def invert_col(pad, fgcol=rt.kOrange - 3, bgcol=rt.kBlack):
#set foreground and background color
#fgcol = rt.kAzure
#fgcol = rt.kGreen
#fgcol = rt.kOrange-3
pad.SetFillColor(bgcol)
pad.SetFrameLineColor(fgcol)
next = TIter(pad.GetListOfPrimitives())
obj = next()
while obj != None:
#H1
if obj.InheritsFrom(TH1.Class()) == True:
if obj.GetLineColor() == rt.kBlack:
obj.SetLineColor(fgcol)
obj.SetFillColor(bgcol)
if obj.GetMarkerColor() == rt.kBlack: obj.SetMarkerColor(fgcol)
obj.SetAxisColor(fgcol, "X")
obj.SetAxisColor(fgcol, "Y")
obj.SetLabelColor(fgcol, "X")
obj.SetLabelColor(fgcol, "Y")
obj.GetXaxis().SetTitleColor(fgcol)
obj.GetYaxis().SetTitleColor(fgcol)
#Legend
if obj.InheritsFrom(TLegend.Class()) == True:
obj.SetTextColor(fgcol)
#obj.SetFillStyle(1000)
#obj.SetFillColor(fgcol)
#obj.SetTextColor(bgcol)
#ln = TIter(obj.GetListOfPrimitives())
#lo = ln.Next()
#while lo != None:
#if lo.GetObject() == None:
#lo = ln.Next()
#continue
#if lo.GetObject().InheritsFrom(TH1.Class()) == True:
#hx = lo.GetObject()
#hx.SetFillColor(bgcol)
#if hx.GetMarkerColor() == rt.kBlack:
#hx.SetMarkerColor(fgcol)
#hx.SetLineColor(fgcol)
#pass
#lo = ln.Next()
#RooHist
if obj.InheritsFrom(RooHist.Class()) == True:
if obj.GetMarkerColor() == rt.kBlack:
obj.SetLineColor(fgcol)
obj.SetMarkerColor(fgcol)
#H2
if obj.InheritsFrom(TH2.Class()) == True:
obj.SetAxisColor(fgcol, "Z")
obj.SetLabelColor(fgcol, "Z")
obj.GetZaxis().SetTitleColor(fgcol)
#obj.SetLineColor(fgcol)
#obj.SetMarkerColor(fgcol)
#TLatex
if obj.InheritsFrom(TLatex.Class()) == True:
if obj.GetTextColor() == rt.kBlack:
obj.SetTextColor(fgcol)
#F2
if obj.InheritsFrom(TF2.Class()) == True:
axes = [obj.GetXaxis(), obj.GetYaxis(), obj.GetZaxis()]
for i in range(len(axes)):
axes[i].SetAxisColor(fgcol)
axes[i].SetLabelColor(fgcol)
axes[i].SetTitleColor(fgcol)
#F1
if obj.InheritsFrom(TF1.Class()) == True:
axes = [obj.GetXaxis(), obj.GetYaxis()]
for i in range(len(axes)):
axes[i].SetAxisColor(fgcol)
axes[i].SetLabelColor(fgcol)
axes[i].SetTitleColor(fgcol)
#TGraph
if obj.InheritsFrom(TGraph.Class()) == True:
obj.SetFillColor(bgcol)
ax = obj.GetXaxis()
ay = obj.GetYaxis()
ax.SetAxisColor(fgcol)
ay.SetAxisColor(fgcol)
ax.SetLabelColor(fgcol)
ay.SetLabelColor(fgcol)
ax.SetTitleColor(fgcol)
ay.SetTitleColor(fgcol)
if obj.GetLineColor() == rt.kBlack:
obj.SetLineColor(fgcol)
obj.SetMarkerColor(fgcol)
#TGaxis
if obj.InheritsFrom(TGaxis.Class()) == True:
obj.SetLineColor(fgcol)
obj.SetLabelColor(fgcol)
obj.SetTitleColor(fgcol)
#TFrame
if obj.InheritsFrom(TFrame.Class()) == True:
if obj.GetLineColor() == rt.kBlack:
obj.SetLineColor(fgcol)
obj.SetFillColor(bgcol)
#move to next item
obj = next()
def SED(flist):
gStyle.SetOptLogx()
gStyle.SetOptLogy()
gStyle.SetPadGridX(True)
gStyle.SetPadGridY(True)
gStyle.SetEndErrorSize(10)
l = TLegend(.65, .6, .96, .95)
g = []
gUL = []
pubdir = "/home/smasuda/storage/.Fermi2/Data/DataPoint/GammaCygni/"
# g.append(GetPubData(pubdir+"GCyg_FermiLande_data.csv",
# pubdir+"GCyg_FermiLande_error.csv"))
# g[-1].SetName('gLande12')
# g[-1].SetLineColor(kCyan)
# g[-1].SetMarkerColor(g[-1].GetLineColor())
# g[-1].SetMarkerStyle(21)
# gUL.append(TGraph(0))
# l.AddEntry(g[-1],'Lande+ \'12','p')
g.append(
GetPubData(pubdir + "GCyg_FermiFraija_data.csv",
pubdir + "GCyg_FermiFraija_error.csv"))
g[-1].SetName('gFraija16')
g[-1].SetLineColor(kPink + 1)
g[-1].SetLineColor(kCyan)
g[-1].SetMarkerColor(g[-1].GetLineColor())
g[-1].SetMarkerStyle(22)
gUL1 = GetPubData(pubdir + "GCyg_FermiFraija_UL.csv")
gUL1.SetName('gFraija16UL')
gUL1.SetLineColor(g[-1].GetLineColor())
gUL1.SetMarkerColor(g[-1].GetLineColor())
gUL.append(gUL1)
l.AddEntry(g[-1], 'Fraija+ \'16', 'p')
# g.append(GetPubData(pubdir+"GCyg_MAGIC_data.csv",
# pubdir+"GCyg_MAGIC_error.csv"))
# g[-1].SetLineColor(kMagenta)
# g[-1].SetMarkerColor(kMagenta)
# g[-1].SetMarkerStyle(29)
# gUL.append(TGraph(0))
def ConvertFluxUnit(glist):
g = glist[-1]
n = g.GetN()
x = g.GetX()
y = g.GetY()
ey = g.GetEY()
for i in range(n):
y[i] *= x[i] * x[i] * 1e-6 * 1e-4
if g.ClassName() == "TGraphErrors":
ey[i] *= x[i] * x[i] * 1e-6 * 1e-4
rfile = TFile(
"/home/smasuda/storage/Fermi/Data/GammaCygni2017/VERJ2019p407_spec.root"
)
gVER = rfile.Get("gVER")
gVERUL = rfile.Get("gVERUL")
fVER = rfile.Get("fVER")
rfile.Close()
g.append(gVER)
gUL.append(gVERUL)
fVER.SetParameter(0, fVER.GetParameter(0) * 1e-4)
fVER.SetParameter(1, fVER.GetParameter(1) - 2.)
