ROOTSYS environment variable = /afs/slac.stanford.edu/g/babar/package/root/5.18-00/Linux24SL3_i386_gcc323

Executing RooDKDalitz/rootlogon.C

RooFit v2.31 -- Developed by Wouter Verkerke and David Kirkby 
                Copyright (C) 2000-2008 NIKHEF, University of California & Stanford University
                All rights reserved, please read http://roofit.sourceforge.net/license.txt

Error in <TUnixSystem::DynamicPathName>: ${NAG_C_ROOT}/lib${NAG_C_NAME}.so does not exist in .:/afs/slac.stanford.edu/g/babar/package/root/5.18-00/Linux24SL3_i386_gcc323/lib::/afs/slac.stanford.edu/g/babar/package/root/5.18-00/Linux24SL3_i386_gcc323/lib:/afs/slac/package/lsf/curr/lib:./shlib/Linux24SL3_i386_gcc323:./shlib/Linux24SL3_i386_gcc323/ldlink:/afs/slac.stanford.edu/g/babar/dist/releases/current/shlib/Linux24SL3_i386_gcc323:/afs/slac.stanford.edu/g/babar/dist/releases/current/shlib/Linux24SL3_i386_gcc323/ldlink:/afs/slac.stanford.edu/g/babar/package/root/5.18-00/Linux24SL3_i386_gcc323/lib

RooFit General shared libraries loaded 

NAG shared Libraries loaded 

RooDKDalitz shared libraries loaded 

RooFit Loading RooAlias.C ... 

RooFit Executing RooLogon.C ... 

...using style 'Plain'
*** Cannot find RELEASE directory. Are you in a workdir?
*** Cannot find PARENT directory. Are you in a workdir?
*** The BFCURRENT environment variable is not set!
*** Will not be able to find shared libraries from a release
    For approved plots use: gROOT->SetStyle("BABAR");
  To add a BABAR label use: BABARLabel();
  To add a better-scaling BABAR label use: BABARSmartLabel();
    type "BABARSmartLabel(-2);" for options


Processing ./results/dstar_sig_Truth_RBW-0.1-NoPhotos.C...
RooDKFitMaster: configFile = './results/dstar_sig_Truth_RBW-0.1-NoPhotos.config'
RooDKFitMaster: Basic Configuration read from ./results/dstar_sig_Truth_RBW-0.1-NoPhotos.config
RooDKFitMaster:        qABBins   = 400
RooDKFitMaster:        qACBins   = 400
RooDKFitMaster:        qBCBins   = 400
RooDKFitMaster:         mESMax   = 5.3
RooDKFitMaster:         mESMin   = 5.2
RooDKFitMaster:        mESBins   = 100
RooDKFitMaster:     deltaEBins   = 100
RooDKFitMaster:   deltaEMax_dkSel = 0.3
RooDKFitMaster:   deltaEMin_dkSel = -0.3
RooDKFitMaster:  deltaEMax_dpiSel = 0.3
RooDKFitMaster:  deltaEMin_dpiSel = -0.3
RooDKFitMaster:   deltaEMax_dk    = 0.3
RooDKFitMaster:   deltaEMin_dk    = -0.3
RooDKFitMaster:  deltaEMax_dpi    = 0.3
RooDKFitMaster:  deltaEMin_dpi    = -0.3
RooDKFitMaster: deltaEshiftMax    = 0.12
RooDKFitMaster: deltaEshiftMin   = 0
RooDKFitMaster: deltaEshiftBins  = 100
RooDKFitMaster:          mDMax   = 1.8861
RooDKFitMaster:          mDMin   = 1.8429
RooDKFitMaster:      mDMax_Sel   = 1.8861
RooDKFitMaster:      mDMin_Sel   = 1.8429
RooDKFitMaster:         mDBins   = 100
RooDKFitMaster:      deltamMax   = 0.1461
RooDKFitMaster:      deltamMin   = 0.1448
RooDKFitMaster:  deltamMax_Sel   = 0.1461
RooDKFitMaster:  deltamMin_Sel   = 0.1448
RooDKFitMaster:     deltamBins   = 100
RooDKFitMaster:       tRecoMax   = 4
RooDKFitMaster:       tRecoMin   = -2
RooDKFitMaster:      tRecoBins   = 100
RooDKFitMaster:        tErrMax   = 1
RooDKFitMaster:        tErrMin   = 0
RooDKFitMaster:       tErrBins   = 100
RooDKFitMaster:       tTrueMax   = 5
RooDKFitMaster:       tTrueMin   = 0
RooDKFitMaster:      tTrueBins   = 100
RooDKFitMaster:      fisherMax   = 5
RooDKFitMaster:      fisherMin   = -5
RooDKFitMaster:  fisherMax_Sel   = 5
RooDKFitMaster:  fisherMin_Sel   = -5
RooDKFitMaster:     fisherBins   = 100
RooDKFitMaster:      minimizer   = Minuit
RooDKFitMaster:        simplex   = No
RooDKFitMaster:    doMinosPhys   = No
RooDKFitMaster:    doBinnedFit   = No
RooDKFitMaster:  typeBinnedFit   = Likelihood
RooDKFitMaster:   flavorOption   = truth
RooDKFitMaster: deltaEDhOption   = none
RooDKFitMaster:      mESOption   = out
RooDKFitMaster:   fisherOption   = out
RooDKFitMaster:      mDOption    = out
RooDKFitMaster:      deltamOption= out
RooDKFitMaster:      tErrOption  = out
RooDKFitMaster:     fitVerbose   = Yes
RooDKFitMaster:  fixShapeParams  = No
RooDKFitMaster:  fixYieldParams  = No
RooDKFitMaster:   integTypeNorm  = Grid
RooDKFitMaster:    nBins1DNorm   = 1000
RooDKFitMaster:    nBins2DNorm   = 400
RooDKFitMaster: removeEvtsOutPS  = Yes
RooDKFitMaster: binningMIOption  = GRID
RooDKFitMaster:   nMcExpMICoefs  = 10000
RooDKFitMaster: phaseShiftWatson = No
RooDKFitMaster: coherentAmpFakeD = No
RooDKFitMaster:           resFcn = Truth
RooDKFitMaster:  diskCachePrefix = 
RooDKFitMaster:  maxHashMapSize = 0

RooDKFitMaster:  dsel_runBlock   = 
RooDKFitMaster:  dsel_dk         = ((((BdecayMode==BdecayMode::Dstar))&&((fisher>=-5.00)&&(fisher<= 5.0)))&&((mD>= 1.84290)&&(mD<= 1.88610)))&&((deltam>= 0.144800)&&(deltam<= 0.146100))
RooDKFitMaster:  dsel_dpi        = (((fisher>=-5.00)&&(fisher<= 5.0))&&((mD>= 1.84290)&&(mD<= 1.88610)))&&((deltam>= 0.144800)&&(deltam<= 0.146100))
RooDKFitMaster:  dsel_fitSel     = ((((((BdecayMode==BdecayMode::Dstar))&&((deltaE_dk>=-0.300)&&(deltaE_dk<= 0.30)))||((deltaE_dpi>=-0.300)&&(deltaE_dpi<= 0.30)))&&((fisher>=-5.00)&&(fisher<= 5.0)))&&((mD>= 1.84290)&&(mD<= 1.88610)))&&((deltam>= 0.144800)&&(deltam<= 0.146100))
RooDKFitMaster:  dsel_fit        = ((((((BdecayMode==BdecayMode::Dstar))&&((deltaE_dk>=-0.300)&&(deltaE_dk<= 0.30)))||((deltaE_dpi>=-0.300)&&(deltaE_dpi<= 0.30)))&&((fisher>=-5.00)&&(fisher<= 5.0)))&&((mD>= 1.84290)&&(mD<= 1.88610)))&&((deltam>= 0.144800)&&(deltam<= 0.146100))
RooDKFitMaster: Blinding configuration read from ./results/dstar_sig_Truth_RBW-0.1-NoPhotos.config
RooArgSet::: (Owning contents)
  1)      RooAbsString: blindString_rb =       : "Blinding String rb"
  2) RooRealVar::blindSigma_rb[ ] = 0
  3)      RooAbsString: blindString_phaseW =       : "Blinding String phaseW"
  4) RooRealVar::blindSigma_phaseW[ ] = 0
  5)      RooAbsString: blindString_phaseS =       : "Blinding String phaseS"
  6) RooRealVar::blindSigma_phaseS[ ] = 0
  7)      RooAbsString: blindString_phaseM =       : "Blinding String phaseM"
  8) RooRealVar::blindSigma_phaseM[ ] = 0
  9)      RooAbsString: blindString_phaseP =       : "Blinding String phaseP"
 10) RooRealVar::blindSigma_phaseP[ ] = 0
 11)      RooAbsString: blindString_reM =       : "Blinding String reM"
 12) RooRealVar::blindSigma_reM[ ] = 0
 13)      RooAbsString: blindString_imM =       : "Blinding String imM"
 14) RooRealVar::blindSigma_imM[ ] = 0
 15)      RooAbsString: blindString_reP =       : "Blinding String reP"
 16) RooRealVar::blindSigma_reP[ ] = 0
 17)      RooAbsString: blindString_imP =       : "Blinding String imP"
 18) RooRealVar::blindSigma_imP[ ] = 0
 19)      RooAbsString: blindString_absqOverp =       : "Blinding String absqOverp"
 20) RooRealVar::blindSigma_absqOverp[ ] = 0
 21)      RooAbsString: blindString_argqOverp =       : "Blinding String argqOverp"
 22) RooRealVar::blindSigma_argqOverp[ ] = 0
 23)      RooAbsString: blindString_x =       : "Blinding String x"
 24) RooRealVar::blindSigma_x[ ] = 0
 25)      RooAbsString: blindString_y =       : "Blinding String y"
 26) RooRealVar::blindSigma_y[ ] = 0
***** WARNING: missing blinding configuration. Missing parts are: 
(blindString_rb,blindSigma_rb,blindString_phaseW,blindSigma_phaseW,blindString_phaseS,blindSigma_phaseS,blindString_phaseM,blindSigma_phaseM,blindString_phaseP,blindSigma_phaseP,blindString_reM,blindSigma_reM,blindString_imM,blindSigma_imM,blindString_reP,blindSigma_reP,blindString_imP,blindSigma_imP,blindString_absqOverp,blindSigma_absqOverp,blindString_argqOverp,blindSigma_argqOverp,blindString_x,blindSigma_x,blindString_y,blindSigma_y)
***** Please, make sure this is not a configuration error. 
RooDKFitProto: Initializing data set variables
RooDKFitProto: Building proto parameters
RooDKDalitzTools: Blinding not activated for rb
RooDKDalitzTools: Blinding not activated for phaseW
RooDKDalitzTools: Blinding not activated for phaseS
RooDKDalitzTools: Blinding not activated for phaseM
RooDKDalitzTools: Blinding not activated for phaseP
RooDKDalitzTools: Blinding not activated for reM
RooDKDalitzTools: Blinding not activated for imM
RooDKDalitzTools: Blinding not activated for reP
RooDKDalitzTools: Blinding not activated for imP
RooDKDalitzTools: Blinding not activated for absqOverp
RooDKDalitzTools: Blinding not activated for argqOverp
RooDKDalitzTools: Blinding not activated for x
RooDKDalitzTools: Blinding not activated for y
RooDKFitProto: Building proto selection PDFs
RooDKFitProto: Building proto proper time resolution function PDFs
RooDKFitProto: Building proto selection Dstar PDFs
RooDKFitProto: Building proto efficiency map PDFs
RooDKFitProto: Building proto Dalitz PDFs
RooDKFitProto: Building proto Dalitz D* PDFs
RooDMixPdfMaker::RooDMixPdfMaker() WARNING: ctor with tErr has empty file name root. Make sure this is not a configuration error.
RooDMixPdfMaker::RooDMixPdfMaker() WARNING: ctor with tErr has empty file name root. Make sure this is not a configuration error.
RooDMixPdfMaker::RooDMixPdfMaker() WARNING: ctor with tErr has empty file name root. Make sure this is not a configuration error.
RooDMixPdfMaker::RooDMixPdfMaker() WARNING: ctor with tErr has empty file name root. Make sure this is not a configuration error.
RooDMixPdfMaker::RooDMixPdfMaker() WARNING: ctor with tErr has empty file name root. Make sure this is not a configuration error.
RooDMixPdfMaker::RooDMixPdfMaker() WARNING: ctor with tErr has empty file name root. Make sure this is not a configuration error.
Configuring I/O for toy Monte Carlo generation
RooArgSet::: (Owning contents)
  1) RooCategory::0x9c84550::toyMcParamsFromResultsRootFile : No
  2)      RooAbsString: toyMcResultsRootFile =       : "ROOT file with persisted toy MC fit results"
  3)      RooAbsString: toyMcDataRootFile =       : "ROOT file with persisted toy MC data"
  4) RooCategory::0x9481e70::toyMcRandomizePhysParams       : No
  5)      RooAbsString: toyMcSeed = -1      : "Toy MC random seed"

