class ToastConfig(object):
"""Toast configuration class"""
def __init__(self, odrange=None, channels=None, nside=1024, ordering='RING', coord='E', outmap='outmap.fits', exchange_folder=None, fpdb=None, output_xml='toastrun.xml', ahf_folder=None, components='IQU', obtmask=None, flagmask=None, log_level=l.INFO, remote_exchange_folder=None, remote_ahf_folder=None, calibration_file=None, dipole_removal=False, noise_tod=False, noise_tod_weight=None, efftype=None, flag_HFI_bad_rings=None, include_preFLS=False, ptcorfile=None, include_repointings=False, psd=None, deaberrate=True, extend_857=False, no_wobble=False, eff_is_for_flags=False, exchange_weights=None, beamsky=None, beamsky_weight=None, interp_order=5, horn_noise_tod=None, horn_noise_weight=None, horn_noise_psd=None, observation_is_interval=False, lfi_ring_range=None, hfi_ring_range=None, wobble_high=False):
"""TOAST configuration:
odrange: list of start and end OD, AHF ODS, i.e. with whole pointing periods as the DPC is using
lfi_ring_range: first and last LFI pointing ID to include
hfi_ring_range: first and last HFI ring number to include
channels: one of integer frequency, channel string, list of channel strings
obtmask and flagmask: default LFI 1,255 HFI 1,1
exchange_folder: either a string or a container or strings listing locations for Exchange Format data
exchange_weights: list of scaling factors to apply to Exchange data prior to coadding
eff_is_for_flags : only use Exchange data for flags
remote_exchange_folder, remote_ahf_folder: they allow to run toast.py in one environment using ahf_folder and exchange_folder and then replace the path with the remote folders
calibration_file: path to a fits calibration file, with first extension OBT, then one extension per channel with the calibration factors
dipole_removal: dipole removal is performed ONLY if calibration is specified
noise_tod: Add simulated noise TODs
noise_tod_weight: scaling factor to apply to noise_tod
flag_HFI_bad_rings: if None, flagged just for HFI. If a valid file, use that as input.
include_preFLS : if None, True for LFI
include_repointings : Construct intervals with the 4 minute repointing maneuvers: 10% dataset increase, continuous time stamps
psd : templated name of an ASCII PSD files. Tag CHANNEL will be replaced with the appropriate channel identifier.
horn_noise_tod : False
horn_noise_weight : None
horn_noise_psd : templated name of an ASCII PSD files. Tag HORN will be replaced with the appropriate identifier.
deaberrate : Correct pointing for aberration
extend_857 : Whether or not to include the RTS bolometer, 857-4 in processing
no_wobble : Disable all flavors of wobble angle correction
wobble_high : Use 8Hz wobble correction rather than per ring
beamsky : templated name of the beamsky files for OTF sky convolution. Tag CHANNEL will be replaced with the appropriate channel identifier.
beamsky_weight : scaling factor to apply to the beamsky
interp_order : beamsky interpolation order defines number of cartesian pixels to interpolate over
observation_is_interval : If True, do not split operational days into pointing period intervals
additional configuration options are available modifying:
.config
and Data Selector configuration:
.data_selector.config
dictionaries before running .run()
"""
l.root.level = log_level
self.extend_857 = extend_857
if self.extend_857:
if '857-4' in EXCLUDED_CH: EXCLUDED_CH.remove('857-4')
