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ComputeVisibleCrossSection.py
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ComputeVisibleCrossSection.py
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'''
python script to compute visible cross section
run: python ComputeVisibleCrossSection.py inFilePtDiffCrossSec.root outFile.root [--Dplus] [--Ds]
'''
import sys
import argparse
import ctypes
import numpy as np
from ROOT import TFile, TH1F, TGraphAsymmErrors # pylint: disable=import-error,no-name-in-module
from ROOT import kBlack, kFullCircle # pylint: disable=import-error,no-name-in-module
from utils.StyleFormatter import SetGlobalStyle, SetObjectStyle
from utils.AnalysisUtils import ScaleGraph
parser = argparse.ArgumentParser(description='Arguments to pass')
parser.add_argument('inFileNamePtDiffCrossSec', metavar='text', default='inFilePtDiffCrossSec.root',
help='root file with pT-differential cross section')
parser.add_argument('outFileName', metavar='text', default='outFile.root', help='output root file')
parser.add_argument('--Dplus', action='store_true', default=False, help='enable calculation for D+')
parser.add_argument('--Ds', action='store_true', default=False, help='enable calculation for Ds')
parser.add_argument('--Dzero', action='store_true', default=False, help='enable calculation for D0')
parser.add_argument('--Dstar', action='store_true', default=False, help='enable calculation for D*')
parser.add_argument('--PbPb', action='store_true', default=True, help='enable calculation for PbPb collisions')
parser.add_argument('--ptmin', default=0., type=float, help='minimum pT')
parser.add_argument('--ptmax', default=1.e10, type=float, help='maximum pT')
args = parser.parse_args()
argChannels = [args.Dplus, args.Ds, args.Dzero, args.Dstar]
if not any(argChannels):
print('ERROR: you should enable the comparison for either Dplus, Ds, Dzero, or Dstar! Exit')
sys.exit()
elif len(np.where(argChannels)[0]) > 1:
print('ERROR: you can enable only one meson at a time! Exit')
sys.exit()
if not args.PbPb:
lumiUnc = 0.021 # [email protected] TeV
else:
lumiUnc = 0.
if args.Dplus:
BR = 0.0938
BRunc = 0.0016
mesonName = 'D^{+}'
elif args.Ds:
BR = 0.0224
BRunc = 0.0008
mesonName = 'D_{s}^{+}'
elif args.Dzero:
BR = 0.03950
BRunc = 0.00031
mesonName = 'D^{0}'
elif args.Dstar:
BR = 0.03950*0.677
BRunc = np.sqrt(0.00031**2/0.03950**2 + 0.005*2/0.677**2) * BR
mesonName = 'D*^{+}'
SetGlobalStyle()
# load inputs
HFsystErr = []
inFileCross = TFile.Open(args.inFileNamePtDiffCrossSec)
hCrossSection = inFileCross.Get('hCrossSection')
isDataDriven = True
if not hCrossSection:
if not args.PbPb:
hCrossSection = inFileCross.Get('histoSigmaCorr')
gCrossSectionFDSyst = inFileCross.Get('gSigmaCorrConservative')
gCrossSectionFDSyst.RemovePoint(0)
hCrossSection.Scale(1.e-6 / BR)
ScaleGraph(gCrossSectionFDSyst, 1.e-6 / BR)
else:
hCrossSection = inFileCross.Get('hAAC')
gCrossSectionFDSyst = inFileCross.Get('gaaCsystFD')
hCrossSection.SetStats(0)
isDataDriven = False
hCrossSection.SetDirectory(0)
if not args.PbPb:
if not args.Dzero:
HFsystErr.append(inFileCross.Get('AliHFSystErr'))
else:
HFsystErr.append(inFileCross.Get('AliHFSystErrTopol'))
HFsystErr.append(inFileCross.Get('AliHFSystErrLowpt'))
else:
if not args.Dzero:
HFsystErr.append(inFileCross.Get('AliHFSystErrAA'))
else:
if inFileCross.Get('AliHFSystErrAA1'):
HFsystErr.append(inFileCross.Get('AliHFSystErrAA1'))
