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doFit_class.py
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doFit_class.py
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#! /usr/bin/env python
import os
import glob
import math
import array
import ROOT
import ntpath
from ROOT import gROOT, gStyle, gSystem, TGaxis, TStyle, TLatex, TString, TF1,TFile,TLine, TLegend, TGraphAsymmErrors, TH1D,TH2D,THStack,TChain, TCanvas, TMatrixDSym, TMath, TText, TPad, RooFit, RooArgSet, RooArgList, RooArgSet, RooAbsData, RooAbsPdf, RooAddPdf, RooWorkspace, RooExtendPdf,RooCBShape, RooLandau, RooFFTConvPdf, RooGaussian, RooBifurGauss, RooArgusBG, RooDataSet, RooExponential,RooBreitWigner, RooVoigtian, RooNovosibirsk, RooRealVar,RooFormulaVar, RooDataHist, RooHistPdf,RooCategory, RooChebychev, RooSimultaneous, RooGenericPdf,RooConstVar, RooKeysPdf, RooHistPdf, RooEffProd, RooProdPdf, TIter, kTRUE, kFALSE, kGray, kRed, kDashed, kGreen,kAzure, kOrange, kBlack,kBlue,kYellow,kCyan, kMagenta, kWhite
import subprocess
from subprocess import Popen
from optparse import OptionParser
#from trainingClass import *
#from BoostedWSamples import *
#from mvaApplication import *
import sys
#if os.path.isfile('tdrstyle.C'):
# gROOT.ProcessLine('.L tdrstyle.C')
# ROOT.setTDRStyle()
# print "Found tdrstyle.C file, using this style."
# if os.path.isfile('CMSTopStyle.cc'):
# gROOT.ProcessLine('.L CMSTopStyle.cc')
# style = ROOT.CMSTopStyle()
# style.setupICHEPv1()
# print "Found CMSTopStyle.cc file, use TOP style if requested in xml file."
############################################################
############################################
# Job steering #
############################################
parser = OptionParser()
parser.add_option('-b', action='store_true', dest='noX', default=False, help='no X11 windows')
parser.add_option('-c', '--channel',action="store",type="string",dest="channel",default="mu")
#parser.add_option('-p', '--psmodel',action="store",type="string",dest="psmodel",default="pythia")
parser.add_option('-p', '--psmodel',action="store",type="string",dest="psmodel",default="herwig")
parser.add_option('-s','--simple', action='store_true', dest='simple', default=True, help='pre-limit in simple mode')
parser.add_option('-m','--multi', action='store_true', dest='multi', default=False, help='pre-limit in multi mode')
parser.add_option('--fitwtagger', action='store_true', dest='fitwtagger', default=False, help='fit wtagger jet in ttbar control sample')
parser.add_option('--fitwtaggersim', action='store_true', dest='fitwtaggersim', default=False, help='fit wtagger jet in ttbar control sample with mu and el samples simultaneously')
parser.add_option('--check', action='store_true', dest='check', default=False, help='check the workspace for limit setting')
parser.add_option('--control', action='store_true', dest='control', default=False, help='control plot')
parser.add_option('--fitsignal', action='store_true', dest='fitsignal', default=False, help='fit signal')
parser.add_option('--closuretest', action='store',type="int", dest='closuretest', default=0, help='closure test; 0: no test; 1: A1->A2; 2: A->B')
parser.add_option('--cprime', action="store",type="int",dest="cprime",default=10)
parser.add_option('--BRnew', action="store",type="int",dest="BRnew",default=0)
parser.add_option('--inPath', action="store",type="string",dest="inPath",default="./")
(options, args) = parser.parse_args()
############################################################
ROOT.gSystem.Load(options.inPath+"/PDFs/HWWLVJRooPdfs_cxx.so")
ROOT.gSystem.Load(options.inPath+"/PDFs/PdfDiagonalizer_cc.so")
ROOT.gSystem.Load(options.inPath+"/PDFs/Util_cxx.so")
from ROOT import draw_error_band, draw_error_band_extendPdf, draw_error_band_Decor, draw_error_band_shape_Decor, Calc_error_extendPdf, Calc_error, RooErfExpPdf, RooAlpha, RooAlpha4ErfPowPdf, RooAlpha4ErfPow2Pdf, RooAlpha4ErfPowExpPdf, PdfDiagonalizer, RooPowPdf, RooPow2Pdf, RooErfPowExpPdf, RooErfPowPdf, RooErfPow2Pdf, RooQCDPdf, RooUser1Pdf, RooBWRunPdf#, ClopperPearsonLimits
class doFit_wj_and_wlvj:
def __init__(self, in_channel="mu",in_higgs_sample="ggH600", in_mlvj_signal_region_min=500, in_mlvj_signal_region_max=700, in_mj_min=30, in_mj_max=140, in_mlvj_min=400., in_mlvj_max=1400., fit_model="ErfExp_v1", fit_model_alter="ErfPow_v1", input_workspace=None):
self.setTDRStyle();#set plots style
print "Begin to fit"
RooAbsPdf.defaultIntegratorConfig().setEpsRel(1e-9) ;
RooAbsPdf.defaultIntegratorConfig().setEpsAbs(1e-9) ;
self.channel=in_channel;#el or muon
self.higgs_sample=in_higgs_sample;
if in_higgs_sample=="ggH600": self.vbfhiggs_sample="vbfH600";
if in_higgs_sample=="ggH700": self.vbfhiggs_sample="vbfH700";
if in_higgs_sample=="ggH800": self.vbfhiggs_sample="vbfH800";
if in_higgs_sample=="ggH900": self.vbfhiggs_sample="vbfH900";
if in_higgs_sample=="ggH1000":self.vbfhiggs_sample="vbfH1000";
if in_higgs_sample=="ggH1500":self.vbfhiggs_sample="vbfH1500";
if in_higgs_sample=="ggH2000":self.vbfhiggs_sample="vbfH2000";
self.BinWidth_mlvj=50.;
self.BinWidth_mj=5.;
#narrow the BinWidth_mj and BinWidth_mlvj by a factor of 5. Because Higgs-Combination-Tools will generate a binned sample, so need the bin width narrow. So, as a easy selution, we will increase the bin-width by a factor of 5 when ploting m_j m_WW
self.narrow_factor= 5.;
if options.fitwtaggersim or options.fitwtagger: self.narrow_factor=1.;
self.BinWidth_mlvj=self.BinWidth_mlvj/self.narrow_factor;
self.BinWidth_mj=self.BinWidth_mj/self.narrow_factor;
nbins_mlvj=int((in_mlvj_max-in_mlvj_min)/self.BinWidth_mlvj);
in_mlvj_max=in_mlvj_min+nbins_mlvj*self.BinWidth_mlvj;
nbins_mj=int((in_mj_max-in_mj_min)/self.BinWidth_mj);
in_mj_max=in_mj_min+nbins_mj*self.BinWidth_mj;
rrv_mass_j = RooRealVar("rrv_mass_j","Pruned jet mass",(in_mj_min+in_mj_max)/2.,in_mj_min,in_mj_max,"GeV/c^{2}");
rrv_mass_j.setBins(nbins_mj);
#rrv_mass_lvj= RooRealVar("rrv_mass_lvj","m_{WW}",(in_mlvj_min+in_mlvj_max)/2.,in_mlvj_min,in_mlvj_max,"GeV/c^{2}");
rrv_mass_lvj= RooRealVar("rrv_mass_lvj","m_{l#nuj}",(in_mlvj_min+in_mlvj_max)/2.,in_mlvj_min,in_mlvj_max,"GeV/c^{2}");
rrv_mass_lvj.setBins(nbins_mlvj);
if input_workspace is None:
self.workspace4fit_ = RooWorkspace("workspace4fit_","workspace4fit_");
else:
self.workspace4fit_ = input_workspace;
getattr(self.workspace4fit_,"import")(rrv_mass_j);
getattr(self.workspace4fit_,"import")(rrv_mass_lvj);
#prepare workspace for unbin-Limit
self.workspace4limit_ = RooWorkspace("workspace4limit_","workspace4limit_");
if options.closuretest ==0:
self.mj_sideband_lo_min=in_mj_min;
self.mj_sideband_lo_max=65;
self.mj_signal_min=65;
self.mj_signal_max=105;
self.mj_sideband_hi_min=105;
self.mj_sideband_hi_max=in_mj_max;
if options.closuretest ==1: ##closure test A1->A2
self.mj_sideband_lo_min=in_mj_min;
self.mj_sideband_lo_max=55;
self.mj_signal_min=55;
self.mj_signal_max= 65;
self.mj_sideband_hi_min=105;
self.mj_sideband_hi_max=in_mj_max;
if options.closuretest ==2: #closure test A->B
self.mj_sideband_lo_min=in_mj_min;
self.mj_sideband_lo_max=65;
self.mj_signal_min=100;
self.mj_signal_max=115;
self.mj_sideband_hi_min=115;
self.mj_sideband_hi_max=in_mj_max;
rrv_mass_j.setRange("sb_lo",self.mj_sideband_lo_min,self.mj_sideband_lo_max);
rrv_mass_j.setRange("signal_region",self.mj_signal_min,self.mj_signal_max);
rrv_mass_j.setRange("sb_hi",self.mj_sideband_hi_min,self.mj_sideband_hi_max);
rrv_mass_j.setRange("sblo_to_sbhi",self.mj_sideband_lo_min,self.mj_sideband_hi_max);
rrv_mass_j.setRange("controlsample_fitting_range",40,130);
self.mlvj_signal_min=in_mlvj_signal_region_min
self.mlvj_signal_max=in_mlvj_signal_region_max
rrv_mass_lvj.setRange("signal_region",self.mlvj_signal_min,self.mlvj_signal_max);
#prepare the data and mc files
if options.fitwtagger or options.fitwtaggersim:
self.file_Directory="trainingtrees_%s/"%(self.channel);
else:
self.file_Directory="trainingtrees_%s/"%(self.channel);
self.PS_model= options.psmodel
#self.PS_model="pythia"; #self.PS_model="herwig"
#self.file_data=("ofile_data_sub.root");#keep blind!!!!
self.file_data=("ofile_data.root");#keep blind!!!!
