPosN[0].value)
                {
                    DomeAbsPosN[0].value += speed;
                }
                else if (targetAz < DomeAbsPosN[0].value)
                {
                    DomeAbsPosN[0].value -= speed;
                }
            }

            if (DomeAbsPosN[0].value < DomeAbsPosN[0].min)
                DomeAbsPosN[0].value += DomeAbsPosN[0].max;
            if (DomeAbsPosN[0].value > DomeAbsPosN[0].max)
                DomeAbsPosN[0].value -= DomeAbsPosN[0].max;
        }

        if (fabs(targetAz - DomeAbsPosN[0].value) < DomeParamN[0].value)
        {
            DomeAbsPosN[0].value = targetAz;
            DEBUG(INDI::Logger::DBG_SESSION, "Dome reached requested azimuth angle.");

            if (status != DOME_CALIBRATING)
            {
                if (getDomeState() == DOME_PARKING)
                    SetParked(true);
                else if (getDomeState() == DOME_UNPARKING)
                    SetParked(false);
                else
                    setDomeState(DOME_SYNCED);
            }

            if (status == DOME_CALIBRATING)
            {
                if (calibrationStage == CALIBRATION_STAGE1)
                {
                    DEBUG(INDI::Logger::DBG_SESSION, "Calibration stage 1 complete. Starting stage 2...");
                    calibrationTarget2 = DomeAbsPosN[0].value + 2;
                    calibrationStage   = CALIBRATION_STAGE2;
                    MoveAbs(calibrationTarget2);
                    DomeAbsPosNP.s = IPS_BUSY;
                }
                else if (calibrationStage == CALIBRATION_STAGE2)
                {
                    DEBUGF(INDI::Logger::DBG_SESSION,
                           "Calibration stage 2 complete. Returning to initial position %g...", calibrationStart);
                    calibrationStage = CALIBRATION_STAGE3;
                    MoveAbs(calibrationStart);
                    DomeAbsPosNP.s = IPS_BUSY;
                }
                else if (calibrationStage == CALIBRATION_STAGE3)
                {
                    calibrationStage = CALIBRATION_COMPLETE;
                    DEBUG(INDI::Logger::DBG_SESSION, "Dome reached initial position.");
                }
            }
        }

        IDSetNumber(&DomeAbsPosNP, nullptr);
    }
    else
        IDSetNumber(&DomeAbsPosNP, nullptr);

    UpdateShutterStatus();

    if (sim && DomeShutterSP.s == IPS_BUSY)
    {
        if (simShutterTimer-- <= 0)
        {
            simShutterTimer  = 0;
            simShutterStatus = (targetShutter == SHUTTER_OPEN) ? SHUTTER_OPENED : SHUTTER_CLOSED;
        }
    }
    else
        IDSetSwitch(&DomeShutterSP, nullptr);

    UpdateFlapStatus();

    if (sim && DomeFlapSP.s == IPS_BUSY)
    {
        if (simFlapTimer-- <= 0)
        {
            simFlapTimer  = 0;
            simFlapStatus = (targetFlap == FLAP_OPEN) ? FLAP_OPENED : FLAP_CLOSED;
        }
    }
    else
        IDSetSwitch(&DomeFlapSP, nullptr);

    SetTimer(POLLMS);
}
Esempio n. 14
0
void DomeSim::TimerHit()
{
    int nexttimer=1000;

    if(isConnected() == false) return;  //  No need to reset timer if we are not connected anymore    

    if (DomeAbsPosNP.s == IPS_BUSY)
    {
        if (targetAz > DomeAbsPosN[0].value)
        {
            DomeAbsPosN[0].value += DOME_SPEED;
        }
        else if (targetAz < DomeAbsPosN[0].value)
        {
            DomeAbsPosN[0].value -= DOME_SPEED;
        }

