############# Get 2MASS magnitude ############ print filt try: if filt == "J": ourMag = float(eval(settingsDict["2MASS_J"])[0]) elif filt == "H": ourMag = float(eval(settingsDict["2MASS_H"])[0]) elif filt == "Ks": ourMag = float(eval(settingsDict["2MASS_Ks"])[0]) else: ### We should get other catalogs in here! ourMag = "NA" except: ourMag = "NA" try: kepMag = kepler.kepMagCiardi(filt,ourMag) except: kepMag = "NA" ########################################################################### print "\n\n",annuli,skyBkgDict,"\n\n" ### Create output file limMagFile=ao.limMagFile(obj,filt,instrUsed) g = open(limMagFile,'w') print >>g,"File:",fitsFile #print >>g,"Camera-mode:",cameraMode print >>g,"Peak-counts:",peakPixelCount print >>g,"Sigma:",nSigma
def tableForAllStars(distCutoffArcsec=closeDist, filters =["J","Ks"], extra=""): print "Making table of all stars within:",distCutoffArcsec," arcsec" g = open(ao.compFileSorted(distCutoffArcsec, extra+".tsv"),"w") gTex = open(ao.compFileSorted(distCutoffArcsec, extra+".tex"),"w") ## options for ARIES/Ks only delimiter = "\t&" print >>gTex, delimiter.join(["KNNNNN", "KeplerID", "KepMag", "Jmag", "Kmag","Filt","Star","Dist","PA","$\Delta_Mag$", "$Kep_{Dwarf}$", "\\\\"]) delimiter = "\t" print >>g, delimiter.join(["KNNNNN", "KeplerID", "KepMag", "Jmag", "Kmag", "Filt", "Star","Dist","PA","Delta_Mag", "Kep_Dwarf"]) for obj in useObjects: firstLineForObj = True # switch this when the first line is output ## read in the summary file ss = open(ao.starsFile(obj,instr=instrUsed),"r") lines = ss.readlines() ss.close() ## find each filter filtersFound=[] for ii,line in enumerate(lines): elems = line.split("\t") if elems[0] in filters: filtersFound.append(elems[0]) ## read in the detected stars for each filter fwhm = lines[1].rstrip().split()[2] for line in lines: elems = line.rstrip().split() if elems[0] == 'J': filt = 'J' elif elems[0] == 'Ks': filt = 'Ks' ## get rid of headers, also star 0 if elems[0] not in ["0","J","Ks","Star","object"]: # print line, "xx", elems,"xx" num = elems[0] dist = elems[1] deltaMag = elems[2] xCoord = elems[3] yCoord = elems[4] pa = elems[5] ## estimate the kepler mag from K try: kMag = catalogs.getObjMag2MASS(obj,"Ks")[0] jMag = catalogs.getObjMag2MASS(obj,"J")[0] except: jMag = "--" kMag = "--" # print "DIAG:",obj,kMag,jMag try: kepID = ksasDict[obj]["kepid"] kepMag = ksasDict[obj]["kpmag"] ### There used to be a bug here (pre April 2013)! This should return the Kepler magnitude of the COMPANION, not the TARGET if filt == "Ks": kepMagDwarf = str(round(kepler.kepMagCiardi("Ks", eval(kMag)+eval(deltaMag)),1)) elif filt == "J": kepMagDwarf = str(round(kepler.kepMagCiardi("J", eval(jMag)+eval(deltaMag)),1)) else: kepMagDwarf = "--" ### Should allow for J AND K, since the transform is better, but matching stars is tricksy except: kepID = "--" kepMag = "--" kepMagDwarf = "--" ### Print info if eval(dist) <= distCutoffArcsec: if (firstLineForObj): output = [obj, kepID, kepMag, jMag, kMag, filt, num,dist, pa, deltaMag, kepMagDwarf] firstLineForObj = False ## for next star else: output = ["--", "--", "--","--", "--", filt, num, dist, pa, deltaMag, kepMagDwarf] delimiter = "\t&" print >>gTex, delimiter.join(output), "\\\\" delimiter = "\t" print >>g, delimiter.join(output) gTex.close() g.close()