#self.file_data=("ofile_pseudodata.root");#keep blind!!!!
self.file_pseudodata=("ofile_pseudodata4higgs.root");#fake data
self.file_ggH=("ofile_%s.root"%(self.higgs_sample));
self.file_vbfH=("ofile_%s.root"%(self.vbfhiggs_sample));
#WJets0 is the default PS model, WJets1 is the alternative PS model
if self.PS_model=="pythia":
self.file_WJets0_mc=("ofile_WJets_Pythia.root");
self.file_WJets1_mc=("ofile_WJets_Herwig.root");
else:
self.file_WJets0_mc=("ofile_WJets_Herwig.root");
self.file_WJets1_mc=("ofile_WJets_Pythia.root");
self.file_VV_mc=("ofile_VV.root");# WW+WZ
self.file_TTbar_mc=("ofile_TTbar_Powheg.root");
self.file_TTbar_matchDn_mc=("ofile_TTbar_matchDn.root");
self.file_TTbar_matchUp_mc=("ofile_TTbar_matchUp.root");
self.file_TTbar_scaleDn_mc=("ofile_TTbar_scaleDn.root");
self.file_TTbar_scaleUp_mc=("ofile_TTbar_scaleUp.root");
#self.file_TTbar_Powheg_mc=("ofile_TTbar_Powheg.root");
self.file_TTbar_MG_mc=("ofile_TTbar_MG.root");
self.file_STop_mc =("ofile_STop.root");#single Top
#result files: The event number, parameters and error write into a txt file. The dataset and pdfs write into a root file
if not os.path.isdir("cards_%s"%(self.channel)): os.system("mkdir cards_%s"%(self.channel));
if not os.path.isdir("cards_%s_vbfH"%(self.channel)): os.system("mkdir cards_%s_vbfH"%(self.channel));
if not os.path.isdir("cards_%s_ggH"%(self.channel)): os.system("mkdir cards_%s_ggH"%(self.channel));
self.rlt_DIR="cards_%s/"%(self.channel)
self.file_rlt_txt = self.rlt_DIR+"other_hwwlvj_%s_%s_%02d_%02d.txt"%(self.higgs_sample,self.channel,options.cprime,options.BRnew)
self.file_rlt_root = self.rlt_DIR+"hwwlvj_%s_%s_%02d_%02d_workspace.root"%(self.higgs_sample,self.channel,options.cprime,options.BRnew)
self.file_datacard_unbin_ggHvbfH = self.rlt_DIR+"hwwlvj_%s_%s_%02d_%02d_unbin.txt"%(self.higgs_sample,self.channel,options.cprime,options.BRnew)
#self.file_datacard_unbin_ggH = self.rlt_DIR+"hwwlvj_%s_%s_ggH_%02d_%02d_unbin.txt"%(self.higgs_sample,self.channel,options.cprime,options.BRnew)
#self.file_datacard_unbin_vbfH = self.rlt_DIR+"hwwlvj_%s_%s_vbfH_%02d_%02d_unbin.txt"%(self.higgs_sample,self.channel,options.cprime,options.BRnew)
self.file_datacard_unbin_ggH = "cards_%s_ggH/hwwlvj_%s_%s_%02d_%02d_unbin.txt"%(self.channel, self.higgs_sample,self.channel,options.cprime,options.BRnew)
self.file_datacard_unbin_vbfH = "cards_%s_vbfH/hwwlvj_%s_%s_%02d_%02d_unbin.txt"%(self.channel, self.higgs_sample,self.channel,options.cprime,options.BRnew)
self.file_datacard_counting_ggHvbfH = self.rlt_DIR+"hwwlvj_%s_%s_%02d_%02d_counting.txt"%(self.higgs_sample,self.channel,options.cprime,options.BRnew)
#self.file_datacard_counting_ggH = self.rlt_DIR+"hwwlvj_%s_%s_ggH_%02d_%02d_counting.txt"%(self.higgs_sample,self.channel,options.cprime,options.BRnew)
#self.file_datacard_counting_vbfH = self.rlt_DIR+"hwwlvj_%s_%s_vbfH_%02d_%02d_counting.txt"%(self.higgs_sample,self.channel,options.cprime,options.BRnew)
self.file_datacard_counting_ggH = "cards_%s_ggH/hwwlvj_%s_%s_%02d_%02d_counting.txt"%(self.channel, self.higgs_sample,self.channel,options.cprime,options.BRnew)
self.file_datacard_counting_vbfH = "cards_%s_vbfH/hwwlvj_%s_%s_%02d_%02d_counting.txt"%(self.channel, self.higgs_sample,self.channel,options.cprime,options.BRnew)
self.file_out=open(self.file_rlt_txt,"w");
self.file_out.write("Welcome:\n");
self.file_out.close()
self.file_out=open(self.file_rlt_txt,"a+");
self.higgs_xs_scale=1.0; #higgs XS scale
self.color_palet={ #color palet
#'data' : kBlack,
#'WJets' : kRed,
#'VV' : kAzure+8,
#'TTbar' : kGreen,
#'STop' : kYellow,
#'ggH': kBlue,
#'vbfH': kMagenta,
#'Uncertainty' : kBlack,
#'Other_Backgrounds' : kBlue,
#'Signal' : kBlue
#syn with Raffaele
'data' : 1,
'WJets' : 2,
'VV' : 4,
'STop' : 7,
'TTbar' : 210,
'ggH' : 1,
#'vbfH' : kMagenta,
'vbfH' : 12,
'Signal': 1,
'Uncertainty' : kBlack,
'Other_Backgrounds' : kBlue
}
#self.wtagger_label="tight";#50%
self.wtagger_label="medium";#75%
#self.wtagger_label="loose";#90%
#self.wtagger_label="nocut";#nocut
if self.wtagger_label=="tight":
if self.channel=="el":self.wtagger_cut=0.43 ;
if self.channel=="mu":self.wtagger_cut=0.43 ;
if self.wtagger_label=="medium":
if self.channel=="el":self.wtagger_cut=0.5 ;
if self.channel=="mu":self.wtagger_cut=0.5 ;
if self.wtagger_label=="loose":
if self.channel=="el":self.wtagger_cut=0.66 ;
if self.channel=="mu":self.wtagger_cut=0.65 ;
if self.wtagger_label=="nocut": self.wtagger_cut=10000;
#medium wtagger_eff reweight between data and mc
self.rrv_wtagger_eff_reweight_forT_relative_error=0.06;
if self.channel=="mu":
self.rrv_wtagger_eff_reweight_forT=RooRealVar("rrv_wtagger_eff_reweight_forT","rrv_wtagger_eff_reweight_forT",0.96); self.rrv_wtagger_eff_reweight_forT.setError(self.rrv_wtagger_eff_reweight_forT_relative_error*self.rrv_wtagger_eff_reweight_forT.getVal());
self.rrv_wtagger_eff_reweight_forV=RooRealVar("rrv_wtagger_eff_reweight_forV","rrv_wtagger_eff_reweight_forV",0.96); self.rrv_wtagger_eff_reweight_forV.setError(0.1*self.rrv_wtagger_eff_reweight_forV.getVal());
if self.channel=="el":
self.rrv_wtagger_eff_reweight_forT=RooRealVar("rrv_wtagger_eff_reweight_forT","rrv_wtagger_eff_reweight_forT",0.92); self.rrv_wtagger_eff_reweight_forT.setError(self.rrv_wtagger_eff_reweight_forT_relative_error*self.rrv_wtagger_eff_reweight_forT.getVal());
self.rrv_wtagger_eff_reweight_forV=RooRealVar("rrv_wtagger_eff_reweight_forV","rrv_wtagger_eff_reweight_forV",0.87); self.rrv_wtagger_eff_reweight_forV.setError(0.12*self.rrv_wtagger_eff_reweight_forV.getVal());
print "wtagger efficiency correction for Top sample: %s +/- %s"%(self.rrv_wtagger_eff_reweight_forT.getVal(), self.rrv_wtagger_eff_reweight_forT.getError());
print "wtagger efficiency correction for V sample: %s +/- %s"%(self.rrv_wtagger_eff_reweight_forV.getVal(), self.rrv_wtagger_eff_reweight_forV.getError());
self.mean_shift=1.1; self.sigma_scale=1.167; #correct the W-jet mass peak difference between data and MC
#self.mean_shift=0; self.sigma_scale=1.; #correct the W-jet mass peak difference between data and MC
#PU study: 0-11,11-15,15-100
self.nPV_min= 0;
self.nPV_max= 300;
self.vpt_cut= 200;
#met cut:el 70; mu: 50
self.pfMET_cut= 50;
self.lpt_cut = 30;
if self.channel=="el":
self.pfMET_cut= 70;
self.lpt_cut = 35;
#deltaPhi_METj cut
self.deltaPhi_METj_cut =2.0;
#self.file_ttbar_control_txt = "ttbar_control_%s_%s_wtaggercut%s.txt"%(self.higgs_sample,self.channel,self.wtagger_label);
#self.file_out_ttbar_control=open(self.file_ttbar_control_txt,"w")
if options.fitwtagger or options.fitwtaggersim:
self.file_ttbar_control_txt = "ttbar_control_%s_%s_wtaggercut%s.txt"%(self.higgs_sample,self.channel,self.wtagger_label);
self.file_out_ttbar_control=open(self.file_ttbar_control_txt,"w")
self.MODEL_4_mlvj=fit_model;
self.MODEL_4_mlvj_alter=fit_model_alter;
