Processing StandardHypoTestInvDemo.C("Expo_4700_6200_0.00_bkup.root","w","ModelConfig","bkgOnlyModel","combData",0,3,true,10,0,200,100,false,0)... RooFit v3.60 -- Developed by Wouter Verkerke and David Kirkby Copyright (C) 2000-2013 NIKHEF, University of California & Stanford University All rights reserved, please read http://roofit.sourceforge.net/license.txt Warning in : no StreamerInfo found in /data1/avenkate/JpsiLambda_RESTART/scripts/testdir/RooHypatia2_cpp_ACLiC_dict_rdict.pcm therefore preventing schema evolution when reading this file. 0x456c990 Expo_4700_6200_0.00_bkup.root Running HypoTestInverter on the workspace w RooWorkspace(w) w contents variables --------- (Lb_DTF_M_JpsiLConstr,R,R_1405,R_1520,R_1600,R_chic1,a1_Run1,a1_Run2,a2_Run1,a2_Run2,eff_ratio1,eff_ratio2,eff_ratio_1405_1,eff_ratio_1405_2,eff_ratio_1520_1,eff_ratio_1520_2,eff_ratio_1600_1,eff_ratio_1600_2,geff_ratio1,geff_ratio2,geff_ratio_1405_1,geff_ratio_1405_2,geff_ratio_1520_1,geff_ratio_1520_2,geff_ratio_1600_1,geff_ratio_1600_2,gnLb_Run1,gnLb_Run2,gnXib1,gnXib2,gslope_Run1,gslope_Run2,lambda_Run1,lambda_Run2,mcnbkg_run1,mcnbkg_run2,mcnsig_run1,mcnsig_run2,mean_Run1,mean_Run2,miscLstMean_Run1,miscLstMean_Run2,miscLstSigma_Run1,miscLstSigma_Run2,nBkg_Run1,nBkg_Run2,nLb_Run1,nLb_Run2,nMiscLst_Run1,nMiscLst_Run2,nXib1,nXib2,sample,sigma_Run1,sigma_Run2,slope_Run1,slope_Run2,tau_run1,tau_run2) p.d.f.s ------- RooExponential::Bkg_Run1[ x=Lb_DTF_M_JpsiLConstr c=Bkg_Run1_2 ] = 2.19302e-07 RooExponential::Bkg_Run2[ x=Lb_DTF_M_JpsiLConstr c=Bkg_Run2_2 ] = 5.55728e-08 RooKeysPdf::LST1405_Run1[ x=Lb_DTF_M_JpsiLConstr ] = 1.3032e-05 RooKeysPdf::LST1405_Run2[ x=Lb_DTF_M_JpsiLConstr ] = 1.18576e-05 RooKeysPdf::LST1520_Run1[ x=Lb_DTF_M_JpsiLConstr ] = 3.72215e-05 RooKeysPdf::LST1520_Run2[ x=Lb_DTF_M_JpsiLConstr ] = 3.03409e-05 RooKeysPdf::LST1600_Run1[ x=Lb_DTF_M_JpsiLConstr ] = 0.000128376 RooKeysPdf::LST1600_Run2[ x=Lb_DTF_M_JpsiLConstr ] = 0.000126341 RooHypatia2::Lb_Run1[ x=Lb_DTF_M_JpsiLConstr l=lambda_Run1 zeta=0 fb=0 sigma=sigma_Run1 mu=mean_Run1 a=a1_Run1 n=2 a2=a2_Run1 n2=2 ] = 1.71608e-09 RooHypatia2::Lb_Run2[ x=Lb_DTF_M_JpsiLConstr l=lambda_Run2 zeta=0 fb=0 sigma=sigma_Run2 mu=mean_Run2 a=a1_Run2 n=2 a2=a2_Run2 n2=2 ] = 6.94787e-09 RooKeysPdf::SIG1[ x=Lb_DTF_M_JpsiLConstr ] = 4.01607e-13 RooKeysPdf::SIG2[ x=Lb_DTF_M_JpsiLConstr ] = 5.78346e-09 RooKeysPdf::XIB1[ x=Lb_DTF_M_JpsiLConstr ] = 0 RooKeysPdf::XIB2[ x=Lb_DTF_M_JpsiLConstr ] = 4.91021e-07 RooGaussian::eff_ratio_1405_constraint1[ x=geff_ratio_1405_1 mean=eff_ratio_1405_1 sigma=0.009337 ] = 0.99946 RooGaussian::eff_ratio_1405_constraint2[ x=geff_ratio_1405_2 mean=eff_ratio_1405_2 sigma=0.009561 ] = 0.999503 RooGaussian::eff_ratio_1520_constraint1[ x=geff_ratio_1520_1 mean=eff_ratio_1520_1 sigma=0.011133 ] = 0.956649 RooGaussian::eff_ratio_1520_constraint2[ x=geff_ratio_1520_2 mean=eff_ratio_1520_2 sigma=0.010562 ] = 0.945437 RooGaussian::eff_ratio_1600_constraint1[ x=geff_ratio_1600_1 mean=eff_ratio_1600_1 sigma=0.010119 ] = 0.987662 RooGaussian::eff_ratio_1600_constraint2[ x=geff_ratio_1600_2 mean=eff_ratio_1600_2 sigma=0.008217 ] = 0.988215 RooGaussian::eff_ratio_constraint1[ x=geff_ratio1 mean=eff_ratio1 sigma=0.026501 ] = 0.999727 RooGaussian::eff_ratio_constraint2[ x=geff_ratio2 mean=eff_ratio2 sigma=0.012564 ] = 0.999926 RooGaussian::lstLump_Run1[ x=Lb_DTF_M_JpsiLConstr mean=miscLstMean_Run1 sigma=miscLstSigma_Run1 ] = 1.44569e-07 RooGaussian::lstLump_Run2[ x=Lb_DTF_M_JpsiLConstr mean=miscLstMean_Run2 sigma=miscLstSigma_Run2 ] = 6.54569e-06 RooAddPdf::mcFit_Run1[ mcnsig_run1 * Lb_Run1 + mcnbkg_run1 * mcbkg_run1 ] = 0.0321053 RooAddPdf::mcFit_Run2[ mcnsig_run2 * Lb_Run2 + mcnbkg_run2 * mcbkg_run2 ] = 9.24765e-06 RooExponential::mcbkg_run1[ x=Lb_DTF_M_JpsiLConstr c=tau_run1 ] = 0.999525 RooExponential::mcbkg_run2[ x=Lb_DTF_M_JpsiLConstr c=tau_run2 ] = 0.000437996 RooAddPdf::model1[ nSigma1 * SIG1 + nLb_Run1 * Lb_Run1 + nXib1 * XIB1 + n1405_Run1 * LST1405_Run1 + n1520_Run1 * LST1520_Run1 + n1600_Run1 * LST1600_Run1 + nMiscLst_Run1 * lstLump_Run1 + nBkg_Run1 * Bkg_Run1 ] = 1.24274e-05 RooAddPdf::model2[ nSigma2 * SIG2 + nLb_Run2 * Lb_Run2 + nXib2 * XIB2 + n1405_Run2 * LST1405_Run2 + n1520_Run2 * LST1520_Run2 + n1600_Run2 * LST1600_Run2 + nMiscLst_Run2 * lstLump_Run2 + nBkg_Run2 * Bkg_Run2 ] = 1.06066e-05 RooProdPdf::model_const1[ model1 * eff_ratio_constraint1 * nXib_constraint1 * eff_ratio_1405_constraint1 * eff_ratio_1520_constraint1 * eff_ratio_1600_constraint1 * slope_Run1_constraint ] = 7.79405e-06 RooProdPdf::model_const2[ model2 * eff_ratio_constraint2 * nXib_constraint2 * eff_ratio_1405_constraint2 * eff_ratio_1520_constraint2 * eff_ratio_1600_constraint2 * slope_Run2_constraint ] = 6.60474e-06 RooProdPdf::model_const_new1[ model_const1 * nLb_Run1_syst ] = 7.79405e-06 RooProdPdf::model_const_new2[ model_const2 * nLb_Run2_syst ] = 6.60474e-06 RooGaussian::nLb_Run1_syst[ x=gnLb_Run1 mean=nLb_Run1 sigma=36.4919 ] = 1 RooGaussian::nLb_Run2_syst[ x=gnLb_Run2 mean=nLb_Run2 sigma=123.823 ] = 1 RooGaussian::nXib_constraint1[ x=gnXib1 mean=nXib1 sigma=4.91763 ] = 0.685894 RooGaussian::nXib_constraint2[ x=gnXib2 mean=nXib2 sigma=11.4221 ] = 0.997622 RooSimultaneous::simPdf[ indexCat=sample run1=model_const1 run2=model_const2 ] = 5.20856e-06 RooSimultaneous::simPdf_new[ indexCat=sample run1=model_const_new1 run2=model_const_new2 ] = 5.20856e-06 RooGaussian::slope_Run1_constraint[ x=gslope_Run1 mean=slope_Run1 sigma=0.725632 ] = 0.968543 RooGaussian::slope_Run2_constraint[ x=gslope_Run2 mean=slope_Run2 sigma=0.244161 ] = 0.668463 functions -------- RooFormulaVar::Bkg_Run1_2[ actualVars=(slope_Run1) formula="-1*pow(10,slope_Run1)" ] = -0.00326091 RooFormulaVar::Bkg_Run2_2[ actualVars=(slope_Run2) formula="-1*pow(10,slope_Run2)" ] = -0.00355287 RooFormulaVar::n1405_Run1[ actualVars=(R_1405,nLb_Run1,eff_ratio_1405_1) formula="R_1405*nLb_Run1*eff_ratio_1405_1" ] = 54.4001 RooFormulaVar::n1405_Run2[ actualVars=(R_1405,nLb_Run2,eff_ratio_1405_2) formula="R_1405*nLb_Run2*eff_ratio_1405_2" ] = 221.297 RooFormulaVar::n1520_Run1[ actualVars=(R_1520,nLb_Run1,eff_ratio_1520_1) formula="R_1520*nLb_Run1*eff_ratio_1520_1" ] = 696.526 RooFormulaVar::n1520_Run2[ actualVars=(R_1520,nLb_Run2,eff_ratio_1520_2) formula="R_1520*nLb_Run2*eff_ratio_1520_2" ] = 2242.72 RooFormulaVar::n1600_Run1[ actualVars=(R_1600,nLb_Run1,eff_ratio_1600_1) formula="R_1600*nLb_Run1*eff_ratio_1600_1" ] = 442.872 RooFormulaVar::n1600_Run2[ actualVars=(R_1600,nLb_Run2,eff_ratio_1600_2) formula="R_1600*nLb_Run2*eff_ratio_1600_2" ] = 1403.75 RooFormulaVar::nSigma1[ actualVars=(R,nLb_Run1,eff_ratio1) formula="pow(10,-5)*R*nLb_Run1/eff_ratio1" ] = -6.56527 RooFormulaVar::nSigma2[ actualVars=(R,nLb_Run2,eff_ratio2) formula="pow(10,-5)*R*nLb_Run2/eff_ratio2" ] = -27.52 datasets -------- RooDataSet::ds_sim_wt1(Lb_DTF_M_JpsiLConstr) RooDataSet::ds_sim_wt2(Lb_DTF_M_JpsiLConstr) RooDataHist::ds1(Lb_DTF_M_JpsiLConstr) RooDataHist::ds2(Lb_DTF_M_JpsiLConstr) RooDataHist::combData(sample,Lb_DTF_M_JpsiLConstr) parameter snapshots ------------------- ModelConfig__snapshot = (R=-183.094 +/- 137.082) bkgOnlyModel__snapshot = (R=0 +/- 137.082) named sets ---------- ModelConfig_GlobalObservables:(geff_ratio1,gnXib1,geff_ratio2,gnXib2,geff_ratio_1405_1,geff_ratio_1405_2,geff_ratio_1520_1,geff_ratio_1520_2,geff_ratio_1600_1,geff_ratio_1600_2,gslope_Run1,gslope_Run2,gnLb_Run1,gnLb_Run2) ModelConfig_NuisParams:(nLb_Run1,mean_Run1,sigma_Run1,nBkg_Run1,nMiscLst_Run1,miscLstMean_Run1,miscLstSigma_Run1,eff_ratio1,nXib1,eff_ratio_1405_1,eff_ratio_1520_1,eff_ratio_1600_1,nLb_Run2,mean_Run2,sigma_Run2,nBkg_Run2,nMiscLst_Run2,miscLstMean_Run2,miscLstSigma_Run2,eff_ratio2,nXib2,eff_ratio_1405_2,eff_ratio_1520_2,eff_ratio_1600_2,R_1405,R_1520,R_1600,slope_Run1,slope_Run2) ModelConfig_Observables:(Lb_DTF_M_JpsiLConstr,sample) ModelConfig_POI:(R) ModelConfig__snapshot:(R) bkgOnlyModel__snapshot:(R) globObs:(geff_ratio1,gnXib1,geff_ratio2,gnXib2,geff_ratio_1405_1,geff_ratio_1405_2,geff_ratio_1520_1,geff_ratio_1520_2,geff_ratio_1600_1,geff_ratio_1600_2,gslope_Run1,gslope_Run2,gnLb_Run1,gnLb_Run2) nuisParams:(nLb_Run1,mean_Run1,sigma_Run1,nBkg_Run1,nMiscLst_Run1,miscLstMean_Run1,miscLstSigma_Run1,eff_ratio1,nXib1,eff_ratio_1405_1,eff_ratio_1520_1,eff_ratio_1600_1,nLb_Run2,mean_Run2,sigma_Run2,nBkg_Run2,nMiscLst_Run2,miscLstMean_Run2,miscLstSigma_Run2,eff_ratio2,nXib2,eff_ratio_1405_2,eff_ratio_1520_2,eff_ratio_1600_2,R_1405,R_1520,R_1600,slope_Run1,slope_Run2) obs:(Lb_DTF_M_JpsiLConstr,sample) poi:(R) generic objects --------------- RooStats::ModelConfig::ModelConfig RooStats::ModelConfig::bkgOnlyModel Using data set combData Info in : Model ModelConfig has no snapshot - make one using model poi [#1] INFO:ObjectHandling -- RooWorkspace::saveSnaphot(w) replacing previous snapshot with name ModelConfig__snapshot StandardHypoTestInvDemo : POI initial value: R = -183.094 Info in : Using Minuit as minimizer for computing the test statistic Info in : Doing a first fit to the observed data [#1] INFO:Minization -- p.d.f. provides expected number of events, including extended term in likelihood. [#1] INFO:Minization -- createNLL picked up cached consraints from workspace with 14 entries [#1] INFO:Minization -- Including the following contraint terms in minimization: (nLb_Run1_syst,eff_ratio_constraint1,nXib_constraint1,eff_ratio_1405_constraint1,eff_ratio_1520_constraint1,eff_ratio_1600_constraint1,slope_Run1_constraint,nLb_Run2_syst,eff_ratio_constraint2,nXib_constraint2,eff_ratio_1405_constraint2,eff_ratio_1520_constraint2,eff_ratio_1600_constraint2,slope_Run2_constraint) [#1] INFO:Fitting -- RooAddition::defaultErrorLevel(nll_simPdf_new_combData_with_constr) Summation contains a RooNLLVar, using its error level [#1] INFO:Minization -- RooMinimizer::optimizeConst: activating const optimization RooAbsTestStatistic::initSimMode: creating slave calculator #0 for state run1 (375 dataset entries) [#1] INFO:NumericIntegration -- RooRealIntegral::init(Lb_Run1_Int[Lb_DTF_M_JpsiLConstr]) using numeric integrator RooIntegrator1D to calculate Int(Lb_DTF_M_JpsiLConstr) RooAbsTestStatistic::initSimMode: creating slave calculator #1 for state run2 (375 dataset entries) [#1] INFO:NumericIntegration -- RooRealIntegral::init(Lb_Run2_Int[Lb_DTF_M_JpsiLConstr]) using numeric integrator RooIntegrator1D to calculate Int(Lb_DTF_M_JpsiLConstr) [#1] INFO:Fitting -- RooAbsTestStatistic::initSimMode: created 2 slave calculators. [#1] INFO:NumericIntegration -- RooRealIntegral::init(Lb_Run1_Int[Lb_DTF_M_JpsiLConstr]) using numeric integrator RooIntegrator1D to calculate Int(Lb_DTF_M_JpsiLConstr) [#1] INFO:NumericIntegration -- RooRealIntegral::init(Lb_Run1_Int[Lb_DTF_M_JpsiLConstr]) using numeric integrator RooIntegrator1D to calculate Int(Lb_DTF_M_JpsiLConstr) [#1] INFO:Minization -- The following expressions have been identified as constant and will be precalculated and cached: (SIG1,XIB1,LST1405_Run1,LST1520_Run1,LST1600_Run1) [#1] INFO:Minization -- The following expressions will be evaluated in cache-and-track mode: (Lb_Run1,lstLump_Run1,Bkg_Run1) [#1] INFO:NumericIntegration -- RooRealIntegral::init(Lb_Run2_Int[Lb_DTF_M_JpsiLConstr]) using numeric integrator RooIntegrator1D to calculate Int(Lb_DTF_M_JpsiLConstr) [#1] INFO:NumericIntegration -- RooRealIntegral::init(Lb_Run2_Int[Lb_DTF_M_JpsiLConstr]) using numeric integrator RooIntegrator1D to calculate Int(Lb_DTF_M_JpsiLConstr) [#1] INFO:Minization -- The following expressions have been identified as constant and will be precalculated and cached: (SIG2,XIB2,LST1405_Run2,LST1520_Run2,LST1600_Run2) [#1] INFO:Minization -- The following expressions will be evaluated in cache-and-track mode: (Lb_Run2,lstLump_Run2,Bkg_Run2) ********** ** 1 **SET PRINT 0 ********** ********** ** 2 **SET NOGRAD ********** PARAMETER DEFINITIONS: NO. NAME VALUE STEP SIZE LIMITS 1 R -1.83094e+02 1.37082e+02 -1.00000e+03 1.00000e+03 2 R_1405 2.11502e-02 7.63663e-02 0.00000e+00 1.00000e+00 MINUIT WARNING IN PARAMETR ============== VARIABLE2 BROUGHT BACK INSIDE LIMITS. 3 R_1520 2.37275e-01 1.63790e-01 0.00000e+00 1.00000e+00 4 R_1600 1.67967e-01 9.38131e-02 0.00000e+00 1.00000e+00 5 eff_ratio1 1.13078e+00 2.64891e-02 0.00000e+00 5.00000e+00 6 eff_ratio2 1.02976e+00 1.25644e-02 0.00000e+00 5.00000e+00 7 eff_ratio_1405_1 6.34354e-01 9.40748e-03 0.00000e+00 5.00000e+00 8 eff_ratio_1405_2 6.76008e-01 9.57493e-03 0.00000e+00 5.00000e+00 9 eff_ratio_1520_1 7.23985e-01 1.17130e-02 0.00000e+00 5.00000e+00 10 eff_ratio_1520_2 6.10676e-01 1.09131e-02 0.00000e+00 5.00000e+00 11 eff_ratio_1600_1 6.50278e-01 1.01253e-02 0.00000e+00 5.00000e+00 12 eff_ratio_1600_2 5.39951e-01 8.19396e-03 0.00000e+00 5.00000e+00 13 mean_Run1 5.61960e+03 1.22539e-01 5.61900e+03 5.62100e+03 14 mean_Run2 5.61982e+03 6.30185e-02 5.61900e+03 5.62100e+03 15 miscLstMean_Run1 5.01830e+03 4.16884e+00 4.99000e+03 5.04000e+03 16 miscLstMean_Run2 5.01710e+03 3.29763e+00 4.99000e+03 5.04000e+03 17 miscLstSigma_Run1 5.63572e+01 