if sum([odrange!=None, lfi_ring_range!=None, hfi_ring_range!=None]) != 1:
raise Exception('Must specify exactly one type of data span: OD, LFI PID or HFI ring')
self.odrange = odrange
self.lfi_ring_range = lfi_ring_range
self.hfi_ring_range = hfi_ring_range
self.nside = nside
self.coord = coord
self.ordering = ordering
self.outmap = outmap
if channels == None:
raise Exception('Must define which channels to include')
self.channels = parse_channels(channels)
self.f = self.channels[0].f
self.output_xml = output_xml
self.ptcorfile = ptcorfile
if no_wobble and wobble_high:
raise Exception('no_wobble and wobble_high are mutually exclusive')
self.no_wobble = no_wobble
self.wobble_high = wobble_high
self.include_repointings = include_repointings
self.deaberrate = deaberrate
self.noise_tod = noise_tod
self.noise_tod_weight = noise_tod_weight
self.psd = psd
self.horn_noise_tod = horn_noise_tod
self.horn_noise_weight = horn_noise_weight
self.horn_noise_psd = horn_noise_psd
if self.horn_noise_tod and not self.horn_noise_psd:
raise Exception('Must specify horn_noise_psd template name when enabling horn_noise')
self.fpdb = fpdb or private.rimo[self.f.inst.name]
self.beamsky = beamsky
self.beamsky_weight = beamsky_weight
self.interp_order = interp_order
self.observation_is_interval = observation_is_interval
self.rngorder = {
'LFI18M' : 0,
'LFI18S' : 1,
'LFI19M' : 2,
'LFI19S' : 3,
'LFI20M' : 4,
'LFI20S' : 5,
'LFI21M' : 6,
'LFI21S' : 7,
'LFI22M' : 8,
'LFI22S' : 9,
'LFI23M' : 10,
'LFI23S' : 11,
'LFI24M' : 12,
'LFI24S' : 13,
'LFI25M' : 14,
'LFI25S' : 15,
'LFI26M' : 16,
'LFI26S' : 17,
'LFI27M' : 18,
'LFI27S' : 19,
'LFI28M' : 20,
'LFI28S' : 21,
'100-1a' : 22,
'100-1b' : 23,
'100-2a' : 24,
'100-2b' : 25,
'100-3a' : 26,
'100-3b' : 27,
'100-4a' : 28,
'100-4b' : 29,
'143-1a' : 30,
'143-1b' : 31,
'143-2a' : 32,
'143-2b' : 33,
'143-3a' : 34,
'143-3b' : 35,
'143-4a' : 36,
'143-4b' : 37,
'143-5' : 38,
'143-6' : 39,
'143-7' : 40,
'143-8' : 41,
'217-5a' : 42,
'217-5b' : 43,
'217-6a' : 44,
'217-6b' : 45,
'217-7a' : 46,
'217-7b' : 47,
'217-8a' : 48,
'217-8b' : 49,
'217-1' : 50,
'217-2' : 51,
'217-3' : 52,
'217-4' : 53,
'353-3a' : 54,
'353-3b' : 55,
'353-4a' : 56,
'353-4b' : 57,
'353-5a' : 58,
'353-5b' : 59,
'353-6a' : 60,
'353-6b' : 61,
'353-1' : 62,
'353-2' : 63,
'353-7' : 64,
'353-8' : 65,
'545-1' : 66,
'545-2' : 67,
'545-3' : 68,
'545-4' : 69,
'857-1' : 70,
'857-2' : 71,
'857-3' : 72,
'857-4' : 73,
'LFI18' : 74,
'LFI19' : 75,
'LFI20' : 76,
'LFI21' : 77,
'LFI22' : 78,
'LFI23' : 79,
'LFI24' : 80,
'LFI25' : 81,
'LFI26' : 82,
'LFI27' : 83,
'LFI28' : 84,
'100-1' : 85,
'100-2' : 86,
'100-3' : 87,
'100-4' : 88,
'143-1' : 89,
'143-2' : 90,
'143-3' : 91,
'143-4' : 92,
'217-5' : 93,
'217-6' : 94,
'217-7' : 95,
'217-8' : 96,
'353-3' : 97,
'353-4' : 98,
'353-5' : 99,
'353-6' : 100,
}
self.config = {}
if self.f.inst.name == 'LFI':
self.config['pairflags'] = True
else:
self.config['pairflags'] = False
if efftype is None:
efftype ='R'
if self.f.inst.name == 'LFI' and (not calibration_file is None):
efftype ='C'
self.data_selector = DataSelector(channels=self.channels, efftype=efftype, include_preFLS=include_preFLS)
self.exchange_weights = exchange_weights
if remote_exchange_folder:
if isinstance(remote_exchange_folder, str):
remote_exchange_folder = [remote_exchange_folder]
if remote_exchange_folder[-1] != '/':
remote_exchange_folder += '/'
self.remote_exchange_folder = remote_exchange_folder
if remote_ahf_folder:
if remote_ahf_folder[-1] != '/':