Load datasets
RooDKFitMaster::load_datasets: reading events from ASCII files
RooDKFitProto: Reading ascii data files
[#0] WARNING:InputArguments -- RooAbsData::reduce(dataset) WARNING: variable iBinACAB not in dataset, ignored
[#0] WARNING:InputArguments -- RooAbsData::reduce(dataset) WARNING: variable iBinStateACAB not in dataset, ignored
[#0] WARNING:InputArguments -- RooAbsData::reduce(dataset) WARNING: variable deltaE_dk not in dataset, ignored
[#0] WARNING:InputArguments -- RooAbsData::reduce(dataset) WARNING: variable deltaE_dpi not in dataset, ignored
dkRawData has 49998 entries
RooDKFitProto: Reading ascii data files
[#0] WARNING:InputArguments -- RooAbsData::reduce(dataset) WARNING: variable iBinACAB not in dataset, ignored
[#0] WARNING:InputArguments -- RooAbsData::reduce(dataset) WARNING: variable iBinStateACAB not in dataset, ignored
[#0] WARNING:InputArguments -- RooAbsData::reduce(dataset) WARNING: variable deltaE_dk not in dataset, ignored
[#0] WARNING:InputArguments -- RooAbsData::reduce(dataset) WARNING: variable deltaE_dpi not in dataset, ignored
dpiRawData has 0 entries
fitDataSel has 49998 entries
RooDKFitMaster::load_datasets: removing events outside phase space.
RooDKFitMaster::load_datasets: rejected 1 events, which represent a 0.00200008% of the events.
RooDKFitMaster::load_datasets: rejected 0 events after mES corrections, which represent a 0% of the events.
dsel_fitSel: ((((((BdecayMode==BdecayMode::Dstar))&&((deltaE_dk>=-0.300)&&(deltaE_dk<= 0.30)))||((deltaE_dpi>=-0.300)&&(deltaE_dpi<= 0.30)))&&((fisher>=-5.00)&&(fisher<= 5.0)))&&((mD>= 1.84290)&&(mD<= 1.88610)))&&((deltam>= 0.144800)&&(deltam<= 0.146100))
dsel_fit   : ((((((BdecayMode==BdecayMode::Dstar))&&((deltaE_dk>=-0.300)&&(deltaE_dk<= 0.30)))||((deltaE_dpi>=-0.300)&&(deltaE_dpi<= 0.30)))&&((fisher>=-5.00)&&(fisher<= 5.0)))&&((mD>= 1.84290)&&(mD<= 1.88610)))&&((deltam>= 0.144800)&&(deltam<= 0.146100))

RooDKFitMaster::load_datasets: fitDataSel has 49997 events

Statistics table per B and D decay modes

  Table superCat : dataSel
  +-------------------+-------+
  |    {Dstar;KsPiPi} | 49997 |
  +-------------------+-------+

Statistics table per B and D decay modes and B charge state

  Table superCat2 : dataSel
  +--------------------------+-------+
  |     {Dstar;KsPiPi;Bplus} | 24998 |
  |    {Dstar;KsPiPi;Bminus} | 24999 |
  +--------------------------+-------+


RooDKFitMaster::load_datasets: fitData has 49997 events

Statistics table per B and D decay modes

  Table superCat : dataSel
  +-------------------+-------+
  |    {Dstar;KsPiPi} | 49997 |
  +-------------------+-------+

Statistics table per B and D decay modes and B charge state

  Table superCat2 : dataSel
  +--------------------------+-------+
  |     {Dstar;KsPiPi;Bplus} | 24998 |
  |    {Dstar;KsPiPi;Bminus} | 24999 |
  +--------------------------+-------+


Build PDFs


[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: category indexing physics model: DdecayMode_split
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: list of physics models (tErrSigPdf)
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: splitting of category BdecayMode restricted to states (Dstar)
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: list of splitting categories (BdecayMode,DdecayMode_split)
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: list of auxiliary splitting categories (superBdecayMode,BdecayModeKPi,superBdecayModeKPi)
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: processing physics model tErrSigPdf
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: configured customizers for all physics models
RooCustomizer for tErrSigPdf
  Splitting rules:
   tErrSigMean is split by DdecayMode_split
   tErrSigWidth is split by DdecayMode_split
   tErrSigDelta is split by DdecayMode_split
   tErrSigGamma is split by DdecayMode_split
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: Customizing physics model tErrSigPdf for mode {KsPiPi;Dstar}
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: Customizing physics model tErrSigPdf for mode {KsKK;Dstar}
Pdf component : {KsPiPi;Dstar}
RooCustomizer for tErrSigPdf_{Dstar;KsPiPi} (sterile)
Pdf component : {KsKK;Dstar}
RooCustomizer for tErrSigPdf_{Dstar;KsKK} (sterile)
RooCustomizer for pdfSelRawCust (sterile)
RooArgSet::dependents:
  1) RooCategory::0x84882b8::DdecayMode_split : KsKK
  2) RooCategory::0x8441088::BdecayMode       : Dstar
  3) RooRealVar::tErr[ ] = 0

Selection PDF configuration: parameter values from './results/dstar_sig_Truth_RBW-0.1-NoPhotos.config' : 
Initial parameters configured RooArgSet::parameters_selection:
Initial parameters NOT configured RooArgSet::parameters_selection:
  1) RooRealVar::tErrSigDelta_KsKK[ ] = 0.59
  2) RooRealVar::tErrSigDelta_KsPiPi[ ] = 0.59
  3) RooRealVar::tErrSigGamma_KsKK[ ] = -0.2
  4) RooRealVar::tErrSigGamma_KsPiPi[ ] = -0.2
  5) RooRealVar::tErrSigMean_KsKK[ ] = 0.2
  6) RooRealVar::tErrSigMean_KsPiPi[ ] = 0.2
  7) RooRealVar::tErrSigWidth_KsKK[ ] = 0.09
  8) RooRealVar::tErrSigWidth_KsPiPi[ ] = 0.09

Build PDFs


[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: category indexing physics model: DdecayMode_split
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: list of physics models (gblDstarSigGoodDRSTDPdf)
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: splitting of category BdecayMode restricted to states (Dstar)
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: list of splitting categories (BdecayMode,DdecayMode_split)
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: list of auxiliary splitting categories (superBdecayMode,BdecayModeKPi,superBdecayModeKPi)
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: processing physics model gblDstarSigGoodDRSTDPdf
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: configured customizers for all physics models
RooCustomizer for gblDstarSigGoodDRSTDPdf
  Splitting rules:
   NAmp is split by DdecayMode_split
   formatCoef is split by DdecayMode_split
   nameAmp1 is split by DdecayMode_split
   ampCoefAmp1 is split by DdecayMode_split
   phaseCoefAmp1 is split by DdecayMode_split
   resoAmp1 is split by DdecayMode_split
   angAmp1 is split by DdecayMode_split
   massAmp1 is split by DdecayMode_split
   widthAmp1 is split by DdecayMode_split
   propAmp1 is split by DdecayMode_split
   radiusBWDAmp1 is split by DdecayMode_split
   radiusBWBAmp1 is split by DdecayMode_split
   width2Amp1 is split by DdecayMode_split
   coupling2Amp1 is split by DdecayMode_split
   nameAmp2 is split by DdecayMode_split
   ampCoefAmp2 is split by DdecayMode_split
   phaseCoefAmp2 is split by DdecayMode_split
   resoAmp2 is split by DdecayMode_split
   angAmp2 is split by DdecayMode_split
   massAmp2 is split by DdecayMode_split
   widthAmp2 is split by DdecayMode_split
   propAmp2 is split by DdecayMode_split
   radiusBWDAmp2 is split by DdecayMode_split
   radiusBWBAmp2 is split by DdecayMode_split
   nameAmp3 is split by DdecayMode_split
   ampCoefAmp3 is split by DdecayMode_split
   phaseCoefAmp3 is split by DdecayMode_split
   resoAmp3 is split by DdecayMode_split
   angAmp3 is split by DdecayMode_split
   massAmp3 is split by DdecayMode_split
   widthAmp3 is split by DdecayMode_split
   propAmp3 is split by DdecayMode_split
   radiusBWDAmp3 is split by DdecayMode_split
   radiusBWBAmp3 is split by DdecayMode_split
   width2Amp3 is split by DdecayMode_split
   coupling2Amp3 is split by DdecayMode_split
   nameAmp4 is split by DdecayMode_split
   ampCoefAmp4 is split by DdecayMode_split
   phaseCoefAmp4 is split by DdecayMode_split
   resoAmp4 is split by DdecayMode_split
   angAmp4 is split by DdecayMode_split
   massAmp4 is split by DdecayMode_split
   widthAmp4 is split by DdecayMode_split
   propAmp4 is split by DdecayMode_split
   radiusBWDAmp4 is split by DdecayMode_split
   radiusBWBAmp4 is split by DdecayMode_split
   nameAmp5 is split by DdecayMode_split
   ampCoefAmp5 is split by DdecayMode_split
   phaseCoefAmp5 is split by DdecayMode_split
   resoAmp5 is split by DdecayMode_split
   angAmp5 is split by DdecayMode_split
   massAmp5 is split by DdecayMode_split
   widthAmp5 is split by DdecayMode_split
   propAmp5 is split by DdecayMode_split
   radiusBWDAmp5 is split by DdecayMode_split
   radiusBWBAmp5 is split by DdecayMode_split
   width2Amp5 is split by DdecayMode_split
   coupling2Amp5 is split by DdecayMode_split
   nameAmp6 is split by DdecayMode_split
   ampCoefAmp6 is split by DdecayMode_split
   phaseCoefAmp6 is split by DdecayMode_split
   resoAmp6 is split by DdecayMode_split
   angAmp6 is split by DdecayMode_split
   massAmp6 is split by DdecayMode_split
   widthAmp6 is split by DdecayMode_split
   propAmp6 is split by DdecayMode_split
   radiusBWDAmp6 is split by DdecayMode_split
   radiusBWBAmp6 is split by DdecayMode_split
   width2Amp6 is split by DdecayMode_split
   coupling2Amp6 is split by DdecayMode_split
   nameAmp7 is split by DdecayMode_split
   ampCoefAmp7 is split by DdecayMode_split
   phaseCoefAmp7 is split by DdecayMode_split
   resoAmp7 is split by DdecayMode_split
   angAmp7 is split by DdecayMode_split
   massAmp7 is split by DdecayMode_split
   widthAmp7 is split by DdecayMode_split
   propAmp7 is split by DdecayMode_split
   radiusBWDAmp7 is split by DdecayMode_split
   radiusBWBAmp7 is split by DdecayMode_split
   nameAmp8 is split by DdecayMode_split
   ampCoefAmp8 is split by DdecayMode_split
   phaseCoefAmp8 is split by DdecayMode_split
   resoAmp8 is split by DdecayMode_split
   angAmp8 is split by DdecayMode_split
   massAmp8 is split by DdecayMode_split
   widthAmp8 is split by DdecayMode_split
   propAmp8 is split by DdecayMode_split
   radiusBWDAmp8 is split by DdecayMode_split
   radiusBWBAmp8 is split by DdecayMode_split
   nameAmp9 is split by DdecayMode_split
   ampCoefAmp9 is split by DdecayMode_split
   phaseCoefAmp9 is split by DdecayMode_split
   resoAmp9 is split by DdecayMode_split
   angAmp9 is split by DdecayMode_split
   massAmp9 is split by DdecayMode_split
   widthAmp9 is split by DdecayMode_split
   propAmp9 is split by DdecayMode_split
   radiusBWDAmp9 is split by DdecayMode_split
   radiusBWBAmp9 is split by DdecayMode_split
   nameAmp10 is split by DdecayMode_split
   ampCoefAmp10 is split by DdecayMode_split
   phaseCoefAmp10 is split by DdecayMode_split
   resoAmp10 is split by DdecayMode_split
   angAmp10 is split by DdecayMode_split
   massAmp10 is split by DdecayMode_split
   widthAmp10 is split by DdecayMode_split
   propAmp10 is split by DdecayMode_split
   radiusBWDAmp10 is split by DdecayMode_split
   radiusBWBAmp10 is split by DdecayMode_split
   nameAmp11 is split by DdecayMode_split
   ampCoefAmp11 is split by DdecayMode_split
   phaseCoefAmp11 is split by DdecayMode_split
   resoAmp11 is split by DdecayMode_split
   angAmp11 is split by DdecayMode_split
   massAmp11 is split by DdecayMode_split
   widthAmp11 is split by DdecayMode_split
   propAmp11 is split by DdecayMode_split
   radiusBWDAmp11 is split by DdecayMode_split
   radiusBWBAmp11 is split by DdecayMode_split
   nameAmp12 is split by DdecayMode_split
   ampCoefAmp12 is split by DdecayMode_split
   phaseCoefAmp12 is split by DdecayMode_split
   resoAmp12 is split by DdecayMode_split
   angAmp12 is split by DdecayMode_split
   massAmp12 is split by DdecayMode_split
   widthAmp12 is split by DdecayMode_split
   propAmp12 is split by DdecayMode_split
   radiusBWDAmp12 is split by DdecayMode_split
   radiusBWBAmp12 is split by DdecayMode_split
   nameAmp13 is split by DdecayMode_split
   ampCoefAmp13 is split by DdecayMode_split
   phaseCoefAmp13 is split by DdecayMode_split
   resoAmp13 is split by DdecayMode_split
   angAmp13 is split by DdecayMode_split
   massAmp13 is split by DdecayMode_split
   widthAmp13 is split by DdecayMode_split
   propAmp13 is split by DdecayMode_split
   radiusBWDAmp13 is split by DdecayMode_split
   radiusBWBAmp13 is split by DdecayMode_split
   nameAmp14 is split by DdecayMode_split
   ampCoefAmp14 is split by DdecayMode_split
   phaseCoefAmp14 is split by DdecayMode_split
   resoAmp14 is split by DdecayMode_split
   angAmp14 is split by DdecayMode_split
   massAmp14 is split by DdecayMode_split
   widthAmp14 is split by DdecayMode_split
   propAmp14 is split by DdecayMode_split
   radiusBWDAmp14 is split by DdecayMode_split
   radiusBWBAmp14 is split by DdecayMode_split
   nameAmp15 is split by DdecayMode_split
   ampCoefAmp15 is split by DdecayMode_split
   phaseCoefAmp15 is split by DdecayMode_split
   effMapContGoodDCoefX1Y0 is split by DdecayMode_split
   effMapContGoodDCoefX0Y1 is split by DdecayMode_split
   effMapContGoodDCoefX2Y0 is split by DdecayMode_split
   effMapContGoodDCoefX0Y2 is split by DdecayMode_split
   effMapContGoodDCoefX1Y1 is split by DdecayMode_split
   effMapContGoodDCoefX3Y0 is split by DdecayMode_split
   effMapContGoodDCoefX0Y3 is split by DdecayMode_split
   effMapContGoodDCoefX1Y2 is split by DdecayMode_split
   effMapContGoodDCoefX2Y1 is split by DdecayMode_split
   effMapContGoodDCoefNorm is split by DdecayMode_split
[#1] INFO:ObjectHandling -- RooSimPdfBuilder::buildPdf: Customizing physics model gblDstarSigGoodDRSTDPdf for mode {KsPiPi;Dstar}
Pdf component : {KsPiPi;Dstar}
RooCustomizer for gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi} (sterile)
RooCustomizer for pdfGlobalRawCust (sterile)
RooArgSet::dependents:
  1) RooCategory::0x84882b8::DdecayMode_split : KsKK
  2) RooCategory::0x8441088::BdecayMode       : Dstar
  3) RooRealVar::tTrue[ ] = 0.748583
  4) RooCategory::0x8484e58::DdecayMode       : KsPiPi
  5) RooRealVar::qAC[ ] = 0
  6) RooRealVar::qAB[ ] = 0
  7) RooCategory::0x8434500::recState         : Bminus
  8) RooRealVar::tErr[ ] = 0

