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fullmacro.py
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fullmacro.py
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from optparse import OptionParser
parser = OptionParser()
parser.add_option('--inputfile', metavar='F', type='string', action='store',
default='textfile_input.txt',
dest='inputfile',
help='Name of input file')
parser.add_option('--maxval0', metavar='F', type='int', action='store',
default=1.5,
dest='maxval0',
help='Maximum value of the XTY plots')
parser.add_option('--maxval1', metavar='F', type='int', action='store',
default=5,
dest='maxval1',
help='Maximum value of the RES plots')
parser.add_option('--batch', action='store_true',
default=False,
dest='batch',
help='Run ROOT in batch mode')
(options, args) = parser.parse_args()
argv = []
from ROOT import *
if options.batch == True :
gROOT.SetBatch()
# Set Style issues
gROOT.Macro("rootlogon.C")
gStyle.SetOptStat(000000)
gStyle.SetTitleFont(43)
gStyle.SetTitleFont(43, "XYZ")
gStyle.SetTitleSize(30, "XYZ")
gStyle.SetTitleOffset(3.5, "X")
gStyle.SetLabelFont(43, "XYZ")
gStyle.SetLabelSize(16, "X")
gStyle.SetLabelSize(30, "YZ")
##############################################################################################
# Define the styles for each of the measurement
# Name Color Title Left(0) or right(1)
##############################################################################################
styles = {"T'":[TColor.kGreen+1, "Vector-like T'", 0],
"Q'":[TColor.kOrange-2, "Vector-like Q'", 0],
"B'":[TColor.kGreen+3, "Vector-like B'", 0],
"DM":[TColor.kGray+3, "Dark matter", 0],
"Z'":[TColor.kAzure+1, "t#bar{t} Resonances", 1],
"W'":[TColor.kBlue+2, "tb Resonances", 1],
"t*":[TColor.kViolet, "Excited tops", 1],
"LLt":[TColor.kMagenta+2, "Displaced tops", 1],
}
##############################################################################################
# Location of text boxes : change this by eye!
##############################################################################################
texts = {
"Q'":[0.68, 0.95, 0.95, 0.99],
"B'":[0.68, 0.5, 0.95, 0.58],
"T'":[0.68, 0.8, 0.95, 0.88],
"DM":[0.68, 0.2, 0.95, 0.28],
"Z'":[0.65,0.7, 0.95, 0.78],
"t*":[0.65, 0.24, 0.95, 0.32],
"W'":[0.65, 0.355, 0.95, 0.435],
"LLt":[0.65, 0.14, 0.95, 0.19]
}
# Open the text file, get the lines, and store them in a dictionary
infile = open( options.inputfile, 'r')
lines = infile.readlines()
n0 = 0 # Number of bins in the "left" histogram
n1 = 0 # Number of bins in the "right" histogram
masters = dict()
for line in lines :
if line[0] == '#' :
continue
toks = line.split("\t")
if not masters.has_key( toks[0] ) :
masters[toks[0]] = []
# limit COM ana name color class of ana left(0) or right(1)
s = [float(toks[1]), float(toks[2]), toks[3], styles[toks[0]][0], styles[toks[0]][1], styles[toks[0]][2] ]
masters[toks[0]].append( s )
if styles[ toks[0] ][2] == 0 :
#print 'Added to left plot'
n0 += 1
elif styles[ toks[0] ][2] == 1 :
#print 'Added to right plot'
n1 += 1
else :
print 'Invalid input, skipping'
# Get info to fill histos
hists = dict()
# Histograms are "left" and "right" with a big stack of mass limits
histstodraw = [
TH1F('hists0', '', n0, 0, n0),
TH1F('hists1', '', n1, 0, n1),
]
# Set the maximum to the user's desire
histstodraw[0].SetMaximum(options.maxval0)
histstodraw[1].SetMaximum(options.maxval1)
# labels includes [bin number, value, label]
labels = [ ]
plotbins = [ 0, 0 ] # Current bin for each plot
canvs = [] # Canvases for the various categories
for key in [ "DM", "B'", "T'", "Q'", "LLt", "t*", "W'", "Z'"] :
value = masters[key]
print 'key = ' + str (key)
print 'value = '
print value
if styles[ key ][2] == 1 :
#print 'set to right plot'
plot = 1
nbins = n1
else :
#print 'set to left plot'
plot = 0 # 0 = left plot, 1 = right plot
nbins = n0 # Default to left.
