Ejemplo n.º 1
0
    def worldAt(self, *pixel):

        if not self._findWCS():
            return Position.fromRaDec(0, 0)

        world = self._valueAt(self._wcs.wcs_pix2world, *pixel)
        return Position.fromRaDec(Coord.fromD(world[0]), Coord.fromD(world[1]))
Ejemplo n.º 2
0
    def getOffset(self, position):

        ret = {"X": 0.0, "Y": 0.0, "N": 0.0, "E": 0.0, "Status": self.state()}

        try:
            frame = self._takeImage()
            fname = "/tmp/autoguider.fits"
            if os.path.exists(fname):
                os.remove(fname)
            frame.save(fname)
            img = fits.getdata(fname)
            # Extract some backgroud
            img -= np.mean(img) * 0.9
            img[img < 0] = 0.0

            pY, pX = centroid(img)
            ret["X"] = pX - position["XWIN_IMAGE"]
            ret["Y"] = pY - position["YWIN_IMAGE"]
            centerPos = frame.worldAt([position["XWIN_IMAGE"], position["YWIN_IMAGE"]])
            currPos = frame.worldAt([pX, pY])
            # offset = centerPos.angsep(currPos)
            ret["E"] = Coord.fromAS((centerPos.ra.AS - currPos.ra.AS) * np.cos(currPos.dec.R))
            ret["N"] = Coord.fromAS(centerPos.dec.AS - currPos.dec.AS)
        except:
            if self.abort.isSet():
                ret["Status"] = GuiderStatus.ABORTED
                return ret
            else:
                raise

        self.plot(frame, position, ret)

        return ret
Ejemplo n.º 3
0
    def syncWithTel(self):
        self.syncBegin()

        self.log.debug('[sync] Check if dome is in sync with telescope')

        if self.getMode() == Mode.Track:
            self.log.warning('Dome is in track mode... Slew is completely controled by AsTelOS...'
                             'Waiting for dome to reach expected position')

            start_time = time.time()

            tpl = self.getTPL()
            ref_altitude = Coord.fromD(0.)
            target_az = Coord.fromD(tpl.getobject('POSITION.INSTRUMENTAL.DOME[0].TARGETPOS'))
            target_position = Position.fromAltAz(ref_altitude,
                                                 target_az)
            while True:
                current_az = self.getAz()
                current_position = Position.fromAltAz(ref_altitude,
                                                      current_az)
                self.log.debug('Current az: %s | Target az: %s' % (current_az.toDMS(), target_az.toDMS()))
                if time.time() > (start_time + self._maxSlewTime):
                    if abs(target_position.angsep(current_position).D) < tpl.getobject(
                            'POINTING.SETUP.DOME.MAX_DEVIATION') * 4.0:
                        self.log.warning("[sync] Dome too far from target position!")
                        break
                    else:
                        self.syncComplete()
                        raise AstelcoDomeException("Dome synchronization timed-out")
                elif abs(target_position.angsep(current_position).D) < tpl.getobject(
                        'POINTING.SETUP.DOME.MAX_DEVIATION') * 2.0:
                    break

        self.syncComplete()
        self.log.debug('[sync] Dome in sync')
Ejemplo n.º 4
0
    def find (self, near=None, limit=9999, **conditions):

        self.useCat("II/183A/")

        if conditions.get("closest", False):
            limit = 1
            self.useColumns("*POS_EQ_RA_MAIN,*POS_EQ_DEC_MAIN,*ID_MAIN,Vmag,_r", sortBy="_r")
        else:
            self.useColumns("*POS_EQ_RA_MAIN,*POS_EQ_DEC_MAIN,*ID_MAIN,Vmag,_r", sortBy="*POS_EQ_RA_MAIN")
        
        if near:
            self.useTarget(near, radius=conditions.get("radius", 45))
        
        x = super(Landolt,self).find(limit)

        for i in x:
            RA = i.pop("*POS_EQ_RA_MAIN")
            i["RA"] = Coord.fromHMS(str(RA))
            DEC = i.pop("*POS_EQ_DEC_MAIN")
            i["DEC"] = Coord.fromDMS(str(DEC))
            ID = i.pop("*ID_MAIN")
            i["ID"] = str(ID)
            V = i.pop("Vmag")
            i["V"] = str(V)
            i.pop("_r")

        return x 
Ejemplo n.º 5
0
    def __init__(self):
        TelescopeBase.__init__(self)

        self.__slewing = False
        self._az = Coord.fromDMS(0)
        self._alt = Coord.fromDMS(70)

        self._slewing = False
        self._tracking = True
        self._parked = False

        self._abort = threading.Event()

        self._epoch = Epoch.J2000

        self._cover = False
        self._pierside = TelescopePierSide.UNKNOWN

        try:
            self._site = self.getManager().getProxy("/Site/0")
            self._gotSite = True
        except:
            self._site = Site()
            self._gotSite = False

        self._setRaDecFromAltAz()
Ejemplo n.º 6
0
    def _valueAt(self, fn, *coords):
        """
        Accepts a function callback and variable coords.