# parameters of data-driven method to get the WJets background event number.
self.number_WJets_insideband=-1;
self.datadriven_alpha_WJets_unbin=-1;
self.datadriven_alpha_WJets_counting=-1;
#uncertainty for datacard
self.lumi_uncertainty=0.044;
#self.XS_TTbar_uncertainty=0.063;# from AN-12-368 table8
#self.XS_STop_uncertainty =0.05 ;# from AN-12-368 table8
#self.XS_VV_uncertainty =0.10 ;# from AN-12-368 table8
self.XS_STop_uncertainty =0.30 ;
self.XS_VV_uncertainty =0.30 ;
self.QCDscale_ggH =0.10; self.QCDscale_vbfH =0.01;
self.pdf_gg =0.0; self.pdf_vbf =0.0;
self.hwwlnJ_pdfAcc_gg=0.03; self.hwwlnJ_pdfAcc_vbf=0.01;
# from twiki https:#twiki.cern.ch/twiki/bin/view/LHCPhysics/CERNYellowReportPageAt8TeV,
if self.higgs_sample=="ggH600":
self.QCDscale_ggH =0.059; self.QCDscale_vbfH=0.007
self.pdf_gg =0.095; self.pdf_vbf =0.036
self.hwwlnJ_pdfAcc_gg=0.036;self.hwwlnJ_pdfAcc_vbf=0.007
if self.higgs_sample=="ggH700":
self.QCDscale_ggH =0.060; self.QCDscale_vbfH=0.008;
self.pdf_gg =0.101; self.pdf_vbf =0.042
self.hwwlnJ_pdfAcc_gg=0.038;self.hwwlnJ_pdfAcc_vbf=0.008
if self.higgs_sample=="ggH800":
self.QCDscale_ggH =0.061; self.QCDscale_vbfH=0.010;
self.pdf_gg =0.106; self.pdf_vbf =0.047;
self.hwwlnJ_pdfAcc_gg=0.040;self.hwwlnJ_pdfAcc_vbf=0.009
if self.higgs_sample=="ggH900":
self.QCDscale_ggH =0.063; self.QCDscale_vbfH=0.012
self.pdf_gg =0.111; self.pdf_vbf =0.053
self.hwwlnJ_pdfAcc_gg=0.042;self.hwwlnJ_pdfAcc_vbf=0.010
if self.higgs_sample=="ggH1000":
self.QCDscale_ggH =0.065; self.QCDscale_vbfH=0.013;
self.pdf_gg =0.121; self.pdf_vbf =0.059;
self.hwwlnJ_pdfAcc_gg=0.046;self.hwwlnJ_pdfAcc_vbf=0.011
self.interference_ggH_uncertainty=0.1;
self.interference_vbfH_uncertainty=0.5;
#normlization uncertainty from jet_mass
self.WJets_normlization_uncertainty_from_jet_mass=0.;
self.VV_normlization_uncertainty_from_jet_mass=0.;
self.STop_normlization_uncertainty_from_jet_mass=0.;
self.TTbar_normlization_uncertainty_from_jet_mass=0.;
#el and mu trigger and eff uncertainty, AN2012_368_v5 12.3
self.lep_trigger_uncertainty=0.01;
self.lep_eff_uncertainty=0.02;
#b tag scale uncertainty
self.btag_scale=0.98;
self.btag_scale_uncertainty=0.025;
# shape parameter uncertainty
self.FloatingParams=RooArgList("floatpara_list");
##################### ---------------------------------------------------
def setTDRStyle(self):
self.tdrStyle =TStyle("tdrStyle","Style for P-TDR");
#For the canvas:
self.tdrStyle.SetCanvasBorderMode(0);
self.tdrStyle.SetCanvasColor(kWhite);
self.tdrStyle.SetCanvasDefH(600); #Height of canvas
self.tdrStyle.SetCanvasDefW(600); #Width of canvas
self.tdrStyle.SetCanvasDefX(0); #POsition on screen
self.tdrStyle.SetCanvasDefY(0);
#For the Pad:
self.tdrStyle.SetPadBorderMode(0);
#self.tdrStyle.SetPadBorderSize(Width_t size = 1);
self.tdrStyle.SetPadColor(kWhite);
self.tdrStyle.SetPadGridX(False);
self.tdrStyle.SetPadGridY(False);
self.tdrStyle.SetGridColor(0);
self.tdrStyle.SetGridStyle(3);
self.tdrStyle.SetGridWidth(1);
#For the frame:
self.tdrStyle.SetFrameBorderMode(0);
self.tdrStyle.SetFrameBorderSize(1);
self.tdrStyle.SetFrameFillColor(0);
self.tdrStyle.SetFrameFillStyle(0);
self.tdrStyle.SetFrameLineColor(1);
self.tdrStyle.SetFrameLineStyle(1);
self.tdrStyle.SetFrameLineWidth(1);
#For the histo:
#self.tdrStyle.SetHistFillColor(1);
#self.tdrStyle.SetHistFillStyle(0);
self.tdrStyle.SetHistLineColor(1);
self.tdrStyle.SetHistLineStyle(0);
self.tdrStyle.SetHistLineWidth(1);
#self.tdrStyle.SetLegoInnerR(Float_t rad = 0.5);
#self.tdrStyle.SetNumberContours(Int_t number = 20);
self.tdrStyle.SetEndErrorSize(2);
# self.tdrStyle.SetErrorMarker(20);
self.tdrStyle.SetErrorX(0.);
self.tdrStyle.SetMarkerStyle(20);
#For the fit/function:
self.tdrStyle.SetOptFit(1);
self.tdrStyle.SetFitFormat("5.4g");
self.tdrStyle.SetFuncColor(2);
self.tdrStyle.SetFuncStyle(1);
self.tdrStyle.SetFuncWidth(1);
#For the date:
self.tdrStyle.SetOptDate(0);
#self.tdrStyle.SetDateX(Float_t x = 0.01);
#self.tdrStyle.SetDateY(Float_t y = 0.01);
#For the statistics box:
self.tdrStyle.SetOptFile(0);
self.tdrStyle.SetOptStat(0); #To display the mean and RMS: SetOptStat("mr");
self.tdrStyle.SetStatColor(kWhite);
self.tdrStyle.SetStatFont(42);
self.tdrStyle.SetStatFontSize(0.025);
self.tdrStyle.SetStatTextColor(1);
self.tdrStyle.SetStatFormat("6.4g");
self.tdrStyle.SetStatBorderSize(1);
self.tdrStyle.SetStatH(0.1);
self.tdrStyle.SetStatW(0.15);
#self.tdrStyle.SetStatStyle(Style_t style = 1001);
#self.tdrStyle.SetStatX(Float_t x = 0);
#self.tdrStyle.SetStatY(Float_t y = 0);
#Margins:
self.tdrStyle.SetPadTopMargin(0.05);
self.tdrStyle.SetPadBottomMargin(0.13);
self.tdrStyle.SetPadLeftMargin(0.18);
self.tdrStyle.SetPadRightMargin(0.06);
#For the Global title:
self.tdrStyle.SetOptTitle(0);
self.tdrStyle.SetTitleFont(42);
self.tdrStyle.SetTitleColor(1);
self.tdrStyle.SetTitleTextColor(1);
self.tdrStyle.SetTitleFillColor(10);
self.tdrStyle.SetTitleFontSize(0.05);
#self.tdrStyle.SetTitleH(0); #Set the height of the title box
#self.tdrStyle.SetTitleW(0); #Set the width of the title box
#self.tdrStyle.SetTitleX(0); #Set the position of the title box
#self.tdrStyle.SetTitleY(0.985); #Set the position of the title box
#self.tdrStyle.SetTitleStyle(Style_t style = 1001);
#self.tdrStyle.SetTitleBorderSize(2);
#For the axis titles:
self.tdrStyle.SetTitleColor(1, "XYZ");
self.tdrStyle.SetTitleFont(42, "XYZ");
self.tdrStyle.SetTitleSize(0.03, "XYZ");
#self.tdrStyle.SetTitleXSize(Float_t size = 0.02); #Another way to set the size?
