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tracking-parametrisation-tuner/scripts/CompareResidualEfficiency.py

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# Script for accessing histograms of reconstructible and
# reconstructed tracks for different tracking categories
# created by hlt1_reco_baseline_with_mcchecking
#
# The efficency is calculated usig TGraphAsymmErrors
# and Bayesian error bars
#
# author: Furkan Cetin
# date: 10/2023
#
# flake8: noqa
#
# Takes data from Recent_get_resolution_and_eff_data.py and calculates efficiencies
# python scripts/CompareResidualEfficiency.py --filename data/resolutions_and_effs_B_residual.root data/resolutions_and_effs_B.root
# --trackers BestLong --label Residual Normal --outfile data/compare_effs_B_residual.root
#
import os, sys
import argparse
from ROOT import TMultiGraph, TLatex, TCanvas, TFile, TGaxis
from ROOT import kGreen, kBlue, kBlack, kAzure, kGray, kOrange, kMagenta, kCyan
from ROOT import gROOT, gStyle, gPad
from ROOT import TEfficiency
from array import array
gROOT.SetBatch(True)
from utils.components import unique_name_ext_re, findRootObjByName
def getEfficiencyHistoNames():
return ["p", "pt", "phi", "eta", "nPV"]
def getTrackers(trackers):
return trackers
def getCompCuts(compare_cuts):
return compare_cuts
# data/resolutions_and_effs_Bd2KstEE_MDmaster.root:Track/...
def getOriginFolders():
basedict = {
"Velo": {},
"Upstream": {},
"Forward": {},
"Match": {},
"BestLong": {},
"Seed": {},
}
# evtl anpassen wenn die folders anders heissen
basedict["Velo"]["folder"] = "VeloTrackChecker/"
basedict["Upstream"]["folder"] = "UpstreamTrackChecker/"
basedict["Forward"]["folder"] = "ForwardTrackChecker" + unique_name_ext_re() + "/"
basedict["Match"]["folder"] = "MatchTrackChecker" + unique_name_ext_re() + "/"
basedict["BestLong"]["folder"] = "BestLongTrackChecker" + unique_name_ext_re() + "/"
basedict["Seed"]["folder"] = "SeedTrackChecker" + unique_name_ext_re() + "/"
return basedict
def getTrackNames():
basedict = {
"Velo": {},
"Upstream": {},
"Forward": {},
"Match": {},
"BestLong": {},
"Seed": {},
}
basedict["Velo"] = "Velo"
basedict["Upstream"] = "VeloUT"
basedict["Forward"] = "Forward"
basedict["Match"] = "Match"
basedict["BestLong"] = "BestLong"
basedict["Seed"] = "Seed"
return basedict
def get_colors():
return [
kBlack,
kAzure,
kGreen + 2,
kMagenta + 1,
kOrange,
kCyan + 2,
kBlack,
kAzure,
kGreen + 3,
kMagenta + 2,
kOrange,
kCyan + 2,
]
def get_markers():
return [20, 21, 24, 25, 22, 23, 26, 32]
def get_fillstyles():
return [1003, 3001, 3002, 3325, 3144, 3244, 3444]
def getGhostHistoNames():
basedict = {
"Velo": {},
"Upstream": {},
"Forward": {},
"Match": {},
"BestLong": {},
"Seed": {},
}
basedict["Velo"] = ["eta", "nPV"]
basedict["Upstream"] = ["eta", "p", "pt", "nPV"]
basedict["Forward"] = ["eta", "p", "pt", "nPV"]
basedict["Match"] = ["eta", "p", "pt", "nPV"]
basedict["BestLong"] = ["eta", "p", "pt", "nPV"]
basedict["Seed"] = ["eta", "p", "pt", "nPV"]
return basedict
def argument_parser():
parser = argparse.ArgumentParser(description="location of the tuple file")
parser.add_argument(
"--filename",
type=str,
default=["data/resolutions_and_effs_B.root"],
nargs="+",
help="input files, including path",
)