        If len(coords) == 1 convert (from tuple or Position) to decimal degress.
        If len(coords) == 2, convert (from number or Coord) to decimal degress
        """

        assert len(coords) >= 1
        assert self._wcs is not None

        if len(coords) == 2:
            c1 = Coord.fromH(coords[0]).D
            c2 = Coord.fromD(coords[1]).D
        else:
            if isinstance(coords[0], Position):
                c1, c2 = coords[0].dd()
            else:  # assumes as tuple
                c1, c2 = coords[0]

        value = fn(N.array([[c1, c2]]), 1)

        if len(value) >= 1:
            return tuple(value[0])
        else:
            raise WCSNotFoundException("Couldn't convert coordinates.")
Ejemplo n.º 7
0
    def _moveScope(self, tracking=False, pierSide=None):
        """
        Moves the scope, usually to zenith
        """
        tel = self._getTel()
        site = self._getSite()
        self.log.debug('Moving scope to alt %s az %s.' % (self["flat_alt"], self["flat_az"]))
        if tel.getPositionAltAz().angsep(
                Position.fromAltAz(Coord.fromD(self["flat_alt"]), Coord.fromD(self["flat_az"]))).D < self[
            "flat_position_max"]:

            self.log.debug(
                'Telescope is less than {} degrees from flat position. Not moving!'.format(self["flat_position_max"]))
            if tracking and not tel.isTracking():
                tel.startTracking()
            elif not tracking and tel.isTracking():
                tel.stopTracking()
            if pierSide is not None and tel.features(TelescopePier):
                self.log.debug("Setting telescope pier side to %s." % tel.getPierSide().__str__().lower())
                tel.setSideOfPier(self['pier_side'])

            return

        try:
            self.log.debug("Skyflat Slewing scope to alt {} az {}".format(self["flat_alt"], self["flat_az"]))
            tel.slewToRaDec(Position.altAzToRaDec(Position.fromAltAz(Coord.fromD(self["flat_alt"]),
                                                                     Coord.fromD(self["flat_az"])),
                                                  site['latitude'], site.LST()))
            if tracking:
                self._startTracking()
            else:
                self._stopTracking()
        except:
            self.log.debug("Error moving the telescope")
Ejemplo n.º 8
0
    def test_distances(self):

        p1 = Position.fromRaDec("10:00:00", "0:0:0")
        p2 = Position.fromRaDec("12:00:00", "0:0:0")

        d = p1.angsep(p2)
        assert p1.within(p2, Coord.fromD(29.99)) == False
        assert p1.within(p2, Coord.fromD(30.01)) == True
Ejemplo n.º 9
0
 def raDecToAltAz(raDec, latitude, lst):
     decR = CoordUtil.coordToR(raDec.dec)
     latR = CoordUtil.coordToR(latitude)
     ha = CoordUtil.raToHa(raDec.ra, lst)
     haR = CoordUtil.coordToR(ha)
     
     altR,azR = CoordUtil.coordRotate(decR, latR, haR)
     
     return Position.fromAltAz(Coord.fromR(CoordUtil.makeValid180to180(altR)), Coord.fromR(CoordUtil.makeValid0to360(azR)))
Ejemplo n.º 10
0
 def __init__(self, buffer):
     # discard time
     buffer.recv(8)
     self.ra = struct.unpack("<1I", buffer.recv(4))[0]
     self.ra *= (math.pi / 0x80000000)
     self.ra = Coord.fromR(self.ra).toHMS()
     self.dec = struct.unpack("<1i", buffer.recv(4))[0]
     self.dec *= (math.pi / 0x80000000)
     self.dec = Coord.fromR(self.dec).toDMS()
     self.position = Position.fromRaDec(self.ra, self.dec)
Ejemplo n.º 11
0
    def precess(self, epoch=Epoch.NOW):
        if str(epoch).lower() == str(Epoch.J2000).lower():
            epoch = ephem.J2000
        elif str(epoch).lower() == str(Epoch.B1950).lower():
            epoch = ephem.B1950
        elif str(epoch).lower() == str(Epoch.NOW).lower():
            epoch = ephem.now()

        j2000 = self.toEphem()
        now = ephem.Equatorial(j2000, epoch=epoch)
        return Position.fromRaDec(Coord.fromR(now.ra), Coord.fromR(now.dec), epoch=Epoch.NOW)
Ejemplo n.º 12
0
    def moveNorth(self, offset, rate=SlewRate.MAX):
        self._slewing = True

        pos = self.getPositionRaDec()
        pos = Position.fromRaDec(pos.ra, pos.dec + Coord.fromAS(offset))
        self.slewBegin(pos)

        self._dec += Coord.fromAS(offset)
        self._setAltAzFromRaDec()

        self._slewing = False
        self.slewComplete(self.getPositionRaDec(), TelescopeStatus.OK)
Ejemplo n.º 13
0
    def moveSouth(self, offset, rate=SlewRate.MAX):
        self._slewing = True

        pos = self.getPositionRaDec()
        pos = Position.fromRaDec(pos.ra, pos.dec + Coord.fromAS(-offset))
        self.slewBegin(pos)

        self._dec += Coord.fromAS(-offset)
        self._setAltAzFromRaDec()

        self._slewing = False
        self.slewComplete(self.getPositionRaDec(), TelescopeStatus.OK)
Ejemplo n.º 14
0
    def test_parsing_conversion_hipparcos(self):
        """Parsing and comparing a subset of the Hipparcos and Tycho Catalog"""

        hipp = ascii.read(os.path.abspath(
            os.path.join(os.path.dirname(__file__), 'hipparcos-tycho.dat')),
                          format="tab")

        expected_ra = []
        expected_ra_str = []

        expected_dec = []
        expected_dec_str = []

        ra = []
        ra_hms = []

        dec = []
        dec_dms = []

        for row in hipp:
            expected_ra_str.append(row[0].strip())
            expected_dec_str.append(row[1].strip())

