lnx321.lns.cornell.edu Linux lnx321.lns.cornell.edu 2.6.9-89.0.9.ELsmp #1 SMP Mon Aug 24 13:47:43 CDT 2009 i686 i686 i386 GNU/Linux By default C3_ is defined as /nfs/cleo3 cleo3defs - Setting Up Cleo3 Environment Using release current cleo3defs - Setting Up Cleo3 Environment Using release 20080228_FULL cleo3defs - Setting Up Cleo3 Environment Using release 20080228_FULL dhad-3.0.3 [ Analysis - 9.03 ] -------------------------------------------------- CLEOG : 20080624_MCGEN PASS2 : 20041104_MCP2_A_1 DSKIM : 20040622_FULL NTuple : 20080228_FULL -------------------------------------------------- -------------------------------------------------- Loading libHtml.so ... Loading libMinuit.so ... Loading /home/xs32/work/CLEO/analysis/DHad/lib/RooFitCore/libRooFitCore_3_0.so ... RooFit v1.92 -- Developed by Wouter Verkerke and David Kirkby Copyright (C) 2000-2005 University of California & Stanford University All rights reserved, please read http://roofit.sourceforge.net/license.txt Loading /home/xs32/work/CLEO/analysis/DHad/lib/RooFitModels/libRooFitModels_3_0.so ... -------------------------------------------------- Mass = 3.7718 GeV Width = 0.0286 GeV R = 12.3 mc = -1 -------------------------------------------------- Using evt files: regular3 /home/xs32/work/CLEO/analysis/DHad/9.03/dat/evt/regular3/signal_Single_Dp_to_Kspipi0.evt /home/xs32/work/CLEO/analysis/DHad/9.03/dat/evt/regular3/signal_Single_Dm_to_Kspipi0.evt -------------------------------------------------- Loading lineshape parameters from: /home/xs32/work/CLEO/analysis/DHad/9.03/tab/line_shape_paras.txt -------------------------------------------------- Initializing fitting parameters from: /home/xs32/work/CLEO/analysis/DHad/9.03/dat/fit/regular/signal_Single_Dp_to_Kspipi0__Dm_to_Kspipi0.txt -------------------------------------------------- Single Tag Fit Mode: 203 -------------------------------------------------- title1 = D^{+}#rightarrowK_{S} #pi^{+} #pi^{0} title2 = D^{-}#rightarrowK_{S} #pi^{-} #pi^{0} evtfile = /home/xs32/work/CLEO/analysis/DHad/9.03/dat/evt/regular3/signal_Single_Dp_to_Kspipi0__Dm_to_Kspipi0.evt epsfile = /home/xs32/work/CLEO/analysis/DHad/9.03/fig/regular3/signal_Single_Dp_to_Kspipi0__Dm_to_Kspipi0.eps outfile = /home/xs32/work/CLEO/analysis/DHad/9.03/dat/fit/regular3/signal_Single_Dp_to_Kspipi0__Dm_to_Kspipi0.txt mc = -1 num_fcn = 3 xi_side = 0.0 p_side = 0.0 Sigma = 0.00639 Sa = 2.5 Sb = 3.17 Fa = 0.3 Fb = 0.0146 int_d = 1 optstr = p Gamma = 0.0286 floatwidth = 0 R = 12.3 Mres = 3.7718 -------------------------------------------------- N1 = 13923.8672197 N2 = 14081.0648694 Nbkgd1 = 1140.08731517 Nbkgd2 = 1307.09616305 md = 1.8697932527 p = 0.9865325061 sigmap1 = 0.0063723772 xi = -38.3361449081 -------------------------------------------------- Min = 0.5 options = MINUIT = ermh4 -------------------------------------------------- ROOT macro: mbc_singletag_3s.C -------------------------------------------------- RooDataSet::read: reading file /home/xs32/work/CLEO/analysis/DHad/9.03/dat/evt/regular3/signal_Single_Dp_to_Kspipi0__Dm_to_Kspipi0.evt RooDataSet::read: read 30481 events (ignored 0 out of range events) RooDataSet::dataset: "/home/xs32/work/CLEO/analysis/DHad/9.03/dat/evt/regular3/signal_Single_Dp_to_Kspipi0__Dm_to_Kspipi0.evt" Contains 30481 entries MINUIT WARNING IN PARAMETR ============== VARIABLE1 BROUGHT BACK INSIDE LIMITS. MINUIT WARNING IN PARAMETR ============== VARIABLE2 BROUGHT BACK INSIDE LIMITS. MINUIT WARNING IN PARAMETR ============== VARIABLE3 BROUGHT BACK INSIDE LIMITS. MINUIT WARNING IN PARAMETR ============== VARIABLE4 BROUGHT BACK INSIDE LIMITS. RooMinuit::optimizeConst: activating const optimization RooAbsGoodnessOfFit::initSimMode: creating slave GOF calculator #0 for state dflav (15169 dataset entries) In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC In RooDEnergyImp::BW m_mc=-1 Shape to use for old broken MC Warning evaluating beyond endpoint, x, m_xmax:3.81341 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81333 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81324 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81315 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81306 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81298 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81289 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8128 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81272 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81263 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81254 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81246 