remote_ahf_folder += '/'
self.remote_ahf_folder = remote_ahf_folder
if exchange_folder:
if isinstance(exchange_folder, str):
exchange_folder = [exchange_folder]
self.exchange_folder = exchange_folder
self.data_selector.config[ 'exchangefolder' ] = exchange_folder[0]
if ahf_folder:
self.data_selector.config['ahf_folder'] = ahf_folder
if self.odrange:
self.data_selector.by_od_range(self.odrange)
elif self.lfi_ring_range:
self.data_selector.by_lfi_rings(self.lfi_ring_range)
elif self.hfi_ring_range:
self.data_selector.by_hfi_rings(self.hfi_ring_range)
else:
raise Exception('Must specify one type of data span')
self.wobble = private.WOBBLE
self.components = components
self.obtmask = obtmask or DEFAULT_OBTMASK[self.f.inst.name]
self.flagmask = flagmask or DEFAULT_FLAGMASK[self.f.inst.name]
self.calibration_file = calibration_file
self.dipole_removal = dipole_removal
if flag_HFI_bad_rings is None:
if self.f.inst.name == 'HFI':
flag_HFI_bad_rings = True
else:
flag_HFI_bad_rings = False
if flag_HFI_bad_rings:
if ( os.path.isfile(str(flag_HFI_bad_rings)) ):
self.bad_rings = flag_HFI_bad_rings
else:
self.bad_rings = private.HFI_badrings
else:
self.bad_rings = None
self.eff_is_for_flags = eff_is_for_flags
self.fptab = None
def parse_fpdb(self, channel, key):
if self.fptab == None:
fptab = pyfits.getdata(self.fpdb, 1)
ind = (fptab.field('DETECTOR') == channel).ravel()
if np.sum(ind) != 1:
raise Exception('Error matching {} in {}: {} matches.'.format(channel, self.fpdb, np.sum(ind)))
return fptab.field(key)[ind][0]
def run(self, write=True):
"""Call the python-toast bindings to create the xml configuration file"""
self.conf = Run()
if self.noise_tod or self.horn_noise_tod:
self.conf.variable_add ( "rngbase", "native", Params({"default":"0"}) )
sky = self.conf.sky_add ( "sky", "native", ParMap() )
mapset = sky.mapset_add ( '_'.join(['healpix',self.components, self.ordering]), "healpix",
Params({
"path" : self.outmap,
"fullsky" : "TRUE",
"stokes" : self.components,
"order" : self.ordering,
"coord" : self.coord,
"nside" : str(self.nside),
"units" : "micro-K"
}))
#if self.f.inst.name == 'LFI':
# wobble_offset = 0;
#else:
# wobble_offset = self.wobble["psi2_offset"]
if self.no_wobble:
teleparams = {
"wobble_ahf_high":"FALSE",
"wobble_ahf_obs":"FALSE",
"wobblepsi2dir":""
}
else:
if self.wobble_high:
wobble_obs = 'FALSE'
wobble_high = 'TRUE'
else:
wobble_obs = 'TRUE'
wobble_high = 'FALSE'
teleparams = {
#"wobblepsi2dir":self.wobble["psi2_dir"],
"wobblepsi2_ref":self.wobble["psi2_ref"],
"wobblepsi1_ref":self.wobble["psi1_ref"],
"wobble_ahf_obs":wobble_obs,
"wobble_ahf_high":wobble_high
#"wobblepsi2_offset":wobble_offset
}
if self.ptcorfile:
teleparams['ptcorfile'] = self.ptcorfile
if self.deaberrate != None:
if self.deaberrate:
teleparams['deaberrate'] = 'TRUE'
else:
teleparams['deaberrate'] = 'FALSE'
tele = self.conf.telescope_add ( "planck", "planck",
Params(teleparams))
fp = tele.focalplane_add ( "FP_%s" % self.f.inst.name, "planck_rimo", Params({"path":self.fpdb}) )
self.add_pointing(tele)
self.add_observations(tele)
self.add_streams()
self.add_eff_tods()
self.add_noise()
self.add_channels(tele)
if write:
self.write()
def write(self):
# write out XML
self.conf.write ( self.output_xml )
def add_pointing(self, telescope):
# Add pointing files
for i,ahf in enumerate(self.data_selector.get_AHF()):
path = str(ahf[0])
if self.remote_ahf_folder:
path = path.replace(self.data_selector.config['ahf_folder'], self.remote_ahf_folder)
telescope.pointing_add ( "%04d" % i, "planck_ahf", Params({"path": path}))
@property
def observations(self):
try:
return self._observations
except:
self._observations = self.data_selector.get_OBS()
return self.observations
def add_observations(self, telescope):
"""Each observation is an OD as specified in the AHF files"""
# Add streamset
self.strset = telescope.streamset_add ( self.f.inst.name, "native", Params() )
# Add observations
# For Planck, each observation must cache the timestamps for all days included
# in the observation, which is very expensive. For this reason, the number of
# ODs in a single observation should be the minimum necessary for the size of
# the interval being considered. For applications which do not care about noise
# stationarity or which are only dealing with ring-by-ring quantities, one OD
# per observation is fine. If you wish to consider intervals longer than a day
# as a single stationary interval, then each observation will need to include
# multiple ODs.
# For "planck_exchange" format, if no "start" or "stop" times are specified,
# then the observation will span the time range of the EFF data specified in
# the "times1", "times2", "times3", etc parameters.
broken_od = defaultdict(None)
# Observations are same for all datasets but now there may be
# several exchange folders and raw streams to add. Therefore
# tod_name_list and tod_par_list are lists of dictionaries.
self.tod_name_list = []
self.tod_par_list = []
for i in range(len(self.exchange_folder)):
self.tod_name_list.append( defaultdict(list) )
self.tod_par_list.append( defaultdict(list) )
# Add observations
for iobs, observation in enumerate(self.observations):
params = {"start":observation.start, "stop":observation.stop}
for i, eff in enumerate(observation.EFF):
if self.remote_exchange_folder:
params[ "times%d" % (i+1) ] = eff.replace(self.exchange_folder[0], self.remote_exchange_folder[0])
else:
params[ "times%d" % (i+1) ] = eff
obs = self.strset.observation_add ( "%04d%s" % (observation.od, observation.tag) , "planck_exchange", Params(params) )
if self.observation_is_interval:
# intervals are observations
obs.interval_add( '{:04}'.format(iobs), "native", Params({"start":observation.start, "stop":observation.stop}) )
else:
pointing_periods = observation.PP
if self.include_repointings:
# First interval begins with the operational day, last one ends with it. New interval begins when the old stable pointing ends.
# First and last included samples remain the same.
for ipp, pp in enumerate(pointing_periods):
if ipp == 0:
# Remove the comments in this section to include period between OD and ring start
#if iobs == 0:
obs.interval_add( "%05d-%d" % (pp.number, pp.splitnumber), "native", Params({"start":pp.start, "stop":pointing_periods[ipp+1].start}) )
#else:
# obs.interval_add( "%05d-%d" % (pp.number, pp.splitnumber), "native", Params({"start":observation.start, "stop":pointing_periods[ipp+1].start}) )
elif ipp == len(pointing_periods) - 1:
if iobs == len(self.observations) - 1:
obs.interval_add( "%05d-%d" % (pp.number, pp.splitnumber), "native", Params({"start":pp.start, "stop":pp.stop}) )
else:
obs.interval_add( "%05d-%d" % (pp.number, pp.splitnumber), "native", Params({"start":pp.start, "stop":observation.stop}) )
else:
obs.interval_add( "%05d-%d" % (pp.number, pp.splitnumber), "native", Params({"start":pp.start, "stop":pointing_periods[ipp+1].start}) )