Dalitz PDF configuration: parameter values from './results/dstar_sig_Truth_RBW-0.1-NoPhotos.config' : 
Initial parameters configured RooArgSet::parameters_selection:
  1) RooCategory::0xe28dc38::NAmp_KsPiPi                    : 15
  2) RooRealVar::absqOverp[ ] = 1.02359
  3) RooRealVar::ampCoefAmp10_KsPiPi[ ] = 1.15489
  4) RooRealVar::ampCoefAmp11_KsPiPi[ ] = 0.140865
  5) RooRealVar::ampCoefAmp12_KsPiPi[ ] = -1.55556
  6) RooRealVar::ampCoefAmp13_KsPiPi[ ] = -0.273791
  7) RooRealVar::ampCoefAmp14_KsPiPi[ ] = -1.6972
  8) RooRealVar::ampCoefAmp15_KsPiPi[ ] = 0.848984
  9) RooRealVar::ampCoefAmp1_KsPiPi[ ] = -1.16356
 10) RooRealVar::ampCoefAmp2_KsPiPi[ ] = 0.106051
 11) RooRealVar::ampCoefAmp3_KsPiPi[ ] = 1
 12) RooRealVar::ampCoefAmp4_KsPiPi[ ] = -0.0249569
 13) RooRealVar::ampCoefAmp5_KsPiPi[ ] = -0.423586
 14) RooRealVar::ampCoefAmp6_KsPiPi[ ] = -2.16486
 15) RooRealVar::ampCoefAmp7_KsPiPi[ ] = 0.217748
 16) RooRealVar::ampCoefAmp8_KsPiPi[ ] = 1.62128
 17) RooRealVar::ampCoefAmp9_KsPiPi[ ] = 0.148802
 18) RooCategory::0xe30a910::angAmp10_KsPiPi                : BC
 19) RooCategory::0xe313e18::angAmp11_KsPiPi                : BC
 20) RooCategory::0xe31d210::angAmp12_KsPiPi                : AC
 21) RooCategory::0xe326658::angAmp13_KsPiPi                : AC
 22) RooCategory::0xe32faa0::angAmp14_KsPiPi                : BC
 23) RooCategory::0xe295e98::angAmp1_KsPiPi                 : BC
 24) RooCategory::0xe2a0db8::angAmp2_KsPiPi                 : BC
 25) RooCategory::0xe2b8998::angAmp3_KsPiPi                 : AC
 26) RooCategory::0xe2c38a8::angAmp4_KsPiPi                 : AC
 27) RooCategory::0xe2ccde0::angAmp5_KsPiPi                 : AC
 28) RooCategory::0xe2e3b30::angAmp6_KsPiPi                 : AC
 29) RooCategory::0xe2eea18::angAmp7_KsPiPi                 : AC
 30) RooCategory::0xe2f7f28::angAmp8_KsPiPi                 : BC
 31) RooCategory::0xe301398::angAmp9_KsPiPi                 : BC
 32) RooRealVar::argqOverp[ ] = 0.0784506
 33) RooRealVar::effMapContGoodDCoefNorm_KsPiPi[ ] = 1
 34) RooCategory::0xe28f968::formatCoef_KsPiPi              : CARTESIAN
 35) RooRealVar::massAmp10_KsPiPi[ ] = 1.4256
 36) RooRealVar::massAmp11_KsPiPi[ ] = 1.4256
 37) RooRealVar::massAmp12_KsPiPi[ ] = 0.527699
 38) RooRealVar::massAmp13_KsPiPi[ ] = 1.03327
 39) RooRealVar::massAmp14_KsPiPi[ ] = 1.677
 40) RooRealVar::massAmp1_KsPiPi[ ] = 0.893606
 41) RooRealVar::massAmp2_KsPiPi[ ] = 0.89293
 42) RooRealVar::massAmp3_KsPiPi[ ] = 0.7758
 43) RooRealVar::massAmp4_KsPiPi[ ] = 0.78259
 44) RooRealVar::massAmp5_KsPiPi[ ] = 0.975
 45) RooRealVar::massAmp6_KsPiPi[ ] = 1.434
 46) RooRealVar::massAmp7_KsPiPi[ ] = 1.2754
 47) RooRealVar::massAmp8_KsPiPi[ ] = 1.459
 48) RooRealVar::massAmp9_KsPiPi[ ] = 1.459
 49) RooCategory::0xe304e58::nameAmp10_KsPiPi               : K2*m_1430
 50) RooCategory::0xe30e340::nameAmp11_KsPiPi               : K2*p_1430
 51) RooCategory::0xe3177d0::nameAmp12_KsPiPi               : sigma
 52) RooCategory::0xe320bc8::nameAmp13_KsPiPi               : sigma2
 53) RooCategory::0xe32a010::nameAmp14_KsPiPi               : K*m_1680
 54) RooCategory::0xe3334b0::nameAmp15_KsPiPi               : PHASESPACE
 55) RooCategory::0xe290460::nameAmp1_KsPiPi                : K*m
 56) RooCategory::0xe29b368::nameAmp2_KsPiPi                : K*p
 57) RooCategory::0xe2a48b8::nameAmp3_KsPiPi                : rho0
 58) RooCategory::0xe2bde48::nameAmp4_KsPiPi                : omega
 59) RooCategory::0xe2c73a8::nameAmp5_KsPiPi                : f0_980
 60) RooCategory::0xe2de0d0::nameAmp6_KsPiPi                : f0_1370
 61) RooCategory::0xe2e8fb8::nameAmp7_KsPiPi                : f2_1270
 62) RooCategory::0xe2f24f0::nameAmp8_KsPiPi                : K0*m_1430
 63) RooCategory::0xe2fb960::nameAmp9_KsPiPi                : K0*p_1430
 64) RooRealVar::phaseCoefAmp10_KsPiPi[ ] = -0.773363
 65) RooRealVar::phaseCoefAmp11_KsPiPi[ ] = -0.165378
 66) RooRealVar::phaseCoefAmp12_KsPiPi[ ] = -0.931685
 67) RooRealVar::phaseCoefAmp13_KsPiPi[ ] = -0.0535596
 68) RooRealVar::phaseCoefAmp14_KsPiPi[ ] = 0.128038
 69) RooRealVar::phaseCoefAmp15_KsPiPi[ ] = 0.893618
 70) RooRealVar::phaseCoefAmp1_KsPiPi[ ] = 1.19933
 71) RooRealVar::phaseCoefAmp2_KsPiPi[ ] = -0.118513
 72) RooRealVar::phaseCoefAmp3_KsPiPi[ ] = 0
 73) RooRealVar::phaseCoefAmp4_KsPiPi[ ] = 0.0388072
 74) RooRealVar::phaseCoefAmp5_KsPiPi[ ] = -0.236099
 75) RooRealVar::phaseCoefAmp6_KsPiPi[ ] = 3.62385
 76) RooRealVar::phaseCoefAmp7_KsPiPi[ ] = -0.133327
 77) RooRealVar::phaseCoefAmp8_KsPiPi[ ] = 1.06816
 78) RooRealVar::phaseCoefAmp9_KsPiPi[ ] = 0.0897144
 79) RooCategory::0xe30c028::propAmp10_KsPiPi               : RBW_CLEO_ZEMACH
 80) RooCategory::0xe3154b8::propAmp11_KsPiPi               : RBW_CLEO_ZEMACH
 81) RooCategory::0xe31e928::propAmp12_KsPiPi               : RBW_CLEO_ZEMACH
 82) RooCategory::0xe327d70::propAmp13_KsPiPi               : RBW_CLEO_ZEMACH
 83) RooCategory::0xe3311b8::propAmp14_KsPiPi               : RBW_CLEO_ZEMACH
 84) RooCategory::0xe297640::propAmp1_KsPiPi                : RBW_CLEO_ZEMACH
 85) RooCategory::0xe2a2560::propAmp2_KsPiPi                : RBW_CLEO_ZEMACH
 86) RooCategory::0xe2ba150::propAmp3_KsPiPi                : GS_CLEO_ZEMACH
 87) RooCategory::0xe2c5060::propAmp4_KsPiPi                : RBW_CLEO_ZEMACH
 88) RooCategory::0xe2ce598::propAmp5_KsPiPi                : RBW_CLEO_ZEMACH
 89) RooCategory::0xe2e52c0::propAmp6_KsPiPi                : RBW_CLEO_ZEMACH
 90) RooCategory::0xe2f01d0::propAmp7_KsPiPi                : RBW_CLEO_ZEMACH
 91) RooCategory::0xe2f9690::propAmp8_KsPiPi                : RBW_CLEO_ZEMACH
 92) RooCategory::0xe302b50::propAmp9_KsPiPi                : RBW_CLEO_ZEMACH
 93) RooRealVar::radiusBWBAmp10_KsPiPi[ ] = 0
 94) RooRealVar::radiusBWBAmp11_KsPiPi[ ] = 0
 95) RooRealVar::radiusBWBAmp12_KsPiPi[ ] = 0
 96) RooRealVar::radiusBWBAmp13_KsPiPi[ ] = 0
 97) RooRealVar::radiusBWBAmp14_KsPiPi[ ] = 0
 98) RooRealVar::radiusBWBAmp1_KsPiPi[ ] = 0
 99) RooRealVar::radiusBWBAmp2_KsPiPi[ ] = 0
100) RooRealVar::radiusBWBAmp3_KsPiPi[ ] = 0
101) RooRealVar::radiusBWBAmp4_KsPiPi[ ] = 0
102) RooRealVar::radiusBWBAmp5_KsPiPi[ ] = 0
103) RooRealVar::radiusBWBAmp6_KsPiPi[ ] = 0
104) RooRealVar::radiusBWBAmp7_KsPiPi[ ] = 0
105) RooRealVar::radiusBWBAmp8_KsPiPi[ ] = 0
106) RooRealVar::radiusBWBAmp9_KsPiPi[ ] = 0
107) RooRealVar::radiusBWDAmp10_KsPiPi[ ] = 1.5
108) RooRealVar::radiusBWDAmp11_KsPiPi[ ] = 1.5
109) RooRealVar::radiusBWDAmp12_KsPiPi[ ] = 1.5
110) RooRealVar::radiusBWDAmp13_KsPiPi[ ] = 1.5
111) RooRealVar::radiusBWDAmp14_KsPiPi[ ] = 1.5
112) RooRealVar::radiusBWDAmp1_KsPiPi[ ] = 1.5
113) RooRealVar::radiusBWDAmp2_KsPiPi[ ] = 1.5
114) RooRealVar::radiusBWDAmp3_KsPiPi[ ] = 1.5
115) RooRealVar::radiusBWDAmp4_KsPiPi[ ] = 1.5
116) RooRealVar::radiusBWDAmp5_KsPiPi[ ] = 1.5
117) RooRealVar::radiusBWDAmp6_KsPiPi[ ] = 1.5
118) RooRealVar::radiusBWDAmp7_KsPiPi[ ] = 1.5
119) RooRealVar::radiusBWDAmp8_KsPiPi[ ] = 1.5
120) RooRealVar::radiusBWDAmp9_KsPiPi[ ] = 1.5
121) RooCategory::0xe309e18::resoAmp10_KsPiPi               : AC