4.11420e+00 3.00000e+01 9.00000e+01 18 miscLstSigma_Run2 6.44903e+01 3.08074e+00 3.00000e+01 9.00000e+01 19 nBkg_Run1 8.05020e+02 5.68483e+01 1.00000e+00 6.74500e+03 20 nBkg_Run2 2.93414e+03 1.10937e+02 1.00000e+00 2.51460e+04 21 nLb_Run1 4.05466e+03 3.16197e+01 1.00000e+03 8.00000e+03 22 nLb_Run2 1.54779e+04 8.78927e+01 1.00000e+03 2.40000e+04 23 nMiscLst_Run1 6.69245e+02 6.25398e+01 1.00000e+00 4.00000e+03 24 nMiscLst_Run2 2.80883e+03 1.69146e+02 1.00000e+00 9.00000e+03 25 nXib1 2.45046e+01 4.68832e+00 0.00000e+00 2.00000e+02 26 nXib2 8.54562e+01 1.11998e+01 0.00000e+00 4.00000e+02 27 sigma_Run1 1.47161e+01 2.17897e-01 1.00000e+00 2.00000e+01 28 sigma_Run2 1.36505e+01 1.04295e-01 1.00000e+00 2.00000e+01 29 slope_Run1 -2.48666e+00 2.27308e-02 -1.10000e+01 -2.00000e+00 30 slope_Run2 -2.44942e+00 1.31990e-02 -1.10000e+01 -2.00000e+00 ********** ** 3 **SET ERR 0.5 ********** ********** ** 4 **SET PRINT 0 ********** ********** ** 5 **SET STR 0 ********** ********** ** 6 **MIGRAD 1.5e+04 1 ********** MIGRAD MINIMIZATION HAS CONVERGED. FCN=-88377.3 FROM MIGRAD STATUS=CONVERGED 129 CALLS 130 TOTAL EDM=6.85593e-05 STRATEGY= 0 NO ERROR MATRIX EXT PARAMETER CURRENT GUESS STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 R -1.83046e+02 1.37082e+02 4.94938e-05 2.52463e-02 2 R_1405 2.11370e-02 7.63663e-02 -9.13386e-05 4.63890e-02 3 R_1520 2.37275e-01 1.63790e-01 1.41220e-07 -5.95733e-02 4 R_1600 1.67967e-01 9.38131e-02 -1.27800e-06 -5.96174e-02 5 eff_ratio1 1.13078e+00 2.64891e-02 -7.57167e-07 1.41358e-02 6 eff_ratio2 1.02976e+00 1.25644e-02 -1.88352e-07 1.10208e-02 7 eff_ratio_1405_1 6.34354e-01 9.40748e-03 -2.12830e-07 1.39614e-02 8 eff_ratio_1405_2 6.76007e-01 9.57493e-03 -7.35802e-08 5.13812e-03 9 eff_ratio_1520_1 7.23985e-01 1.17130e-02 -5.06067e-07 2.21897e-02 10 eff_ratio_1520_2 6.10675e-01 1.09131e-02 -7.46991e-07 -8.53024e-02 11 eff_ratio_1600_1 6.50277e-01 1.01253e-02 -9.58230e-08 -9.17879e-04 12 eff_ratio_1600_2 5.39952e-01 8.19396e-03 2.70788e-07 -5.45229e-02 13 mean_Run1 5.61960e+03 1.22539e-01 -5.39989e-05 4.64336e-03 14 mean_Run2 5.61982e+03 6.30185e-02 -5.39493e-06 1.89972e-03 15 miscLstMean_Run1 5.01830e+03 4.16884e+00 2.52306e-05 5.08233e-03 16 miscLstMean_Run2 5.01710e+03 3.29763e+00 1.43224e-05 -1.27344e-03 17 miscLstSigma_Run1 5.63602e+01 4.11420e+00 1.01561e-04 -7.05750e-03 18 miscLstSigma_Run2 6.44926e+01 3.08074e+00 7.85884e-05 3.66600e-05 19 nBkg_Run1 8.05022e+02 5.68483e+01 7.48441e-07 -1.51041e-01 20 nBkg_Run2 2.93414e+03 1.10937e+02 2.38142e-07 -1.27207e-01 21 nLb_Run1 4.05466e+03 3.16197e+01 5.46890e-08 1.52928e-02 22 nLb_Run2 