parser.add_argument(
"--outfile",
type=str,
default="data/compare_efficiency.root",
help="output file",
)
parser.add_argument(
"--trackers",
type=str,
nargs="+",
default=["Forward", "Match", "BestLong", "Seed"], # ---
help="Trackers to plot.",
)
parser.add_argument(
"--label",
nargs="+",
default=["Eff"],
help="label for files",
)
parser.add_argument(
"--savepdf",
action="store_true",
help="save plots in pdf format",
)
parser.add_argument(
"--compare",
default=True,
action="store_true",
help="compare efficiencies",
)
parser.add_argument(
"--compare-cuts",
type=str,
nargs="+",
default=["long", "long_fromB", "long_fromB_P>5GeV"],
help="which cuts get compared",
)
parser.add_argument(
"--plot-electrons",
default=True,
action="store_true",
help="plot electrons",
)
parser.add_argument(
"--plot-electrons-only",
action="store_true",
help="plot only electrons",
)
return parser
def get_files(tf, filename, label):
for i, f in enumerate(filename):
tf[label[i]] = TFile(f, "read")
return tf
def get_nicer_var_string(var: str):
nice_vars = dict(pt="p_{T}", eta="#eta", phi="#phi")
try:
return nice_vars[var]
except KeyError:
return var
def get_eff(eff, hist, tf, histoName, label, var):
eff = {}
hist = {}
var = get_nicer_var_string(var)
for i, lab in enumerate(label):
numeratorName = histoName + "_reconstructed"
numerator = findRootObjByName(tf[lab], numeratorName)
# numerator = tf[lab].Get(numeratorName)
denominatorName = histoName + "_reconstructible"
denominator = findRootObjByName(tf[lab], denominatorName)
# denominator = tf[lab].Get(denominatorName)
if numerator.GetEntries() == 0 or denominator.GetEntries() == 0:
continue
teff = TEfficiency(numerator, denominator)
teff.SetStatisticOption(7)
# print("TBetaAlpha: "+ str(teff.GetBetaAlpha()))
# print("TBetaBeta: "+ str(teff.GetBetaBeta()))
eff[lab] = teff.CreateGraph()
eff[lab].SetName(lab)
eff[lab].SetTitle(lab)
if histoName.find("Forward") != -1:
if histoName.find("electron") != -1:
eff[lab].SetTitle(lab + " Forward, e^{-}")
else:
eff[lab].SetTitle(lab + " Forward")
elif histoName.find("Match") != -1:
if histoName.find("electron") != -1:
eff[lab].SetTitle(lab + " Match, e^{-}")
else:
eff[lab].SetTitle(lab + " Match")
elif histoName.find("Seed") != -1:
if histoName.find("electron") != -1:
eff[lab].SetTitle(lab + " Seed, e^{-}")
else:
eff[lab].SetTitle(lab + " Seed")
elif histoName.find("BestLong") != -1:
if histoName.find("electron") != -1:
eff[lab].SetTitle(lab + " BestLong, e^{-}")
else:
eff[lab].SetTitle(lab + " BestLong")
# eff[lab].SetTitle(lab + " not e^{-}")
# if histoName.find("strange") != -1:
# eff[lab].SetTitle(lab + " from stranges")
# if histoName.find("electron") != -1:
# eff[lab].SetTitle(lab + " e^{-}")
hist[lab] = denominator.Clone()
hist[lab].SetName("h_numerator_notElectrons")
hist[lab].SetTitle(var + " distribution, not e^{-}")
if histoName.find("strange") != -1:
hist[lab].SetTitle(var + " distribution, stranges")
if histoName.find("electron") != -1:
hist[lab].SetTitle(var + " distribution, e^{-}")
return eff, hist
def get_ghost(eff, hist, tf, histoName, label):
ghost = {}
for i, lab in enumerate(label):
numeratorName = histoName + "_Ghosts"
denominatorName = histoName + "_Total"
numerator = findRootObjByName(tf[lab], numeratorName)
denominator = findRootObjByName(tf[lab], denominatorName)
# numerator = tf[lab].Get(numeratorName)
# denominator = tf[lab].Get(denominatorName)
print("Numerator = " + numeratorName)
print("Denominator = " + denominatorName)
teff = TEfficiency(numerator, denominator)
teff.SetStatisticOption(7)
ghost[lab] = teff.CreateGraph()
print(lab)
ghost[lab].SetName(lab)
return ghost
def PrCheckerEfficiency(
filename,
outfile,
label,
trackers,
savepdf,
compare,
compare_cuts,
plot_electrons,
plot_electrons_only,
):
from utils.LHCbStyle import setLHCbStyle, set_style
from utils.ConfigHistos import (
efficiencyHistoDict,
ghostHistoDict,
categoriesDict,
getCuts,
)
from utils.CompareConfigHistos import getCompare, getCompColors
from utils.Legend import place_legend
setLHCbStyle()
markers = get_markers()
colors = get_colors()
styles = get_fillstyles()
tf = {}
tf = get_files(tf, filename, label)
outputfile = TFile(outfile, "recreate")
latex = TLatex()
latex.SetNDC()
latex.SetTextSize(0.05)
efficiencyHistoDict = efficiencyHistoDict()
efficiencyHistos = getEfficiencyHistoNames()
ghostHistos = getGhostHistoNames()
ghostHistoDict = ghostHistoDict()
categories = categoriesDict()
cuts = getCuts()
compareDict = getCompare()
compareCuts = getCompCuts(compare_cuts)
compareColors = getCompColors()
trackers = getTrackers(trackers)
folders = getOriginFolders()
for tracker in trackers:
outputfile.cd()
trackerDir = outputfile.mkdir(tracker)
trackerDir.cd()
for cut in cuts[tracker]:
cutDir = trackerDir.mkdir(cut)
cutDir.cd()
folder = folders[tracker]["folder"]
print(folder)
histoBaseName = "Track/" + folder + tracker + "/" + cut + "_"
# calculate efficiency
for histo in efficiencyHistos:
canvastitle = (
"efficiency_" + histo + ", " + categories[tracker][cut]["title"]
)
# get efficiency for not electrons category
histoName = histoBaseName + "" + efficiencyHistoDict[histo]["variable"]
print("not electrons: " + histoName)
eff = {}
hist_den = {}
eff, hist_den = get_eff(eff, hist_den, tf, histoName, label, histo)
if categories[tracker][cut]["plotElectrons"] and plot_electrons:
histoNameElec = (
"Track/"
+ folder
+ tracker
+ "/"
+ categories[tracker][cut]["Electrons"]
)
histoName_e = (
histoNameElec + "_" + efficiencyHistoDict[histo]["variable"]
)
print("electrons: " + histoName_e)
eff_elec = {}
hist_elec = {}
eff_elec, hist_elec = get_eff(
eff_elec,
hist_elec,
tf,
histoName_e,
label,
histo,
)
name = "efficiency_" + histo
canvas = TCanvas(name, canvastitle)
canvas.SetRightMargin(0.1)
mg = TMultiGraph()
for i, lab in enumerate(label):
if not plot_electrons_only:
mg.Add(eff[lab])
set_style(eff[lab], colors[i], markers[i], styles[i])
if categories[tracker][cut]["plotElectrons"] and plot_electrons:
mg.Add(eff_elec[lab])
set_style(eff_elec[lab], colors[i], markers[i + 2], styles[i])
mg.Draw("AP")
mg.GetYaxis().SetRangeUser(0, 1.05)
xtitle = efficiencyHistoDict[histo]["xTitle"]
unit_l = xtitle.split("[")
if "]" in unit_l[-1]:
unit = unit_l[-1].replace("]", "")
else:
unit = ""
print(unit)
mg.GetXaxis().SetTitle(xtitle)
mg.GetXaxis().SetTitleSize(0.06)
mg.GetYaxis().SetTitle(
"Efficiency of Long Tracks",
) # (" + str(round(hist_den[label[0]].GetBinWidth(1), 2)) + f"{unit})"+"^{-1}")
mg.GetYaxis().SetTitleSize(0.06)