else:
# Intervals are the stable pointing periods
for pp in pointing_periods:
obs.interval_add( "%05d-%d" % (pp.number, pp.splitnumber), "native", Params({"start":pp.start, "stop":pp.stop}) )
for ch in self.channels:
print("Observation %d%s, EFF ODs:%s" % (observation.od, observation.tag, str(map(get_eff_od, observation.EFF))))
for ix, fx in enumerate(self.exchange_folder):
for i, file_path in enumerate(observation.EFF):
eff_od = get_eff_od(file_path)
# Add TODs for this stream
params = {}
params[ "flagmask" ] = self.flagmask
params[ "obtmask" ] = self.obtmask
params[ "hdu" ] = ch.eff_tag
if self.config['pairflags']:
params[ "pairflags" ] = 'TRUE'
if self.remote_exchange_folder:
params[ "path" ] = file_path.replace(self.exchange_folder[0], self.remote_exchange_folder[ix])
else:
params[ "path" ] = file_path.replace(self.exchange_folder[0], self.exchange_folder[ix])
tag = ''
if i==(len(observation.EFF)-1) and not observation.break_startrow is None:
params['rows'] = observation.break_startrow + 1
tag = 'a'
broken_od[ch.tag] = eff_od
if not observation.break_stoprow is None and broken_od[ch.tag]==eff_od:
params['startrow'] = observation.break_stoprow
tag = 'b'
broken_od[ch.tag] = None
name = "%s_%d%s" % (ch.tag, eff_od, tag)
if name not in self.tod_name_list[ix][ch.tag]:
print('add ' + name)
self.tod_name_list[ix][ch.tag].append(name)
self.tod_par_list[ix][ch.tag].append(params)
else:
print("skip " + name)
def add_streams(self):
# Add streams for data components
basename = "@rngbase@"
self.strm = {}
for ch in self.channels:
stack_elements = []
# add simulated noise stream
if self.noise_tod:
rngstream = self.rngorder[ ch.tag ] * 100000
noisename = "/planck/" + self.f.inst.name + "/noise_" + ch.tag
self.strm["simnoise_" + ch.tag] = self.strset.stream_add( "simnoise_" + ch.tag, "native", Params( ) )
suffix = ''
if self.noise_tod_weight:
suffix += ',PUSH:$' + strconv(self.noise_tod_weight) + ',MUL'
stack_elements.append( "PUSH:simnoise_" + ch.tag + suffix)
if self.observation_is_interval:
# one noise tod per observation.
#
# FIXME: this code will not work. the start and stop times
# must be the *detector* start and stop times inside
# the observation boundaries (which are set by the AHF).
# so you must iterate over self.pp_boundaries and find
# the first and last valid detector times inside this observation.
#
for iobs, observation in enumerate(self.observations):
self.strm["simnoise_" + ch.tag].tod_add ( "nse_%s_%05d" % (ch.tag, iobs), "sim_noise", Params({
"noise" : noisename,
"base" : basename,
"start" : observation.start,
"stop" : observation.stop,
"offset" : rngstream + iobs
}))
else:
# one noise tod per pointing period
self.pp_boundaries = PPBoundaries(self.f.freq, self.data_selector.config['database'])
for row, pp_boundaries in enumerate(self.pp_boundaries.ppf):
if pp_boundaries[1] < self.observations[0].start or pp_boundaries[0] > self.observations[-1].stop:
continue
self.strm["simnoise_" + ch.tag].tod_add ( "nse_%s_%05d" % (ch.tag, row), "sim_noise", Params({
"noise" : noisename,
"base" : basename,
"start" : pp_boundaries[0],
"stop" : pp_boundaries[1],
"offset" : rngstream + row
}))
# add simulated noise stream common to each horn
if self.horn_noise_tod and ch.tag[-1] in 'MSab':
horn = ch.tag[:-1]
rngstream = self.rngorder[ horn ] * 100000
noisename = "/planck/" + self.f.inst.name + "/noise_" + horn