1.54779e+04 8.78927e+01 4.98605e-07 -4.43979e-02 23 nMiscLst_Run1 6.69243e+02 6.25398e+01 -1.17531e-06 -2.33241e-02 24 nMiscLst_Run2 2.80883e+03 1.69146e+02 1.28180e-06 -5.82224e-02 25 nXib1 2.45018e+01 4.68832e+00 -4.27306e-05 3.90568e-02 26 nXib2 8.54524e+01 1.11998e+01 -2.30275e-05 1.37044e-02 27 sigma_Run1 1.47162e+01 2.17897e-01 5.09951e-06 2.50738e-02 28 sigma_Run2 1.36505e+01 1.04295e-01 1.13083e-06 6.04501e-03 29 slope_Run1 -2.48691e+00 2.27308e-02 -1.23750e-04 1.47371e-02 30 slope_Run2 -2.44946e+00 1.31990e-02 -1.76364e-05 7.00948e-02 ERR DEF= 0.5 [#1] INFO:Minization -- RooMinimizer::optimizeConst: deactivating const optimization StandardHypoTestInvDemo - Best Fit value : R = -183.046 +/- 137.082 Time for fitting : Real time 0:00:00, CP time 0.440 [#1] INFO:ObjectHandling -- RooWorkspace::saveSnaphot(w) replacing previous snapshot with name ModelConfig__snapshot StandardHypoTestInvo: snapshot of S+B Model ModelConfig is set to the best fit value Info in : Data set is weighted, nentries = 750 and sum of weights = 31891.0 but toy generation is unbinned - it would be faster to set mGenerateBinned to true [#1] INFO:InputArguments -- HypoTestInverter ---- Input models: using as S+B (null) model : ModelConfig using as B (alternate) model : bkgOnlyModel no gproof :{ #0 0x00000032c88ac5de in waitpid () from /lib64/libc.so.6 #1 0x00000032c883e619 in do_system () from /lib64/libc.so.6 #2 0x00007f4fa4f8a568 in TUnixSystem::StackTrace() () from /cvmfs/lhcb.cern.ch/lib/lcg/releases/ROOT/6.12.06-0f687/x86_64-slc6-gcc62-opt/lib/libCore.so #3 0x00007f4fa117be05 in cling::MultiplexInterpreterCallbacks::PrintStackTrace() () from /cvmfs/lhcb.cern.ch/lib/lcg/releases/ROOT/6.12.06-0f687/x86_64-slc6-gcc62-opt/lib/libCling.so #4 0x00007f4fa117b8bb in cling_runtime_internal_throwIfInvalidPointer () from /cvmfs/lhcb.cern.ch/lib/lcg/releases/ROOT/6.12.06-0f687/x86_64-slc6-gcc62-opt/lib/libCling.so #5 0x00007f4fa0caa3ea in ?? () #6 0x00007fff72f27190 in ?? () #7 0x00007fff72f27058 in ?? () #8 0x00007fff72f26f20 in ?? () #9 0x00007fff72f26de8 in ?? () #10 0x00007fff72f23840 in ?? () #11 0x00007fff72f23930 in ?? () #12 0x0000000000000000 in ?? () Error in : Trying to dereference null pointer or trying to call routine taking non-null arguments. Execution of your code was aborted. In file included from input_line_10:1: /data1/avenkate/JpsiLambda_RESTART/scripts/testdir/StandardHypoTestInvDemo.C:971:4: warning: null passed to a callee that requires a non-null argument [-Wnonnull] gProof->Load("/data1/avenkate/JpsiLambda_RESTART/scripts/testdir/RooHypatia2_cpp.so"); ^~~~~~