mg.GetYaxis().SetTitleOffset(1.1)
mg.GetXaxis().SetRangeUser(*efficiencyHistoDict[histo]["range"])
mg.GetXaxis().SetNdivisions(10, 5, 0)
mygray = 18
myblue = kBlue - 9
for i, lab in enumerate(label):
rightmax = 1.05 * hist_den[lab].GetMaximum()
scale = gPad.GetUymax() / rightmax
hist_den[lab].Scale(scale)
if categories[tracker][cut]["plotElectrons"] and plot_electrons:
rightmax = 1.05 * hist_elec[lab].GetMaximum()
scale = gPad.GetUymax() / rightmax
hist_elec[lab].Scale(scale)
if i == 0:
if not plot_electrons_only:
set_style(hist_den[lab], mygray, markers[i], styles[i])
gStyle.SetPalette(2, array("i", [mygray - 1, myblue + 1]))
hist_den[lab].Draw("HIST PLC SAME")
if categories[tracker][cut]["plotElectrons"] and plot_electrons:
set_style(hist_elec[lab], myblue, markers[i], styles[i])
hist_elec[lab].SetFillColorAlpha(myblue, 0.35)
hist_elec[lab].Draw("HIST PLC SAME")
# else:
# print(
# "No distribution plotted for other labels.",
# "Can be added by uncommenting the code below this print statement.",
# )
# set_style(hist_den[lab], mygray, markers[i], styles[i])
# gStyle.SetPalette(2, array("i", [mygray - 1, myblue + 1]))
# hist_den[lab].Draw("HIST PLC SAME")
if histo == "p":
pos = [0.53, 0.4, 1.01, 0.71]
elif histo == "pt":
pos = [0.5, 0.4, 0.98, 0.71]
elif histo == "phi":
pos = [0.3, 0.3, 0.9, 0.6]
else:
pos = [0.4, 0.37, 0.88, 0.68]
legend = place_legend(
canvas, *pos, header="LHCb Simulation", option="LPE"
)
for le in legend.GetListOfPrimitives():
if "distribution" in le.GetLabel():
le.SetOption("LF")
legend.SetTextFont(132)
legend.SetTextSize(0.04)
legend.Draw()
for lab in label:
if not plot_electrons_only:
eff[lab].Draw("P SAME")
if categories[tracker][cut]["plotElectrons"] and plot_electrons:
eff_elec[lab].Draw("P SAME")
cutName = categories[tracker][cut]["title"]
latex.DrawLatex(legend.GetX1() + 0.01, legend.GetY1() - 0.05, cutName)
low = 0
high = 1.05
gPad.Update()
axis = TGaxis(
gPad.GetUxmax(),
gPad.GetUymin(),
gPad.GetUxmax(),
gPad.GetUymax(),
low,
high,
510,
"+U",
)
axis.SetTitleFont(132)
axis.SetTitleSize(0.06)
axis.SetTitleOffset(0.55)
axis.SetTitle(
"# Tracks " + get_nicer_var_string(histo) + " distribution [a.u.]",
)
axis.SetLabelSize(0)
axis.Draw()
canvas.RedrawAxis()
if savepdf:
filestypes = ["pdf"] # , "png", "eps", "C", "ps", "tex"]
for ftype in filestypes:
if not plot_electrons_only:
canvasName = tracker + "_" + cut + "_" + histo + "." + ftype
else:
canvasName = (
tracker + "Electrons_" + cut + "_" + histo + "." + ftype
)
canvas.SaveAs("checks/" + canvasName)
# canvas.SetRightMargin(0.05)
canvas.Write()
# calculate ghost rate
histoBaseName = "Track/" + folder + tracker + "/"
for histo in ghostHistos[tracker]:
trackerDir.cd()
title = "ghost_rate_vs_" + histo
gPad.SetTicks()
histoName = histoBaseName + ghostHistoDict[histo]["variable"]
ghost = {}
hist_den = {}
ghost = get_ghost(ghost, hist_den, tf, histoName, label)
canvas = TCanvas(title, title)
mg = TMultiGraph()
for i, lab in enumerate(label):
mg.Add(ghost[lab])
set_style(ghost[lab], colors[i], markers[i], styles[i])
xtitle = ghostHistoDict[histo]["xTitle"]
mg.GetXaxis().SetTitle(xtitle)
mg.GetYaxis().SetTitle("Fraction of fake tracks")
mg.Draw("ap")
mg.GetXaxis().SetTitleSize(0.06)