#self.tdrStyle.SetTitleYSize(Float_t size = 0.02);
self.tdrStyle.SetTitleXOffset(0.9);
self.tdrStyle.SetTitleYOffset(1.5);
#self.tdrStyle.SetTitleOffset(1.1, "Y"); #Another way to set the Offset
#For the axis labels:
self.tdrStyle.SetLabelColor(1, "XYZ");
self.tdrStyle.SetLabelFont(42, "XYZ");
self.tdrStyle.SetLabelOffset(0.007, "XYZ");
self.tdrStyle.SetLabelSize(0.03, "XYZ");
#For the axis:
self.tdrStyle.SetAxisColor(1, "XYZ");
self.tdrStyle.SetStripDecimals(kTRUE);
self.tdrStyle.SetTickLength(0.03, "XYZ");
self.tdrStyle.SetNdivisions(510, "XYZ");
self.tdrStyle.SetPadTickX(1); #To get tick marks on the opposite side of the frame
self.tdrStyle.SetPadTickY(1);
#Change for log plots:
self.tdrStyle.SetOptLogx(0);
self.tdrStyle.SetOptLogy(0);
self.tdrStyle.SetOptLogz(0);
#Postscript options:
self.tdrStyle.SetPaperSize(20.,20.);
#self.tdrStyle.SetLineScalePS(Float_t scale = 3);
#self.tdrStyle.SetLineStyleString(Int_t i, const char* text);
#self.tdrStyle.SetHeaderPS(const char* header);
#self.tdrStyle.SetTitlePS(const char* pstitle);
#self.tdrStyle.SetBarOffset(Float_t baroff = 0.5);
#self.tdrStyle.SetBarWidth(Float_t barwidth = 0.5);
#self.tdrStyle.SetPaintTextFormat(const char* format = "g");
#self.tdrStyle.SetPalette(Int_t ncolors = 0, Int_t* colors = 0);
#self.tdrStyle.SetTimeOffset(Double_t toffset);
#self.tdrStyle.SetHistMinimumZero(kTRUE);
self.tdrStyle.cd();
##################### ---------------------------------------------------
def make_Pdf(self, label, in_model_name, mass_spectrum="_mj", ConstraintsList=[]):
if TString(mass_spectrum).Contains("_mj"): rrv_x = self.workspace4fit_.var("rrv_mass_j");
if TString(mass_spectrum).Contains("_mlvj"): rrv_x = self.workspace4fit_.var("rrv_mass_lvj");
if in_model_name == "Voig":
rrv_mean_voig=RooRealVar("rrv_mean_voig"+label+"_"+self.channel,"rrv_mean_voig"+label+"_"+self.channel,84,78,88);# W mass: 80.385
rrv_width_voig=RooRealVar("rrv_width_voig"+label+"_"+self.channel,"rrv_width_voig"+label+"_"+self.channel,7.,1,40);
rrv_sigma_voig=RooRealVar("rrv_sigma_voig"+label+"_"+self.channel,"rrv_sigma_voig"+label+"_"+self.channel,5,0.01,20);
model_pdf = RooVoigtian("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_voig,rrv_width_voig,rrv_sigma_voig);
if in_model_name == "Voig_v1":
rrv_mean_voig=RooRealVar("rrv_mean_voig"+label+"_"+self.channel,"rrv_mean_voig"+label+"_"+self.channel,650,550,1200);# Higgs mass 600-1000
rrv_width_voig=RooRealVar("rrv_width_voig"+label+"_"+self.channel,"rrv_width_voig"+label+"_"+self.channel,100.,10,600);
rrv_sigma_voig=RooRealVar("rrv_sigma_voig"+label+"_"+self.channel,"rrv_sigma_voig"+label+"_"+self.channel,200,10,400);
model_pdf = RooVoigtian("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_voig,rrv_width_voig,rrv_sigma_voig);
if in_model_name == "BW": # FFT: BreitWigner*CBShape
rrv_mean_BW=RooRealVar("rrv_mean_BW"+label+"_"+self.channel,"rrv_mean_BW"+label+"_"+self.channel,84,78, 88);
rrv_width_BW=RooRealVar("rrv_width_BW"+label+"_"+self.channel,"rrv_width_BW"+label+"_"+self.channel,20,1,40);
model_pdf = RooBreitWigner("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_BW,rrv_width_BW);
if in_model_name == "BW_v1": # FFT: BreitWigner*CBShape
rrv_mean_BW=RooRealVar("rrv_mean_BW"+label+"_"+self.channel,"rrv_mean_BW"+label+"_"+self.channel,900,400, 1200);
rrv_width_BW=RooRealVar("rrv_width_BW"+label+"_"+self.channel,"rrv_width_BW"+label+"_"+self.channel,400,200,800);
model_pdf = RooBreitWigner("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_BW,rrv_width_BW);
if in_model_name == "BWRUN":
if label=="_ggH600_signal_region" or label=="_ggH600_sb_lo":
rrv_mean_BWRUN = RooRealVar("rrv_mean_BWRUN"+label+"_"+self.channel,"rrv_mean_BWRUN"+label+"_"+self.channel,600,550,650);
rrv_width_BWRUN= RooRealVar("rrv_width_BWRUN"+label+"_"+self.channel,"rrv_width_BWRUN"+label+"_"+self.channel,60,50,70);
if label=="_ggH700_signal_region" or label=="_ggH700_sb_lo":
rrv_mean_BWRUN = RooRealVar("rrv_mean_BWRUN"+label+"_"+self.channel,"rrv_mean_BWRUN"+label+"_"+self.channel,700,650,750);
rrv_width_BWRUN= RooRealVar("rrv_width_BWRUN"+label+"_"+self.channel,"rrv_width_BWRUN"+label+"_"+self.channel,100,80,120);
if label=="_ggH800_signal_region" or label=="_ggH800_sb_lo":
rrv_mean_BWRUN = RooRealVar("rrv_mean_BWRUN"+label+"_"+self.channel,"rrv_mean_BWRUN"+label+"_"+self.channel,800,750,850);
rrv_width_BWRUN= RooRealVar("rrv_width_BWRUN"+label+"_"+self.channel,"rrv_width_BWRUN"+label+"_"+self.channel,150,100,180);
if label=="_ggH900_signal_region" or label=="_ggH900_sb_lo":
rrv_mean_BWRUN = RooRealVar("rrv_mean_BWRUN"+label+"_"+self.channel,"rrv_mean_BWRUN"+label+"_"+self.channel,900,850,990);
rrv_width_BWRUN= RooRealVar("rrv_width_BWRUN"+label+"_"+self.channel,"rrv_width_BWRUN"+label+"_"+self.channel,200,100,260);
if label=="_ggH1000_signal_region" or label=="_ggH1000_sb_lo":
rrv_mean_BWRUN = RooRealVar("rrv_mean_BWRUN"+label+"_"+self.channel,"rrv_mean_BWRUN"+label+"_"+self.channel,1000,950,1050);
rrv_width_BWRUN= RooRealVar("rrv_width_BWRUN"+label+"_"+self.channel,"rrv_width_BWRUN"+label+"_"+self.channel,200,100,370);
#rrv_mean_BWRUN = RooRealVar("rrv_mean_BWRUN"+label+"_"+self.channel,"rrv_mean_BWRUN"+label+"_"+self.channel,800,400,1200);
#rrv_width_BWRUN= RooRealVar("rrv_width_BWRUN"+label+"_"+self.channel,"rrv_width_BWRUN"+label+"_"+self.channel,200,30,500);
bwrun = RooBWRunPdf("bwrun"+label+"_"+self.channel+mass_spectrum,"bwrun"+label+"_"+self.channel+mass_spectrum,rrv_x, rrv_mean_BWRUN, rrv_width_BWRUN);
rrv_mean_cb = RooRealVar("rrv_mean_cb"+label+"_"+self.channel,"rrv_mean_cb"+label+"_"+self.channel,0);
rrv_sigma_cb = RooRealVar("rrv_sigma_cb"+label+"_"+self.channel,"rrv_sigma_cb"+label+"_"+self.channel,50,10,300);
rrv_alpha_cb = RooRealVar("rrv_alpha_cb"+label+"_"+self.channel,"rrv_alpha_cb"+label+"_"+self.channel,-3,-20,-1);
rrv_n_cb = RooRealVar("rrv_n_cb"+label+"_"+self.channel,"rrv_n_cb"+label+"_"+self.channel,5,1,9);
#cbshape = RooCBShape("cbshape"+label+"_"+self.channel,"cbshape"+label+"_"+self.channel, rrv_x,rrv_mean_cb,rrv_sigma_cb,rrv_alpha_cb,rrv_n_cb);
cbshape = RooGaussian("cbshape"+label+"_"+self.channel,"cbshape"+label+"_"+self.channel, rrv_x,rrv_mean_cb,rrv_sigma_cb);
fft = RooFFTConvPdf("fft"+label+"_"+self.channel+mass_spectrum,"fft"+label+"_"+self.channel+mass_spectrum, rrv_x, bwrun, cbshape);
#rrv_mean_novo = RooRealVar("rrv_mean_novo"+label+"_"+self.channel,"rrv_mean_novo"+label+"_"+self.channel,0);
#rrv_sigma_novo = RooRealVar("rrv_sigma_novo"+label+"_"+self.channel,"rrv_sigma_novo"+label+"_"+self.channel,40,10,100);
#rrv_alpha_novo = RooRealVar("rrv_alpha_novo"+label+"_"+self.channel,"rrv_alpha_novo"+label+"_"+self.channel,0,-0.5,0.5);
#novo = RooNovosibirsk("novo"+label+"_"+self.channel,"novo"+label+"_"+self.channel, rrv_x,rrv_mean_novo,rrv_sigma_novo,rrv_alpha_novo);
##fft = RooFFTConvPdf("fft"+label+"_"+self.channel+mass_spectrum,"fft"+label+"_"+self.channel+mass_spectrum, rrv_x, bwrun, novo);
#model_pdf = RooFFTConvPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x, bwrun, novo);
rrv_offset_erf = RooRealVar("rrv_offset_erf"+label+"_"+self.channel,"rrv_offset_erf"+label+"_"+self.channel,450)#,350,550);
rrv_width_erf = RooRealVar("rrv_width_erf"+label+"_"+self.channel,"rrv_width_erf"+label+"_"+self.channel,50)#,10,250);
erf = RooGenericPdf("erf"+label+"_"+self.channel+mass_spectrum,"erf"+label+"_"+self.channel+mass_spectrum, "(1.+TMath::Erf((%s-%s)/%s))/2."%( rrv_x.GetName(),rrv_offset_erf.GetName(), rrv_width_erf.GetName()), RooArgList(rrv_x,rrv_offset_erf,rrv_width_erf) )
model_pdf = RooProdPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, fft, erf );
if in_model_name == "2Voig":
rrv_mean_voig=RooRealVar("rrv_mean_voig"+label+"_"+self.channel,"rrv_mean_voig"+label+"_"+self.channel,84,78,88);#W mass 80.385
rrv_shift_2Voig=RooRealVar("rrv_shift_2Voig"+label+"_"+self.channel,"rrv_shift_2Voig"+label+"_"+self.channel,10.8026) # Z mass: 91.1876; shift=91.1876-80.385=10.8026
rrv_mean_shifted= RooFormulaVar("rrv_mean_voig2"+label+"_"+self.channel,"@0+@1",RooArgList(rrv_mean_voig,rrv_shift_2Voig));
rrv_width_voig=RooRealVar("rrv_width_voig"+label+"_"+self.channel,"rrv_width_voig"+label+"_"+self.channel,16.,6,26);
#rrv_sigma_voig=RooRealVar("rrv_sigma_voig"+label+"_"+self.channel,"rrv_sigma_voig"+label+"_"+self.channel,2,0.5,5);
rrv_sigma_voig=RooRealVar("rrv_sigma_voig"+label+"_"+self.channel,"rrv_sigma_voig"+label+"_"+self.channel,0.);
rrv_frac=RooRealVar("rrv_frac"+label+"_"+self.channel,"rrv_frac"+label+"_"+self.channel,0.8,0.5,1.);
model_voig1 = RooVoigtian("model_voig1"+label+"_"+self.channel+mass_spectrum,"model_voig1"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_voig,rrv_width_voig,rrv_sigma_voig);