self.strm["simnoise_" + horn] = self.strset.stream_add( "simnoise_" + horn, "native", Params( ) )
suffix = ''
if self.horn_noise_weight:
suffix += ',PUSH:$' + strconv(self.horn_noise_weight) + ',MUL'
if len(stack_elements) != 0:
suffix += ',ADD'
stack_elements.append( "PUSH:simnoise_" + horn + suffix)
if self.observation_is_interval:
# one noise tod per observation
for iobs, observation in enumerate(self.observations):
self.strm["simnoise_" + horn].tod_add ( "nse_%s_%05d" % (horn, iobs), "sim_noise", Params({
"noise" : noisename,
"base" : basename,
"start" : observation.start,
"stop" : observation.stop,
"offset" : rngstream + iobs
}))
else:
# one noise tod per pointing period
self.pp_boundaries = PPBoundaries(self.f.freq)
for row, pp_boundaries in enumerate(self.pp_boundaries.ppf):
if pp_boundaries[1] < self.observations[0].start or pp_boundaries[0] > self.observations[-1].stop:
continue
self.strm["simnoise_" + horn].tod_add ( "nse_%s_%05d" % (horn, row), "sim_noise", Params({
"noise" : noisename,
"base" : basename,
"start" : pp_boundaries[0],
"stop" : pp_boundaries[1],
"offset" : rngstream + row
}))
# add the beam sky
if self.beamsky:
epsilon = self.parse_fpdb(ch.tag, 'epsilon')
#beamskyname = '/planck/' + self.f.inst.name + '/' + ch.tag
beamskyname = '/planck/' + ch.tag
self.strm["beamsky_" + ch.tag] = self.strset.stream_add( "beamsky_" + ch.tag, "planck_beamsky", Params({
'path' : self.beamsky.replace('CHANNEL', ch.tag),
'epsilon' : str(epsilon),
'interp_order' : str(self.interp_order),
'coord' : self.coord,
'channel' : beamskyname
}) )
suffix = ''
if self.beamsky_weight:
suffix += ',PUSH:$' + strconv(self.beamsky_weight) + ',MUL'
if len(stack_elements) != 0:
suffix += ',ADD'
stack_elements.append( "PUSH:beamsky_" + ch.tag + suffix)
# add real data streams, either for flags or data plus flags
for i, x in enumerate(self.exchange_folder):
self.strm[ 'raw{}_{}'.format(i, ch.tag) ] = self.strset.stream_add( "raw{}_{}".format(i, ch.tag), "native", Params() )
if self.eff_is_for_flags:
suffix = ',FLG'
else:
suffix = ''
if self.exchange_weights:
suffix = ',PUSH:$' + strconv(self.exchange_weights[i]) + ',MUL'
if len(stack_elements) != 0:
suffix += ',ADD'
stack_elements.append( "PUSH:raw{}_{}{}".format(i, ch.tag, suffix) )
# add calibration stream
if (not self.calibration_file is None):
self.strm["cal_" + ch.tag] = self.strset.stream_add( "cal_" + ch.tag, "planck_cal", Params( {"hdu":ch.tag, "path":self.calibration_file } ) )
stack_elements.append("PUSH:cal_" + ch.tag + ",MUL")
# dipole subtract
if self.dipole_removal:
self.strm["dipole_" + ch.tag] = self.strset.stream_add( "dipole_" + ch.tag, "dipole", Params( {"channel":ch.tag, "coord":"E"} ) )
stack_elements.append("PUSH:dipole_" + ch.tag + ",SUB")
# bad rings
if not self.bad_rings is None:
self.strm["bad_" + ch.tag] = self.strset.stream_add ( "bad_" + ch.tag, "planck_bad", Params({'detector':ch.tag, 'path':self.bad_rings}) )
stack_elements.append("PUSH:bad_" + ch.tag + ",FLG")
# stack
expr = ','.join([el for el in stack_elements])
self.strm["stack_" + ch.tag] = self.strset.stream_add ( "stack_" + ch.tag, "stack", Params( {"expr":expr} ) )
def add_eff_tods(self):
"""Add TOD files already included in tod_name_list and tod_par_list to the streamset"""
for ix in range(len(self.exchange_folder)):
# remove duplicate files on breaks
for ch in self.channels:
for name in [n for n in self.tod_name_list[ix][ch.tag] if n.endswith('a')]:
try:
delindex = self.tod_name_list[ix][ch.tag].index(name.rstrip('a'))