mg.GetYaxis().SetTitleSize(0.06)
mg.GetYaxis().SetTitleOffset(1.1)
mg.GetXaxis().SetRangeUser(*efficiencyHistoDict[histo]["range"])
mg.GetXaxis().SetNdivisions(10, 5, 0)
# for lab in label:
# ghost[lab].Draw("P SAME")
if histo == "p":
pos = [0.53, 0.4, 1.00, 0.71]
elif histo == "pt":
pos = [0.5, 0.4, 0.98, 0.71]
elif histo == "eta":
pos = [0.35, 0.6, 0.85, 0.9]
elif histo == "phi":
pos = [0.3, 0.3, 0.9, 0.6]
else:
pos = [0.4, 0.37, 0.80, 0.68]
legend = place_legend(canvas, *pos, header="LHCb Simulation", option="LPE")
legend.SetTextFont(132)
legend.SetTextSize(0.04)
legend.Draw()
# if histo != "nPV":
# latex.DrawLatex(0.7, 0.85, "LHCb simulation")
# else:
# latex.DrawLatex(0.2, 0.85, "LHCb simulation")
# mg.GetYaxis().SetRangeUser(0, 0.4)
if histo == "eta":
mg.GetYaxis().SetRangeUser(0, 0.4)
# track_name = names[tracker] + " tracks"
# latex.DrawLatex(0.7, 0.75, track_name)
# canvas.PlaceLegend()
if savepdf:
filestypes = ["pdf"] # , "png", "eps", "C", "ps", "tex"]
for ftype in filestypes:
canvas.SaveAs(
"checks/" + tracker + "ghost_rate_" + histo + "." + ftype,
)
canvas.Write()
#
# Compare electron efficiencies of different trackers
#
plot_electrons_only = True
if compare:
print("\nCompare Efficiencies: ")
outputfile.cd()
compareDir = outputfile.mkdir("CompareEff")
compareDir.cd()
for jcut in compareCuts: # [long, long_fromB, long_fromB_P>5GeV]
for histo in efficiencyHistos: # [p, pt, phi, eta, nPV]
canvastitle = "efficiency_" + histo + "_" + jcut
name = "efficiency_" + histo + "_" + jcut
canvas = TCanvas(name, canvastitle)
canvas.SetRightMargin(0.1)
mg = TMultiGraph()
dist_eff = {}
dist_hist_den = {}
dist_eff_elec = {}
dist_hist_elec = {}
First = True
dist_tracker = ""
markeritr = 0
for tracker in trackers: # [BestLong, Forward, Match, Seed]
cut = compareDict[jcut][tracker]
folder = folders[tracker]["folder"]
print(folder)
jcolor = compareColors[tracker]
histoName = (
"Track/"
+ folder
+ tracker
+ "/"
+ cut
+ "_"
+ ""
+ efficiencyHistoDict[histo]["variable"]
)
print("not electrons: " + histoName)
eff = {}
hist_den = {}
eff, hist_den = get_eff(eff, hist_den, tf, histoName, label, histo)
if categories[tracker][cut]["plotElectrons"] and plot_electrons:
histoNameElec = (
"Track/"
+ folder
+ tracker
+ "/"
+ categories[tracker][cut]["Electrons"]
)
histoName_e = (
histoNameElec + "_" + efficiencyHistoDict[histo]["variable"]
)
print("electrons: " + histoName_e)
eff_elec = {}
hist_elec = {}
eff_elec, hist_elec = get_eff(
eff_elec,
hist_elec,
tf,
histoName_e,
label,
histo,
)
if First:
dist_eff_elec = eff_elec
dist_hist_elec = hist_elec
if First:
dist_tracker = tracker
dist_eff = eff
dist_hist_den = hist_den
First = False
for i, lab in enumerate(label):
if categories[tracker][cut]["plotElectrons"] and plot_electrons:
mg.Add(eff_elec[lab])
set_style(
eff_elec[lab],
colors[jcolor + i],
markers[i + markeritr],
styles[i],
)
markeritr = markeritr + 1
# set_style(
# eff_elec[lab], colors[jcolor], markers[i], styles[i]
# )
markeritr = 0
mg.Draw("AP")
mg.GetYaxis().SetRangeUser(0, 1.05)
xtitle = efficiencyHistoDict[histo]["xTitle"]
unit_l = xtitle.split("[")
if "]" in unit_l[-1]:
unit = unit_l[-1].replace("]", "")
else:
unit = ""
print(unit)
mg.GetXaxis().SetTitle(xtitle)
mg.GetXaxis().SetTitleSize(0.06)