model_voig2 = RooVoigtian("model_voig2"+label+"_"+self.channel+mass_spectrum,"model_voig2"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_shifted,rrv_width_voig,rrv_sigma_voig);
model_pdf = RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, RooArgList(model_voig1,model_voig2), RooArgList(rrv_frac));
if in_model_name == "Gaus":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,84,78,88);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,7,1,15);
model_pdf = RooGaussian("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_gaus,rrv_sigma_gaus);
if in_model_name == "Gaus_v1":
if label=="_ggH600_signal_region" or label=="_ggH600_sb_lo":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,580,550,620);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,65,40,80);
if label=="_ggH700_signal_region" or label=="_ggH700_sb_lo":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,700,650,750);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,100,40,150);
if label=="_ggH800_signal_region" or label=="_ggH800_sb_lo":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,800,750,850);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,130,120,140);
if label=="_ggH900_signal_region" or label=="_ggH900_sb_lo":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,900,850,900);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,160,140,180);
if label=="_ggH1000_signal_region" or label=="_ggH1000_sb_lo":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,920,900,1000);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,200,100,300);
model_pdf = RooGaussian("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_gaus,rrv_sigma_gaus);
if in_model_name == "BifurGaus_v1":
if label=="_ggH600_signal_region":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,600,550,650);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,67,40,80);
rrv_sigma2_gaus=RooRealVar("rrv_sigma2_gaus"+label+"_"+self.channel,"rrv_sigma2_gaus"+label+"_"+self.channel,67,40,80);
if label=="_ggH700_signal_region":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,700,650,750);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,100,40,150);
rrv_sigma2_gaus=RooRealVar("rrv_sigma2_gaus"+label+"_"+self.channel,"rrv_sigma2_gaus"+label+"_"+self.channel,100,40,150);
if label=="_ggH800_signal_region":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,800,750,850);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,130,120,140);
rrv_sigma2_gaus=RooRealVar("rrv_sigma2_gaus"+label+"_"+self.channel,"rrv_sigma2_gaus"+label+"_"+self.channel,130,120,140);
if label=="_ggH900_signal_region":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,900,850,900);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,160,140,180);
rrv_sigma2_gaus=RooRealVar("rrv_sigma2_gaus"+label+"_"+self.channel,"rrv_sigma2_gaus"+label+"_"+self.channel,160,140,180);
if label=="_ggH1000_signal_region":
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,920,900,1000);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,200,100,300);
rrv_sigma2_gaus=RooRealVar("rrv_sigma2_gaus"+label+"_"+self.channel,"rrv_sigma2_gaus"+label+"_"+self.channel,200,100,300);
model_pdf = RooBifurGauss("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_gaus,rrv_sigma1_gaus,rrv_sigma2_gaus);
if in_model_name == "CB":
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,84,78,88);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,7,4,10);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,-2,-4,-0.5);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,2,0.,4);
model_pdf = RooCBShape("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_CB,rrv_sigma_CB,rrv_alpha_CB,rrv_n_CB);
if in_model_name == "SCB_v1":
rrv_mean_SCB=RooRealVar("rrv_mean_SCB"+label+"_"+self.channel,"rrv_mean_SCB"+label+"_"+self.channel,800,550,1000);
rrv_sigma_SCB=RooRealVar("rrv_sigma_SCB"+label+"_"+self.channel,"rrv_sigma_SCB"+label+"_"+self.channel,70,40,300);
rrv_alpha1_SCB=RooRealVar("rrv_alpha1_SCB"+label+"_"+self.channel,"rrv_alpha1_SCB"+label+"_"+self.channel,-2,-4,-0.5);
rrv_alpha2_SCB=RooRealVar("rrv_alpha2_SCB"+label+"_"+self.channel,"rrv_alpha2_SCB"+label+"_"+self.channel,2,0.5,4);
rrv_n1_SCB=RooRealVar("rrv_n1_SCB"+label+"_"+self.channel,"rrv_n1_SCB"+label+"_"+self.channel,2,0.,4);
rrv_n2_SCB=RooRealVar("rrv_n2_SCB"+label+"_"+self.channel,"rrv_n2_SCB"+label+"_"+self.channel,2,0.,4);
frac=RooRealVar("rrv_frac_SSCB"+label+"_"+self.channel,"rrv_frac_SSCB"+label+"_"+self.channel,0.5)
scb1 = RooCBShape("model_pdf_scb1"+label+"_"+self.channel+mass_spectrum,"model_pdf_scb1"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_SCB,rrv_sigma_SCB,rrv_alpha1_SCB,rrv_n1_SCB);
scb2 = RooCBShape("model_pdf_scb2"+label+"_"+self.channel+mass_spectrum,"model_pdf_scb2"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_SCB,rrv_sigma_SCB,rrv_alpha2_SCB,rrv_n2_SCB);
model_pdf=RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(scb1,scb2),RooArgList(frac))
if in_model_name == "CB_v1":
label_tstring=TString(label);
if label_tstring.Contains("H600"):
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,600,580,620);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,67,40,80);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,-1,-2,-0.5);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,20.,10,80 );
elif label_tstring.Contains("H700"):
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,700,650,750);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,100,40,150);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,-1,-3,-0.1);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,20.,10,40);
elif label_tstring.Contains("ggH800"):
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,780,700,850);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,140,120,160);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,-1,-4,0);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,5 , 2, 7);
elif label_tstring.Contains("vbfH800"):
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,800,750,850);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,140,120,160);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,-1,-4,0);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,5 , 2, 7);
elif label_tstring.Contains("ggH900"):
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,880,820,950);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,170,140,200);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,1,0,4);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel, 2., 0.5,5);
elif label_tstring.Contains("vbfH900"):
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,900,880,920);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,170,140,200);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,1);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel, 2., 0.5,5);
elif label_tstring.Contains("ggH1000"):
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,920,800,1150);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,200,100,300);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,1,0.1,3);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,2.,0.5,4);
elif label_tstring.Contains("vbfH1000"):
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,1000,980,1150);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,200,100,300);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,0.72);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,2.,0.5,4);
else:
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,700,550,1000);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,100,40 ,300);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,0,-5,5);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,20.,10,40);
model_pdf = RooCBShape("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_mean_CB,rrv_sigma_CB,rrv_alpha_CB,rrv_n_CB);
if in_model_name == "ArgusBW_v1":
label_tstring=TString(label);
if label_tstring.Contains("ggH1000"):
#rrv_mean_BW=RooRealVar("rrv_mean_BW"+label+"_"+self.channel,"rrv_mean_BW"+label+"_"+self.channel,1000,800,1100);
rrv_width_BW=RooRealVar("rrv_width_BW"+label+"_"+self.channel,"rrv_width_BW"+label+"_"+self.channel,100,50,600);
rrv_m0_Argus=RooRealVar("rrv_m0_Argus"+label+"_"+self.channel,"rrv_m0_Argus"+label+"_"+self.channel, 950 );
rrv_c_Argus=RooRealVar("rrv_c_Argus"+label+"_"+self.channel,"rrv_c_Argus"+label+"_"+self.channel,-1,-2,-1e-1);
rrv_frac=RooRealVar("rrv_frac"+label+"_"+self.channel,"rrv_frac"+label+"_"+self.channel,0.5,0.0,1.);
else:
#rrv_mean_BW=RooRealVar("rrv_mean_BW"+label+"_"+self.channel,"rrv_mean_BW"+label+"_"+self.channel,900,800,1000);