122) RooCategory::0xe313320::resoAmp11_KsPiPi               : AB
123) RooCategory::0xe31c740::resoAmp12_KsPiPi               : BC
124) RooCategory::0xe325b60::resoAmp13_KsPiPi               : BC
125) RooCategory::0xe32efd0::resoAmp14_KsPiPi               : AC
126) RooCategory::0xe295430::resoAmp1_KsPiPi                : AC
127) RooCategory::0xe2a0350::resoAmp2_KsPiPi                : AB
128) RooCategory::0xe2b7f30::resoAmp3_KsPiPi                : BC
129) RooCategory::0xe2c2e40::resoAmp4_KsPiPi                : BC
130) RooCategory::0xe2cc378::resoAmp5_KsPiPi                : BC
131) RooCategory::0xe2e30c8::resoAmp6_KsPiPi                : BC
132) RooCategory::0xe2edfb0::resoAmp7_KsPiPi                : BC
133) RooCategory::0xe2f74c0::resoAmp8_KsPiPi                : AC
134) RooCategory::0xe300930::resoAmp9_KsPiPi                : AB
135) RooRealVar::tau[ ] = 0.418012
136) RooRealVar::widthAmp10_KsPiPi[ ] = 0.0985
137) RooRealVar::widthAmp11_KsPiPi[ ] = 0.0985
138) RooRealVar::widthAmp12_KsPiPi[ ] = 0.511861
139) RooRealVar::widthAmp13_KsPiPi[ ] = 0.098789
140) RooRealVar::widthAmp14_KsPiPi[ ] = 0.205
141) RooRealVar::widthAmp1_KsPiPi[ ] = 0.0463407
142) RooRealVar::widthAmp2_KsPiPi[ ] = 0.04664
143) RooRealVar::widthAmp3_KsPiPi[ ] = 0.1464
144) RooRealVar::widthAmp4_KsPiPi[ ] = 0.00849
145) RooRealVar::widthAmp5_KsPiPi[ ] = 0.044
146) RooRealVar::widthAmp6_KsPiPi[ ] = 0.173
147) RooRealVar::widthAmp7_KsPiPi[ ] = 0.1851
148) RooRealVar::widthAmp8_KsPiPi[ ] = 0.175
149) RooRealVar::widthAmp9_KsPiPi[ ] = 0.175
150) RooRealVar::x[ ] = 0.109078
151) RooRealVar::y[ ] = 0.124904
Initial parameters NOT configured RooArgSet::parameters_selection:
  1) RooCategory::0x84b7668::absqOverp_bs                   : Unblind
  2) RooCategory::0x84b8580::argqOverp_bs                   : Unblind
  3) RooCategory::0xe299fc0::coupling2Amp1_KsPiPi           : Undefined
  4) RooCategory::0xe2bcab8::coupling2Amp3_KsPiPi           : Undefined
  5) RooCategory::0xe2d0f00::coupling2Amp5_KsPiPi           : Undefined
  6) RooCategory::0xe2e7c28::coupling2Amp6_KsPiPi           : Undefined
  7) RooRealVar::effMapContGoodDCoefX0Y1_KsPiPi[ ] = 0
  8) RooRealVar::effMapContGoodDCoefX0Y2_KsPiPi[ ] = 0
  9) RooRealVar::effMapContGoodDCoefX0Y3_KsPiPi[ ] = 0
 10) RooRealVar::effMapContGoodDCoefX1Y0_KsPiPi[ ] = 0
 11) RooRealVar::effMapContGoodDCoefX1Y1_KsPiPi[ ] = 0
 12) RooRealVar::effMapContGoodDCoefX1Y2_KsPiPi[ ] = 0
 13) RooRealVar::effMapContGoodDCoefX2Y0_KsPiPi[ ] = 0
 14) RooRealVar::effMapContGoodDCoefX2Y1_KsPiPi[ ] = 0
 15) RooRealVar::effMapContGoodDCoefX3Y0_KsPiPi[ ] = 0
 16) RooRealVar::width2Amp1_KsPiPi[ ] = 0
 17) RooRealVar::width2Amp3_KsPiPi[ ] = 0
 18) RooRealVar::width2Amp5_KsPiPi[ ] = 0
 19) RooRealVar::width2Amp6_KsPiPi[ ] = 0
 20) RooCategory::0x84b9480::x_bs                           : Unblind
 21) RooCategory::0x84ba340::y_bs                           : Unblind
Trying to replace massAmp2(K*p)_KsPiPi by massAmp1(K*m)_KsPiPi
Trying to replace widthAmp2(K*p)_KsPiPi by widthAmp1(K*m)_KsPiPi
Trying to replace massAmp11(K2*p_1430)_KsPiPi by massAmp10(K2*m_1430)_KsPiPi
Trying to replace widthAmp11(K2*p_1430)_KsPiPi by widthAmp10(K2*m_1430)_KsPiPi
Trying to replace massAmp9(K0*p_1430)_KsPiPi by massAmp8(K0*m_1430)_KsPiPi
Trying to replace widthAmp9(K0*p_1430)_KsPiPi by widthAmp8(K0*m_1430)_KsPiPi
RooCustomizer for pdfGlobal (sterile)
  Replacement rules:
   massAmp1(K*m)_KsPiPi replaces massAmp2(K*p)_KsPiPi
   widthAmp1(K*m)_KsPiPi replaces widthAmp2(K*p)_KsPiPi
   massAmp10(K2*m_1430)_KsPiPi replaces massAmp11(K2*p_1430)_KsPiPi
   widthAmp10(K2*m_1430)_KsPiPi replaces widthAmp11(K2*p_1430)_KsPiPi
   massAmp8(K0*m_1430)_KsPiPi replaces massAmp9(K0*p_1430)_KsPiPi
   widthAmp8(K0*m_1430)_KsPiPi replaces widthAmp9(K0*p_1430)_KsPiPi
RooArgSet::parameters:
  1) RooCategory::0xe28dc38::NAmp_KsPiPi                       : 15
  2) RooRealVar::absqOverp[ ] = 1.02359
  3) RooCategory::0x84b7668::absqOverp_bs                      : Unblind
  4) RooRealVar::ampCoefAmp1(K*m)_KsPiPi[ ] = -1.16356
  5) RooRealVar::ampCoefAmp10(K2*m_1430)_KsPiPi[ ] = 1.15489
  6) RooRealVar::ampCoefAmp11(K2*p_1430)_KsPiPi[ ] = 0.140865
  7) RooRealVar::ampCoefAmp12(sigma)_KsPiPi[ ] = -1.55556
  8) RooRealVar::ampCoefAmp13(sigma2)_KsPiPi[ ] = -0.273791
  9) RooRealVar::ampCoefAmp14(K*m_1680)_KsPiPi[ ] = -1.6972
 10) RooRealVar::ampCoefAmp15(PHASESPACE)_KsPiPi[ ] = 0.848984
 11) RooRealVar::ampCoefAmp2(K*p)_KsPiPi[ ] = 0.106051
 12) RooRealVar::ampCoefAmp3(rho0)_KsPiPi[ ] = 1
 13) RooRealVar::ampCoefAmp4(omega)_KsPiPi[ ] = -0.0249569
 14) RooRealVar::ampCoefAmp5(f0_980)_KsPiPi[ ] = -0.423586
 15) RooRealVar::ampCoefAmp6(f0_1370)_KsPiPi[ ] = -2.16486
 16) RooRealVar::ampCoefAmp7(f2_1270)_KsPiPi[ ] = 0.217748
 17) RooRealVar::ampCoefAmp8(K0*m_1430)_KsPiPi[ ] = 1.62128
 18) RooRealVar::ampCoefAmp9(K0*p_1430)_KsPiPi[ ] = 0.148802
 19) RooCategory::0xe295e98::angAmp1(K*m)_KsPiPi               : BC
 20) RooCategory::0xe30a910::angAmp10(K2*m_1430)_KsPiPi        : BC
 21) RooCategory::0xe313e18::angAmp11(K2*p_1430)_KsPiPi        : BC
 22) RooCategory::0xe31d210::angAmp12(sigma)_KsPiPi            : AC
 23) RooCategory::0xe326658::angAmp13(sigma2)_KsPiPi           : AC
 24) RooCategory::0xe32faa0::angAmp14(K*m_1680)_KsPiPi         : BC
 25) RooCategory::0xe2a0db8::angAmp2(K*p)_KsPiPi               : BC
 26) RooCategory::0xe2b8998::angAmp3(rho0)_KsPiPi              : AC
 27) RooCategory::0xe2c38a8::angAmp4(omega)_KsPiPi             : AC
 28) RooCategory::0xe2ccde0::angAmp5(f0_980)_KsPiPi            : AC
 29) RooCategory::0xe2e3b30::angAmp6(f0_1370)_KsPiPi           : AC
 30) RooCategory::0xe2eea18::angAmp7(f2_1270)_KsPiPi           : AC
 31) RooCategory::0xe2f7f28::angAmp8(K0*m_1430)_KsPiPi         : BC
 32) RooCategory::0xe301398::angAmp9(K0*p_1430)_KsPiPi         : BC
 33) RooRealVar::argqOverp[ ] = 0.0784506
 34) RooCategory::0x84b8580::argqOverp_bs                      : Unblind
 35) RooCategory::0xe299fc0::coupling2Amp1(K*m)_KsPiPi         : Undefined
 36) RooCategory::0xe2bcab8::coupling2Amp3(rho0)_KsPiPi        : Undefined
 37) RooCategory::0xe2d0f00::coupling2Amp5(f0_980)_KsPiPi      : Undefined
 38) RooCategory::0xe2e7c28::coupling2Amp6(f0_1370)_KsPiPi     : Undefined
 39) RooRealVar::effMapContGoodDCoefNorm_KsPiPi[ ] = 1
 40) RooRealVar::effMapContGoodDCoefX0Y1_KsPiPi[ ] = 0
 41) RooRealVar::effMapContGoodDCoefX0Y2_KsPiPi[ ] = 0
 42) RooRealVar::effMapContGoodDCoefX0Y3_KsPiPi[ ] = 0
 43) RooRealVar::effMapContGoodDCoefX1Y0_KsPiPi[ ] = 0
 44) RooRealVar::effMapContGoodDCoefX1Y1_KsPiPi[ ] = 0
 45) RooRealVar::effMapContGoodDCoefX1Y2_KsPiPi[ ] = 0
 46) RooRealVar::effMapContGoodDCoefX2Y0_KsPiPi[ ] = 0
 47) RooRealVar::effMapContGoodDCoefX2Y1_KsPiPi[ ] = 0
 48) RooRealVar::effMapContGoodDCoefX3Y0_KsPiPi[ ] = 0
 49) RooCategory::0xe28f968::formatCoef_KsPiPi                 : CARTESIAN
 50) RooRealVar::massAmp1(K*m)_KsPiPi[ ] = 0.893606
 51) RooRealVar::massAmp10(K2*m_1430)_KsPiPi[ ] = 1.4256
 52) RooRealVar::massAmp12(sigma)_KsPiPi[ ] = 0.527699
 53) RooRealVar::massAmp13(sigma2)_KsPiPi[ ] = 1.03327