HFsystErr.append(inFileCross.Get('AliHFSystErrAA2'))
else:
HFsystErr.append(inFileCross.Get('AliHFSystErrAA'))
inFileCross.Close()
# compute visible cross section
visCrossSec, statUnc, uncorrSystUnc, corrSystUncLow, corrSystUncHigh, \
FDSystUncLow, FDSystUncHigh, trackSystUnc, systWoTrFDBRLumi = (0 for _ in range(9))
for iPt in range(hCrossSection.GetNbinsX()):
binWidth = hCrossSection.GetBinWidth(iPt+1)
ptCent = hCrossSection.GetBinCenter(iPt+1)
# integrate only between ptmin and ptmax
if ptCent-binWidth/2 < args.ptmin:
continue
if ptCent+binWidth/2 > args.ptmax:
continue
visCrossSec += hCrossSection.GetBinContent(iPt+1) * binWidth
statUnc += (hCrossSection.GetBinError(iPt+1) * binWidth)**2
# get correct systematic uncertainties
if ptCent < 1 and args.Dzero:
systErr = HFsystErr[1] # Dzero low pT
else:
systErr = HFsystErr[0] # topological
# uncorrelated systematic uncertainty (yield extraction)
uncorrSystUnc += systErr.GetRawYieldErr(ptCent)**2 * hCrossSection.GetBinContent(iPt+1)**2 * binWidth**2
# correlated systematic uncertainty (sel eff, PID eff, gen pT shape, tracking, FD, BR)
trackSystUnc += systErr.GetTrackingEffErr(ptCent) * hCrossSection.GetBinContent(iPt+1) * binWidth
systWoTrFDBRLumi += (systErr.GetCutsEffErr(ptCent)**2 + systErr.GetMCPtShapeErr(ptCent)**2 + \
systErr.GetPIDEffErr(ptCent)**2) * hCrossSection.GetBinContent(iPt+1)**2 * binWidth**2
totCorrSystUncSqLow = (systErr.GetCutsEffErr(ptCent)**2 + systErr.GetMCPtShapeErr(ptCent)**2 + \
systErr.GetPIDEffErr(ptCent)**2 + systErr.GetTrackingEffErr(ptCent)**2) \
* hCrossSection.GetBinContent(iPt+1)**2 * binWidth**2
totCorrSystUncSqHigh = (systErr.GetCutsEffErr(ptCent)**2 + systErr.GetMCPtShapeErr(ptCent)**2 + \
systErr.GetPIDEffErr(ptCent)**2 + systErr.GetTrackingEffErr(ptCent)**2) \
* hCrossSection.GetBinContent(iPt+1)**2 * binWidth**2
if isDataDriven:
FDSystUncLow += systErr.GetDataDrivenFDErr(ptCent) * binWidth
FDSystUncHigh += systErr.GetDataDrivenFDErr(ptCent) * binWidth
totCorrSystUncSqLow += systErr.GetDataDrivenFDErr(ptCent)**2 \
* hCrossSection.GetBinContent(iPt+1)**2 * binWidth**2
totCorrSystUncSqHigh += systErr.GetDataDrivenFDErr(ptCent)**2 \
* hCrossSection.GetBinContent(iPt+1)**2 * binWidth**2
else:
for iPtFD in range(gCrossSectionFDSyst.GetN()):
ptCentFD, sigma = ctypes.c_double(), ctypes.c_double()
gCrossSectionFDSyst.GetPoint(iPtFD, ptCentFD, sigma)
if abs(ptCentFD.value-ptCent) < 0.01:
break
FDSystUncLow += gCrossSectionFDSyst.GetErrorYlow(iPtFD) * binWidth
FDSystUncHigh += gCrossSectionFDSyst.GetErrorYlow(iPtFD) * binWidth
totCorrSystUncSqLow += gCrossSectionFDSyst.GetErrorYlow(iPtFD)**2 * binWidth**2
totCorrSystUncSqHigh += gCrossSectionFDSyst.GetErrorYhigh(iPtFD)**2 * binWidth**2
corrSystUncLow += np.sqrt(totCorrSystUncSqLow)
corrSystUncHigh += np.sqrt(totCorrSystUncSqHigh)
statUnc = np.sqrt(statUnc)
uncorrSystUnc = np.sqrt(uncorrSystUnc)
corrSystUncLow = np.sqrt(corrSystUncLow**2 + (lumiUnc**2 + BRunc**2/BR**2)*visCrossSec)
corrSystUncHigh = np.sqrt(corrSystUncHigh**2 + (lumiUnc**2 + BRunc**2/BR**2)*visCrossSec)
totSystUncLow = np.sqrt(uncorrSystUnc**2 + corrSystUncLow**2)
totSystUncHigh = np.sqrt(uncorrSystUnc**2 + corrSystUncHigh**2)
# fill histos and graphs
if args.ptmin <= hCrossSection.GetBinLowEdge(1):
ptMin = hCrossSection.GetBinLowEdge(1)
else:
ptMin = args.ptmin
if args.ptmax >= hCrossSection.GetXaxis().GetBinUpEdge(hCrossSection.GetNbinsX()):