print('Removing %s because of breaks' % self.tod_name_list[ix][ch.tag][delindex])
del self.tod_name_list[ix][ch.tag][delindex]
del self.tod_par_list[ix][ch.tag][delindex]
except exceptions.ValueError:
pass
# add EFF to stream
for ch in self.channels:
for name, par in zip(self.tod_name_list[ix][ch.tag], self.tod_par_list[ix][ch.tag]):
self.strm[ "raw{}_{}".format(ix, ch.tag) ].tod_add ( name, "planck_exchange", Params(par) )
def add_noise(self):
# Add RIMO noise model (LFI) or mission average PSD (HFI)
for ch in self.channels:
noise = self.strset.noise_add ( "noise_" + ch.tag, "native", Params() )
# add PSD
if self.psd:
psdname = self.psd.replace('CHANNEL', ch.tag)
noise.psd_add ( "psd", "ascii", Params({
"start" : self.strset.observations()[0].start(),
"stop" : self.strset.observations()[-1].stop(),
"path": psdname
}))
else:
noise.psd_add ( "psd", "planck_rimo", Params({
"start" : self.strset.observations()[0].start(),
"stop" : self.strset.observations()[-1].stop(),
"path": self.fpdb,
"detector": ch.tag
}))
# add horn noise psd
if self.horn_noise_tod and ch.tag[-1] in 'aM':
horn = ch.tag[:-1]
noise = self.strset.noise_add ( "noise_" + horn, "native", Params() )
psdname = self.horn_noise_psd.replace('HORN', horn)
noise.psd_add ( "psd", "ascii", Params({
"start" : self.strset.observations()[0].start(),
"stop" : self.strset.observations()[-1].stop(),
"path": psdname
}))
def add_channels(self, telescope):
params = ParMap()
params[ "focalplane" ] = self.conf.telescopes()[0].focalplanes()[0].name()
for ch in self.channels:
params[ "detector" ] = ch.tag
params[ "stream" ] = "/planck/%s/stack_%s" % (self.f.inst.name, ch.tag)
params[ "noise" ] = "/planck/%s/noise_%s" % (self.f.inst.name, ch.tag)
telescope.channel_add ( ch.tag, "native", params )
def run(self, write=True):
"""Call the python-toast bindings to create the xml configuration file"""
self.conf = Run()
if self.noise_tod or self.horn_noise_tod:
self.conf.variable_add ( "rngbase", "native", Params({"default":"0"}) )
sky = self.conf.sky_add ( "sky", "native", ParMap() )
mapset = sky.mapset_add ( '_'.join(['healpix',self.components, self.ordering]), "healpix",
Params({
"path" : self.outmap,
"fullsky" : "TRUE",
"stokes" : self.components,
"order" : self.ordering,
"coord" : self.coord,
"nside" : str(self.nside),
"units" : "micro-K"
}))
#if self.f.inst.name == 'LFI':
# wobble_offset = 0;
#else:
# wobble_offset = self.wobble["psi2_offset"]
if self.no_wobble:
teleparams = {
"wobble_ahf_high":"FALSE",
"wobble_ahf_obs":"FALSE",
"wobblepsi2dir":""
}
else:
if self.wobble_high:
wobble_obs = 'FALSE'
wobble_high = 'TRUE'
else:
wobble_obs = 'TRUE'
wobble_high = 'FALSE'
teleparams = {
#"wobblepsi2dir":self.wobble["psi2_dir"],
"wobblepsi2_ref":self.wobble["psi2_ref"],
"wobblepsi1_ref":self.wobble["psi1_ref"],
"wobble_ahf_obs":wobble_obs,
"wobble_ahf_high":wobble_high
#"wobblepsi2_offset":wobble_offset
}
if self.ptcorfile:
teleparams['ptcorfile'] = self.ptcorfile
if self.deaberrate != None:
if self.deaberrate:
teleparams['deaberrate'] = 'TRUE'
else:
teleparams['deaberrate'] = 'FALSE'
tele = self.conf.telescope_add ( "planck", "planck",
Params(teleparams))
fp = tele.focalplane_add ( "FP_%s" % self.f.inst.name, "planck_rimo", Params({"path":self.fpdb}) )
self.add_pointing(tele)
self.add_observations(tele)
self.add_streams()
self.add_eff_tods()
self.add_noise()
self.add_channels(tele)
if write:
self.write()