            expected_ra.append(float(row[2]))
            expected_dec.append(float(row[3]))

            ra.append(Coord.fromD(str(row[2])))
            dec.append(Coord.fromD(str(row[3])))

            ra_hms.append(Coord.fromHMS(str(row[0])))
            dec_dms.append(Coord.fromDMS(str(row[1])))

        for i in range(len(hipp)):
            assert expected_ra_str[i] == ra_hms[i].strfcoord("%(h)02d %(m)02d %(s)05.2f"), \
                "ra: %s != coord ra: %s" % (expected_ra_str[i], ra_hms[i].strfcoord("%(h)02d %(m)02d %(s)05.2f"))

            assert expected_dec_str[i] == dec_dms[i].strfcoord("%(d)02d %(m)02d %(s)04.1f"), \
                "dec: %s != coord dec: %s" % (expected_dec_str[i], dec_dms[i].strfcoord("%(d)02d %(m)02d %(s)04.1f"))

            # test conversion from D to D
            assert TestCoord.equal(ra[i].D, expected_ra[i], e=1e-8), \
                "ra: %.6f != coord ra: %.6f (%.6f)" % (expected_ra[i], ra[i].D, expected_ra[i]-ra[i].D)

            assert TestCoord.equal(dec[i].D, expected_dec[i], e=1e-8), \
                "dec: %.6f != coord dec: %.64f (%.6f)" % (expected_dec[i], dec[i].D, expected_dec[i]-dec[i].D)

            # test conversion from DMS HMS to D
            assert TestCoord.equal(ra_hms[i].D, expected_ra[i], e=1e-4), \
                "ra: %.6f != coord ra: %.6f (%.6f)" % (expected_ra[i], ra_hms[i].D, expected_ra[i]-ra_hms[i].D)

            assert TestCoord.equal(dec_dms[i].D, expected_dec[i], e=1e-4), \
                "dec: %.6f != coord dec: %.64f (%.6f)" % (expected_dec[i], dec_dms[i].D, expected_dec[i]-dec_dms[i].D)
Ejemplo n.º 15
0
    def chimera_handler(self, payload, root):
        t0 = time.time()
        # Check if it is a real GRB
        ra, dec = float(
            root.find(
                "./WhereWhen/ObsDataLocation/ObservationLocation/AstroCoords/Position2D/Value2/C1"
            ).text
        ), float(
            root.find(
                "./WhereWhen/ObsDataLocation/ObservationLocation/AstroCoords/Position2D/Value2/C2"
            ).text)
        packet_type = int(
            root.find("./What/Param[@name='Packet_Type']").attrib['value'])

        site = self.getSite()
        ephem_site = site.getEphemSite(site.ut())
        grb = ephem.FixedBody()
        grb._ra, grb._dec = ra, dec
        grb.compute(ephem_site)
        # Conditions to pull the observation trigger
        # TODO: implement min_moon_distance -> Position(coord.fromD(grb.alt), coord.fromD(grb.az)) - site.moonpos()
        # In[8]: a = Position.fromAltAz(Coord.fromD(10), Coord.fromD(10))
        #
        # In[9]: b = Position.fromAltAz(Coord.fromD(10), Coord.fromD(20))
        #
        # In[11]: a.angsep(b).D
        # Out[11]: 10.0
        moondist = Position.fromAltAz(Coord.fromD(float(grb.alt)),
                                      Coord.fromD(float(grb.az))).angsep(
                                          site.moonpos())
        if moondist > self['obs-min_moondist']:
            self.log.debug("Moon is OK! Moon distance = %.2f deg" % moondist)
        else:
            self.log.debug("Moon is NOT OK! Moon distance = %.2f deg" %
                           moondist)

        # TODO: check if Test_Notice != True (for INTEGRAL)
        if grb.alt >= self['obs-min_alt'] and packet_type in range(
                1000):  # self['obs-packets']:
            gal_coord = ephem.Galactic(grb)
            ebv = get_SFD_dust([gal_coord.long], [gal_coord.lat],
                               dustmap=self.dust_file,
                               interpolate=False)
            if ebv < self['obs-ebv_max']:
                self.log.debug('Total analysis time: %6.3f secs' %
                               (time.time() - t0))
                self.trigger_observation(ra, dec)
        else:
            self.log.debug(
                "Reject alert type %i. ALT = %.2f, RA = %.2f DEC = %.2f. Config: %d, %s"
                % (packet_type, grb.alt, ra, dec, self['obs-min_alt'],
                   str(self['obs-packets'])))
Ejemplo n.º 16
0
    def test_coord(self):

        c = Config({"DMS": Coord.fromDMS(10), "HMS": Coord.fromHMS(10)})

        assert c["DMS"].state == State.DMS
        assert c["HMS"].state == State.HMS

        c["DMS"] = 20
        assert c["DMS"] == Coord.fromDMS(20)

        c["HMS"] = 20
        assert c["HMS"] == Coord.fromHMS(20)
        assert c["HMS"] == Coord.fromDMS(20 * 15)
Ejemplo n.º 17
0
    def test_parsing_conversion_hipparcos (self):
        """Parsing and comparing a subset of the Hipparcos and Tycho Catalog"""

        hipp = ascii.read(os.path.abspath(os.path.join(os.path.dirname(__file__), 'hipparcos-tycho.dat')), format="tab")

        expected_ra  = []
        expected_ra_str = []

        expected_dec = []
        expected_dec_str = []

        ra  = []
        ra_hms = []

        dec = []
        dec_dms = []

