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ion_apply.py
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ion_apply.py
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#! /usr/bin/env python
# -*- coding: utf-8 -*-
"""
This script applies TEC screens generated by LoSoTo's TECFIT and TECSCREEN
operations.
Steps:
- runs H5parmExporter.py to export TEC screens to parmdbs
- runs BBS for dir-indep. calibration with screen included
- clips amplitudes
"""
import os
import sys
import glob
import numpy
import lofar.parmdb
from multiprocessing import Pool
import lofar.parameterset
from losoto.h5parm import h5parm
import pyrap.tables
import logging
_version = '1.0'
def init_logger(logfilename, debug=False):
if debug:
logging.root.setLevel(logging.DEBUG)
else:
logging.root.setLevel(logging.INFO)
# Remove any existing handlers
while len(logging.root.handlers) > 0:
logging.root.removeHandler(logging.root.handlers[0])
# File handler
fh = logging.FileHandler(logfilename, 'a')
fmt = MultiLineFormatter('%(asctime)s:: %(name)-6s:: %(levelname)-8s: '
'%(message)s', datefmt='%a %d-%m-%Y %H:%M:%S')
fh.setFormatter(fmt)
logging.root.addHandler(fh)
# Console handler
ch = logging.StreamHandler()
fmt = logging.Formatter('\033[31;1m%(levelname)s\033[0m: %(message)s')
ch.setFormatter(fmt)
logging.root.addHandler(ch)
class MultiLineFormatter(logging.Formatter):
"""Simple logging formatter that splits a string over multiple lines"""
def format(self, record):
str = logging.Formatter.format(self, record)
header, footer = str.split(record.message)
str = str.replace('\n', '\n' + ' '*len(header))
return str
def clip(msnames, station_selection, threshold=750):
"""Clip CORRECTED_DATA amplitudes above threshold and adjust flags"""
for msname in msnames:
t = pyrap.tables.table(msname, readonly = False)
if os.path.exists(msname + '.flags'):
t_flags = pyrap.tables.table(msname + '.flags')
else:
t_flags = t.select("FLAG").copy(msname + '.flags', deep=True)
t_ant = pyrap.tables.table(msname + '/ANTENNA')
ant_names = t_ant.getcol('NAME')
ant1 = t.getcol("ANTENNA1")
f1 = numpy.array([ant_names[ant] not in station_selection for ant in ant1])
ant2 = t.getcol("ANTENNA2")
f2 = numpy.array([ant_names[ant] not in station_selection for ant in ant2])
f = t_flags.getcol("FLAG")
f = numpy.logical_or(f, f1[:, numpy.newaxis, numpy.newaxis])
f = numpy.logical_or(f, f2[:, numpy.newaxis, numpy.newaxis])
d = t.getcol("CORRECTED_DATA")
f = numpy.logical_or(f, abs(d)>threshold)
t.putcol("FLAG", f)
t.flush()
def makeNonDirParset(outdir):
newlines = ['Strategy.Stations = []\n',
'Strategy.InputColumn = DATA\n',
'Strategy.ChunkSize = 1500\n',
'Strategy.UseSolver = F\n',
'Strategy.Steps = [solve]\n',
'Strategy.Baselines = *& \n',
'Step.solve.Operation = SOLVE\n',
'Step.solve.Model.Sources = []\n',
'Step.solve.Model.Ionosphere.Enable = T\n',
'Step.solve.Model.Ionosphere.Type = EXPION\n',
'Step.solve.Model.Beam.Enable = T\n',
'Step.solve.Model.Beam.Mode = ARRAY_FACTOR\n',
'Step.solve.Model.Cache.Enable = T\n',
'Step.solve.Model.Gain.Enable = T\n',
'Step.solve.Model.Phasors.Enable = T\n',
'Step.solve.Solve.Parms = ["Gain:0:0:Phase:*", "Gain:1:1:Phase:*"]\n',
'Step.solve.Solve.CellSize.Freq = 10\n',
'Step.solve.Solve.CellSize.Time = 5\n',
'Step.solve.Solve.CellChunkSize = 1\n',
'Step.solve.Solve.PropagateSolutions = T']
parset = outdir + '/bbs_nondir.parset'
f = open(parset, 'w')
f.writelines(newlines)
f.close()
return parset
def makeCorrectParset(outdir):
newlines = ['Strategy.Stations = []\n',
'Strategy.InputColumn = DATA\n',
'Strategy.ChunkSize = 1500\n',
'Strategy.UseSolver = F\n',