mg.GetYaxis().SetTitle(
"Efficiency of Long Tracks",
) # (" + str(round(hist_den[label[0]].GetBinWidth(1), 2)) + f"{unit})"+"^{-1}")
mg.GetYaxis().SetTitleSize(0.06)
mg.GetYaxis().SetTitleOffset(1.1)
mg.GetXaxis().SetRangeUser(*efficiencyHistoDict[histo]["range"])
mg.GetXaxis().SetNdivisions(10, 5, 0)
mygray = 16
myblue = kBlue - 7
dist_cut = compareDict[jcut][dist_tracker]
for i, lab in enumerate(label):
rightmax = 1.05 * dist_hist_den[lab].GetMaximum()
scale = gPad.GetUymax() / rightmax
dist_hist_den[lab].Scale(scale)
if (
categories[dist_tracker][dist_cut]["plotElectrons"]
and plot_electrons
):
rightmax = 1.05 * dist_hist_elec[lab].GetMaximum()
scale = gPad.GetUymax() / rightmax
dist_hist_elec[lab].Scale(scale)
if i == len(label) - 1:
if not plot_electrons_only:
set_style(dist_hist_den[lab], mygray, markers[i], styles[i])
# gStyle.SetPalette(2, array("i", [mygray - 1, myblue + 1]))
dist_hist_den[lab].SetFillColorAlpha(mygray, 0.5)
dist_hist_den[lab].Draw("HIST PLC SAME")
if (
categories[dist_tracker][dist_cut]["plotElectrons"]
and plot_electrons
):
set_style(
dist_hist_elec[lab], mygray, markers[i], styles[i]
)
# gStyle.SetPalette(2, array("i", [mygray - 1, myblue + 1]))
# dist_hist_elec[lab].SetFillColor(myblue)
dist_hist_elec[lab].SetFillColorAlpha(myblue, 0.5)
dist_hist_elec[lab].Draw("HIST PLC SAME")
# else:
# print(
# "No distribution plotted for other labels.",
# "Can be added by uncommenting the code below this print statement.",
# )
# set_style(dist_hist_den[lab], mygray, markers[i], styles[i])
# gStyle.SetPalette(2, array("i", [mygray - 1, myblue + 1]))
# dist_hist_den[lab].Draw("HIST PLC SAME")
if histo == "p":
pos = [0.53, 0.4, 1.01, 0.71]
elif histo == "pt":
pos = [0.5, 0.4, 0.98, 0.71]
elif histo == "phi":
pos = [0.3, 0.3, 0.9, 0.6]
else:
pos = [0.4, 0.37, 0.88, 0.68]
legend = place_legend(
canvas, *pos, header="LHCb Simulation", option="LPE"
)
for le in legend.GetListOfPrimitives():
if "distribution" in le.GetLabel():
le.SetOption("LF")
legend.SetTextFont(132)
legend.SetTextSize(0.04)
legend.Draw()
for lab in label:
if not plot_electrons_only:
dist_eff[lab].Draw("P SAME")
if categories[tracker][cut]["plotElectrons"] and plot_electrons:
dist_eff_elec[lab].Draw("P SAME")
cutName = categories[tracker][cut]["title"]
latex.DrawLatex(legend.GetX1() + 0.01, legend.GetY1() - 0.05, cutName)
low = 0
high = 1.05
gPad.Update()
axis = TGaxis(
gPad.GetUxmax(),
gPad.GetUymin(),
gPad.GetUxmax(),
gPad.GetUymax(),
low,
high,
510,
"+U",
)
axis.SetTitleFont(132)
axis.SetTitleSize(0.06)
axis.SetTitleOffset(0.55)
axis.SetTitle(
"# Tracks " + get_nicer_var_string(histo) + " distribution [a.u.]",
)
axis.SetLabelSize(0)
axis.Draw()
canvas.RedrawAxis()
if savepdf:
filestypes = ["pdf"] # , "png", "eps", "C", "ps", "tex"]
for ftype in filestypes:
if not plot_electrons_only:
canvasName = (
"Compare_"
+ tracker
+ "_"
+ cut
+ "_"
+ histo
+ "."
+ ftype
)
else:
canvasName = (
"Compare_"
+ tracker
+ "Electrons_"
+ cut
+ "_"
+ histo
+ "."
+ ftype
)
canvas.SaveAs("checks/" + canvasName)
# canvas.SetRightMargin(0.05)
canvas.Write()
outputfile.Write()
outputfile.Close()
if __name__ == "__main__":
parser = argument_parser()
args = parser.parse_args()
PrCheckerEfficiency(**vars(args))