 54) RooRealVar::massAmp14(K*m_1680)_KsPiPi[ ] = 1.677
 55) RooRealVar::massAmp3(rho0)_KsPiPi[ ] = 0.7758
 56) RooRealVar::massAmp4(omega)_KsPiPi[ ] = 0.78259
 57) RooRealVar::massAmp5(f0_980)_KsPiPi[ ] = 0.975
 58) RooRealVar::massAmp6(f0_1370)_KsPiPi[ ] = 1.434
 59) RooRealVar::massAmp7(f2_1270)_KsPiPi[ ] = 1.2754
 60) RooRealVar::massAmp8(K0*m_1430)_KsPiPi[ ] = 1.459
 61) RooCategory::0xe290460::nameAmp1(K*m)_KsPiPi              : K*m
 62) RooCategory::0xe304e58::nameAmp10(K2*m_1430)_KsPiPi       : K2*m_1430
 63) RooCategory::0xe30e340::nameAmp11(K2*p_1430)_KsPiPi       : K2*p_1430
 64) RooCategory::0xe3177d0::nameAmp12(sigma)_KsPiPi           : sigma
 65) RooCategory::0xe320bc8::nameAmp13(sigma2)_KsPiPi          : sigma2
 66) RooCategory::0xe32a010::nameAmp14(K*m_1680)_KsPiPi        : K*m_1680
 67) RooCategory::0xe3334b0::nameAmp15(PHASESPACE)_KsPiPi      : PHASESPACE
 68) RooCategory::0xe29b368::nameAmp2(K*p)_KsPiPi              : K*p
 69) RooCategory::0xe2a48b8::nameAmp3(rho0)_KsPiPi             : rho0
 70) RooCategory::0xe2bde48::nameAmp4(omega)_KsPiPi            : omega
 71) RooCategory::0xe2c73a8::nameAmp5(f0_980)_KsPiPi           : f0_980
 72) RooCategory::0xe2de0d0::nameAmp6(f0_1370)_KsPiPi          : f0_1370
 73) RooCategory::0xe2e8fb8::nameAmp7(f2_1270)_KsPiPi          : f2_1270
 74) RooCategory::0xe2f24f0::nameAmp8(K0*m_1430)_KsPiPi        : K0*m_1430
 75) RooCategory::0xe2fb960::nameAmp9(K0*p_1430)_KsPiPi        : K0*p_1430
 76) RooRealVar::phaseCoefAmp1(K*m)_KsPiPi[ ] = 1.19933
 77) RooRealVar::phaseCoefAmp10(K2*m_1430)_KsPiPi[ ] = -0.773363
 78) RooRealVar::phaseCoefAmp11(K2*p_1430)_KsPiPi[ ] = -0.165378
 79) RooRealVar::phaseCoefAmp12(sigma)_KsPiPi[ ] = -0.931685
 80) RooRealVar::phaseCoefAmp13(sigma2)_KsPiPi[ ] = -0.0535596
 81) RooRealVar::phaseCoefAmp14(K*m_1680)_KsPiPi[ ] = 0.128038
 82) RooRealVar::phaseCoefAmp15(PHASESPACE)_KsPiPi[ ] = 0.893618
 83) RooRealVar::phaseCoefAmp2(K*p)_KsPiPi[ ] = -0.118513
 84) RooRealVar::phaseCoefAmp3(rho0)_KsPiPi[ ] = 0
 85) RooRealVar::phaseCoefAmp4(omega)_KsPiPi[ ] = 0.0388072
 86) RooRealVar::phaseCoefAmp5(f0_980)_KsPiPi[ ] = -0.236099
 87) RooRealVar::phaseCoefAmp6(f0_1370)_KsPiPi[ ] = 3.62385
 88) RooRealVar::phaseCoefAmp7(f2_1270)_KsPiPi[ ] = -0.133327
 89) RooRealVar::phaseCoefAmp8(K0*m_1430)_KsPiPi[ ] = 1.06816
 90) RooRealVar::phaseCoefAmp9(K0*p_1430)_KsPiPi[ ] = 0.0897144
 91) RooCategory::0xe297640::propAmp1(K*m)_KsPiPi              : RBW_CLEO_ZEMACH
 92) RooCategory::0xe30c028::propAmp10(K2*m_1430)_KsPiPi       : RBW_CLEO_ZEMACH
 93) RooCategory::0xe3154b8::propAmp11(K2*p_1430)_KsPiPi       : RBW_CLEO_ZEMACH
 94) RooCategory::0xe31e928::propAmp12(sigma)_KsPiPi           : RBW_CLEO_ZEMACH
 95) RooCategory::0xe327d70::propAmp13(sigma2)_KsPiPi          : RBW_CLEO_ZEMACH
 96) RooCategory::0xe3311b8::propAmp14(K*m_1680)_KsPiPi        : RBW_CLEO_ZEMACH
 97) RooCategory::0xe2a2560::propAmp2(K*p)_KsPiPi              : RBW_CLEO_ZEMACH
 98) RooCategory::0xe2ba150::propAmp3(rho0)_KsPiPi             : GS_CLEO_ZEMACH
 99) RooCategory::0xe2c5060::propAmp4(omega)_KsPiPi            : RBW_CLEO_ZEMACH
100) RooCategory::0xe2ce598::propAmp5(f0_980)_KsPiPi           : RBW_CLEO_ZEMACH
101) RooCategory::0xe2e52c0::propAmp6(f0_1370)_KsPiPi          : RBW_CLEO_ZEMACH
102) RooCategory::0xe2f01d0::propAmp7(f2_1270)_KsPiPi          : RBW_CLEO_ZEMACH
103) RooCategory::0xe2f9690::propAmp8(K0*m_1430)_KsPiPi        : RBW_CLEO_ZEMACH
104) RooCategory::0xe302b50::propAmp9(K0*p_1430)_KsPiPi        : RBW_CLEO_ZEMACH
105) RooRealVar::radiusBWBAmp1(K*m)_KsPiPi[ ] = 0
106) RooRealVar::radiusBWBAmp10(K2*m_1430)_KsPiPi[ ] = 0
107) RooRealVar::radiusBWBAmp11(K2*p_1430)_KsPiPi[ ] = 0
108) RooRealVar::radiusBWBAmp12(sigma)_KsPiPi[ ] = 0
109) RooRealVar::radiusBWBAmp13(sigma2)_KsPiPi[ ] = 0
110) RooRealVar::radiusBWBAmp14(K*m_1680)_KsPiPi[ ] = 0
111) RooRealVar::radiusBWBAmp2(K*p)_KsPiPi[ ] = 0
112) RooRealVar::radiusBWBAmp3(rho0)_KsPiPi[ ] = 0
113) RooRealVar::radiusBWBAmp4(omega)_KsPiPi[ ] = 0
114) RooRealVar::radiusBWBAmp5(f0_980)_KsPiPi[ ] = 0
115) RooRealVar::radiusBWBAmp6(f0_1370)_KsPiPi[ ] = 0
116) RooRealVar::radiusBWBAmp7(f2_1270)_KsPiPi[ ] = 0
117) RooRealVar::radiusBWBAmp8(K0*m_1430)_KsPiPi[ ] = 0
118) RooRealVar::radiusBWBAmp9(K0*p_1430)_KsPiPi[ ] = 0
119) RooRealVar::radiusBWDAmp1(K*m)_KsPiPi[ ] = 1.5
120) RooRealVar::radiusBWDAmp10(K2*m_1430)_KsPiPi[ ] = 1.5
121) RooRealVar::radiusBWDAmp11(K2*p_1430)_KsPiPi[ ] = 1.5
122) RooRealVar::radiusBWDAmp12(sigma)_KsPiPi[ ] = 1.5
123) RooRealVar::radiusBWDAmp13(sigma2)_KsPiPi[ ] = 1.5
124) RooRealVar::radiusBWDAmp14(K*m_1680)_KsPiPi[ ] = 1.5
125) RooRealVar::radiusBWDAmp2(K*p)_KsPiPi[ ] = 1.5
126) RooRealVar::radiusBWDAmp3(rho0)_KsPiPi[ ] = 1.5
127) RooRealVar::radiusBWDAmp4(omega)_KsPiPi[ ] = 1.5
128) RooRealVar::radiusBWDAmp5(f0_980)_KsPiPi[ ] = 1.5
129) RooRealVar::radiusBWDAmp6(f0_1370)_KsPiPi[ ] = 1.5
130) RooRealVar::radiusBWDAmp7(f2_1270)_KsPiPi[ ] = 1.5
131) RooRealVar::radiusBWDAmp8(K0*m_1430)_KsPiPi[ ] = 1.5
132) RooRealVar::radiusBWDAmp9(K0*p_1430)_KsPiPi[ ] = 1.5
133) RooCategory::0xe295430::resoAmp1(K*m)_KsPiPi              : AC
134) RooCategory::0xe309e18::resoAmp10(K2*m_1430)_KsPiPi       : AC
135) RooCategory::0xe313320::resoAmp11(K2*p_1430)_KsPiPi       : AB
136) RooCategory::0xe31c740::resoAmp12(sigma)_KsPiPi           : BC
137) RooCategory::0xe325b60::resoAmp13(sigma2)_KsPiPi          : BC
138) RooCategory::0xe32efd0::resoAmp14(K*m_1680)_KsPiPi        : AC
139) RooCategory::0xe2a0350::resoAmp2(K*p)_KsPiPi              : AB
140) RooCategory::0xe2b7f30::resoAmp3(rho0)_KsPiPi             : BC
141) RooCategory::0xe2c2e40::resoAmp4(omega)_KsPiPi            : BC
142) RooCategory::0xe2cc378::resoAmp5(f0_980)_KsPiPi           : BC
143) RooCategory::0xe2e30c8::resoAmp6(f0_1370)_KsPiPi          : BC
144) RooCategory::0xe2edfb0::resoAmp7(f2_1270)_KsPiPi          : BC
145) RooCategory::0xe2f74c0::resoAmp8(K0*m_1430)_KsPiPi        : AC
146) RooCategory::0xe300930::resoAmp9(K0*p_1430)_KsPiPi        : AB
147) RooRealVar::tau[ ] = 0.418012
148) RooRealVar::width2Amp1(K*m)_KsPiPi[ ] = 0
149) RooRealVar::width2Amp3(rho0)_KsPiPi[ ] = 0
150) RooRealVar::width2Amp5(f0_980)_KsPiPi[ ] = 0
151) RooRealVar::width2Amp6(f0_1370)_KsPiPi[ ] = 0
152) RooRealVar::widthAmp1(K*m)_KsPiPi[ ] = 0.0463407
153) RooRealVar::widthAmp10(K2*m_1430)_KsPiPi[ ] = 0.0985
154) RooRealVar::widthAmp12(sigma)_KsPiPi[ ] = 0.511861
155) RooRealVar::widthAmp13(sigma2)_KsPiPi[ ] = 0.098789
156) RooRealVar::widthAmp14(K*m_1680)_KsPiPi[ ] = 0.205
157) RooRealVar::widthAmp3(rho0)_KsPiPi[ ] = 0.1464
158) RooRealVar::widthAmp4(omega)_KsPiPi[ ] = 0.00849
159) RooRealVar::widthAmp5(f0_980)_KsPiPi[ ] = 0.044
160) RooRealVar::widthAmp6(f0_1370)_KsPiPi[ ] = 0.173
161) RooRealVar::widthAmp7(f2_1270)_KsPiPi[ ] = 0.1851
162) RooRealVar::widthAmp8(K0*m_1430)_KsPiPi[ ] = 0.175
163) RooRealVar::x[ ] = 0.109078
164) RooCategory::0x84b9480::x_bs                              : Unblind
165) RooRealVar::y[ ] = 0.124904
166) RooCategory::0x84ba340::y_bs                              : Unblind