        for row in hipp:
            expected_ra_str.append(row[0].strip())
            expected_dec_str.append(row[1].strip())

            expected_ra.append(float(row[2]))
            expected_dec.append(float(row[3]))

            ra.append(Coord.fromD(str(row[2])))
            dec.append(Coord.fromD(str(row[3])))

            ra_hms.append(Coord.fromHMS(str(row[0])))
            dec_dms.append(Coord.fromDMS(str(row[1])))

        for i in range(len(hipp)):
            assert expected_ra_str[i] == ra_hms[i].strfcoord("%(h)02d %(m)02d %(s)05.2f"), \
                "ra: %s != coord ra: %s" % (expected_ra_str[i], ra_hms[i].strfcoord("%(h)02d %(m)02d %(s)05.2f"))

            assert expected_dec_str[i] == dec_dms[i].strfcoord("%(d)02d %(m)02d %(s)04.1f"), \
                "dec: %s != coord dec: %s" % (expected_dec_str[i], dec_dms[i].strfcoord("%(d)02d %(m)02d %(s)04.1f"))

            # test conversion from D to D
            assert TestCoord.equal(ra[i].D, expected_ra[i], e=1e-8), \
                "ra: %.6f != coord ra: %.6f (%.6f)" % (expected_ra[i], ra[i].D, expected_ra[i]-ra[i].D)

            assert TestCoord.equal(dec[i].D, expected_dec[i], e=1e-8), \
                "dec: %.6f != coord dec: %.64f (%.6f)" % (expected_dec[i], dec[i].D, expected_dec[i]-dec[i].D)

            # test conversion from DMS HMS to D
            assert TestCoord.equal(ra_hms[i].D, expected_ra[i], e=1e-4), \
                "ra: %.6f != coord ra: %.6f (%.6f)" % (expected_ra[i], ra_hms[i].D, expected_ra[i]-ra_hms[i].D)

            assert TestCoord.equal(dec_dms[i].D, expected_dec[i], e=1e-4), \
                "dec: %.6f != coord dec: %.64f (%.6f)" % (expected_dec[i], dec_dms[i].D, expected_dec[i]-dec_dms[i].D)
Ejemplo n.º 18
0
    def test_parsing_conversion_bsc(self):
        """Parsing and comparing to Vizier calculated values the entire 5th Bright Star Catalogue"""

        bsc = asciidata.open(os.path.abspath(
            os.path.join(os.path.dirname(__file__), 'bsc.dat')),
                             comment_char='#',
                             delimiter='\t')

        expected_ra = []
        expected_ra_str = []

        expected_dec = []
        expected_dec_str = []

        ra = []
        dec = []

        for i in range(bsc.nrows):
            expected_ra.append(bsc[0][i])
            expected_dec.append(bsc[1][i])

            expected_ra_str.append(bsc[2][i].strip())
            expected_dec_str.append(bsc[3][i].strip())

            ra.append(Coord.fromHMS(bsc[2][i]))
            dec.append(Coord.fromDMS(bsc[3][i]))

        for i in range(bsc.nrows):
            # use e=0.0001 'cause its the maximum we can get with Vizier data (4 decimal places only)

            # test conversion from HMS DMS to decimal
            assert TestCoord.equal(
                ra[i].D, expected_ra[i],
                e=1e-4), "ra: %.6f != coord ra: %.6f (%.6f)" % (
                    expected_ra[i], ra[i].D, expected_ra[i] - ra[i].D)
            assert TestCoord.equal(
                dec[i].D, expected_dec[i],
                e=1e-4), "dec: %.6f != coord dec: %.64f (%.6f)" % (
                    expected_dec[i], dec[i].D, expected_dec[i] - dec[i].D)

            # test strfcoord implementation
            assert expected_ra_str[i] == ra[i].strfcoord(
                "%(h)02d %(m)02d %(s)04.1f"), "ra: %s != coord ra: %s" % (
                    expected_ra_str[i],
                    ra[i].strfcoord("%(h)02d %(m)02d %(s)04.1f"))

            assert expected_dec_str[i] == dec[i].strfcoord(
                "%(d)02d %(m)02d %(s)02.0f"), "dec: %s != coord dec: %s" % (
                    expected_dec_str[i],
                    dec[i].strfcoord("%(d)02d %(m)02d %(s)02.0f"))
Ejemplo n.º 19
0
    def getAz(self):
        self._write(":GZ#")
        ret = self._readline()
        ret = ret.replace('\xdf', ':')
        
        c = Coord.fromDMS(ret[:-1])
        
        if self['azimuth180Correct']:
            if c.toD() >= 180:
                c = c - Coord.fromD(180)
            else:
                c = c + Coord.fromD(180)

        return c
Ejemplo n.º 20
0
    def test_coord (self):

        c = Config({"DMS": Coord.fromDMS(10),
                    "HMS": Coord.fromHMS(10)})

        assert c["DMS"].state == State.DMS
        assert c["HMS"].state == State.HMS

        c["DMS"] = 20
        assert c["DMS"] == Coord.fromDMS(20)

        c["HMS"] = 20
        assert c["HMS"] == Coord.fromHMS(20)
        assert c["HMS"] == Coord.fromDMS(20*15)
Ejemplo n.º 21
0
    def getAz(self):
        self._write(":GZ#")
        ret = self._readline()
        ret = ret.replace('\xdf', ':')

        c = Coord.fromDMS(ret[:-1])

        if self['azimuth180Correct']:
            if c.toD() >= 180:
                c = c - Coord.fromD(180)
            else:
                c = c + Coord.fromD(180)

        return c
Ejemplo n.º 22
0
    def fromRaDec(ra, dec, epoch=Epoch.J2000):

        try:
            if type(ra) is str:
                ra = Coord.fromHMS(ra)
            elif isinstance(ra, Coord):
                ra = ra.toHMS()
            else:
                try:
                    ra = Coord.fromH(float(ra))
                    ra = ra.toHMS()
                except ValueError:
                    raise ValueError(
                        "Invalid RA coordinate type %s. Expected numbers, strings or Coords."
                        % str(type(ra)))