rrv_width_BW=RooRealVar("rrv_width_BW"+label+"_"+self.channel,"rrv_width_BW"+label+"_"+self.channel,200,50,400);
rrv_m0_Argus=RooRealVar("rrv_m0_Argus"+label+"_"+self.channel,"rrv_m0_Argus"+label+"_"+self.channel,1000);
rrv_c_Argus=RooRealVar("rrv_c_Argus"+label+"_"+self.channel,"rrv_c_Argus"+label+"_"+self.channel,-1,-2,0.1);
rrv_frac=RooRealVar("rrv_frac"+label+"_"+self.channel,"rrv_frac"+label+"_"+self.channel,0.5,0.0,1.);
#bw = RooBreitWigner("bw"+label+"_"+self.channel,"bw"+label+"_"+self.channel, rrv_x,rrv_mean_BW,rrv_width_BW);
bw = RooBreitWigner("bw"+label+"_"+self.channel,"bw"+label+"_"+self.channel, rrv_x,rrv_m0_Argus,rrv_width_BW);
argus=RooArgusBG("argus"+label+"_"+self.channel,"argus"+label+"_"+self.channel, rrv_x, rrv_m0_Argus,rrv_c_Argus);
model_pdf = RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, RooArgList(bw,argus), RooArgList(rrv_frac));
if in_model_name == "CBBW": # FFT: BreitWigner*CBShape
rrv_mean_CB=RooRealVar("rrv_mean_CB"+label+"_"+self.channel,"rrv_mean_CB"+label+"_"+self.channel,84.0,78,88);
rrv_sigma_CB=RooRealVar("rrv_sigma_CB"+label+"_"+self.channel,"rrv_sigma_CB"+label+"_"+self.channel,7,4,10);
rrv_alpha_CB=RooRealVar("rrv_alpha_CB"+label+"_"+self.channel,"rrv_alpha_CB"+label+"_"+self.channel,-2,-4,-1);
rrv_n_CB=RooRealVar("rrv_n_CB"+label+"_"+self.channel,"rrv_n_CB"+label+"_"+self.channel,0.5,0.,2);
rrv_mean_BW=RooRealVar("rrv_mean_BW"+label+"_"+self.channel,"rrv_mean_BW"+label+"_"+self.channel,0);
rrv_width_BW=RooRealVar("rrv_width_BW"+label+"_"+self.channel,"rrv_width_BW"+label+"_"+self.channel,10,5,20);
cbshape = RooCBShape("cbshape"+label+"_"+self.channel,"cbshape"+label+"_"+self.channel, rrv_x,rrv_mean_CB,rrv_sigma_CB,rrv_alpha_CB,rrv_n_CB);
bw = RooBreitWigner("bw"+label+"_"+self.channel,"bw"+label+"_"+self.channel, rrv_x,rrv_mean_BW,rrv_width_BW);
model_pdf = RooFFTConvPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x, cbshape, bw);
if in_model_name == "LDGaus": # FFT: Landau*Gaus
rrv_mean_landau=RooRealVar("rrv_mean_landau"+label+"_"+self.channel,"rrv_mean_landau"+label+"_"+self.channel,84.0,78,88);
rrv_sigma_landau=RooRealVar("rrv_sigma_landau"+label+"_"+self.channel,"rrv_sigma_landau"+label+"_"+self.channel,7,4,10);
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,0);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,16,10,20);
landau = RooLandau("landau"+label+"_"+self.channel,"landau"+label+"_"+self.channel, rrv_x,rrv_mean_landau,rrv_sigma_landau);
gaus = RooBreitWigner("gaus"+label+"_"+self.channel,"gaus"+label+"_"+self.channel, rrv_x,rrv_mean_gaus,rrv_sigma_gaus);
model_pdf = RooFFTConvPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x, landau, gaus);
if in_model_name == "ExpN":
rrv_c_ExpN = RooRealVar("rrv_c_ExpN"+label+"_"+self.channel,"rrv_c_ExpN"+label+"_"+self.channel,-3e-3,-1e-2,-1e-4);
rrv_n_ExpN = RooRealVar("rrv_n_ExpN"+label+"_"+self.channel,"rrv_n_ExpN"+label+"_"+self.channel, 1e3, -1e4, 1e4);
#rrv_n_ExpN = RooRealVar("rrv_n_ExpN"+label+"_"+self.channel,"rrv_n_ExpN"+label+"_"+self.channel, 1e3, 0, 1e4);
model_pdf = ROOT.RooExpNPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_c_ExpN, rrv_n_ExpN);
#model_pdf = ROOT.RooAnaExpNPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_c_ExpN, rrv_n_ExpN);
if in_model_name == "ExpTail":
rrv_s_ExpTail = RooRealVar("rrv_s_ExpTail"+label+"_"+self.channel,"rrv_s_ExpTail"+label+"_"+self.channel, 170,50,300);
rrv_a_ExpTail = RooRealVar("rrv_a_ExpTail"+label+"_"+self.channel,"rrv_a_ExpTail"+label+"_"+self.channel, 3e-2,0,7e-2);
model_pdf = ROOT.RooExpTailPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_s_ExpTail, rrv_a_ExpTail);
if in_model_name == "2Exp":
rrv_c0_2Exp = RooRealVar("rrv_c0_2Exp"+label+"_"+self.channel,"rrv_c0_2Exp"+label+"_"+self.channel, -5e-3, -8e-3,-4e-3);
rrv_c1_2Exp = RooRealVar("rrv_c1_2Exp"+label+"_"+self.channel,"rrv_c1_2Exp"+label+"_"+self.channel, -1e-3, -4e-3,-1e-4);
rrv_frac_2Exp = RooRealVar("rrv_frac_2Exp"+label+"_"+self.channel,"rrv_frac_2Exp"+label+"_"+self.channel, 0., 0., 1e-2);
model_pdf = ROOT.Roo2ExpPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_c0_2Exp,rrv_c1_2Exp,rrv_frac_2Exp);
if in_model_name == "Exp" or in_model_name == "Exp_sr":
rrv_c_Exp = RooRealVar("rrv_c_Exp"+label+"_"+self.channel,"rrv_c_Exp"+label+"_"+self.channel,-0.05,-0.1,0.);
model_pdf = ROOT.RooExponential("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_c_Exp);
if in_model_name == "ErfExp" :
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.05,-0.1,-1e-4);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,60.,30.,120);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,30.)#,10, 60.);
model_pdf = ROOT.RooErfExpPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
#model_pdf = RooGenericPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, "TMath::Exp(%s*%s)*(1.+TMath::Erf((%s-%s)/%s))/2."%(rrv_c_ErfExp.GetName(),rrv_x.GetName(), rrv_x.GetName(),rrv_offset_ErfExp.GetName(), rrv_width_ErfExp.GetName()), RooArgList(rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp) )
##add a little shift
#rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.05,-0.2,0.);
#rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,78.,10.,1400.);
#rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,30.,10,100.);
#rrv_deltax = RooRealVar("rrv_deltax"+label+"_"+self.channel,"rrv_deltax"+label+"_"+self.channel,0,-10,10);
#rrv_deltax.setConstant(1);
#rrv_x_shift = RooFormulaVar("rrv_x_shift"+label+"_"+self.channel,"@0+@1",RooArgList(rrv_x, rrv_deltax));
#model_pdf = ROOT.RooErfExpPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x_shift,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
if in_model_name == "ErfExp_v1" : #different init-value and range
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.006,-0.1,0.);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,450.,400.,550.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,70.,10,100.);
model_pdf = ROOT.RooErfExpPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
#model_pdf = RooGenericPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, "TMath::Exp(%s*%s)*(1.+TMath::Erf((%s-%s)/%s))/2."%(rrv_c_ErfExp.GetName(),rrv_x.GetName(), rrv_x.GetName(),rrv_offset_ErfExp.GetName(), rrv_width_ErfExp.GetName()), RooArgList(rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp) )
if in_model_name == "ErfExp_v2" : #different init-value and range
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.005,-0.1,0.);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,450.,400.,500.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel, 50.,10,100.);
rrv_residue_ErfExp = RooRealVar("rrv_residue_ErfExp"+label+"_"+self.channel,"rrv_residue_ErfExp"+label+"_"+self.channel,0.,0.,1.);
#model_pdf = ROOT.RooErfExpPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
model_pdf = RooGenericPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, "(TMath::Exp(%s*%s) + %s)*(1.+TMath::Erf((%s-%s)/%s))/2. "%(rrv_c_ErfExp.GetName(),rrv_x.GetName(), rrv_residue_ErfExp.GetName(), rrv_x.GetName(),rrv_offset_ErfExp.GetName(), rrv_width_ErfExp.GetName()), RooArgList(rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp,rrv_residue_ErfExp) )
if in_model_name == "ErfExp_v3" : #different init-value and range
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.005,-0.1,0.);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,450.,400,500.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel, 50.,10,100.);
rrv_residue_ErfExp = RooRealVar("rrv_residue_ErfExp"+label+"_"+self.channel,"rrv_residue_ErfExp"+label+"_"+self.channel,0.,0.,1.);
rrv_high_ErfExp = RooRealVar("rrv_high_ErfExp"+label+"_"+self.channel,"rrv_high_ErfExp"+label+"_"+self.channel,1.,0.,400);
rrv_high_ErfExp.setConstant(kTRUE);
model_pdf = RooGenericPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, "(TMath::Exp(%s*%s) + %s)* TMath::Power( ((1+TMath::Erf((%s-%s)/%s))/2.), %s )"%(rrv_c_ErfExp.GetName(),rrv_x.GetName(), rrv_residue_ErfExp.GetName(),rrv_x.GetName(),rrv_offset_ErfExp.GetName(), rrv_width_ErfExp.GetName(), rrv_high_ErfExp.GetName()), RooArgList(rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_high_ErfExp,rrv_width_ErfExp,rrv_residue_ErfExp) )
if in_model_name == "ErfExpGaus":
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.05,-0.4,0.);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,100.,10.,300.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,30.,10,100.);
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,82,78,87);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,7,4,10);
rrv_high = RooRealVar("rrv_high"+label+"_"+self.channel,"rrv_high"+label+"_"+self.channel,0.7,0.,1.);
erfExp = ROOT.RooErfExpPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