RooDKFitMaster: Selection PDF shape paramaters will be floated with these starting values: 
RooArgSet:::
  1) RooRealVar::tErrSigDelta_KsKK[ ] = 0.59
  2) RooRealVar::tErrSigDelta_KsPiPi[ ] = 0.59
  3) RooRealVar::tErrSigGamma_KsKK[ ] = -0.2
  4) RooRealVar::tErrSigGamma_KsPiPi[ ] = -0.2
  5) RooRealVar::tErrSigMean_KsKK[ ] = 0.2
  6) RooRealVar::tErrSigMean_KsPiPi[ ] = 0.2
  7) RooRealVar::tErrSigWidth_KsKK[ ] = 0.09
  8) RooRealVar::tErrSigWidth_KsPiPi[ ] = 0.09

RooDKFitMaster: Selection PDF yield paramaters will be floated with these starting values: 
RooArgSet:::

RooDKFitMaster: PDF parameters before fitting
RooArgSet::parameters:
  1) RooCategory::0xe28dc38::NAmp_KsPiPi                       : 15
  2) RooRealVar::absqOverp[ ] = 1.02359
  3) RooCategory::0x84b7668::absqOverp_bs                      : Unblind
  4) RooRealVar::ampCoefAmp1(K*m)_KsPiPi[ ] = -1.16356
  5) RooRealVar::ampCoefAmp10(K2*m_1430)_KsPiPi[ ] = 1.15489
  6) RooRealVar::ampCoefAmp11(K2*p_1430)_KsPiPi[ ] = 0.140865
  7) RooRealVar::ampCoefAmp12(sigma)_KsPiPi[ ] = -1.55556
  8) RooRealVar::ampCoefAmp13(sigma2)_KsPiPi[ ] = -0.273791
  9) RooRealVar::ampCoefAmp14(K*m_1680)_KsPiPi[ ] = -1.6972
 10) RooRealVar::ampCoefAmp15(PHASESPACE)_KsPiPi[ ] = 0.848984
 11) RooRealVar::ampCoefAmp2(K*p)_KsPiPi[ ] = 0.106051
 12) RooRealVar::ampCoefAmp3(rho0)_KsPiPi[ ] = 1
 13) RooRealVar::ampCoefAmp4(omega)_KsPiPi[ ] = -0.0249569
 14) RooRealVar::ampCoefAmp5(f0_980)_KsPiPi[ ] = -0.423586
 15) RooRealVar::ampCoefAmp6(f0_1370)_KsPiPi[ ] = -2.16486
 16) RooRealVar::ampCoefAmp7(f2_1270)_KsPiPi[ ] = 0.217748
 17) RooRealVar::ampCoefAmp8(K0*m_1430)_KsPiPi[ ] = 1.62128
 18) RooRealVar::ampCoefAmp9(K0*p_1430)_KsPiPi[ ] = 0.148802
 19) RooCategory::0xe295e98::angAmp1(K*m)_KsPiPi               : BC
 20) RooCategory::0xe30a910::angAmp10(K2*m_1430)_KsPiPi        : BC
 21) RooCategory::0xe313e18::angAmp11(K2*p_1430)_KsPiPi        : BC
 22) RooCategory::0xe31d210::angAmp12(sigma)_KsPiPi            : AC
 23) RooCategory::0xe326658::angAmp13(sigma2)_KsPiPi           : AC
 24) RooCategory::0xe32faa0::angAmp14(K*m_1680)_KsPiPi         : BC
 25) RooCategory::0xe2a0db8::angAmp2(K*p)_KsPiPi               : BC
 26) RooCategory::0xe2b8998::angAmp3(rho0)_KsPiPi              : AC
 27) RooCategory::0xe2c38a8::angAmp4(omega)_KsPiPi             : AC
 28) RooCategory::0xe2ccde0::angAmp5(f0_980)_KsPiPi            : AC
 29) RooCategory::0xe2e3b30::angAmp6(f0_1370)_KsPiPi           : AC
 30) RooCategory::0xe2eea18::angAmp7(f2_1270)_KsPiPi           : AC
 31) RooCategory::0xe2f7f28::angAmp8(K0*m_1430)_KsPiPi         : BC
 32) RooCategory::0xe301398::angAmp9(K0*p_1430)_KsPiPi         : BC
 33) RooRealVar::argqOverp[ ] = 0.0784506
 34) RooCategory::0x84b8580::argqOverp_bs                      : Unblind
 35) RooCategory::0xe299fc0::coupling2Amp1(K*m)_KsPiPi         : Undefined
 36) RooCategory::0xe2bcab8::coupling2Amp3(rho0)_KsPiPi        : Undefined
 37) RooCategory::0xe2d0f00::coupling2Amp5(f0_980)_KsPiPi      : Undefined
 38) RooCategory::0xe2e7c28::coupling2Amp6(f0_1370)_KsPiPi     : Undefined
 39) RooRealVar::effMapContGoodDCoefNorm_KsPiPi[ ] = 1
 40) RooRealVar::effMapContGoodDCoefX0Y1_KsPiPi[ ] = 0
 41) RooRealVar::effMapContGoodDCoefX0Y2_KsPiPi[ ] = 0
 42) RooRealVar::effMapContGoodDCoefX0Y3_KsPiPi[ ] = 0
 43) RooRealVar::effMapContGoodDCoefX1Y0_KsPiPi[ ] = 0
 44) RooRealVar::effMapContGoodDCoefX1Y1_KsPiPi[ ] = 0
 45) RooRealVar::effMapContGoodDCoefX1Y2_KsPiPi[ ] = 0
 46) RooRealVar::effMapContGoodDCoefX2Y0_KsPiPi[ ] = 0
 47) RooRealVar::effMapContGoodDCoefX2Y1_KsPiPi[ ] = 0
 48) RooRealVar::effMapContGoodDCoefX3Y0_KsPiPi[ ] = 0
 49) RooCategory::0xe28f968::formatCoef_KsPiPi                 : CARTESIAN
 50) RooRealVar::massAmp1(K*m)_KsPiPi[ ] = 0.893606
 51) RooRealVar::massAmp10(K2*m_1430)_KsPiPi[ ] = 1.4256
 52) RooRealVar::massAmp12(sigma)_KsPiPi[ ] = 0.527699
 53) RooRealVar::massAmp13(sigma2)_KsPiPi[ ] = 1.03327
 54) RooRealVar::massAmp14(K*m_1680)_KsPiPi[ ] = 1.677
 55) RooRealVar::massAmp3(rho0)_KsPiPi[ ] = 0.7758
 56) RooRealVar::massAmp4(omega)_KsPiPi[ ] = 0.78259
 57) RooRealVar::massAmp5(f0_980)_KsPiPi[ ] = 0.975
 58) RooRealVar::massAmp6(f0_1370)_KsPiPi[ ] = 1.434
 59) RooRealVar::massAmp7(f2_1270)_KsPiPi[ ] = 1.2754
 60) RooRealVar::massAmp8(K0*m_1430)_KsPiPi[ ] = 1.459
 61) RooCategory::0xe290460::nameAmp1(K*m)_KsPiPi              : K*m
 62) RooCategory::0xe304e58::nameAmp10(K2*m_1430)_KsPiPi       : K2*m_1430
 63) RooCategory::0xe30e340::nameAmp11(K2*p_1430)_KsPiPi       : K2*p_1430
 64) RooCategory::0xe3177d0::nameAmp12(sigma)_KsPiPi           : sigma
 65) RooCategory::0xe320bc8::nameAmp13(sigma2)_KsPiPi          : sigma2
 66) RooCategory::0xe32a010::nameAmp14(K*m_1680)_KsPiPi        : K*m_1680
 67) RooCategory::0xe3334b0::nameAmp15(PHASESPACE)_KsPiPi      : PHASESPACE
 68) RooCategory::0xe29b368::nameAmp2(K*p)_KsPiPi              : K*p
 69) RooCategory::0xe2a48b8::nameAmp3(rho0)_KsPiPi             : rho0
 70) RooCategory::0xe2bde48::nameAmp4(omega)_KsPiPi            : omega
 71) RooCategory::0xe2c73a8::nameAmp5(f0_980)_KsPiPi           : f0_980
 72) RooCategory::0xe2de0d0::nameAmp6(f0_1370)_KsPiPi          : f0_1370
 73) RooCategory::0xe2e8fb8::nameAmp7(f2_1270)_KsPiPi          : f2_1270
 74) RooCategory::0xe2f24f0::nameAmp8(K0*m_1430)_KsPiPi        : K0*m_1430
 75) RooCategory::0xe2fb960::nameAmp9(K0*p_1430)_KsPiPi        : K0*p_1430
 76) RooRealVar::phaseCoefAmp1(K*m)_KsPiPi[ ] = 1.19933
 77) RooRealVar::phaseCoefAmp10(K2*m_1430)_KsPiPi[ ] = -0.773363
 78) RooRealVar::phaseCoefAmp11(K2*p_1430)_KsPiPi[ ] = -0.165378
 79) RooRealVar::phaseCoefAmp12(sigma)_KsPiPi[ ] = -0.931685
 80) RooRealVar::phaseCoefAmp13(sigma2)_KsPiPi[ ] = -0.0535596
 81) RooRealVar::phaseCoefAmp14(K*m_1680)_KsPiPi[ ] = 0.128038
 82) RooRealVar::phaseCoefAmp15(PHASESPACE)_KsPiPi[ ] = 0.893618
 83) RooRealVar::phaseCoefAmp2(K*p)_KsPiPi[ ] = -0.118513
 84) RooRealVar::phaseCoefAmp3(rho0)_KsPiPi[ ] = 0
 85) RooRealVar::phaseCoefAmp4(omega)_KsPiPi[ ] = 0.0388072
 86) RooRealVar::phaseCoefAmp5(f0_980)_KsPiPi[ ] = -0.236099
 87) RooRealVar::phaseCoefAmp6(f0_1370)_KsPiPi[ ] = 3.62385
 88) RooRealVar::phaseCoefAmp7(f2_1270)_KsPiPi[ ] = -0.133327
 89) RooRealVar::phaseCoefAmp8(K0*m_1430)_KsPiPi[ ] = 1.06816
 90) RooRealVar::phaseCoefAmp9(K0*p_1430)_KsPiPi[ ] = 0.0897144
 91) RooCategory::0xe297640::propAmp1(K*m)_KsPiPi              : RBW_CLEO_ZEMACH
 92) RooCategory::0xe30c028::propAmp10(K2*m_1430)_KsPiPi       : RBW_CLEO_ZEMACH
 93) RooCategory::0xe3154b8::propAmp11(K2*p_1430)_KsPiPi       : RBW_CLEO_ZEMACH
 94) RooCategory::0xe31e928::propAmp12(sigma)_KsPiPi           : RBW_CLEO_ZEMACH
 95) RooCategory::0xe327d70::propAmp13(sigma2)_KsPiPi          : RBW_CLEO_ZEMACH
 96) RooCategory::0xe3311b8::propAmp14(K*m_1680)_KsPiPi        : RBW_CLEO_ZEMACH
 97) RooCategory::0xe2a2560::propAmp2(K*p)_KsPiPi              : RBW_CLEO_ZEMACH
 98) RooCategory::0xe2ba150::propAmp3(rho0)_KsPiPi             : GS_CLEO_ZEMACH
 99) RooCategory::0xe2c5060::propAmp4(omega)_KsPiPi            : RBW_CLEO_ZEMACH
100) RooCategory::0xe2ce598::propAmp5(f0_980)_KsPiPi           : RBW_CLEO_ZEMACH
101) RooCategory::0xe2e52c0::propAmp6(f0_1370)_KsPiPi          : RBW_CLEO_ZEMACH
102) RooCategory::0xe2f01d0::propAmp7(f2_1270)_KsPiPi          : RBW_CLEO_ZEMACH
103) RooCategory::0xe2f9690::propAmp8(K0*m_1430)_KsPiPi        : RBW_CLEO_ZEMACH
104) RooCategory::0xe302b50::propAmp9(K0*p_1430)_KsPiPi        : RBW_CLEO_ZEMACH
105) RooRealVar::radiusBWBAmp1(K*m)_KsPiPi[ ] = 0
106) RooRealVar::radiusBWBAmp10(K2*m_1430)_KsPiPi[ ] = 0
107) RooRealVar::radiusBWBAmp11(K2*p_1430)_KsPiPi[ ] = 0
108) RooRealVar::radiusBWBAmp12(sigma)_KsPiPi[ ] = 0
109) RooRealVar::radiusBWBAmp13(sigma2)_KsPiPi[ ] = 0
110) RooRealVar::radiusBWBAmp14(K*m_1680)_KsPiPi[ ] = 0
111) RooRealVar::radiusBWBAmp2(K*p)_KsPiPi[ ] = 0
112) RooRealVar::radiusBWBAmp3(rho0)_KsPiPi[ ] = 0
113) RooRealVar::radiusBWBAmp4(omega)_KsPiPi[ ] = 0
114) RooRealVar::radiusBWBAmp5(f0_980)_KsPiPi[ ] = 0
115) RooRealVar::radiusBWBAmp6(f0_1370)_KsPiPi[ ] = 0
116) RooRealVar::radiusBWBAmp7(f2_1270)_KsPiPi[ ] = 0
117) RooRealVar::radiusBWBAmp8(K0*m_1430)_KsPiPi[ ] = 0
118) RooRealVar::radiusBWBAmp9(K0*p_1430)_KsPiPi[ ] = 0
119) RooRealVar::radiusBWDAmp1(K*m)_KsPiPi[ ] = 1.5
120) RooRealVar::radiusBWDAmp10(K2*m_1430)_KsPiPi[ ] = 1.5
121) RooRealVar::radiusBWDAmp11(K2*p_1430)_KsPiPi[ ] = 1.5
122) RooRealVar::radiusBWDAmp12(sigma)_KsPiPi[ ] = 1.5
123) RooRealVar::radiusBWDAmp13(sigma2)_KsPiPi[ ] = 1.5
124) RooRealVar::radiusBWDAmp14(K*m_1680)_KsPiPi[ ] = 1.5
125) RooRealVar::radiusBWDAmp2(K*p)_KsPiPi[ ] = 1.5
126) RooRealVar::radiusBWDAmp3(rho0)_KsPiPi[ ] = 1.5
127) RooRealVar::radiusBWDAmp4(omega)_KsPiPi[ ] = 1.5
128) RooRealVar::radiusBWDAmp5(f0_980)_KsPiPi[ ] = 1.5
129) RooRealVar::radiusBWDAmp6(f0_1370)_KsPiPi[ ] = 1.5
130) RooRealVar::radiusBWDAmp7(f2_1270)_KsPiPi[ ] = 1.5
131) RooRealVar::radiusBWDAmp8(K0*m_1430)_KsPiPi[ ] = 1.5
132) RooRealVar::radiusBWDAmp9(K0*p_1430)_KsPiPi[ ] = 1.5
133) RooCategory::0xe295430::resoAmp1(K*m)_KsPiPi              : AC
134) RooCategory::0xe309e18::resoAmp10(K2*m_1430)_KsPiPi       : AC
135) RooCategory::0xe313320::resoAmp11(K2*p_1430)_KsPiPi       : AB
136) RooCategory::0xe31c740::resoAmp12(sigma)_KsPiPi           : BC
137) RooCategory::0xe325b60::resoAmp13(sigma2)_KsPiPi          : BC
138) RooCategory::0xe32efd0::resoAmp14(K*m_1680)_KsPiPi        : AC
139) RooCategory::0xe2a0350::resoAmp2(K*p)_KsPiPi              : AB
140) RooCategory::0xe2b7f30::resoAmp3(rho0)_KsPiPi             : BC
141) RooCategory::0xe2c2e40::resoAmp4(omega)_KsPiPi            : BC
142) RooCategory::0xe2cc378::resoAmp5(f0_980)_KsPiPi           : BC
143) RooCategory::0xe2e30c8::resoAmp6(f0_1370)_KsPiPi          : BC
144) RooCategory::0xe2edfb0::resoAmp7(f2_1270)_KsPiPi          : BC
145) RooCategory::0xe2f74c0::resoAmp8(K0*m_1430)_KsPiPi        : AC
146) RooCategory::0xe300930::resoAmp9(K0*p_1430)_KsPiPi        : AB
147) RooRealVar::tau[ ] = 0.418012
148) RooRealVar::width2Amp1(K*m)_KsPiPi[ ] = 0
149) RooRealVar::width2Amp3(rho0)_KsPiPi[ ] = 0
150) RooRealVar::width2Amp5(f0_980)_KsPiPi[ ] = 0
151) RooRealVar::width2Amp6(f0_1370)_KsPiPi[ ] = 0
152) RooRealVar::widthAmp1(K*m)_KsPiPi[ ] = 0.0463407
153) RooRealVar::widthAmp10(K2*m_1430)_KsPiPi[ ] = 0.0985
154) RooRealVar::widthAmp12(sigma)_KsPiPi[ ] = 0.511861
155) RooRealVar::widthAmp13(sigma2)_KsPiPi[ ] = 0.098789
156) RooRealVar::widthAmp14(K*m_1680)_KsPiPi[ ] = 0.205
157) RooRealVar::widthAmp3(rho0)_KsPiPi[ ] = 0.1464
158) RooRealVar::widthAmp4(omega)_KsPiPi[ ] = 0.00849
159) RooRealVar::widthAmp5(f0_980)_KsPiPi[ ] = 0.044
160) RooRealVar::widthAmp6(f0_1370)_KsPiPi[ ] = 0.173
161) RooRealVar::widthAmp7(f2_1270)_KsPiPi[ ] = 0.1851
162) RooRealVar::widthAmp8(K0*m_1430)_KsPiPi[ ] = 0.175
163) RooRealVar::x[ ] = 0.109078
164) RooCategory::0x84b9480::x_bs                              : Unblind
165) RooRealVar::y[ ] = 0.124904
166) RooCategory::0x84ba340::y_bs                              : Unblind

RooDKFitMaster: PDF dependents for fitting
RooArgSet::dependents:
  1) RooCategory::0x84882b8::DdecayMode_split : KsKK
  2) RooCategory::0x8441088::BdecayMode       : Dstar
  3) RooRealVar::tTrue[ ] = 0.748583
  4) RooCategory::0x8484e58::DdecayMode       : KsPiPi
  5) RooRealVar::qAC[ ] = 0
  6) RooRealVar::qAB[ ] = 0
  7) RooCategory::0x8434500::recState         : Bminus
  8) RooRealVar::tErr[ ] = 0