ptMax = hCrossSection.GetXaxis().GetBinUpEdge(hCrossSection.GetNbinsX())
else:
ptMax = args.ptmax
graphName = 'VisCrossSec'
utilStr = f';;d#sigma/d#it{{y}} (#mub) ({ptMin} < #it{{p}}_{{T}} < {ptMax} GeV/#it{{c}})'
if args.PbPb:
graphName = 'PtVisYield'
utilStr = f';;d#it{{N}}/d#it{{y}} ({ptMin} < #it{{p}}_{{T}} < {ptMax} GeV/#it{{c}})'
hVisibleCrossSectionStat = TH1F(f'h{graphName}', utilStr, 1, 0.5, 1.5)
gVisCrossSecUncorrSyst, gVisCrossSecCorrSyst, gVisCrossSecTotSyst, gVisCrossSecSystWoTrFDBRAndLumi, \
gVisCrossSecSystTracking, gVisCrossSecSystFD, gVisCrossSecSystLumi, gVisCrossSecSystBR = \
(TGraphAsymmErrors(0) for _ in range(8))
gVisCrossSecUncorrSyst.SetNameTitle(f'g{graphName}UncorrSys', utilStr)
gVisCrossSecCorrSyst.SetNameTitle(f'g{graphName}PtCorrSys', utilStr)
gVisCrossSecTotSyst.SetNameTitle(f'g{graphName}TotSys', utilStr)
gVisCrossSecSystWoTrFDBRAndLumi.SetNameTitle(f'g{graphName}SysWoTrFDBRAndLumi', utilStr)
gVisCrossSecSystTracking.SetNameTitle('gVisCrossSecSysTracking', utilStr)
gVisCrossSecSystFD.SetNameTitle(f'g{graphName}SysFD', utilStr)
gVisCrossSecSystLumi.SetNameTitle(f'g{graphName}SysLumi', utilStr)
gVisCrossSecSystBR.SetNameTitle(f'g{graphName}SysBR', utilStr)
SetObjectStyle(hVisibleCrossSectionStat, color=kBlack, markerstyle=kFullCircle)
SetObjectStyle(gVisCrossSecUncorrSyst, color=kBlack, fillstyle=0)
SetObjectStyle(gVisCrossSecCorrSyst, color=kBlack, fillstyle=0)
SetObjectStyle(gVisCrossSecTotSyst, color=kBlack, fillstyle=0)
SetObjectStyle(gVisCrossSecSystLumi, color=kBlack, fillstyle=0)
SetObjectStyle(gVisCrossSecSystBR, color=kBlack, fillstyle=0)
SetObjectStyle(gVisCrossSecSystFD, color=kBlack, fillstyle=0)
SetObjectStyle(gVisCrossSecSystTracking, color=kBlack, fillstyle=0)
SetObjectStyle(gVisCrossSecSystWoTrFDBRAndLumi, color=kBlack, fillstyle=0)
hVisibleCrossSectionStat.SetBinContent(1, visCrossSec)
hVisibleCrossSectionStat.SetBinError(1, statUnc)
gVisCrossSecUncorrSyst.SetPoint(0, 1., visCrossSec)
gVisCrossSecCorrSyst.SetPoint(0, 1., visCrossSec)
gVisCrossSecTotSyst.SetPoint(0, 1., visCrossSec)
gVisCrossSecSystWoTrFDBRAndLumi.SetPoint(0, 1., visCrossSec)
gVisCrossSecSystTracking.SetPoint(0, 1., visCrossSec)
gVisCrossSecSystFD.SetPoint(0, 1., visCrossSec)
gVisCrossSecSystLumi.SetPoint(0, 1., visCrossSec)
gVisCrossSecSystBR.SetPoint(0, 1., visCrossSec)
gVisCrossSecUncorrSyst.SetPointError(0, 0.3, 0.3, uncorrSystUnc, uncorrSystUnc)
gVisCrossSecCorrSyst.SetPointError(0, 0.3, 0.3, corrSystUncLow, corrSystUncHigh)
gVisCrossSecTotSyst.SetPointError(0, 0.3, 0.3, totSystUncLow, totSystUncHigh)
gVisCrossSecSystWoTrFDBRAndLumi.SetPointError(0, 0.3, 0.3, systWoTrFDBRLumi, systWoTrFDBRLumi)
gVisCrossSecSystTracking.SetPointError(0, 0.3, 0.3, trackSystUnc, trackSystUnc)
gVisCrossSecSystFD.SetPointError(0, 0.3, 0.3, FDSystUncLow, FDSystUncHigh)
gVisCrossSecSystLumi.SetPointError(0, 0.3, 0.3, visCrossSec*lumiUnc, visCrossSec*lumiUnc)
gVisCrossSecSystBR.SetPointError(0, 0.3, 0.3, visCrossSec*BRunc/BR, visCrossSec*BRunc/BR)
# otput file
outFile = TFile.Open(args.outFileName, 'recreate')
hVisibleCrossSectionStat.Write()
gVisCrossSecUncorrSyst.Write()
gVisCrossSecCorrSyst.Write()
gVisCrossSecTotSyst.Write()
gVisCrossSecSystWoTrFDBRAndLumi.Write()
gVisCrossSecSystTracking.Write()
gVisCrossSecSystFD.Write()
gVisCrossSecSystBR.Write()
if not args.PbPb:
gVisCrossSecSystLumi.Write()
outFile.Close()
print(f'Saved output file: {args.outFileName}')