        DomeAbsPosN[0].value = range360(DomeAbsPosN[0].value);

        if (fabs(targetAz - DomeAbsPosN[0].value) <= DOME_SPEED)
        {
            DomeAbsPosN[0].value = targetAz;
            DEBUG(INDI::Logger::DBG_SESSION, "Dome reached requested azimuth angle.");

            if (getDomeState() == DOME_PARKING)
                SetParked(true);
            else if (getDomeState() == DOME_UNPARKING)
                SetParked(false);
            else
                setDomeState(DOME_SYNCED);
        }

        IDSetNumber(&DomeAbsPosNP, NULL);
    }

    if (DomeShutterSP.s == IPS_BUSY)
    {
        if (shutterTimer-- <= 0)
        {
            shutterTimer=0;
            DomeShutterSP.s = IPS_OK;
            DEBUGF(INDI::Logger::DBG_SESSION, "Shutter is %s.", (DomeShutterS[0].s == ISS_ON ? "open" : "closed"));
            IDSetSwitch(&DomeShutterSP, NULL);

            if (getDomeState() == DOME_UNPARKING)
                SetParked(false);
        }
    }
    SetTimer(nexttimer);
    //  Not all mounts update ra/dec constantly if tracking co-ordinates
    //  This is to ensure our alt/az gets updated even if ra/dec isn't being updated
    //  Once every 10 seconds is more than sufficient
    //  with this added, dome simulator will now correctly track telescope simulator
    //  which does not emit new ra/dec co-ords if they are not changing
    if(isParked() == false && TimeSinceUpdate++ > 9)
    {
        TimeSinceUpdate=0;
        UpdateMountCoords();
    }
    return;
}
Esempio n. 15
0
bool SynscanDriver::ReadScopeStatus()
{
    if (isSimulation())
    {
        mountSim();
        return true;
    }

    char res[SYN_RES] = {0};

    // Goto in progress?
    if (sendCommand("L", res))
        m_MountInfo[MI_GOTO_STATUS] = res[0];

    // Pier side
    if (m_isAltAz == false && sendCommand("p", res))
    {
        m_MountInfo[MI_POINT_STATUS] = res[0];
        // INDI and mount pier sides are opposite to each other
        setPierSide(res[0] == 'W' ? PIER_EAST : PIER_WEST);
    }

    if (readTracking())
    {
        if (TrackState == SCOPE_SLEWING)
        {
            if (isSlewComplete())
            {
                TrackState = (m_TrackingFlag == 2) ? SCOPE_TRACKING : SCOPE_IDLE;
                HorizontalCoordsNP.s = (m_TrackingFlag == 2) ? IPS_OK : IPS_IDLE;
                IDSetNumber(&HorizontalCoordsNP, nullptr);
            }
        }
        else if (TrackState == SCOPE_PARKING)
        {
            if (isSlewComplete())
            {
                HorizontalCoordsNP.s = IPS_IDLE;
                IDSetNumber(&HorizontalCoordsNP, nullptr);
                TrackState = SCOPE_PARKED;
                SetTrackEnabled(false);
                SetParked(true);
            }
        }
        else if (TrackState == SCOPE_IDLE && m_TrackingFlag > 0)
            TrackState = SCOPE_TRACKING;
        else if (TrackState == SCOPE_TRACKING && m_TrackingFlag == 0)
            TrackState = SCOPE_IDLE;
    }

    sendStatus();

    // Get Precise RA/DE
    memset(res, 0, SYN_RES);
    if (!sendCommand("e", res))
        return false;

    uint32_t n1 = 0, n2 = 0;
    sscanf(res, "%x,%x#", &n1, &n2);
    double ra  = static_cast<double>(n1) / 0x100000000 * 360.0;
    double de  = static_cast<double>(n2) / 0x100000000 * 360.0;

    ln_equ_posn epochPos { 0, 0 }, J2000Pos { 0, 0 };
    J2000Pos.ra  = range360(ra);
    J2000Pos.dec = rangeDec(de);

    // Synscan reports J2000 coordinates so we need to convert from J2000 to JNow
    ln_get_equ_prec2(&J2000Pos, JD2000, ln_get_julian_from_sys(), &epochPos);