**********************************
*                                *
*   PERFORMING RooDKDalitz FIT   *
*                                *
**********************************
RooDataSet::dataSel: "dataSel"
  Contains 49997 entries
  Defines RooArgSet::Dataset Variables: (Owning contents)
    1) RooCategory::onOffRes: "on/off Ups(4S) resonance"
    2) RooCategory::decayMode: "decay mode"
    3) RooRealVar::pRecBRec: "Reco B flavour probablity"
    4) RooRealVar::qABRec: "Reco invariant mass square of pair AB"
    5) RooRealVar::qACRec: "Reco invariant mass square of pair AC"
    6) RooRealVar::qBCRec: "Reco invariant mass square of pair BC"
    7) RooRealVar::deltaE: "Delta(E)_ES"
    8) RooRealVar::pTrk: "Momentum in lab frame of bachelor track"
    9) RooRealVar::betagammaBoost: "Lorentz boost factor (betaxgamma)"
   10) RooRealVar::mESraw: "E_Beam Substituted Mass (raw)"
   11) RooRealVar::mD: "D^{0} mass"
   12) RooRealVar::fisher: "Fisher discriminant"
   13) RooRealVar::runNumber: "run number"
   14) RooCategory::runBlock: "Run block (Run1234, Run5, MC)"
   15)        RooAbsString: tstamph = 0        : "time stamp upper ID" [CloneOf(084314e8),CloneOf(09d15b00),CloneOf(0bd19400),CloneOf(0bdf6dc0),CloneOf(0bf142c0)] 
   16)        RooAbsString: tstampl = 0        : "time stamp lower ID" [CloneOf(08431ca8),CloneOf(09cf3770),CloneOf(09d15c80),CloneOf(0bd19b70),CloneOf(0bed9230)] 
   17) RooRealVar::pRecBTrue: "True B flavour probablity"
   18) RooRealVar::qABTrue: "True invariant mass square of pair AB"
   19) RooRealVar::qACTrue: "True Invariant mass square of pair AC"
   20) RooRealVar::qBCTrue: "True Invariant mass square of pair BC"
   21) RooCategory::BdecayModeLF: "B decay mode long format (LF)"
   22) RooCategory::BdecayMode: "B decay mode"
   23) RooCategory::DdecayModeLF: "D decay mode long format (LF)"
   24) RooCategory::DdecayMode: "D decay mode"
   25) RooCategory::recState: "B Flavour State"
   26) RooCategory::DdecayMode_split: "D decay mode split"
   27) RooRealVar::qAB: "Invariant mass square of pair AB"
   28) RooRealVar::qAC: "Invariant mass square of pair AC"
   29) RooRealVar::qBC: "Invariant mass square of pair BC"
   30) RooRealVar::mES: "m_{ES}"
   31) RooRealVar::tReco: "Proper time"
   32) RooRealVar::tErr: "Proper time per-event error"
   33) RooRealVar::tTrue: "Proper time MC true"
   34) RooRealVar::deltam: "D* - D0 mass difference"
   35) RooRealVar::deltaE_dk: "#DeltaE_{K}"
   36) RooRealVar::deltaE_dpi: "deltaE for DPi"
  Caches RooArgSet::Cached Variables:
[#0] WARNING:Minization -- RooMinuit::RooMinuit: removing parameter absqOverp_bs from list because it is not of type RooRealVar
[#0] WARNING:Minization -- RooMinuit::RooMinuit: removing parameter argqOverp_bs from list because it is not of type RooRealVar
[#0] WARNING:Minization -- RooMinuit::RooMinuit: removing parameter x_bs from list because it is not of type RooRealVar
[#0] WARNING:Minization -- RooMinuit::RooMinuit: removing parameter y_bs from list because it is not of type RooRealVar
 **********
 **    9 **SET PRINT           1
 **********
[#1] INFO:Minization -- RooMinuit::optimizeConst: activating const optimization
[#0] ERROR:Fitting -- RooAbsTestStatistic::initSimMode: creating slave GOF calculator #0 for state {KsPiPi;Dstar} (49997 dataset entries)
[#1] INFO:Optimization -- RooAbsOptTestStatistic::ctor({KsPiPi;Dstar}) optimizing internal clone of p.d.f for likelihood evaluation.Lazy evaluation and associated change tracking will disabled for all nodes that depend on observables
[#1] INFO:Optimization -- RooAbsArg::optimizeCacheMode(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust) nodes (gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust,dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust,dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_Int[tTrue,qAC,qAB,tErr],dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_coefVar_0,dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_coefVar_1,dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_coefVar_2,dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_coefVar_3,dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_coefVar_0_Int[qAC,qAB,tErr],dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_coefVar_1_Int[qAC,qAB,tErr],dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_coefVar_2_Int[qAC,qAB,tErr],dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_coefVar_3_Int[qAC,qAB,tErr],sigResModel_conv_exp(-@0/@1)*cosh(@0*@2/2)_tTrue_tau_y2OverTau_[dalitzDstarSigGoodDRSTDPdf],exp(-@0/@1)*cosh(@0*@2/2)_tTrue_tau_y2OverTau,sigResModel_conv_exp(-@0/@1)*sinh(@0*@2/2)_tTrue_tau_y2OverTau_[dalitzDstarSigGoodDRSTDPdf],exp(-@0/@1)*sinh(@0*@2/2)_tTrue_tau_y2OverTau,sigResModel_conv_exp(-@0/@1)*cos(@0*@2)_tTrue_tau_xOverTau_[dalitzDstarSigGoodDRSTDPdf],exp(-@0/@1)*cos(@0*@2)_tTrue_tau_xOverTau,sigResModel_conv_exp(-@0/@1)*sin(@0*@2)_tTrue_tau_xOverTau_[dalitzDstarSigGoodDRSTDPdf],exp(-@0/@1)*sin(@0*@2)_tTrue_tau_xOverTau) depend on observables, changing cache operation mode from change tracking to unconditional evaluation
[#1] INFO:Generation -- RooAbsTestStatistic::initMPMode: starting remote GOF server process #0
RooRealMPFE::initialize(nll_MPFE0) successfully forked server process 2583
[#1] INFO:Generation -- RooAbsTestStatistic::initMPMode: starting remote GOF server process #1
RooRealMPFE::initialize(nll_MPFE1) successfully forked server process 2584
[#1] INFO:Generation -- RooAbsTestStatistic::initMPMode: starting remote GOF server process #2
RooRealMPFE::initialize(nll_MPFE2) successfully forked server process 2585
[#1] INFO:Generation -- RooAbsTestStatistic::initMPMode: starting remote GOF server process #3
RooRealMPFE::initialize(nll_MPFE3) successfully forked server process 2586
[#1] INFO:Generation -- RooAbsTestStatistic::initMPMode: starting remote GOF server process #4
RooRealMPFE::initialize(nll_MPFE4) successfully forked server process 2587
[#1] INFO:Generation -- RooAbsTestStatistic::initMPMode: starting remote GOF server process #5
RooRealMPFE::initialize(nll_MPFE5) successfully forked server process 2588
[#1] INFO:Generation -- RooAbsTestStatistic::initMPMode: starting remote GOF server process #6
RooRealMPFE::initialize(nll_MPFE6) successfully forked server process 2589
[#1] INFO:Optimization -- RooAbsOptTestStatistic::constOptimize({KsPiPi;Dstar}) optimizing evaluation of test statistic by finding all nodes in p.d.f that depend exclusively on observables and constant parameters and precalculating their values
[#1] INFO:Optimization -- RooAbsOptTestStatistic::constOptimize({KsPiPi;Dstar}) optimizing evaluation of test statistic by finding all nodes in p.d.f that depend exclusively on observables and constant parameters and precalculating their values
[#1] INFO:Optimization -- RooAbsOptTestStatistic::constOptimize({KsPiPi;Dstar}) optimizing evaluation of test statistic by finding all nodes in p.d.f that depend exclusively on observables and constant parameters and precalculating their values
[#1] INFO:Optimization -- RooAbsOptTestStatistic::constOptimize({KsPiPi;Dstar}) optimizing evaluation of test statistic by finding all nodes in p.d.f that depend exclusively on observables and constant parameters and precalculating their values
[#1] INFO:Optimization -- RooAbsOptTestStatistic::constOptimize({KsPiPi;Dstar}) optimizing evaluation of test statistic by finding all nodes in p.d.f that depend exclusively on observables and constant parameters and precalculating their values
[#1] INFO:Optimization -- RooAbsOptTestStatistic::constOptimize({KsPiPi;Dstar}) optimizing evaluation of test statistic by finding all nodes in p.d.f that depend exclusively on observables and constant parameters and precalculating their values
[#1] INFO:Optimization -- RooAbsOptTestStatistic::constOptimize({KsPiPi;Dstar}) optimizing evaluation of test statistic by finding all nodes in p.d.f that depend exclusively on observables and constant parameters and precalculating their values
[#1] INFO:Optimization -- RooAbsOptTestStatistic::constOptimize({KsPiPi;Dstar}) optimizing evaluation of test statistic by finding all nodes in p.d.f that depend exclusively on observables and constant parameters and precalculating their values
[#1] INFO:Optimization -- RooAbsArg::findConstantNodes(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): components () depend exclusively on constant parameters and will be precalculated and cached
[#1] INFO:Optimization -- RooAbsArg::findConstantNodes(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): components () depend exclusively on constant parameters and will be precalculated and cached
[#1] INFO:Optimization -- RooAbsArg::findConstantNodes(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): components () depend exclusively on constant parameters and will be precalculated and cached
[#1] INFO:Optimization -- RooAbsArg::findConstantNodes(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): components () depend exclusively on constant parameters and will be precalculated and cached
[#1] INFO:Optimization -- RooAbsArg::findConstantNodes(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): components () depend exclusively on constant parameters and will be precalculated and cached
[#1] INFO:Optimization -- RooAbsArg::findConstantNodes(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): components () depend exclusively on constant parameters and will be precalculated and cached
[#1] INFO:Optimization -- RooAbsArg::findConstantNodes(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): components () depend exclusively on constant parameters and will be precalculated and cached
[#1] INFO:Optimization -- RooAbsArg::findConstantNodes(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): components () depend exclusively on constant parameters and will be precalculated and cached
 **********
 **   10 **SET STR           1
 **********
 NOW USING STRATEGY  1: TRY TO BALANCE SPEED AGAINST RELIABILITY
 **********
 **   15 **MIGRAD        2500           1
 **********
 FIRST CALL TO USER FUNCTION AT NEW START POINT, WITH IFLAG=4.

prevFCN = 15850.83399   START MIGRAD MINIMIZATION.  STRATEGY  1.  CONVERGENCE WHEN EDM .LT. 1.00e-03

prevFCN = 15850.88303  
prevFCN = 15850.902  
prevFCN = 15850.83555  
prevFCN = 15850.83998  
prevFCN = 15852.13373  
prevFCN = 15849.61833  
prevFCN = 15851.21485  
prevFCN = 15850.46067  
prevFCN = 15851.99939  
prevFCN = 15849.76692  
prevFCN = 15851.14725  
prevFCN = 15850.52828  
prevFCN = 15851.50682  
prevFCN = 15850.26871  
prevFCN = 15851.00188  
prevFCN = 15850.67365  
prevFCN = 15852.90236  
prevFCN = 15848.86012  
prevFCN = 15851.40934  
prevFCN = 15850.26619   FCN=15850.8 FROM MIGRAD    STATUS=INITIATE       20 CALLS          21 TOTAL
                     EDM= unknown      STRATEGY= 1      NO ERROR MATRIX       
  EXT PARAMETER               CURRENT GUESS       STEP         FIRST   
  NO.   NAME      VALUE            ERROR          SIZE      DERIVATIVE 
   1  absqOverp    1.02359e+00   9.52500e-02   5.01359e-01  -1.99684e-01
   2  argqOverp    7.84506e-02   1.01500e-01   3.23406e-02   4.47323e+02
   3  tau          4.18012e-01   6.85200e-03   1.59280e-02   8.06125e+02
   4  x            1.09078e-01   1.91800e-02   1.92964e-02   3.69036e+02
   5  y            1.24904e-01   1.38000e-02   1.39094e-02   1.67134e+03
                               ERR DEF= 0.5

prevFCN = 15817.24046  
prevFCN = 15816.66873  
prevFCN = 15816.72232  
prevFCN = 15816.61962  
prevFCN = 15816.70191  
prevFCN = 15816.64275  
prevFCN = 15816.61149  
prevFCN = 15816.73394  
prevFCN = 15816.69935  
prevFCN = 15816.6459  
prevFCN = 15816.68717  
prevFCN = 15816.65759  
prevFCN = 15816.04327  
prevFCN = 15816.02837  
prevFCN = 15816.05484  
prevFCN = 15816.00966  
prevFCN = 15816.03082  
prevFCN = 15816.03333  
prevFCN = 15816.03885  
prevFCN = 15816.02534  
prevFCN = 15816.01629  
prevFCN = 15816.04791  
prevFCN = 15816.03447  
prevFCN = 15816.02983  
prevFCN = 15815.97843  
prevFCN = 15815.97619  
prevFCN = 15815.98188  
prevFCN = 15815.9783  
prevFCN = 15815.98033  
prevFCN = 15815.97965  
prevFCN = 15815.98108  
prevFCN = 15815.97885  
prevFCN = 15815.9813  
prevFCN = 15815.97859  
prevFCN = 15815.97531  
prevFCN = 15815.98464  
prevFCN = 15815.97418  
prevFCN = 15815.97411  
prevFCN = 15815.97789  
prevFCN = 15815.97791  
prevFCN = 15815.9783  
prevFCN = 15815.97745  
prevFCN = 15815.97816  
prevFCN = 15815.9776  
prevFCN = 15815.97805  
prevFCN = 15815.9777  
prevFCN = 15815.97807  
prevFCN = 15815.97769   MIGRAD MINIMIZATION HAS CONVERGED.
 MIGRAD WILL VERIFY CONVERGENCE AND ERROR MATRIX.

prevFCN = 15815.97411  
prevFCN = 15815.97789  
prevFCN = 15815.97791  
prevFCN = 15815.9783  
prevFCN = 15815.97745  
prevFCN = 15815.97816  
prevFCN = 15815.9776  
prevFCN = 15815.97805  
prevFCN = 15815.9777  
prevFCN = 15815.97807  
prevFCN = 15815.97769  
prevFCN = 15815.97426  
prevFCN = 15815.97426  
prevFCN = 15815.97411  
prevFCN = 15815.97411  
prevFCN = 15815.97434  
prevFCN = 15815.97417  
prevFCN = 15815.97431  
prevFCN = 15815.9742  
prevFCN = 15815.97429  
prevFCN = 15815.97422  
prevFCN = 15815.97429  
prevFCN = 15815.97422  
prevFCN = 15815.98076  
prevFCN = 15815.98188  
prevFCN = 15815.98232  
prevFCN = 15815.98218  
prevFCN = 15815.98214  
prevFCN = 15815.98148  
prevFCN = 15815.98193  
prevFCN = 15815.98254  
prevFCN = 15815.98365  
prevFCN = 15815.98167   COVARIANCE MATRIX CALCULATED SUCCESSFULLY
 FCN=15816 FROM MIGRAD    STATUS=CONVERGED     101 CALLS         102 TOTAL
                     EDM=4.33645e-05    STRATEGY= 1      ERROR MATRIX ACCURATE 
  EXT PARAMETER                                   STEP         FIRST   
  NO.   NAME      VALUE            ERROR          SIZE      DERIVATIVE 
   1  absqOverp    9.97968e-01   3.23251e-02   1.39050e-02  -1.32961e-04
   2  argqOverp   -5.21275e-02   3.18228e-02   8.65848e-04   4.93776e-01
   3  tau          4.13443e-01   1.89652e-03   3.74999e-04   7.57630e-01
   4  x            9.96655e-02   5.07340e-03   4.40617e-04   4.00454e-01
   5  y            1.01240e-01   4.05456e-03   3.46106e-04   5.45024e-01
                               ERR DEF= 0.5
 EXTERNAL ERROR MATRIX.    NDIM=  25    NPAR=  5    ERR DEF=0.5
  1.054e-03  1.811e-04  5.673e-07 -7.293e-06 -2.827e-06 
  1.811e-04  1.013e-03  9.146e-07  8.588e-07 -5.298e-06 
  5.673e-07  9.146e-07  3.597e-06  7.288e-07 -1.544e-06 
 -7.293e-06  8.588e-07  7.288e-07  2.574e-05  5.971e-07 
 -2.827e-06 -5.298e-06 -1.544e-06  5.971e-07  1.644e-05 
 PARAMETER  CORRELATION COEFFICIENTS  
       NO.  GLOBAL      1      2      3      4      5
        1  0.18164   1.000  0.175  0.009 -0.044 -0.021
        2  0.17983   0.175  1.000  0.015  0.005 -0.041
        3  0.21698   0.009  0.015  1.000  0.076 -0.201
        4  0.09956  -0.044  0.005  0.076  1.000  0.029
        5  0.20947  -0.021 -0.041 -0.201  0.029  1.000
[#1] INFO:Minization -- Command timer: Real time 0:36:36, CP time 2196.220
[#1] INFO:Minization -- Session timer: Real time 0:37:44, CP time 2263.470, 2 slices
 **********
 **   20 **HESSE        2500
 **********

