Coverage for /wheeldirectory/casa-6.7.0-12-py3.10.el8/lib/py/lib/python3.10/site-packages/casatasks/private/predictcomp_helper.py: 15%

55 statements  

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1import shutil 

2import os 

3 

4from casatools import componentlist, measures, quanta, ms, table 

5from casatasks import casalog 

6from .setjy_helper import testerrs 

7from . import solar_system_setjy as SSSetjy 

8 

9_qa = quanta() 

10 

11def predictSolarObjectCompList(objname, epoch, freqs, prefix): 

12 """ 

13 predictcomp functionality using the new models 

14 set flux density of a solar system object using Bryan Butler's new 

15 python model calculation code. 

16 """ 

17 retval = True 

18 cleanupcomps = False # leave genenerated cl files 

19 nfreqs=-1 

20 

21 myms = ms( ) 

22 mytb = table( ) 

23 mycl = componentlist( ) 

24 myme = measures( ) 

25 

26 #freqinc=freqs[0]*1e-6 

27 if len(freqs) == 1: 

28 freqinc=freqs[0]*1e-4 

29 else: 

30 freqinc=abs(freqs[1]-freqs[0])*1e-2 

31 freqlist=[] 

32 for freq in freqs: 

33 minf = freq-freqinc 

34 maxf = freq+freqinc 

35 freqlist.append([minf,maxf]) 

36 #mepoch = myme.epoch('UTC', epoch) 

37 if epoch['m0']['value']==0.0: 

38 casalog.post('Invalid epoch, '+str(epoch['m0']['value'])+str(epoch['m0']['unit']),'SEVERE'); 

39 raise Exception("Error") 

40 epochv = epoch['m0']['value'] 

41 

42 

43 # turn user input epoch to mjd 

44 

45 #casalog.post("sending objname={} epochv={} freqlist={}".format(objname, epochv, freqlist) 

46 observatory='ALMA' 

47 ss_setjy=SSSetjy.solar_system_setjy() 

48 (errcodes, fluxes, fluxerrs, sizes, dirs)=\ 

49 ss_setjy.solar_system_fd(source_name=objname, MJDs=[epochv], frequencies=freqlist, observatory=observatory, casalog=casalog) 

50 

51 #casalog.post("fluxes from ss_setjy={}".format(fluxes)) 

52 #if errcodes[0][0] > 0: 

53 # raise ValueError("cannot determined flux") 

54 

55 reterr=testerrs(errcodes[0],objname) 

56 if reterr == 2: 

57 #raise Exception, "Error"  

58 casalog.post("Flux densities cannot be determined","SEVERE") 

59 raise Exception 

60 

61 dirstring = [dirs[0]['refer'],_qa.tos(dirs[0]['m0']),_qa.tos(dirs[0]['m1'])] 

62 # setup componentlists 

63 # need to set per dir 

64 # if scalebychan=F, len(freqs) corresponds to nspw selected 

65 

66 #clpath='/tmp/' 

67 clpath='./' 

68 # use the first input frequency 

69 freqlabel = '%.3fGHz' % (freqs[0]/1.e9) 

70 tmlabel = '%.1fd' % epoch['m0']['value'] 

71 clabel = objname+'_spw0_'+freqlabel+'_'+tmlabel 

72 clname = clabel+'.cl' 

73 if prefix: clname=prefix+clname 

74 

75 if(os.path.exists(clname)): 

76 casalog.post("Removing previous cl file, {}".format(clname)) 

77 try: 

78 shutil.rmtree(clname) 

79 except: 

80 casalog.post("shutil.rmtree failed") 

81 index= 2.0 

82 sptype = 'spectral index' 

83 #index= 0.0 

84 #sptype = 'constant' 

85 

86 #casalog.post("fluxes={}".format(fluxes)) 

87 #casalog.post("fluxerrs-={}".format(fluxerrs)) 

88 #casalog.post("sizes={}".format(sizes)) 

89 #casalog.post("dirs={}".format(dirs)) 

90 mycl.addcomponent(flux=fluxes[0][0],fluxunit='Jy', polarization="Stokes", dir=dirs[0], 

91 shape='disk', majoraxis=str(sizes[0][0])+'arcsec', minoraxis=str(sizes[0][1])+'arcsec', 

92 # positionangle=str(sizes[0][2])+'arcsec', freq=['LSRK',str(freqs[0])+'Hz'], 

93 positionangle=str(sizes[0][2])+'arcsec', freq=['TOPO',str(freqs[0])+'Hz'], 

94 spectrumtype=sptype, index=index, label=clabel) 

95 # set tabular, use original input freqs 

96 if len(freqs)>1: 

97 mycl.setspectrum(which=0, type='tabular', tabularfreqs=freqs, tabularflux=fluxes[0], 

98 tabularframe='TOPO') 

99 

100 mycl.rename(clname) 

101 mycl.close(False) 

102 return (clname)