    CurrentRA = epochPos.ra / 15.0;
    CurrentDE = epochPos.dec;

    char Axis1Coords[MAXINDINAME] = {0}, Axis2Coords[MAXINDINAME] = {0};
    fs_sexa(Axis1Coords, J2000Pos.ra / 15.0, 2, 3600);
    fs_sexa(Axis2Coords, J2000Pos.dec, 2, 3600);
    LOGF_DEBUG("J2000 RA <%s> DE <%s>", Axis1Coords, Axis2Coords);
    memset(Axis1Coords, 0, MAXINDINAME);
    memset(Axis2Coords, 0, MAXINDINAME);
    fs_sexa(Axis1Coords, CurrentRA, 2, 3600);
    fs_sexa(Axis2Coords, CurrentDE, 2, 3600);
    LOGF_DEBUG("JNOW  RA <%s> DE <%s>", Axis1Coords, Axis2Coords);

    //  Now feed the rest of the system with corrected data
    NewRaDec(CurrentRA, CurrentDE);

    // Get precise az/alt
    memset(res, 0, SYN_RES);
    if (!sendCommand("z", res))
        return false;

    sscanf(res, "%x,%x#", &n1, &n2);
    double az  = static_cast<double>(n1) / 0x100000000 * 360.0;
    double al  = static_cast<double>(n2) / 0x100000000 * 360.0;
    al = rangeDec(al);

    HorizontalCoordsN[AXIS_AZ].value = az;
    HorizontalCoordsN[AXIS_ALT].value = al;

    memset(Axis1Coords, 0, MAXINDINAME);
    memset(Axis2Coords, 0, MAXINDINAME);
    fs_sexa(Axis1Coords, az, 2, 3600);
    fs_sexa(Axis2Coords, al, 2, 3600);
    LOGF_DEBUG("AZ <%s> ALT <%s>", Axis1Coords, Axis2Coords);

    IDSetNumber(&HorizontalCoordsNP, nullptr);

    return true;
}
Esempio n. 16
0
bool ioptronHC8406::ReadScopeStatus()
{
    
    //return true; //for debug 

    if (!isConnected())
        return false;

    if (isSimulation())
    {
        mountSim();
        return true;
    }

    switch (TrackState) {
	case SCOPE_IDLE:
	    DEBUG(INDI::Logger::DBG_WARNING, "<ReadScopeStatus> IDLE");		
	    break;
	case SCOPE_SLEWING:
	    DEBUG(INDI::Logger::DBG_WARNING, "<ReadScopeStatus> SLEWING");		
	    break;
	case SCOPE_TRACKING:
	    DEBUG(INDI::Logger::DBG_WARNING, "<ReadScopeStatus> TRACKING");		
	    break;
	case SCOPE_PARKING:
	    DEBUG(INDI::Logger::DBG_WARNING, "<ReadScopeStatus> PARKING");		
	    break;
	case SCOPE_PARKED:
	    DEBUG(INDI::Logger::DBG_WARNING, "<ReadScopeStatus> PARKED");		
	    break;
	default:
	    DEBUG(INDI::Logger::DBG_WARNING, "<ReadScopeStatus> UNDEFINED");		
	    break;
    }

    if (TrackState == SCOPE_SLEWING )
    {
        // Check if LX200 is done slewing
        if (isSlewComplete())
        {
            usleep(1000000); //Wait until :MS# finish
            if (IUFindSwitch(&CoordSP, "SYNC")->s == ISS_ON || IUFindSwitch(&CoordSP, "SLEW")->s == ISS_ON)  {
	            TrackState = SCOPE_IDLE;
	            DEBUG(INDI::Logger::DBG_WARNING, "Slew is complete. IDLE");
		    SetTrackEnabled(false);
	    } else {
	            TrackState = SCOPE_TRACKING;
	            DEBUG(INDI::Logger::DBG_WARNING, "Slew is complete. TRACKING");
		    SetTrackEnabled(true);
	    }
        }
    }
    else if (TrackState == SCOPE_PARKING)
    {
        // isSlewComplete() not work because is base on actual RA/DEC vs target RA/DEC. DO ALWAYS
        if (true || isSlewComplete()) 
        {
            SetParked(true);
	    TrackState = SCOPE_PARKED;
        }
    }