# If we don't have a histogram for this category (Z', T', B', etc), make one
if hists.has_key( key ) == False :
hist = TH1F( key, "", nbins, 0, nbins )
hist.SetFillColor( styles[key][0] )
#hist.SetMaximum( maxval[] )
hist.SetBarWidth(0.8)
hist.SetBarOffset(0.1)
hist.GetXaxis().SetNdivisions(0)
#hist.GetYaxis().SetNdivisions(options.maxval + 2)
hists[key] = [ styles[key][2], hist]
# Now add the individual mass limits to each category
for ival in range(len(value)) :
plotbin = plotbins[plot]
limit = value[ival][0]
label = value[ival][2]
ileftright = value[ival][3]
labels.append( [plot, plotbin, label] )
hists[key][1].SetBinContent( plotbin+1, limit )
hists[key][1].GetXaxis().SetBinLabel( plotbin+1, label )
histstodraw[plot].GetXaxis().SetBinLabel( plotbin+1, label )
histstodraw[plot].SetBinContent( plotbin+1, limit )
plotbins[plot] += 1
# plot the individual histograms
c = TCanvas('debug' + key, key)
hists[key][1].Draw('hbar')
canvs.append( c )
# Draw the histograms together
c_all = TCanvas('ca', 'ca', int(1100*1.5), int(850*1.5))
ctitle = TPad("ctitle", "ctitle", 0.0, 0.90, 1.0, 1.0)
ctitle.Draw()
ctitle.cd()
title = TPaveText( 0.05, 0.05, 0.95, 0.95)
title.SetFillColor(0)
title.SetBorderSize(0)
title.AddText("CMS Searches for New Physics Beyond Two Generations (B2G)")
title.AddText("95% CL Exclusions (TeV)")
title.SetTextFont(63)
title.SetTextSize(30)
#title.SetTextColor(ROOT.kBlue)
title.Draw()
c_all.cd()
c = TPad('c', 'c', 0.0, 0.0, 1.0, 0.90)
c.Divide(2,1)
c.Draw()
iplot = 0
# First draw to get the axes drawn correctly
# for the "left" and "right" sides
firstdrawn = [True,True]
for ihist in range(len(histstodraw)) :
hist = histstodraw[ihist]
c.cd(ihist + 1)
gPad.SetTopMargin(0.)
gPad.SetLeftMargin(0.3)
gPad.SetRightMargin(0.05)
gPad.SetGridx()
hist.GetYaxis().SetTitle( 'Excluded Mass (TeV)')
#hist.GetXaxis().SetNdivisions(0)
#hist.GetYaxis().SetNdivisions(options.maxval + 2)
hist.Draw('axis hbar')
# Now draw all of the different categories
for key in [ "DM", "B'", "T'", "Q'", "LLt", "t*", "W'", "Z'"] :
val = hists[key]
side = val[0]
hist = val[1]
c.cd(side + 1)
gPad.SetLeftMargin(0.3)
gPad.SetRightMargin(0.05)
gPad.SetGridx()
hist.Draw('hbar same')
#gPad.SetLogx()
ihist += 1
# Finall draw the labels
paves = []
for key in [ "DM", "B'", "T'", "Q'", "LLt", "t*", "W'", "Z'"] :
vals = texts[key]
style = styles[key]
c.cd(style[2] + 1)
p = TPaveText(vals[0], vals[1], vals[2], vals[3], "NDC" )
p.AddText( style[1] )
p.SetFillColor( style[0] )
p.SetTextColor(0)
p.SetTextFont(43)
p.SetTextSize(30)
p.Draw()
paves.append(p)
c_all.Update()
c_all.Print("b2g_summary_updated.pdf", "pdf")
c_all.Print("b2g_summary_updated.png", "png")