            Position._checkRange(float(ra), 0, 360)

        except ValueError as e:
            raise ValueError("Invalid RA coordinate %s" % str(ra))
        except PositionOutsideLimitsError:
            raise ValueError(
                "Invalid RA range %s. Must be between 0-24 hours or 0-360 deg."
                % str(ra))

        try:
            if type(dec) is str:
                dec = Coord.fromDMS(dec)
            elif isinstance(dec, Coord):
                dec = dec.toDMS()
            else:
                try:
                    dec = Coord.fromD(float(dec))
                    dec = dec.toDMS()
                except ValueError:
                    raise ValueError(
                        "Invalid DEC coordinate type %s. Expected numbers, strings or Coords."
                        % str(type(dec)))

            Position._checkRange(float(dec), -90, 360)

        except ValueError as e:
            raise ValueError("Invalid DEC coordinate %s" % str(dec))
        except PositionOutsideLimitsError:
            raise ValueError(
                "Invalid DEC range %s. Must be between 0-360 deg or -90 - +90 deg."
                % str(dec))

        return Position((ra, dec), system=System.CELESTIAL, epoch=epoch)
Ejemplo n.º 23
0
    def getAz(self):  # converted to Astelco
        ret = self._tpl.getobject('POSITION.HORIZONTAL.AZ')
        if ret:
			self._az = Coord.fromD(ret)
        self.log.debug('Az: %9.5f'%float(ret))
		
        c = self._az #Coord.fromD(ret)

        if self['azimuth180Correct']:
            if c.toD() >= 180:
                c = c - Coord.fromD(180)
            else:
                c = c + Coord.fromD(180)

        return c
Ejemplo n.º 24
0
    def test_park(self):

        # FIXME: make a real test.
        raise SkipTest()

        def printPosition():
            print self.tel.getPositionRaDec(), self.tel.getPositionAltAz()
            sys.stdout.flush()

        print

        ra = self.tel.getRa()
        dec = self.tel.getDec()

        print "current position:", self.tel.getPositionRaDec()
        print "moving to:", (ra - "01 00 00"), (dec - "01 00 00")

        self.tel.slewToRaDec(
            Position.fromRaDec(ra - Coord.fromH(1), dec - Coord.fromD(1)))

        for i in range(10):
            printPosition()
            time.sleep(0.5)

        print "parking..."
        sys.stdout.flush()
        self.tel.park()

        t0 = time.time()
        wait = 30

        for i in range(10):
            printPosition()
            time.sleep(0.5)

        while time.time() < t0 + wait:
            print "\rwaiting ... ",
            sys.stdout.flush()
            time.sleep(1)

        print "unparking..."
        sys.stdout.flush()

        self.tel.unpark()

        for i in range(10):
            printPosition()
            time.sleep(0.5)
Ejemplo n.º 25
0
    def getTargetDec(self):
        self._write(":Gd#")
        ret = self._readline()

        ret = ret.replace('\xdf', ':')

        return Coord.fromDMS(ret[:-1])
Ejemplo n.º 26
0
class Dome(Interface):
    """
    A Roll-off or classic dome.
    """

    __config__ = {
        "device": None,
        "telescope": "/Telescope/0",
        "mode": Mode.Stand,
        "model": "Fake Domes Inc.",
        "style": Style.Classic,
        'park_position': Coord.fromD(155),
        'park_on_shutdown': False,
        'close_on_shutdown': False,
        "az_resolution": 2,  # dome position resolution in degrees
        "slew_timeout": 120,
        "abort_timeout": 60,
        "init_timeout": 5,
        "open_timeout": 20,
        "close_timeout": 20,
        "fans":
        [],  # list of fans of the dome, i.e.: fans: ['/FakeFan/fake1', '/FakeFan/fake2']
        "lamps":
        [],  # list of lamps of the dome, i.e.: lamps: ['/FakeLamp/fake1']
    }
Ejemplo n.º 27
0
    def test_parse_dms (self):

        coords = []

        t_parse = 0
        t_check = 0

        for dd in range(-23, 24):
            for mm in range(0, 60):
                for ss in range(0, 60):
                    s = '%+03d:%02d:%06.3f' % (dd,mm,ss)

                    t = time.clock()
                    c = Coord.fromDMS(s)
                    t_parse += time.clock()-t

                    coords.append((s,c))

        for coord in coords:
            t = time.clock()
            assert coord[0] == str(coord[1]), (coord[0], "!=", str(coord[1]))
            t_check += time.clock()-t

        print "#%d coords parsed in %.3fs (%.3f/s) and checked in %.3fs (%.3f/s) ..." % (len(coords), t_parse, len(coords)/t_parse,
                                                                                         t_check, len(coords)/t_check)
Ejemplo n.º 28
0
    def _waitSlew (self, start_time, target, local=False):

        self.slewBegin(target)

        while True:

            # check slew abort event
            if self._abort.isSet ():
                self._slewing = False
                return TelescopeStatus.ABORTED

            # check timeout
            if time.time () >= (start_time + self["max_slew_time"]):
                self.abortSlew ()
                self._slewing = False
                raise MeadeException("Slew aborted. Max slew time reached.")

            if local:
                position = self.getPositionAltAz()
            else:
                position = self.getPositionRaDec()

            if target.within (position, eps=Coord.fromAS(60)):
                time.sleep (self["stabilization_time"])
                self._slewing = False
                return TelescopeStatus.OK

            time.sleep (self["slew_idle_time"])

        return TelescoopeStatus.ERROR
Ejemplo n.º 29
0
 def GST(self):
     """
     Mean Greenwhich Sidereal Time
     """
     lst = self.LST()
     gst = (lst - self["longitude"].toH()) % Coord.fromH(24)
     return gst
Ejemplo n.º 30
0
    def getAlt(self):  # converted to Astelco
        ret = self._tpl.getobject('POSITION.HORIZONTAL.ALT')
        if ret:
			self._alt = Coord.fromD(ret)
        self.log.debug('Alt: %9.5f'%float(ret))
		
        return self._alt
Ejemplo n.º 31
0
    def getTargetDec(self):
        self._write(":Gd#")
        ret = self._readline()

        ret = ret.replace('\xdf', ':')

        return Coord.fromDMS(ret[:-1])
Ejemplo n.º 32
0
    def getAz(self):

        self._checkQuirk()

        self.tty.setTimeout(10)

        cmd = "POSICAO?"

        self._write(cmd)

        ack = self._readline()

        # check timeout
        if not ack:
            raise IOError("Couldn't get azimuth after %d seconds." % 10)

        # uC is going crazy
        if ack == "INVALIDO":
            raise IOError("Error getting dome azimuth (ack=INVALIDO).")

        # get ack return
        if ack.startswith("CUPULA="):
            ack = ack[ack.find("=") + 1:]

        if ack == "ERRO":
            # FIXME: restart and try again
            raise ChimeraException(
                "Dome is in invalid state. Hard restart needed.")

        # correct dome/telescope phase difference
        az = int(math.ceil(int(ack) * self["az_resolution"]))
        az -= self._az_shift
        az = az % 360

        return Coord.fromDMS(az)
Ejemplo n.º 33
0
 def GST(self):
     """
     Mean Greenwhich Sidereal Time
     """
     lst = self.LST()
     gst = (lst - self["longitude"].toH()) % Coord.fromH(24)
     return gst
Ejemplo n.º 34
0
    def getRa(self):  # converted to Astelco

        ret = self._tpl.getobject('POSITION.EQUATORIAL.RA_J2000')
        if ret:
			self._ra = Coord.fromH(ret)
        self.log.debug('Ra: %9.5f'%float(ret))
        return self._ra
Ejemplo n.º 35
0
    def _waitSlew(self, start_time, target, local=False):

        self.slewBegin(target)

        while True:

            # check slew abort event
            if self._abort.isSet():
                self._slewing = False
                return TelescopeStatus.ABORTED

            # check timeout
            if time.time() >= (start_time + self["max_slew_time"]):
                self.abortSlew()
                self._slewing = False
                raise MeadeException("Slew aborted. Max slew time reached.")

            if local:
                position = self.getPositionAltAz()
            else:
                position = self.getPositionRaDec()

            if target.within(position, eps=Coord.fromAS(60)):
                time.sleep(self["stabilization_time"])
                self._slewing = False
                return TelescopeStatus.OK

            time.sleep(self["slew_idle_time"])

        return TelescoopeStatus.ERROR
Ejemplo n.º 36
0
    def test_parse_dms(self):

        coords = []

        t_parse = 0
        t_check = 0

        for dd in range(-23, 24):
            for mm in range(0, 60):
                for ss in range(0, 60):
                    s = '%+03d:%02d:%06.3f' % (dd, mm, ss)

                    t = time.clock()
                    c = Coord.fromDMS(s)
                    t_parse += time.clock() - t

                    coords.append((s, c))

        for coord in coords:
            t = time.clock()
            assert coord[0] == str(coord[1]), (coord[0], "!=", str(coord[1]))
            t_check += time.clock() - t

        print "#%d coords parsed in %.3fs (%.3f/s) and checked in %.3fs (%.3f/s) ..." % (
            len(coords), t_parse, len(coords) / t_parse, t_check,
            len(coords) / t_check)
Ejemplo n.º 37
0
    def test_park (self):
        
        # FIXME: make a real test.
        raise SkipTest()

        def printPosition():
            print self.tel.getPositionRaDec(), self.tel.getPositionAltAz()
            sys.stdout.flush()
            
        print

        ra  = self.tel.getRa()
        dec = self.tel.getDec()

        print "current position:", self.tel.getPositionRaDec()
        print "moving to:", (ra-"01 00 00"), (dec-"01 00 00")

        self.tel.slewToRaDec(Position.fromRaDec(ra-Coord.fromH(1), dec-Coord.fromD(1)))

        for i in range(10):
            printPosition()
            time.sleep(0.5)

        print "parking..."
        sys.stdout.flush()
        self.tel.park()

        t0 = time.time()
        wait = 30

        for i in range(10):
            printPosition()
            time.sleep(0.5)
       
        while time.time() < t0+wait:
            print "\rwaiting ... ",
            sys.stdout.flush()
            time.sleep(1)

        print "unparking..."
        sys.stdout.flush()

        self.tel.unpark()

        for i in range(10):
            printPosition()
            time.sleep(0.5)
Ejemplo n.º 38
0
    def test_slew_abort(self):

        site = self.manager.getProxy("/Site/0")