#erfExp = RooGenericPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel, "TMath::Exp(%s*%s)*(1.+TMath::Erf((%s-%s)/%s))/2."%(rrv_c_ErfExp.GetName(),rrv_x.GetName(), rrv_x.GetName(),rrv_offset_ErfExp.GetName(), rrv_width_ErfExp.GetName()), RooArgList(rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp) )
gaus = RooGaussian("gaus"+label+"_"+self.channel,"gaus"+label+"_"+self.channel, rrv_x,rrv_mean_gaus,rrv_sigma_gaus);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(erfExp,gaus),RooArgList(rrv_high))
if in_model_name == "ErfExpGaus_sp":#offset == mean
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.05,-0.2,0.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,30.,10,200.);
rrv_mean1_gaus=RooRealVar("rrv_mean1_gaus"+label+"_"+self.channel,"rrv_mean1_gaus"+label+"_"+self.channel,84,78,88);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,7,4,10);
rrv_high = RooRealVar("rrv_high"+label+"_"+self.channel,"rrv_high"+label+"_"+self.channel,0.5,0.,1.);
erfExp = ROOT.RooErfExpPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel,rrv_x,rrv_c_ErfExp,rrv_mean1_gaus,rrv_width_ErfExp);
gaus = RooGaussian("gaus"+label+"_"+self.channel,"gaus"+label+"_"+self.channel, rrv_x,rrv_mean1_gaus,rrv_sigma1_gaus);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(erfExp,gaus),RooArgList(rrv_high))
if in_model_name == "ExpGaus":
rrv_c_Exp = RooRealVar("rrv_c_Exp"+label+"_"+self.channel,"rrv_c_Exp"+label+"_"+self.channel,0.05,-0.2,0.2);
rrv_mean1_gaus=RooRealVar("rrv_mean1_gaus"+label+"_"+self.channel,"rrv_mean1_gaus"+label+"_"+self.channel,84,78,88);
rrv_sigma1_gaus=RooRealVar("rrv_smgma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,7,4,10);
rrv_high = RooRealVar("rrv_high"+label+"_"+self.channel,"rrv_high"+label+"_"+self.channel,0.5,0.,1.);
exp = ROOT.RooExponential("exp"+label+"_"+self.channel,"exp"+label+"_"+self.channel,rrv_x,rrv_c_Exp);
gaus = RooGaussian("gaus"+label+"_"+self.channel,"gaus"+label+"_"+self.channel, rrv_x,rrv_mean1_gaus,rrv_sigma1_gaus);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(exp,gaus),RooArgList(rrv_high))
if in_model_name == "ErfExpGaus_v0":
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.05,-0.2,0.);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,100.,10.,140.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,30.,10,100.);
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,84,78,88);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,7,4,10);
rrv_high = RooRealVar("rrv_high"+label+"_"+self.channel,"rrv_high"+label+"_"+self.channel,0.7,0.,1.);
erfExp = ROOT.RooErfExpPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
#erfExp = RooGenericPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel, "TMath::Exp(%s*%s)*(1.+TMath::Erf((%s-%s)/%s))/2."%(rrv_c_ErfExp.GetName(),rrv_x.GetName(), rrv_x.GetName(),rrv_offset_ErfExp.GetName(), rrv_width_ErfExp.GetName()), RooArgList(rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp) )
gaus = RooGaussian("gaus"+label+"_"+self.channel,"gaus"+label+"_"+self.channel, rrv_x,rrv_mean_gaus,rrv_sigma_gaus);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(erfExp,gaus),RooArgList(rrv_high))
if in_model_name == "ErfExpGaus_v1":
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.007,-0.1,0.);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,800.,10.,1400.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,24.,10,150.);
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,700,500,1200);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,150,10,300);
rrv_high = RooRealVar("rrv_high"+label+"_"+self.channel,"rrv_high"+label+"_"+self.channel,0.1,0.,1.);
erfExp = ROOT.RooErfExpPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
#erfExp = RooGenericPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel, "TMath::Exp(%s*%s)*(1.+TMath::Erf((%s-%s)/%s))/2."%(rrv_c_ErfExp.GetName(),rrv_x.GetName(), rrv_x.GetName(),rrv_offset_ErfExp.GetName(), rrv_width_ErfExp.GetName()), RooArgList(rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp) )
gaus = RooGaussian("gaus"+label+"_"+self.channel,"gaus"+label+"_"+self.channel, rrv_x,rrv_mean_gaus,rrv_sigma_gaus);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(erfExp,gaus),RooArgList(rrv_high))
if in_model_name == "ErfExpGaus_sp_v1":
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.007,-0.1,0.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,24.,10,150.);
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,900,860,1200);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,150,10,300);
rrv_high = RooRealVar("rrv_high"+label+"_"+self.channel,"rrv_high"+label+"_"+self.channel,0.1,0.,1.);
#erfExp = ROOT.RooErfExpPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
erfExp = ROOT.RooErfExpPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel,rrv_x,rrv_c_ErfExp,rrv_mean_gaus,rrv_width_ErfExp);
gaus = RooGaussian("gaus"+label+"_"+self.channel,"gaus"+label+"_"+self.channel, rrv_x,rrv_mean_gaus,rrv_sigma_gaus);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(erfExp,gaus),RooArgList(rrv_high))
if in_model_name == "ErfExpGaus_v2":
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.05,-10.,0.);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,100.,10.,140.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,30.,10,100.);
rrv_mean_gaus=RooRealVar("rrv_mean_gaus"+label+"_"+self.channel,"rrv_mean_gaus"+label+"_"+self.channel,84,78,88);
rrv_sigma_gaus=RooRealVar("rrv_sigma_gaus"+label+"_"+self.channel,"rrv_sigma_gaus"+label+"_"+self.channel,7,4,10);
rrv_high = RooRealVar("rrv_high"+label+"_"+self.channel,"rrv_high"+label+"_"+self.channel,200.,0.,1000.);
model_pdf = ROOT.RooErfExp_Gaus_Pdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum, rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp,rrv_mean_gaus,rrv_sigma_gaus,rrv_high );
if in_model_name == "ErfExp2Gaus":
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,-0.05,-0.2,0.);
rrv_offset_ErfExp = RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel,100.,10.,140.);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel,30.,10,100.);
rrv_mean1_gaus=RooRealVar("rrv_mean1_gaus"+label+"_"+self.channel,"rrv_mean1_gaus"+label+"_"+self.channel,84,78,88);
rrv_mean2_gaus=RooRealVar("rrv_mean2_gaus"+label+"_"+self.channel,"rrv_mean2_gaus"+label+"_"+self.channel,180,170,190);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,7,4,10);
rrv_sigma2_gaus=RooRealVar("rrv_sigma2_gaus"+label+"_"+self.channel,"rrv_sigma2_gaus"+label+"_"+self.channel,10,7,15);
rrv_high1 = RooRealVar("rrv_high1"+label+"_"+self.channel,"rrv_high1"+label+"_"+self.channel,0.6,0.,1.);
rrv_high2 = RooRealVar("rrv_high2"+label+"_"+self.channel,"rrv_high2"+label+"_"+self.channel,0.4,0.,1.);
erfExp = ROOT.RooErfExpPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
#erfExp = RooGenericPdf("erfExp"+label+"_"+self.channel,"erfExp"+label+"_"+self.channel, "TMath::Exp(%s*%s)*(1.+TMath::Erf((%s-%s)/%s))/2."%(rrv_c_ErfExp.GetName(),rrv_x.GetName(), rrv_x.GetName(),rrv_offset_ErfExp.GetName(), rrv_width_ErfExp.GetName()), RooArgList(rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp) )
gaus1 = RooGaussian("gaus1"+label+"_"+self.channel,"gaus1"+label+"_"+self.channel, rrv_x,rrv_mean1_gaus,rrv_sigma1_gaus);
gaus2 = RooGaussian("gaus2"+label+"_"+self.channel,"gaus2"+label+"_"+self.channel, rrv_x,rrv_mean2_gaus,rrv_sigma2_gaus);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(erfExp,gaus1,gaus2),RooArgList(rrv_high1,rrv_high2))
if in_model_name == "2Gaus":
mean1_tmp =8.3145e+01; mean1_tmp_err =1.63e-01;
deltamean_tmp =6.6321e+00; deltamean_tmp_err =1.21e+00;
sigma1_tmp =7.5097e+00; sigma1_tmp_err =2.01e-01;
scalesigma_tmp=3.8707e+00; scalesigma_tmp_err=2.20e-01;
frac_tmp =6.4728e-01; frac_tmp_err =2.03e-02;
if self.wtagger_cut==0.43:
mean1_tmp =8.3089e+01; mean1_tmp_err =1.61e-01;
deltamean_tmp =9.3065e+00; deltamean_tmp_err =1.67e+00;
sigma1_tmp =7.5280e+00; sigma1_tmp_err =1.91e-01;
scalesigma_tmp=3.4619e+00; scalesigma_tmp_err=2.29e-01;
frac_tmp =7.4246e-01; frac_tmp_err =2.11e-02;
if self.wtagger_cut==0.50:
mean1_tmp =8.3141e+01; mean1_tmp_err =1.63e-01;
deltamean_tmp =6.9129e+00; deltamean_tmp_err =1.24e+00;
sigma1_tmp =7.5145e+00; sigma1_tmp_err =1.99e-01;
scalesigma_tmp=3.6819e+00; scalesigma_tmp_err=2.11e-01;
frac_tmp =6.7125e-01; frac_tmp_err =2.09e-02;
rrv_mean1_gaus=RooRealVar("rrv_mean1_gaus"+label+"_"+self.channel,"rrv_mean1_gaus"+label+"_"+self.channel,mean1_tmp, mean1_tmp-4, mean1_tmp+4);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,sigma1_tmp, sigma1_tmp-4,sigma1_tmp+4 );
gaus1 = RooGaussian("gaus1"+label+"_"+self.channel,"gaus1"+label+"_"+self.channel, rrv_x,rrv_mean1_gaus,rrv_sigma1_gaus);