prevFCN = 15815.97411  
prevFCN = 15815.97411  
prevFCN = 15815.97411  
prevFCN = 15815.97434  
prevFCN = 15815.97417  
prevFCN = 15815.97431  
prevFCN = 15815.9742  
prevFCN = 15815.97429  
prevFCN = 15815.97422  
prevFCN = 15815.97429  
prevFCN = 15815.97422  
prevFCN = 15815.97411  
prevFCN = 15815.97411  
prevFCN = 15815.97413  
prevFCN = 15815.9741  
prevFCN = 15815.97412  
prevFCN = 15815.9741  
prevFCN = 15815.97412  
prevFCN = 15815.97411  
prevFCN = 15815.97412  
prevFCN = 15815.9741  
prevFCN = 15815.97434  
prevFCN = 15815.97432  
prevFCN = 15815.97455  
prevFCN = 15815.9743  
prevFCN = 15815.97452  
prevFCN = 15815.97448  
prevFCN = 15815.9743  
prevFCN = 15815.97454  
prevFCN = 15815.97456  
prevFCN = 15815.97447   COVARIANCE MATRIX CALCULATED SUCCESSFULLY
 FCN=15816 FROM HESSE     STATUS=OK             31 CALLS         133 TOTAL
                     EDM=4.34319e-05    STRATEGY= 1      ERROR MATRIX ACCURATE 
  EXT PARAMETER                                INTERNAL      INTERNAL  
  NO.   NAME      VALUE            ERROR       STEP SIZE       VALUE   
   1  absqOverp    9.97968e-01   3.23222e-02   5.56198e-04  -1.01587e-02
   2  argqOverp   -5.21275e-02   3.18266e-02   1.73170e-04  -1.66019e-02
   3  tau          4.13443e-01   1.89644e-03   7.49998e-05  -3.08321e-01
   4  x            9.96655e-02   5.07275e-03   8.81233e-05   9.98312e-02
   5  y            1.01240e-01   4.05425e-03   6.92211e-05   1.01414e-01
                               ERR DEF= 0.5
 EXTERNAL ERROR MATRIX.    NDIM=  25    NPAR=  5    ERR DEF=0.5
  1.054e-03  1.817e-04  5.511e-07 -6.757e-06 -2.414e-06 
  1.817e-04  1.013e-03  9.137e-07  1.186e-06 -5.220e-06 
  5.511e-07  9.137e-07  3.597e-06  7.267e-07 -1.543e-06 
 -6.757e-06  1.186e-06  7.267e-07  2.573e-05  5.976e-07 
 -2.414e-06 -5.220e-06 -1.543e-06  5.976e-07  1.644e-05 
 PARAMETER  CORRELATION COEFFICIENTS  
       NO.  GLOBAL      1      2      3      4      5
        1  0.18129   1.000  0.176  0.009 -0.041 -0.018
        2  0.18048   0.176  1.000  0.015  0.007 -0.040
        3  0.21679   0.009  0.015  1.000  0.076 -0.201
        4  0.09827  -0.041  0.007  0.076  1.000  0.029
        5  0.20911  -0.018 -0.040 -0.201  0.029  1.000
[#1] INFO:Minization -- Command timer: Real time 0:11:07, CP time 667.850
[#1] INFO:Minization -- Session timer: Real time 0:48:52, CP time 2931.320, 3 slices
Fractions after extended likelihood fit:
RooDKFitMaster: Persisting in ROOT format available fit results to file : ./results/dstar_sig_Truth_RBW-0.1-NoPhotos.results.root
RooDKFitMaster: Root persistence finished 
Writing results_input
RooDKFitMaster::makePlots: Pdf component: {KsPiPi;Dstar}
RooDKFitMaster::makePlots(): Original RooNumIntConfig precision: epsRel = 1e-07 , epsAbs = 1e-07
RooDKFitMaster::makePlots(): New RooNumIntConfig precision: epsRel = 1e-05 , epsAbs = 1e-05
RooDKFitMaster::makePlots: Data projection cut: (BdecayMode==BdecayMode::Dstar)&&(DdecayMode==DdecayMode::KsPiPi)
Producing tErr plot...
[#1] INFO:Plotting -- RooAbsReal::plotOn(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust) plot on tErr integrates over variables (DdecayMode,qAB,qAC,tTrue)
[#1] INFO:Plotting -- RooAbsReal::plotOn(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust) plot on tErr averages using data variables (recState)

Total chi2 for histogram dataSel_plot__tErr = 4.303e+05 for ndof = 1. Reduced total chi2 = 4.303e+05
Info in <TCanvas::Print>: eps file ./results/dstar_sig_Truth_RBW-0.1-NoPhotos_Dstar_KsPiPi_tErr.eps has been created
Producing tTrue plot...
[#1] INFO:Plotting -- RooAbsReal::plotOn(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust) plot on tTrue integrates over variables (DdecayMode,qAB,qAC,tErr)
[#1] INFO:Plotting -- RooAbsReal::plotOn(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust) plot on tTrue averages using data variables (recState)

Warning in <TH1::Build>: Replacing existing histogram: r (Potential memory leak).
Total chi2 for histogram dataSel_plot__tTrue = 170.5 for ndof = 147. Reduced total chi2 = 1.16
Info in <TCanvas::Print>: eps file ./results/dstar_sig_Truth_RBW-0.1-NoPhotos_Dstar_KsPiPi_tTrue.eps has been created
RooDKFitMaster::makeDalitzPlots: Pdf component: {KsPiPi;Dstar}
RooDKFitMaster::makeDalitzPlots(): Original RooNumIntConfig precision: epsRel = 1e-05 , epsAbs = 1e-05
RooDKFitMaster::makeDalitzPlots(): New RooNumIntConfig precision: epsRel = 1e-05 , epsAbs = 1e-05
RooDKFitMaster::makeDalitzPlots: Data projection cut: (BdecayMode==BdecayMode::Dstar)&&(DdecayMode==DdecayMode::KsPiPi)
 Pair 1: 1 qAC Pair 2: 2 qAB Pair 3: 0 qBC
Making EvtDalitzPlot for decay mode : D0 -> K_S0 pi+ pi-
    PDF to be generated is of type RooAddPdf. Generating each of the 1 components separately
    PDF component 0[gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust] will be generated with 50000 B- events and 50000 B+ events (100000 events total)
[#1] INFO:Generation -- RooGenContext::ctor() setting up event generator context for p.d.f. tErrPdf for generation of observable(s) (tErr)
[#1] INFO:Generation -- RooGenContext::ctor() Context will generate variables (tErr) with accept/reject sampling
[#1] INFO:Generation -- RooGenContext::ctor() accept/reject sampling function is tErrPdf_AccRej
[#1] INFO:Generation -- RooProdGenContext::ctor() setting up event special generator context for product p.d.f. gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust for generation of observable(s) (qAC,qAB,tTrue,tErr) with prototype data for (BdecayMode,DdecayMode,recState,tErr)
[#1] INFO:Generation -- RooProdGenContext::ctor() creating subcontext for generation of observables (tTrue,qAC,qAB) from model dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust
[#1] INFO:Generation -- RooGenContext::ctor() setting up event generator context for p.d.f. dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust for generation of observable(s) (tTrue,qAC,qAB) with prototype data for (BdecayMode,DdecayMode,recState,tErr) with internal generation forced for observables (tTrue)
[#1] INFO:Generation -- RooGenContext::ctor() Context will let model internally generate observables (qAC,qAB) and generate variables (tTrue) with accept/reject sampling
[#1] INFO:Generation -- RooGenContext::ctor() accept/reject sampling function is dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust_Int[qAC,qAB]_Norm[tTrue,qAC,qAB]
[#1] INFO:Generation -- RooProdGenContext::gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust:generate: will generate 100000 events
RooDMixPdfMaker::initGenerator: evaluate maxProb... with code = 2 and DdecayMode = 1
RooDMixPdfMaker::initGenerator: maxProbDirect = 5652 maxProbConj = 5652
Info in <TCanvas::Print>: eps file ./results/dstar_sig_Truth_RBW-0.1-NoPhotos_Dstar_KsPiPi_DalitzqAC-qAB.eps has been created
Info in <TCanvas::Print>: eps file ./results/dstar_sig_Truth_RBW-0.1-NoPhotos_Dstar_KsPiPi_DalitztTrue.eps has been created
Info in <TCanvas::Print>: eps file ./results/dstar_sig_Truth_RBW-0.1-NoPhotos_Dstar_KsPiPi_DalitzqAC.eps has been created
Info in <TCanvas::Print>: eps file ./results/dstar_sig_Truth_RBW-0.1-NoPhotos_Dstar_KsPiPi_DalitzqAB.eps has been created
[#1] INFO:ObjectHandling -- RooCustomizer::build(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust): tree node qAC will be replaced by qAC
[#1] INFO:ObjectHandling -- RooCustomizer::build(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust) Branch node RooProdPdf::gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust cloned: depends on a replaced parameter
[#1] INFO:ObjectHandling -- RooCustomizer::build(gblDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust) Branch node RooDMixPdfMaker::dalitzDstarSigGoodDRSTDPdf_{Dstar;KsPiPi}_cust cloned: depends on a replaced parameter
Info in <TCanvas::Print>: eps file ./results/dstar_sig_Truth_RBW-0.1-NoPhotos_Dstar_KsPiPi_DalitzqBC.eps has been created
RooDKFitMaster::makeDalitzPlots: Pdf component: {KsPiPi;Dstar}
RooDKFitMaster::makeDalitzPlots(): Original RooNumIntConfig precision: epsRel = 1e-05 , epsAbs = 1e-05
RooDKFitMaster::makeDalitzPlots(): New RooNumIntConfig precision: epsRel = 1e-05 , epsAbs = 1e-05
RooDKFitMaster::makeDalitzPlots: Data projection cut: (BdecayMode==BdecayMode::Dstar)&&(DdecayMode==DdecayMode::KsPiPi)
 Pair 1: 1 qAC Pair 2: 2 qAB Pair 3: 0 qBC
Making EvtDalitzPlot for decay mode : D0 -> K_S0 pi+ pi-
Making 2D histogram with chi2 distribution for Dstar and KsPiPi
Total number of events = 5e+04
Total 2D chi2 for Dstar and KsPiPi = 1.071e+04 for 19112 dof = 0.5605
Info in <TCanvas::Print>: eps file ./results/dstar_sig_Truth_RBW-0.1-NoPhotos_Dstar_KsPiPi_DalitzChi2.eps has been created
RooDKFitMaster::makePlots: Pdf component: {KsKK;Dstar}
RooDKFitMaster::makeDalitzPlots: Pdf component: {KsKK;Dstar}
RooDKFitMaster::makeDalitzPlots: Pdf component: {KsKK;Dstar}
RooDKFitMaster: Delete data members
RooDKFitMaster: Delete datasets from memory
RooDKFitMaster: Delete PDF's and results from memory
RooRealMPFE::initialize(nll_MPFE0) server process terminating
RooRealMPFE::initialize(nll_MPFE1) server process terminating
RooRealMPFE::initialize(nll_MPFE2) server process terminating
RooRealMPFE::initialize(nll_MPFE3) server process terminating
RooRealMPFE::initialize(nll_MPFE5) server process terminating
RooRealMPFE::initialize(nll_MPFE6) server process terminating
RooRealMPFE::initialize(nll_MPFE4) server process terminating

This is the end of ROOT -- Goodbye


------------------------------------------------------------
Sender: LSF System <lsf@fell0071>
Subject: Job 596282: <dstar_sig_Truth_RBW-0.1-NoPhotos> Done

Job <dstar_sig_Truth_RBW-0.1-NoPhotos> was submitted from host <yakut02> by user <martinef>.
Job was executed on host(s) <fell0071>, in queue <bbr-mcore>, as user <martinef>.
</u/ec/martinef> was used as the home directory.
</u/ec/martinef/workspace3/DKDalitz-ROOT5.18.00-2nd/RooDKDalitz> was used as the working directory.
Started at Sun Dec 21 09:55:31 2008
Results reported at Sun Dec 21 11:06:55 2008

Your job looked like:

------------------------------------------------------------
# LSBATCH: User input
#! /bin/csh 
#BSUB -q bbr-mcore 
#BSUB -C 0 -R "rhel40" 
#BSUB -E ./d0mix07/require8cores 
#BSUB -J dstar_sig_Truth_RBW-0.1-NoPhotos 
#BSUB -o ./results/dstar_sig_Truth_RBW-0.1-NoPhotos.log 
./bbrroot -l -b -q ./results/dstar_sig_Truth_RBW-0.1-NoPhotos.C 

------------------------------------------------------------

Successfully completed.

Resource usage summary:

    CPU time   :  24062.15 sec.
    Max Memory :      1543 MB
    Max Swap   :      1899 MB

    Max Processes  :        12
    Max Threads    :        12

The output (if any) is above this job summary.