        # go to know position
        self.tel.slewToRaDec(Position.fromRaDec(site.LST(), site["latitude"]))
        last = self.tel.getPositionRaDec()

        # clear event checkings
        FiredEvents = {}

        # drift it
        dest = Position.fromRaDec(last.ra + Coord.fromH(1),
                                  last.dec + Coord.fromD(10))
        real_dest = None

        @callback(self.manager)
        def slewBeginClbk(target):
            global real_dest
            real_dest = target

        @callback(self.manager)
        def slewCompleteClbk(position, status):
            assert last.ra < position.ra < real_dest.ra
            assert last.dec < position.dec < real_dest.dec

        self.tel.slewBegin += slewBeginClbk
        self.tel.slewComplete += slewCompleteClbk

        # async slew
        def slew():
            tel = self.manager.getProxy(self.TELESCOPE)
            tel.slewToRaDec(dest)

        pool = ThreadPool()
        pool.queueTask(slew)

        # wait thread to be scheduled
        time.sleep(2)

        # abort and test
        self.tel.abortSlew()

        pool.joinAll()

        # event checkings
        self.assertEvents(TelescopeStatus.ABORTED)
Ejemplo n.º 39
0
    def test_slew_abort (self):

        site = self.manager.getProxy("/Site/0")

        # go to know position
        self.tel.slewToRaDec(Position.fromRaDec(site.LST(), site["latitude"]))
        last = self.tel.getPositionRaDec()

        # clear event checkings
        FiredEvents = {}

        # drift it
        dest = Position.fromRaDec(last.ra+Coord.fromH(1), last.dec+Coord.fromD(10))
        real_dest = None

        @callback(self.manager)
        def slewBeginClbk(target):
            global real_dest
            real_dest = target

        @callback(self.manager)
        def slewCompleteClbk(position, status):
            assert last.ra  < position.ra  < real_dest.ra
            assert last.dec < position.dec < real_dest.dec

        self.tel.slewBegin += slewBeginClbk
        self.tel.slewComplete += slewCompleteClbk

        # async slew
        def slew():
            tel = self.manager.getProxy(self.TELESCOPE)
            tel.slewToRaDec(dest)

        pool = ThreadPool()
        pool.queueTask(slew)

        # wait thread to be scheduled
        time.sleep(2)

        # abort and test
        self.tel.abortSlew()

        pool.joinAll()

        # event checkings
        self.assertEvents(TelescopeStatus.ABORTED)
Ejemplo n.º 40
0
 def LST (self):
     """
     Mean Local Sidereal Time
     """
     #lst = self._getEphem(self.ut()).sidereal_time()
     #required since a Coord cannot be constructed from an Ephem.Angle
     lst_c = Coord.fromR(self.LST_inRads())
     return lst_c.toHMS()
Ejemplo n.º 41
0
 def _watchTrackingStopped(self, position, status):
     self.setFlag("telescope",InstrumentOperationFlag.READY)
     self.broadCast('Telescope tracking stopped with status %s.' % status)
     if status == TelescopeStatus.OBJECT_TOO_LOW:
         # Todo: Make this an action on the checklist database, so user can configure what to do
         robobs = self.getRobObs()
         sched = self.getSched()
         robobs.stop()
         sched.stop()
         tel = self.getTel()
         from chimera.util.position import Position
         from chimera.util.coord import Coord
         park_position = Position.fromAltAz(Coord.fromD(80),Coord.fromD(89))
         tel.slewToAltAz(park_position)
         robobs.reset_scheduler()
         robobs.start()
         robobs.wake()
Ejemplo n.º 42
0
 def LST(self):
     """
     Mean Local Sidereal Time
     """
     #lst = self._getEphem(self.ut()).sidereal_time()
     #required since a Coord cannot be constructed from an Ephem.Angle
     lst_c = Coord.fromR(self.LST_inRads())
     return lst_c.toHMS()
Ejemplo n.º 43
0
    def getAz(self):
        self._write(":GZ#")
        ret = self._readline()
        ret = ret.replace('\xdf', ':')

        c = Coord.fromDMS(ret[:-1])

        if self['azimuth180Correct']:
            self.log.debug('Initial azimuth:  %s' % str(c.toDMS()))

            if c.toD() > 180:
                c = c - Coord.fromD(180)
            else:
                c = c + Coord.fromD(180)

            self.log.debug('Final azimuth:  %s' % str(c.toDMS()))

        return c
Ejemplo n.º 44
0
 def setLong(self, coord):  # converted to Astelco
     if not isinstance(coord, Coord):
         coord = Coord.fromDMS(coord)
     cmdid = self._tpl.set(
         'POINTING.SETUP.LOCAL.LONGITUDE', coord.D, wait=True)
     ret = self._tpl.succeeded(cmdid)
     if not ret:
         raise AstelcoException("Invalid Longitude '%s'" % coord.D)
     return True
Ejemplo n.º 45
0
    def test_set_info (self):

        m = self.m

        try:
            m.setLat("-22 32 03")
            m.setLong("-45 34 57")
            m.setDate(time.time())
            m.setLocalTime(time.time())
            m.setUTCOffset(3)

            m.setLat(Coord.fromDMS("-22 32 03"))
            m.setLong(Coord.fromDMS("-45 34 57"))
            m.setDate(dt.date.today())
            m.setLocalTime(dt.datetime.now().time())
            m.setUTCOffset(3)
        except Exception:
            log.exception("error")
    def fromRaDec (ra, dec, epoch=Epoch.J2000):

        try:
            if type(ra) == StringType:
                ra = Coord.fromHMS(ra)
            elif isinstance(ra, Coord):
                ra = ra.toHMS()
            else:
                try:
                    ra = Coord.fromH(float(ra))
                    ra = ra.toHMS()
                except ValueError:
                    raise ValueError("Invalid RA coordinate type %s. Expected numbers, strings or Coords." % str(type(ra)))