ConvertFluxUnit(g)
ConvertFluxUnit(gUL)
colV = kGreen
gVER.SetMarkerColor(colV)
gVER.SetLineColor(colV)
gVERUL.SetMarkerColor(colV)
gVERUL.SetLineColor(colV)
fVER.SetLineColor(colV)
l.AddEntry(g[-1], 'VER J2019+407', 'p')
rfile = TFile(
'/home/smasuda/storage/MAGIC/GammaCygni2017_ST7/analysis/flute/CombAll/Unfolding_Output_combunfold_2-Tikhonov.root'
)
g.append(rfile.Get("fGraph1E2"))
rfile.Close()
g[-1].SetMarkerStyle(21)
g[-1].SetMarkerColor(kMagenta + 1)
g[-1].SetLineColor(g[-1].GetMarkerColor())
gUL.append(TGraph(0))
l.AddEntry(g[-1], 'MAGIC this work', 'lp')
rfile = TFile(
"/home/smasuda/storage/Fermi/Data/GammaCygni2017/MarcelFermi.root")
gtmp = []
for key in rfile.GetListOfKeys():
obj = key.ReadObj()
if obj.InheritsFrom(TGraph.Class()):
gtmp.append(obj)
# g.append(gtmp[0])
# gUL.append(TGraph(0))
# g.append(gtmp[1])
# gUL.append(TGraph(0))
# l.AddEntry(g[-1],'Marcel disk','lp')
# g.append(gtmp[2])
# gUL.append(gtmp[3])
# l.AddEntry(g[-1],'Marcel gaus','lp')
# g.append(TGraph(0))
# gUL.append(gtmp[4])
# l.AddEntry(gUL[-1],'Marcel arc','lp')
# arr1=rfile.Get("aGausUL")
# arr2=rfile.Get("aArcUL")
rfile.Close()
# XX=np.array([1.])
# YY=np.array([1.e-10])
# g.append(TGraph(1,XX,YY))
# gUL.append(TGraph(0))
for f in flist:
tmpg, tmpgUL = GetData(f.file, f.scale, title=f.title)
tmpg.SetLineColor(f.col)
tmpg.SetMarkerColor(f.col)
tmpg.SetMarkerStyle(f.sty)
tmpgUL.SetLineColor(f.col)
if f.leg != '':
l.AddEntry(tmpg, f.leg, 'p')
g.append(tmpg)
gUL.append(tmpgUL)
# l.AddEntry('p')
ng = len(g)
mg = TMultiGraph()
for i in range(ng):
if g[i].GetName() == 'gLP':
mg.Add(g[i], '3')
else:
mg.Add(g[i], 'pz')
if gUL[i].GetN() > 0:
if gUL[i].GetName() == 'gGausUL' or gUL[i].GetName() == 'gArcUL':
mg.Add(gUL[i], 'pz')
else:
mg.Add(gUL[i], 'p')
xbin = np.logspace(np.log10(0.9), np.log10(8079.765852892145), 101)
# ybin=np.logspace(np.log10(1.565210892602076e-14),np.log10(1.675199606589398e-10),101)
ybin = np.logspace(np.log10(3.786556805899183e-14), np.log10(1.05e-10),
101)
frame = TH2F("frame", "SED;Energy [GeV];E^{2}dN/dE [TeV cm^{-2} s^{-1}]",
100, xbin, 100, ybin)
frame.SetStats(False)
frame.SetDirectory(0)
frame.Draw("0")
mg.SetTitle("SED;Energy [GeV];E^{2}dN/dE [TeV cm^{-2} s^{-1}]")
mg.Draw()
fVER.Draw("same")
arr = []
for i in range(len(gUL)):
if gUL[i].GetN() > 0:
arr.append(DrawUL(gUL[i]))
# arr.append(arr1)
# arr.append(arr2)
# arr1.Draw()
# arr2.Draw()
l.Draw()
gROOT.frame = frame
gROOT.mg = mg
gROOT.arr = arr
gROOT.l = l
gROOT.fVER = fVER
gStyle.SetOptLogx(False)
gStyle.SetOptLogy(False)