'Strategy.Steps = [correct1, correct2]\n',
'Step.correct1.Operation = CORRECT\n',
'Step.correct1.Model.Sources = []\n',
'Step.correct1.Model.Beam.Enable = T\n',
'Step.correct1.Model.Beam.Mode = ARRAY_FACTOR\n',
'Step.correct1.Model.Gain.Enable = T\n',
'Step.correct1.Model.Phasors.Enable = T\n',
'Step.correct1.Output.WriteFlags = F\n',
'Step.correct2.Operation = CORRECT\n',
'Step.correct2.Model.Sources = []\n',
'Step.correct2.Model.Ionosphere.Enable = T\n',
'Step.correct2.Model.Ionosphere.Type = EXPION\n',
'Step.correct2.Output.Column = CORRECTED_DATA\n',
'Step.correct2.Output.WriteFlags = F']
parset = outdir + '/bbs_correct.parset'
f = open(parset, 'w')
f.writelines(newlines)
f.close()
return parset
def calibrate(msname_parmdb):
msname, parmdb = msname_parmdb
root_dir = '/'.join(msname.split('/')[:-1])
parset = makeNonDirParset(root_dir)
skymodel = root_dir + '/none'
os.system("touch {0}".format(skymodel))
os.system("calibrate-stand-alone --no-columns --parmdb-name {0} {1} {2} {3} "
"> {1}_calibrate.log 2>&1".format(parmdb, msname, parset, skymodel))
parset = makeCorrectParset(root_dir)
os.system("calibrate-stand-alone --no-columns --parmdb-name {0} {1} {2} {3} "
"> {1}_apply.log 2>&1".format(parmdb, msname, parset, skymodel))
if __name__=='__main__':
import optparse
opt = optparse.OptionParser(usage='%prog <H5parm:solset>', version='%prog '+_version,
description=__doc__)
opt.add_option('-i', '--indir', help='Input directory [default: %default]',
type='string', default='.')
opt.add_option('-p', '--parmdb', help='Name of parmdb instument file to use '
'[default: %default]', type='string', default='instrument')
opt.add_option('-t', '--threshold', help='Clipping threshold in Jy '
'[default: %default]', type='float', default=700.0)
opt.add_option('-n', '--ncores', help='Maximum number of simultaneous '
'calibration runs [default: %default]', type='int', default='8')
opt.add_option('-v', '--verbose', help='Set verbose output and interactive '
'mode [default: %default]', action='store_true', default=False)
opt.add_option('-c', '--clobber', help='Clobber existing output files? '
'[default: %default]', action='store_true', default=False)
(options, args) = opt.parse_args()
# Get inputs
if len(args) != 1:
opt.print_help()
else:
try:
h5, solset = args[0].split(':')
except ValueError:
print('H5parm and/or solset name not understood')
sys.exit()
h5 = h5.strip()
solset = solset.strip()
ms_list = sorted(glob.glob(options.indir+"/*.MS"))
if len(ms_list) == 0:
ms_list = sorted(glob.glob(options.indir+"/*.ms"))
if len(ms_list) == 0:
ms_list = sorted(glob.glob(options.indir+"/*.ms.peeled"))
if len(ms_list) == 0:
print('No measurement sets found in input directory. They must end '
'in .MS, .ms, or .ms.peeled')
sys.exit()
logfilename = options.outdir + '/ion_apply.log'
init_logger(logfilename, debug=options.verbose)
log = logging.getLogger("Main")
log.info('Exporting screens...')
for ms in ms_list:
# Export screens to parmdbs
os.system('H5parm_exporter.py {0} {1} -r ion -s {2} -i {3} >> {4} '
'2>&1'.format(h5, ms, solset, options.parmdb, logfilename))
out_parmdb = 'ion_' + options.parmdb
log.info('Screens exported to {0}'.format(out_parmdb))
# Calibrate
log.info('Calibrating and applying screens...')
workers=Pool(processes=min(len(ms_list), options.ncores))
workers.map(calibrate, zip(ms_list, out_parmdb))
# Clip high data amplitudes
H = h5parm(h5)
station_selection = H.getAnt(solset).keys()
log.info('Clipping CORRECTED_DATA amplitudes at {0} Jy...'.format(options.threshold))
clip(ms_list, station_selection, threshold=options.threshold)
log.info('TEC screen application complete.')