    if (getLX200RA(PortFD, &currentRA) < 0 || getLX200DEC(PortFD, &currentDEC) < 0)
    {
        EqNP.s = IPS_ALERT;
        IDSetNumber(&EqNP, "Error reading RA/DEC.");
        return false;
    }

    NewRaDec(currentRA, currentDEC);

    //sendScopeTime();
    //syncSideOfPier();

    return true;
}
Esempio n. 17
0
File: ieqpro.cpp Progetto: mp77/indi
bool IEQPro::ReadScopeStatus()
{
    bool rc = false;

    IEQInfo newInfo;

    if (isSimulation())
        mountSim();

    rc = get_ieqpro_status(PortFD, &newInfo);

    if (rc)
    {
        IUResetSwitch(&GPSStatusSP);
        GPSStatusS[newInfo.gpsStatus].s = ISS_ON;
        IDSetSwitch(&GPSStatusSP, NULL);

        IUResetSwitch(&TimeSourceSP);
        TimeSourceS[newInfo.timeSource].s = ISS_ON;
        IDSetSwitch(&TimeSourceSP, NULL);

        IUResetSwitch(&HemisphereSP);
        HemisphereS[newInfo.hemisphere].s = ISS_ON;
        IDSetSwitch(&HemisphereSP, NULL);

        TelescopeTrackMode trackMode;

        switch (newInfo.trackRate)
        {
            case TR_SIDEREAL:
                trackMode = TRACK_SIDEREAL;
                break;
            case TR_SOLAR:
                trackMode = TRACK_SOLAR;
                break;
            case TR_LUNAR:
                trackMode = TRACK_LUNAR;
                break;
            case TR_KING:
                trackMode = TRACK_SIDEREAL;
                break;
            case TR_CUSTOM:
                trackMode = TRACK_CUSTOM;
                break;
        }

        switch (newInfo.systemStatus)
        {
            case ST_STOPPED:
                TrackModeSP.s = IPS_IDLE;
                TrackState = SCOPE_IDLE;
                break;
            case ST_PARKED:
                TrackModeSP.s = IPS_IDLE;
                TrackState = SCOPE_PARKED;
                if (isParked() == false)
                    SetParked(true);
                break;
            case ST_HOME:
                TrackModeSP.s = IPS_IDLE;
                TrackState = SCOPE_IDLE;
                break;
             case ST_SLEWING:
             case ST_MERIDIAN_FLIPPING:
                if (TrackState != SCOPE_SLEWING && TrackState != SCOPE_PARKING)
                    TrackState =  SCOPE_SLEWING;
                break;
             case ST_TRACKING_PEC_OFF:
             case ST_TRACKING_PEC_ON:
             case ST_GUIDING:
                TrackModeSP.s = IPS_BUSY;
                TrackState = SCOPE_TRACKING;
                if (scopeInfo.systemStatus == ST_SLEWING)
                    DEBUG(INDI::Logger::DBG_SESSION, "Slew complete, tracking...");
                else if (scopeInfo.systemStatus == ST_MERIDIAN_FLIPPING)
                    DEBUG(INDI::Logger::DBG_SESSION, "Meridian flip complete, tracking...");
                break;
        }

        IUResetSwitch(&TrackModeSP);
        TrackModeS[trackMode].s = ISS_ON;
        IDSetSwitch(&TrackModeSP, NULL);

        scopeInfo = newInfo;

    }

    rc = get_ieqpro_coords(PortFD, &currentRA, &currentDEC);

    if (rc)
        NewRaDec(currentRA, currentDEC);

    return rc;
}