            Position._checkRange(float(ra), 0, 360)

        except ValueError, e:
            raise ValueError("Invalid RA coordinate %s" % str(ra))
Ejemplo n.º 47
0
    def _moveDome(self):

        dome = self._getDome()

        # from chimera.util.coord import Coord
        target = Coord.fromD(self["dome_az"])

        dome.stand()

        dome.slewToAz(target)
Ejemplo n.º 48
0
    def check(self, value, state=None):

        if not isinstance(value, Coord):
            try:
                return Coord.fromState(value, state)
            except ValueError:
                pass

        # any other type is ignored
        raise OptionConversionException('invalid coord value %s.' % value)
Ejemplo n.º 49
0
    def getAz(self):

        tpl = self.getTPL()
        ret = tpl.getobject('POSITION.INSTRUMENTAL.DOME[0].CURRPOS')
        if ret:
            self._position = ret
        elif not self._position:
            self._position = 0.

        return Coord.fromD(self._position)
Ejemplo n.º 50
0
    def check (self, value, state=None):

        if not isinstance(value, Coord):
            try:
                return Coord.fromState(value, state)
            except ValueError:
                pass

        # any other type is ignored
        raise OptionConversionException ('invalid coord value %s.' % value)
Ejemplo n.º 51
0
    def slewToAz(self, az):

        if not isinstance(az, Coord):
            az = Coord.fromDMS(az)

        if int(az) >= 360:
            az = az % 360

        drv = self.getDriver()
        drv.slewToAz(az)
Ejemplo n.º 52
0
    def angsep(self, other):
        """
        Calculate the Great Circle Distance from other.

        @param other: position to calculate distance from.
        @type  other: L{Position}

        @returns: The distance from this point to L{other}.
        @rtype: L{Coord} in degress (convertable, as this is a Coord).
        """
        return Coord.fromR(CoordUtil.gcdist(self.R, other.R)).toD()
Ejemplo n.º 53
0
    def _genericLongLat(long, lat):
        try:
            if not isinstance(long, Coord):
                long = Coord.fromDMS(long)
            else:
                long = long.toDMS()

            Position._checkRange(float(long), -180, 360)

        except ValueError, e:
            raise ValueError("Invalid LONGITUDE coordinate %s" % str(long))
Ejemplo n.º 54
0
    def fromAltAz(alt, az):
        try:
            if not isinstance(az, Coord):
                az = Coord.fromDMS(az)
            else:
                az = az.toDMS()

            Position._checkRange(float(az), -180, 360)

        except ValueError, e:
            raise ValueError("Invalid AZ coordinate %s" % str(az))
Ejemplo n.º 55
0
    def getRa(self):
        self._write(":GR#")
        ret = self._readline()

        # meade bugs: sometimes, after use Move commands, getRa
        # returns a 1 before the RA, so we just check this and discard
        # it here
        if len(ret) > 9:
            ret = ret[1:]

        return Coord.fromHMS(ret[:-1])
Ejemplo n.º 56
0
    def getDec(self):
        self._write(":GD#")
        ret = self._readline()

        # meade bugs: same as getRa
        if len(ret) > 10:
            ret = ret[1:]

        ret = ret.replace('\xdf', ':')

        return Coord.fromDMS(ret[:-1])
Ejemplo n.º 57
0
    def test_sync (self):

        # get current position, drift the scope, and sync on the first
        # position (like done when aligning the telescope).

        real = self.tel.getPositionRaDec()

        @callback(self.manager)
        def syncCompleteClbk(position):
            assert position.ra == real.ra
            assert position.dec == real.dec

        self.tel.syncComplete += syncCompleteClbk

        # drift to "real" object coordinate
        drift = Position.fromRaDec(real.ra+Coord.fromH(1), real.dec+Coord.fromD(1))
        self.tel.slewToRaDec(drift)

        self.tel.syncRaDec(real)

        time.sleep(2)
Ejemplo n.º 58
0
    def __init__(self):
        ChimeraObject.__init__(self)

        self.__slewing = False
        self._az = Coord.fromDMS(0)
        self._alt = Coord.fromDMS(70)

        self._slewing = False
        self._tracking = True
        self._parked = False

        self._abort = threading.Event()

        try:
            self._site = self.getManager().getProxy(self['site'])
            self._gotSite = True
        except:
            self._site = Site()
            self._gotSite = False

        self._setRaDecFromAltAz()
Ejemplo n.º 59
0
    def _telescopeChanged(self, az):

        if not isinstance(az, Coord):
            az = Coord.fromDMS(az)

        if self._needToMove(az):
            self.log.debug("[control] adding %s to the queue." % az)
            self.queue.put(az)
        else:
            self.log.debug("[control] telescope still in the slit, standing"
                           " (dome az=%.2f, tel az=%.2f, delta=%.2f.)" %
                           (self.getAz(), az, abs(self.getAz() - az)))