#rrv_deltamean_gaus=RooRealVar("rrv_deltamean_gaus"+label+"_"+self.channel,"rrv_deltamean_gaus"+label+"_"+self.channel,deltamean_tmp, deltamean_tmp-deltamean_tmp_err*4, deltamean_tmp+deltamean_tmp_err*4);
rrv_deltamean_gaus=RooRealVar("rrv_deltamean_gaus"+label+"_"+self.channel,"rrv_deltamean_gaus"+label+"_"+self.channel,deltamean_tmp, -4, deltamean_tmp+deltamean_tmp_err*4);
rrv_mean2_gaus =RooFormulaVar("rrv_mean2_gaus"+label+"_"+self.channel,"@0+@1",RooArgList(rrv_mean1_gaus, rrv_deltamean_gaus));
rrv_scalesigma_gaus=RooRealVar("rrv_scalesigma_gaus"+label+"_"+self.channel,"rrv_scalesigma_gaus"+label+"_"+self.channel,scalesigma_tmp, scalesigma_tmp-scalesigma_tmp_err*8, scalesigma_tmp+scalesigma_tmp_err*8);
rrv_sigma2_gaus=RooFormulaVar("rrv_sigma2_gaus"+label+"_"+self.channel,"@0*@1", RooArgList(rrv_sigma1_gaus,rrv_scalesigma_gaus));
gaus2 = RooGaussian("gaus2"+label+"_"+self.channel,"gaus2"+label+"_"+self.channel, rrv_x,rrv_mean2_gaus,rrv_sigma2_gaus);
rrv_frac = RooRealVar("rrv_frac"+label+"_"+self.channel,"rrv_frac"+label+"_"+self.channel,frac_tmp, frac_tmp-frac_tmp_err*4, frac_tmp+frac_tmp_err*4);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(gaus1,gaus2),RooArgList(rrv_frac),1)
if in_model_name == "2_2Gaus":#for VV m_j
mean1_tmp =8.3145e+01; mean1_tmp_err =1.63e-01;
deltamean_tmp =6.6321e+00; deltamean_tmp_err =1.21e+00;
sigma1_tmp =7.5097e+00; sigma1_tmp_err =2.01e-01;
scalesigma_tmp=3.8707e+00; scalesigma_tmp_err=2.20e-01;
frac_tmp =6.4728e-01; frac_tmp_err =2.03e-02;
if self.wtagger_cut==0.43:
mean1_tmp =8.3089e+01; mean1_tmp_err =1.61e-01;
deltamean_tmp =9.3065e+00; deltamean_tmp_err =1.67e+00;
sigma1_tmp =7.5280e+00; sigma1_tmp_err =1.91e-01;
scalesigma_tmp=3.4619e+00; scalesigma_tmp_err=2.29e-01;
frac_tmp =7.4246e-01; frac_tmp_err =2.11e-02;
if self.wtagger_cut==0.50:
mean1_tmp =8.3141e+01; mean1_tmp_err =1.63e-01;
deltamean_tmp =6.9129e+00; deltamean_tmp_err =1.24e+00;
sigma1_tmp =7.5145e+00; sigma1_tmp_err =1.99e-01;
scalesigma_tmp=3.6819e+00; scalesigma_tmp_err=2.11e-01;
frac_tmp =6.7125e-01; frac_tmp_err =2.09e-02;
rrv_shift=RooRealVar("rrv_shift"+label+"_"+self.channel,"rrv_shift"+label+"_"+self.channel,10.8026) # Z mass: 91.1876; shift=91.1876-80.385=10.8026
rrv_mean1_gaus=RooRealVar("rrv_mean1_gaus"+label+"_"+self.channel,"rrv_mean1_gaus"+label+"_"+self.channel,mean1_tmp, mean1_tmp-4, mean1_tmp+4);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,sigma1_tmp, sigma1_tmp-4,sigma1_tmp+4 );
gaus1 = RooGaussian("gaus1"+label+"_"+self.channel,"gaus1"+label+"_"+self.channel, rrv_x,rrv_mean1_gaus,rrv_sigma1_gaus);
#rrv_deltamean_gaus=RooRealVar("rrv_deltamean_gaus"+label+"_"+self.channel,"rrv_deltamean_gaus"+label+"_"+self.channel,deltamean_tmp, deltamean_tmp-deltamean_tmp_err*4, deltamean_tmp+deltamean_tmp_err*4);
rrv_deltamean_gaus=RooRealVar("rrv_deltamean_gaus"+label+"_"+self.channel,"rrv_deltamean_gaus"+label+"_"+self.channel,0.,-8,10);
rrv_mean2_gaus =RooFormulaVar("rrv_mean2_gaus"+label+"_"+self.channel,"@0+@1",RooArgList(rrv_mean1_gaus, rrv_deltamean_gaus));
rrv_scalesigma_gaus=RooRealVar("rrv_scalesigma_gaus"+label+"_"+self.channel,"rrv_scalesigma_gaus"+label+"_"+self.channel,scalesigma_tmp, scalesigma_tmp-scalesigma_tmp_err*4, scalesigma_tmp+scalesigma_tmp_err*4);
rrv_sigma2_gaus=RooFormulaVar("rrv_sigma2_gaus"+label+"_"+self.channel,"@0*@1", RooArgList(rrv_sigma1_gaus,rrv_scalesigma_gaus));
gaus2 = RooGaussian("gaus2"+label+"_"+self.channel,"gaus2"+label+"_"+self.channel, rrv_x,rrv_mean2_gaus,rrv_sigma2_gaus);
rrv_frac1 = RooRealVar("rrv_frac1"+label+"_"+self.channel,"rrv_frac1"+label+"_"+self.channel,frac_tmp, frac_tmp-frac_tmp_err*4, frac_tmp+frac_tmp_err*4);
gausguas_1 =RooAddPdf("gausguas_1"+label+"_"+self.channel+mass_spectrum,"gausguas_1"+label+"_"+self.channel+mass_spectrum,RooArgList(gaus1,gaus2),RooArgList(rrv_frac1),1)
rrv_mean3_gaus =RooFormulaVar("rrv_mean3_gaus"+label+"_"+self.channel,"@0+@1",RooArgList(rrv_mean1_gaus, rrv_shift));
rrv_mean4_gaus =RooFormulaVar("rrv_mean4_gaus"+label+"_"+self.channel,"@0+@1",RooArgList(rrv_mean2_gaus, rrv_shift));
gaus3 = RooGaussian("gaus3"+label+"_"+self.channel,"gaus3"+label+"_"+self.channel, rrv_x,rrv_mean3_gaus,rrv_sigma1_gaus);
gaus4 = RooGaussian("gaus4"+label+"_"+self.channel,"gaus4"+label+"_"+self.channel, rrv_x,rrv_mean4_gaus,rrv_sigma2_gaus);
gausguas_2 =RooAddPdf("gausguas_2"+label+"_"+self.channel+mass_spectrum,"gausguas_2"+label+"_"+self.channel+mass_spectrum,RooArgList(gaus3,gaus4),RooArgList(rrv_frac1),1)
rrv_frac = RooRealVar("rrv_frac"+label+"_"+self.channel,"rrv_frac"+label+"_"+self.channel,0.74)#,0.5,1.0);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(gausguas_1,gausguas_2),RooArgList(rrv_frac),1)
if in_model_name == "2Gaus_ErfExp":
mean1_tmp =8.3145e+01; mean1_tmp_err =1.63e-01;
deltamean_tmp =6.6321e+00; deltamean_tmp_err =1.21e+00;
sigma1_tmp =7.5097e+00; sigma1_tmp_err =2.01e-01;
scalesigma_tmp=3.8707e+00; scalesigma_tmp_err=2.20e-01;
frac_tmp =6.4728e-01; frac_tmp_err =2.03e-02;
if self.wtagger_cut==0.43:
mean1_tmp =8.3089e+01; mean1_tmp_err =1.61e-01;
deltamean_tmp =9.3065e+00; deltamean_tmp_err =1.67e+00;
sigma1_tmp =7.5280e+00; sigma1_tmp_err =1.91e-01;
scalesigma_tmp=3.4619e+00; scalesigma_tmp_err=2.29e-01;
frac_tmp =7.4246e-01; frac_tmp_err =2.11e-02;
if self.wtagger_cut==0.50:
mean1_tmp =8.3141e+01; mean1_tmp_err =1.63e-01;
deltamean_tmp =6.9129e+00; deltamean_tmp_err =1.24e+00;
sigma1_tmp =7.5145e+00; sigma1_tmp_err =1.99e-01;
scalesigma_tmp=3.6819e+00; scalesigma_tmp_err=2.11e-01;
frac_tmp =6.7125e-01; frac_tmp_err =2.09e-02;
rrv_mean1_gaus=RooRealVar("rrv_mean1_gaus"+label+"_"+self.channel,"rrv_mean1_gaus"+label+"_"+self.channel,mean1_tmp, mean1_tmp-4, mean1_tmp+4);
rrv_sigma1_gaus=RooRealVar("rrv_sigma1_gaus"+label+"_"+self.channel,"rrv_sigma1_gaus"+label+"_"+self.channel,sigma1_tmp, sigma1_tmp-4,sigma1_tmp+4 );
gaus1 = RooGaussian("gaus1"+label+"_"+self.channel,"gaus1"+label+"_"+self.channel, rrv_x,rrv_mean1_gaus,rrv_sigma1_gaus);
rrv_deltamean_gaus=RooRealVar("rrv_deltamean_gaus"+label+"_"+self.channel,"rrv_deltamean_gaus"+label+"_"+self.channel,deltamean_tmp)#, deltamean_tmp, deltamean_tmp);
rrv_mean2_gaus =RooFormulaVar("rrv_mean2_gaus"+label+"_"+self.channel,"@0+@1",RooArgList(rrv_mean1_gaus, rrv_deltamean_gaus));
rrv_scalesigma_gaus=RooRealVar("rrv_scalesigma_gaus"+label+"_"+self.channel,"rrv_scalesigma_gaus"+label+"_"+self.channel,scalesigma_tmp)#, scalesigma_tmp, scalesigma_tmp);
rrv_sigma2_gaus=RooFormulaVar("rrv_sigma2_gaus"+label+"_"+self.channel,"@0*@1", RooArgList(rrv_sigma1_gaus,rrv_scalesigma_gaus));
gaus2 = RooGaussian("gaus2"+label+"_"+self.channel,"gaus2"+label+"_"+self.channel, rrv_x,rrv_mean2_gaus,rrv_sigma2_gaus);
rrv_frac_2gaus = RooRealVar("rrv_frac_2gaus"+label+"_"+self.channel,"rrv_frac_2gaus"+label+"_"+self.channel,frac_tmp);#, frac_tmp-frac_tmp_err*4, frac_tmp+frac_tmp_err*4);
#model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(gaus1,gaus2),RooArgList(rrv_frac_2gaus),1)
c0_tmp = -2.8628e-02 ; c0_tmp_err = 6.08e-03;
offset_tmp= 7.6259e+01 ; offset_tmp_err = 9.17e+00;
width_tmp = 3.4207e+01 ; width_tmp_err = 3.18e+00;
if self.wtagger_cut==0.43:
c0_tmp = -3.0807e-02 ; c0_tmp_err = 8.16e-03;
offset_tmp= 8.2863e+01 ; offset_tmp_err = 9.66e+00;
width_tmp = 3.1119e+01 ; width_tmp_err = 2.80e+00;
if self.wtagger_cut==0.50:
c0_tmp = -2.9893e-02 ; c0_tmp_err = 6.83e-03;
offset_tmp= 7.9350e+01 ; offset_tmp_err = 9.35e+00;
width_tmp = 3.3083e+01 ; width_tmp_err = 2.97e+00;
#rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,c0_tmp, c0_tmp-c0_tmp_err*4, c0_tmp+c0_tmp_err*4 );
rrv_c_ErfExp = RooRealVar("rrv_c_ErfExp"+label+"_"+self.channel,"rrv_c_ErfExp"+label+"_"+self.channel,c0_tmp, c0_tmp-4e-2, c0_tmp+4e-2 );
rrv_offset_ErfExp= RooRealVar("rrv_offset_ErfExp"+label+"_"+self.channel,"rrv_offset_ErfExp"+label+"_"+self.channel, offset_tmp)#, offset_tmp-offset_tmp_err*4,offset_tmp+offset_tmp_err*4);
#rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel, width_tmp, width_tmp-width_tmp_err*4, width_tmp+width_tmp_err*4);
rrv_width_ErfExp = RooRealVar("rrv_width_ErfExp"+label+"_"+self.channel,"rrv_width_ErfExp"+label+"_"+self.channel, width_tmp, width_tmp-10, width_tmp+10);
erfexp = ROOT.RooErfExpPdf("erfexp"+label+"_"+self.channel+mass_spectrum,"erfexp"+label+"_"+self.channel+mass_spectrum,rrv_x,rrv_c_ErfExp,rrv_offset_ErfExp,rrv_width_ErfExp);
rrv_frac = RooRealVar("rrv_frac"+label+"_"+self.channel,"rrv_frac"+label+"_"+self.channel, 0.5,0.,1.);
model_pdf =RooAddPdf("model_pdf"+label+"_"+self.channel+mass_spectrum,"model_pdf"+label+"_"+self.channel+mass_spectrum,RooArgList(erfexp, gaus1,gaus2),RooArgList(rrv_frac, rrv_frac_2gaus),1)