def concateovsa(msname, msfiles, visprefix='./', doclearcal=True, keep_orig_ms=False, cols2rm=["MODEL_DATA", "CORRECTED_DATA"]): concatvis = visprefix + msname msfiles_ = [] for idx, ll in enumerate(msfiles): if str(ll).endswith('/'): msfiles[idx] = str(ll)[:-1] if doclearcal: print 'Warning: Corrected column in the input ms file will be cleared!!!' for ll in msfiles: clearcal(vis=str(ll), addmodel=True) else: try: tmpdir = visprefix + '/tmp_ms/' if not os.path.exists(tmpdir): os.makedirs(tmpdir) for ll in msfiles: msfile_ = tmpdir + os.path.basename(str(ll)) msfiles_.append(msfile_) split(vis=str(ll), outputvis=msfile_, datacolumn='corrected') clearcal(vis=msfile_, addmodel=True) except: print 'Warning: Corrected column not found in the input ms file.' msfiles_ = msfiles if msfiles_: concat(vis=msfiles_, concatvis=concatvis, timesort=True) else: concat(vis=msfiles, concatvis=concatvis, timesort=True) # Change all observation ids to be the same (zero) tb.open(concatvis + '/OBSERVATION', nomodify=False) nobs = tb.nrows() tim0 = tb.getcell('TIME_RANGE', 0)[0] tim1 = tb.getcell('TIME_RANGE', nobs - 1)[1] tb.removerows([i + 1 for i in range(nobs - 1)]) tb.putcell('TIME_RANGE', 0, [tim0, tim1]) tb.close() tb.open(concatvis, nomodify=False) obsid = tb.getcol('OBSERVATION_ID') newobsid = np.zeros(len(obsid), dtype='int') tb.putcol('OBSERVATION_ID', newobsid) colnames = tb.colnames() for l in range(len(cols2rm)): if cols2rm[l] in colnames: try: tb.removecols(cols2rm[l]) except: pass tb.close() if msfiles_ != [] and msfiles_ != msfiles: for ll in msfiles_: os.system('rm -rf {}'.format(ll)) if not keep_orig_ms: for ll in msfiles: os.system('rm -rf {}'.format(ll))
def importeovsa_iter(filelist, timebin, width, visprefix, nocreatms, modelms, doscaling, keep_nsclms, fileidx): from taskinit import tb, casalog filename = filelist[fileidx] uv = aipy.miriad.UV(filename) # try: msname0 = list(filename.split('/')[-1]) msname = visprefix + ''.join(msname0) + '.ms' uv.select('antennae', 0, 1, include=True) uv.select('polarization', -5, -5, include=True) times = [] uv.rewind() for preamble, data in uv.all(): uvw, t, (i, j) = preamble times.append(t) uv.select('clear', -1, -1, include=True) times = ipe.jd2mjds(np.asarray(times)) inttime = np.median((times - np.roll(times, 1))[1:]) / 60 time_steps = len(times) durtim = int((times[-1] - times[0]) / 60 + inttime) time0 = time.time() if 'antlist' in uv.vartable: ants = uv['antlist'].replace('\x00', '') antlist = map(int, ants.split()) else: antlist = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16] good_idx = np.where(uv['sfreq'] > 0)[0] nf = len(good_idx) npol = uv['npol'] nants = uv['nants'] source_id = uv['source'].replace('\x00', '') sfreq = uv['sfreq'][good_idx] sdf = uv['sdf'][good_idx] ra, dec = uv['ra'], uv['dec'] nbl = nants * (nants - 1) / 2 bl2ord = ipe.bl_list2(nants) npairs = nbl + nants flag = np.ones((npol, nf, time_steps, npairs), dtype=bool) out = np.zeros((npol, nf, time_steps, npairs), dtype=np.complex64) # Cross-correlations uvwarray = np.zeros((3, time_steps, npairs), dtype=np.float) chan_band = ipe.get_band(sfreq=sfreq, sdf=sdf) nband = len(chan_band) uv.rewind() l = -1 for preamble, data in uv.all(): uvw, t, (i0, j0) = preamble i = antlist.index(i0 + 1) j = antlist.index(j0 + 1) if i > j: # Reverse order of indices j = antlist.index(i0 + 1) i = antlist.index(j0 + 1) # Assumes uv['pol'] is one of -5, -6, -7, -8 k = -5 - uv['pol'] l += 1 data = ma.masked_array(ma.masked_invalid(data), fill_value=0.0) out[k, :, l / (npairs * npol), bl2ord[i0, j0]] = data.data flag[k, :, l / (npairs * npol), bl2ord[i0, j0]] = data.mask # if i != j: if k == 3: uvwarray[:, l / (npairs * npol), bl2ord[i0, j0]] = -uvw * constants.speed_of_light / 1e9 nrows = time_steps * npairs if doscaling: out2 = out.copy() for i0 in antlist: for j0 in antlist: if i0 < j0: i, j = i0 - 1, j0 - 1 out2[:, :, :, bl2ord[i, j]] = out[:, :, :, bl2ord[i, j]] / np.sqrt( np.abs(out[:, :, :, bl2ord[i, i]]) * np.abs(out[:, :, :, bl2ord[j, j]])) out2 = out2.reshape(npol, nf, nrows) out2[np.isnan(out2)] = 0 out2[np.isinf(out2)] = 0 # out2 = ma.masked_array(ma.masked_invalid(out2), fill_value=0.0) out = out.reshape(npol, nf, nrows) * 1e4 flag = flag.reshape(npol, nf, nrows) uvwarray = uvwarray.reshape(3, nrows) uvwarray = np.tile(uvwarray, (1, nband)) sigma = np.ones((4, nrows), dtype=np.float) + 1 sigma = np.tile(sigma, (1, nband)) casalog.post('IDB File {0} is readed in --- {1:10.2f} seconds ---'.format( filename, (time.time() - time0))) if not nocreatms: modelms = ipe.creatms(filename, visprefix) os.system('mv {} {}'.format(modelms, msname)) else: casalog.post('----------------------------------------') casalog.post('copying standard MS to {0}'.format( msname, (time.time() - time0))) casalog.post('----------------------------------------') os.system("rm -fr %s" % msname) os.system("cp -r " + " %s" % modelms + " %s" % msname) casalog.post( 'Standard MS is copied to {0} in --- {1:10.2f} seconds ---'.format( msname, (time.time() - time0))) tb.open(msname, nomodify=False) casalog.post('----------------------------------------') casalog.post("Updating the main table of" '%s' % msname) casalog.post('----------------------------------------') for l, cband in enumerate(chan_band): time1 = time.time() nchannels = len(cband['cidx']) for row in range(nrows): if not doscaling or keep_nsclms: tb.putcell('DATA', (row + l * nrows), out[:, cband['cidx'][0]:cband['cidx'][-1] + 1, row]) tb.putcell('FLAG', (row + l * nrows), flag[:, cband['cidx'][0]:cband['cidx'][-1] + 1, row]) casalog.post( '---spw {0:02d} is updated in --- {1:10.2f} seconds ---'.format( (l + 1), time.time() - time1)) tb.putcol('UVW', uvwarray) tb.putcol('SIGMA', sigma) tb.putcol('WEIGHT', 1.0 / sigma**2) timearr = times timearr = timearr.reshape(1, time_steps, 1) timearr = np.tile(timearr, (nband, 1, npairs)) timearr = timearr.reshape(nband * npairs * time_steps) tb.putcol('TIME', timearr) tb.putcol('TIME_CENTROID', timearr) scan_id = tb.getcol('SCAN_NUMBER') scan_id *= 0 tb.putcol('SCAN_NUMBER', scan_id) colnames = tb.colnames() cols2rm = ["MODEL_DATA", "CORRECTED_DATA"] for l in range(len(cols2rm)): if cols2rm[l] in colnames: tb.removecols(cols2rm[l]) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the OBSERVATION table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/OBSERVATION', nomodify=False) tb.putcol( 'TIME_RANGE', np.asarray([times[0] - 0.5 * inttime, times[-1] + 0.5 * inttime]).reshape(2, 1)) tb.putcol('OBSERVER', ['EOVSA team']) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the POINTING table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/POINTING', nomodify=False) timearr = times.reshape(1, time_steps, 1) timearr = np.tile(timearr, (nband, 1, nants)) timearr = timearr.reshape(nband * time_steps * nants) tb.putcol('TIME', timearr) tb.putcol('TIME_ORIGIN', timearr) # - 0.5 * delta_time) direction = tb.getcol('DIRECTION') direction[0, 0, :] = ra direction[1, 0, :] = dec tb.putcol('DIRECTION', direction) target = tb.getcol('TARGET') target[0, 0, :] = ra target[1, 0, :] = dec tb.putcol('TARGET', target) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the SOURCE table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/SOURCE', nomodify=False) radec = tb.getcol('DIRECTION') radec[0], radec[1] = ra, dec tb.putcol('DIRECTION', radec) name = np.array([source_id], dtype='|S{0}'.format(len(source_id) + 1)) tb.putcol('NAME', name) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the DATA_DESCRIPTION table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/DATA_DESCRIPTION/', nomodify=False) pol_id = tb.getcol('POLARIZATION_ID') pol_id *= 0 tb.putcol('POLARIZATION_ID', pol_id) # spw_id = tb.getcol('SPECTRAL_WINDOW_ID') # spw_id *= 0 # tb.putcol('SPECTRAL_WINDOW_ID', spw_id) tb.close() # casalog.post('----------------------------------------') # casalog.post("Updating the POLARIZATION table of" '%s' % msname) # casalog.post('----------------------------------------') # tb.open(msname + '/POLARIZATION/', nomodify=False) # tb.removerows(rownrs=np.arange(1, nband, dtype=int)) # tb.close() casalog.post('----------------------------------------') casalog.post("Updating the FIELD table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/FIELD/', nomodify=False) delay_dir = tb.getcol('DELAY_DIR') delay_dir[0], delay_dir[1] = ra, dec tb.putcol('DELAY_DIR', delay_dir) phase_dir = tb.getcol('PHASE_DIR') phase_dir[0], phase_dir[1] = ra, dec tb.putcol('PHASE_DIR', phase_dir) reference_dir = tb.getcol('REFERENCE_DIR') reference_dir[0], reference_dir[1] = ra, dec tb.putcol('REFERENCE_DIR', reference_dir) name = np.array([source_id], dtype='|S{0}'.format(len(source_id) + 1)) tb.putcol('NAME', name) tb.close() # FIELD: DELAY_DIR, PHASE_DIR, REFERENCE_DIR, NAME # del out, flag, uvwarray, uv, timearr, sigma # gc.collect() # if doscaling: if keep_nsclms: msname_scl = visprefix + ''.join(msname0) + '_scl.ms' os.system('cp -r {} {}'.format(msname, msname_scl)) else: msname_scl = msname tb.open(msname_scl, nomodify=False) casalog.post('----------------------------------------') casalog.post("Updating the main table of" '%s' % msname_scl) casalog.post('----------------------------------------') for l, cband in enumerate(chan_band): time1 = time.time() for row in range(nrows): tb.putcell( 'DATA', (row + l * nrows), out2[:, cband['cidx'][0]:cband['cidx'][-1] + 1, row]) casalog.post( '---spw {0:02d} is updated in --- {1:10.2f} seconds ---'. format((l + 1), time.time() - time1)) tb.close() if not (timebin == '0s' and width == 1): msfile = msname + '.split' if doscaling: split(vis=msname_scl, outputvis=msname_scl + '.split', datacolumn='data', timebin=timebin, width=width, keepflags=False) os.system('rm -rf {}'.format(msname_scl)) msfile_scl = msname_scl + '.split' if not (doscaling and not keep_nsclms): split(vis=msname, outputvis=msname + '.split', datacolumn='data', timebin=timebin, width=width, keepflags=False) os.system('rm -rf {}'.format(msname)) else: msfile = msname if doscaling: msfile_scl = msname_scl casalog.post("finished in --- %s seconds ---" % (time.time() - time0)) if doscaling: return [True, msfile, msfile_scl, durtim] else: return [True, msfile, durtim]
def concateovsa(vis, concatvis, datacolumn='corrected', keep_orig_ms=True, cols2rm="model,corrected", freqtol="", dirtol="", respectname=False, timesort=True, copypointing=True, visweightscale=[], forcesingleephemfield=""): if concatvis[-1] == os.path.sep: concatvis = concatvis[:-1] if os.path.sep not in concatvis: visprefix = './' else: visprefix = os.path.dirname(concatvis) + os.path.sep msfiles = vis msfiles_ = [] for idx, ll in enumerate(msfiles): if str(ll).endswith('/'): msfiles[idx] = str(ll)[:-1] datacolumn = datacolumn.lower() if datacolumn == 'data': print 'DATA columns will be concatenated.' for ll in msfiles: clearcal(vis=str(ll), addmodel=True) elif datacolumn == 'corrected': # try: print 'CORRECTED columns will be concatenated.' tmpdir = os.path.join(visprefix, 'tmp_ms') + os.path.sep if not os.path.exists(tmpdir): os.makedirs(tmpdir) for ll in msfiles: msfile_ = os.path.join(tmpdir, os.path.basename(str(ll))) msfiles_.append(msfile_) split(vis=str(ll), outputvis=msfile_, datacolumn='corrected') clearcal(vis=msfile_, addmodel=True) else: raise ValueError('Please set datacolumn to be "data" or "corrected"!') if msfiles_: concat(vis=msfiles_, concatvis=concatvis, freqtol=freqtol, dirtol=dirtol, respectname=respectname, timesort=timesort, copypointing=copypointing, visweightscale=visweightscale, forcesingleephemfield=forcesingleephemfield) os.system('rm -rf {}'.format(tmpdir)) else: concat(vis=msfiles, concatvis=concatvis, freqtol=freqtol, dirtol=dirtol, respectname=respectname, timesort=timesort, copypointing=copypointing, visweightscale=visweightscale, forcesingleephemfield=forcesingleephemfield) # Change all observation ids to be the same (zero) tb.open(concatvis + '/OBSERVATION', nomodify=False) nobs = tb.nrows() tim0 = tb.getcell('TIME_RANGE', 0)[0] tim1 = tb.getcell('TIME_RANGE', nobs - 1)[1] tb.removerows([i + 1 for i in range(nobs - 1)]) tb.putcell('TIME_RANGE', 0, [tim0, tim1]) tb.close() tb.open(concatvis + '/DATA_DESCRIPTION', nomodify=False) nrows = tb.nrows() pol_id = tb.getcol('POLARIZATION_ID') tb.removerows(np.where(pol_id != 0)[0]) tb.close() tb.open(concatvis, nomodify=False) dd_id = tb.getcol('DATA_DESC_ID') idx_dd_id, = np.where(dd_id >= nrows / 2) dd_id[idx_dd_id] = dd_id[idx_dd_id] - nrows / 2 tb.putcol('DATA_DESC_ID', dd_id) tb.close() tb.open(concatvis + '/FIELD', nomodify=False) nobs = tb.nrows() tb.removerows([i + 1 for i in range(nobs - 1)]) tb.close() tb.open(concatvis + '/SOURCE', nomodify=False) nobs = tb.nrows() tb.removerows([i + 1 for i in range(nobs - 1)]) tb.close() tb.open(concatvis, nomodify=False) obsid = tb.getcol('OBSERVATION_ID') newobsid = np.zeros(len(obsid), dtype='int') tb.putcol('OBSERVATION_ID', newobsid) fldid = tb.getcol('FIELD_ID') newfldid = np.zeros(len(fldid), dtype='int') tb.putcol('FIELD_ID', newfldid) colnames = tb.colnames() cols2rm = cols2rm.upper() cols2rm = cols2rm.split(',') for l in range(len(cols2rm)): col = cols2rm[l] + '_DATA' if col in colnames: try: tb.removecols(col) print 'Column {} removed.'.format(col) except: pass tb.close() if msfiles_ != [] and msfiles_ != msfiles: for ll in msfiles_: os.system('rm -rf {}'.format(ll)) if not keep_orig_ms: for ll in msfiles: os.system('rm -rf {}'.format(ll))
def importeovsa(idbfiles, timebin=None, width=None, visprefix=None, nocreatms=False, doconcat=False, modelms=''): casalog.origin('importeovsa') # # Initialize the helper class # pdh = ParallelDataHelper("importeovsa", locals()) # # # Validate input and output parameters # try: # pdh.setupIO() # except Exception, instance: # casalog.post('%s' % instance, 'ERROR') # return False if type(idbfiles) == Time: filelist = ri.get_trange_files(idbfiles) else: # If input type is not Time, assume that it is the list of files to read filelist = idbfiles if type(filelist) == str: filelist = [filelist] for f in filelist: if not os.path.exists(f): casalog.post("Some files in filelist are invalid. Aborting...") return False if not visprefix: visprefix = './' if not timebin: timebin = '0s' if not width: width = 1 if not modelms: if nocreatms: filename = filelist[0] modelms = ipe.creatms(filename, visprefix) else: if not os.path.exists(modelms): if nocreatms: filename = filelist[0] modelms = ipe.creatms(filename, visprefix) msfile = [] time_concat = [] for filename in filelist: uv = aipy.miriad.UV(filename) # if filename.split('/')[-1][0:3] == 'UDB': # uv_str = uv_hex_rm(uv) # else: # uv_str = uv uv.select('antennae', 0, 1, include=True) uv.select('polarization', -5, -5, include=True) times = [] uv.rewind() for preamble, data in uv.all(): uvw, t, (i, j) = preamble times.append(t) uv.select('clear', -1, -1, include=True) times = ipe.jd2mjds(np.asarray(times)) inttime = np.median((times - np.roll(times, 1))[1:]) / 60 time_steps = len(times) time_concat.append(int((times[-1] - times[0]) / 60 + inttime)) time0 = time.time() if 'antlist' in uv.vartable: ants = uv['antlist'].replace('\x00', '') antlist = map(int, ants.split()) else: antlist = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16] good_idx = np.where(uv['sfreq'] > 0)[0] nf = len(good_idx) npol = uv['npol'] nants = uv['nants'] source_id = uv['source'].replace('\x00', '') sfreq = uv['sfreq'][good_idx] sdf = uv['sdf'][good_idx] ra, dec = uv['ra'], uv['dec'] nbl = nants * (nants - 1) / 2 bl2ord = ipe.bl_list2(nants) npairs = nbl + nants flag = np.ones((npol, nf, time_steps, npairs), dtype=bool) out = np.zeros((npol, nf, time_steps, npairs), dtype=np.complex64) # Cross-correlations uvwarray = np.zeros((3, time_steps, npairs), dtype=np.float) chan_band = ipe.get_band(sfreq=sfreq, sdf=sdf) nband = len(chan_band) uv.rewind() l = -1 for preamble, data in uv.all(): uvw, t, (i0, j0) = preamble i = antlist.index(i0 + 1) j = antlist.index(j0 + 1) if i > j: # Reverse order of indices j = antlist.index(i0 + 1) i = antlist.index(j0 + 1) # Assumes uv['pol'] is one of -5, -6, -7, -8 k = -5 - uv['pol'] l += 1 out[k, :, l / (npairs * npol), bl2ord[i0, j0]] = data.data flag[k, :, l / (npairs * npol), bl2ord[i0, j0]] = data.mask # if i != j: if k == 3: uvwarray[:, l / (npairs * npol), bl2ord[i0, j0]] = -uvw * constants.speed_of_light / 1e9 nrows = time_steps * npairs out = out.reshape(npol, nf, nrows) flag = flag.reshape(npol, nf, nrows) uvwarray = uvwarray.reshape(3, nrows) uvwarray = np.tile(uvwarray, (1, nband)) sigma = np.ones((4, nrows), dtype=np.float) + 1 sigma = np.tile(sigma, (1, nband)) casalog.post( 'IDB File {0} is readed in --- {1:10.2f} seconds ---'.format( filename, (time.time() - time0))) msname = list(filename.split('/')[-1]) msname = visprefix + ''.join(msname) + '.ms' if not nocreatms: modelms = ipe.creatms(filename, visprefix) os.system('mv {} {}'.format(modelms, msname)) else: casalog.post('----------------------------------------') casalog.post('copying standard MS to {0}'.format( msname, (time.time() - time0))) casalog.post('----------------------------------------') os.system("rm -fr %s" % msname) os.system("cp -r " + " %s" % modelms + " %s" % msname) casalog.post( 'Standard MS is copied to {0} in --- {1:10.2f} seconds ---'. format(msname, (time.time() - time0))) tb.open(msname, nomodify=False) casalog.post('----------------------------------------') casalog.post("Updating the main table of" '%s' % msname) casalog.post('----------------------------------------') for l, cband in enumerate(chan_band): time1 = time.time() nchannels = len(cband['cidx']) for row in range(nrows): tb.putcell('DATA', (row + l * nrows), out[:, cband['cidx'][0]:cband['cidx'][-1] + 1, row]) tb.putcell( 'FLAG', (row + l * nrows), flag[:, cband['cidx'][0]:cband['cidx'][-1] + 1, row]) casalog.post( '---spw {0:02d} is updated in --- {1:10.2f} seconds ---'. format((l + 1), time.time() - time1)) tb.putcol('UVW', uvwarray) tb.putcol('SIGMA', sigma) tb.putcol('WEIGHT', 1.0 / sigma**2) timearr = times timearr = timearr.reshape(1, time_steps, 1) timearr = np.tile(timearr, (nband, 1, npairs)) timearr = timearr.reshape(nband * npairs * time_steps) tb.putcol('TIME', timearr) tb.putcol('TIME_CENTROID', timearr) scan_id = tb.getcol('SCAN_NUMBER') scan_id *= 0 tb.putcol('SCAN_NUMBER', scan_id) colnames = tb.colnames() cols2rm = ["MODEL_DATA", "CORRECTED_DATA"] for l in range(len(cols2rm)): if cols2rm[l] in colnames: tb.removecols(cols2rm[l]) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the OBSERVATION table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/OBSERVATION', nomodify=False) tb.putcol( 'TIME_RANGE', np.asarray([times[0] - 0.5 * inttime, times[-1] + 0.5 * inttime]).reshape(2, 1)) tb.putcol('OBSERVER', ['EOVSA team']) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the POINTING table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/POINTING', nomodify=False) timearr = times.reshape(1, time_steps, 1) timearr = np.tile(timearr, (nband, 1, nants)) timearr = timearr.reshape(nband * time_steps * nants) tb.putcol('TIME', timearr) tb.putcol('TIME_ORIGIN', timearr) # - 0.5 * delta_time) direction = tb.getcol('DIRECTION') direction[0, 0, :] = ra direction[1, 0, :] = dec tb.putcol('DIRECTION', direction) target = tb.getcol('TARGET') target[0, 0, :] = ra target[1, 0, :] = dec tb.putcol('TARGET', target) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the SOURCE table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/SOURCE', nomodify=False) radec = tb.getcol('DIRECTION') radec[0], radec[1] = ra, dec tb.putcol('DIRECTION', radec) name = np.array([source_id], dtype='|S{0}'.format(len(source_id) + 1)) tb.putcol('NAME', name) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the DATA_DESCRIPTION table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/DATA_DESCRIPTION/', nomodify=False) pol_id = tb.getcol('POLARIZATION_ID') pol_id *= 0 tb.putcol('POLARIZATION_ID', pol_id) # spw_id = tb.getcol('SPECTRAL_WINDOW_ID') # spw_id *= 0 # tb.putcol('SPECTRAL_WINDOW_ID', spw_id) tb.close() # pdb.set_trace() casalog.post('----------------------------------------') casalog.post("Updating the POLARIZATION table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/POLARIZATION/', nomodify=False) print tb.nrows() tb.removerows(rownrs=np.arange(1, nband, dtype=int)) tb.close() casalog.post('----------------------------------------') casalog.post("Updating the FIELD table of" '%s' % msname) casalog.post('----------------------------------------') tb.open(msname + '/FIELD/', nomodify=False) delay_dir = tb.getcol('DELAY_DIR') delay_dir[0], delay_dir[1] = ra, dec tb.putcol('DELAY_DIR', delay_dir) phase_dir = tb.getcol('PHASE_DIR') phase_dir[0], phase_dir[1] = ra, dec tb.putcol('PHASE_DIR', phase_dir) reference_dir = tb.getcol('REFERENCE_DIR') reference_dir[0], reference_dir[1] = ra, dec tb.putcol('REFERENCE_DIR', reference_dir) name = np.array([source_id], dtype='|S{0}'.format(len(source_id) + 1)) tb.putcol('NAME', name) tb.close() # FIELD: DELAY_DIR, PHASE_DIR, REFERENCE_DIR, NAME del out, flag, uvwarray, uv, timearr, sigma gc.collect() # if not (timebin == '0s' and width == 1): split(vis=msname, outputvis=msname + '.split', datacolumn='data', timebin=timebin, width=width, keepflags=False) os.system('rm -rf {}'.format(msname)) msfile.append(msname + '.split') else: msfile.append(msname) casalog.post("finished in --- %s seconds ---" % (time.time() - time0)) if doconcat: msname = list(filelist[0].split('/')[-1]) concatvis = visprefix + ''.join(msname) + '-{:d}m.ms'.format( int(sum(time_concat))) concat(vis=msfile, concatvis=concatvis, timesort=True) # Change all observation ids to be the same (zero) tb.open(concatvis + '/OBSERVATION', nomodify=False) nobs = tb.nrows() tb.removerows([i + 1 for i in range(nobs - 1)]) tb.close() tb.open(concatvis, nomodify=False) obsid = tb.getcol('OBSERVATION_ID') newobsid = np.zeros(len(obsid), dtype='int') tb.putcol('OBSERVATION_ID', newobsid) tb.close() for ll in msfile: os.system('rm -rf {}'.format(ll)) return True