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81237 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81229 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8122 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81211 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81203 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81194 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81185 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81177 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81168 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8116 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81151 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81142 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81134 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81125 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81117 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81108 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.811 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81091 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81082 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81074 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81065 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81057 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81048 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8104 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81031 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81023 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81014 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.81006 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80997 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80989 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8098 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80972 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80963 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80955 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80946 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80938 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80929 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80921 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80912 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80904 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80895 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80887 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80879 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8087 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80862 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80853 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80845 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80836 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80828 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8082 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80811 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80803 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80794 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80786 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80778 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80769 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80761 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80753 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80744 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80736 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80728 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80719 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80711 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80703 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80694 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80686 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80678 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80669 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80661 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80653 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80644 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80636 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80628 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8062 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80611 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80603 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80595 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80586 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80578 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.8057 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80562 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80553 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80545 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80537 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80529 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80521 3.805 Warning evaluating beyond endpoint, x, m_xmax:3.80512 3.805 RooAbsGoodnessOfFit::initSimMode: creating slave GOF calculator #1 for state dbarflav (15312 dataset entries) RooAbsOptGoodnessOfFit::constOptimize(dflav) Action=Activate RooAbsReal::optimize: component f1 will be cached RooAbsReal::optimizeConst: The following unused tree branches are deactivated: (mbc,Ebeam) RooAbsOptGoodnessOfFit::constOptimize(dbarflav) Action=Activate RooAbsReal::optimize: component f1 will be cached RooAbsReal::optimizeConst: The following unused tree branches are deactivated: (mbc,Ebeam) ********** ** 13 **MIGRAD 4000 1 ********** FIRST CALL TO USER FUNCTION AT NEW START POINT, WITH IFLAG=4. START MIGRAD MINIMIZATION. STRATEGY 1. CONVERGENCE WHEN EDM .LT. 1.00e-03 FCN=-515559 FROM MIGRAD STATUS=INITIATE 44 CALLS 45 TOTAL EDM= unknown STRATEGY= 1 NO ERROR MATRIX EXT PARAMETER CURRENT GUESS STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 N1 1.39239e+04 2.00000e+05 3.32204e-01 -8.70435e+02 2 N2 1.40811e+04 2.00000e+05 3.32331e-01 2.44499e+02 3 Nbkgd1 1.14009e+03 2.00000e+05 3.21723e-01 -1.37014e+03 4 Nbkgd2 1.30710e+03 2.00000e+05 3.21862e-01 2.15188e+03 5 md 1.86979e+00 1.20000e-03 2.03243e-01 3.46090e+02 6 p 9.86533e-01 1.40000e-01 2.09389e-01 1.16137e+01 7 sigmap1 6.37200e-03 3.80000e-03 3.59210e-01 2.36100e+02 8 xi -3.83361e+01 9.99000e+00 2.07489e-01 1.58950e+01 ERR DEF= 0.5 MIGRAD MINIMIZATION HAS CONVERGED. MIGRAD WILL VERIFY CONVERGENCE AND ERROR MATRIX. COVARIANCE MATRIX CALCULATED SUCCESSFULLY FCN=-515563 FROM MIGRAD STATUS=CONVERGED 255 CALLS 256 TOTAL EDM=0.00015865 STRATEGY= 1 ERROR MATRIX ACCURATE EXT PARAMETER STEP FIRST NO. NAME VALUE ERROR SIZE DERIVATIVE 1 N1 1.39556e+04 1.23067e+02 3.57378e-04 -4.07308e-02 2 N2 1.40634e+04 1.23563e+02 3.57428e-04 -3.51853e-01 3 Nbkgd1 1.21339e+03 4.90543e+01 4.36519e-04 -2.12785e+00 4 Nbkgd2 1.24856e+03 4.95577e+01 4.34771e-04 7.09082e-01 5 md 1.86978e+00 1.15912e-05 9.49819e-04 -3.24668e+00 6 p 9.42180e-01 9.32397e-02 2.84380e-02 1.02411e-01 7 sigmap1 6.23845e-03 8.20486e-05 3.12785e-03 -4.61257e-01 8 xi -3.80870e+01 4.13600e+00 1.69014e-02 5.07729e-02 ERR DEF= 0.5 EXTERNAL ERROR MATRIX. NDIM= 16 NPAR= 8 ERR DEF=0.5 1.515e+04 4.958e+02 -1.191e+03 -4.969e+02 2.027e-05 -1.618e-01 1.087e-03 4.781e+01 4.958e+02 1.527e+04 -4.969e+02 -1.205e+03 2.278e-05 -9.916e-02 1.067e-03 4.623e+01 -1.191e+03 -4.969e+02 2.406e+03 4.980e+02 -2.030e-05 1.633e-01 -1.087e-03 -4.798e+01 -4.969e+02 -1.205e+03 4.980e+02 2.456e+03 -2.282e-05 1.009e-01 -1.068e-03 -4.640e+01 2.027e-05 2.278e-05 -2.030e-05 -2.282e-05 1.344e-10 6.841e-08 1.399e-10 -1.068e-06 -1.618e-01 -9.916e-02 1.633e-01 1.009e-01 6.841e-08 8.748e-03 -6.642e-07 -3.388e-01 1.087e-03 1.067e-03 -1.087e-03 -1.068e-03 1.399e-10 -6.642e-07 6.732e-09 7.171e-05 4.781e+01 4.623e+01 -4.798e+01 -4.640e+01 -1.068e-06 -3.388e-01 7.171e-05 1.715e+01 PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 4 5 6 7 8 1 0.22195 1.000 0.033 -0.197 -0.081 0.014 -0.014 0.108 0.094 2 0.22228 0.033 1.000 -0.082 -0.197 0.016 -0.009 0.105 0.090 3 0.46769 -0.197 -0.082 1.000 0.205 -0.036 0.036 -0.270 -0.236 4 0.46772 -0.081 -0.197 0.205 1.000 -0.040 0.022 -0.263 -0.226 5 0.16856 0.014 0.016 -0.036 -0.040 1.000 0.063 0.147 -0.022 6 0.90767 -0.014 -0.009 0.036 0.022 0.063 1.000 -0.087 -0.875 7 0.39387 0.108 0.105 -0.270 -0.263 0.147 -0.087 1.000 0.211 8 0.91684 0.094 0.090 -0.236 -0.226 -0.022 -0.875 0.211 1.000 ********** ** 18 **HESSE 4000 ********** COVARIANCE MATRIX CALCULATED SUCCESSFULLY FCN=-515563 FROM HESSE STATUS=OK 73 CALLS 329 TOTAL EDM=0.000175819 STRATEGY= 1 ERROR MATRIX ACCURATE EXT PARAMETER INTERNAL INTERNAL NO. NAME VALUE ERROR STEP SIZE VALUE 1 N1 1.39556e+04 1.23059e+02 1.42951e-05 -1.40354e+00 2 N2 1.40634e+04 1.23541e+02 1.42971e-05 -1.40289e+00 3 Nbkgd1 1.21339e+03 4.90038e+01 1.74608e-05 -1.52153e+00 4 Nbkgd2 1.24856e+03 4.94733e+01 1.73908e-05 -1.52082e+00 5 md 1.86978e+00 1.16845e-05 3.04765e-02 1.30687e-01 6 p 9.42180e-01 1.10365e-01 1.13752e-03 2.04537e-01 7 sigmap1 6.23845e-03 8.30311e-05 1.00334e-01 -8.89765e-01 8 xi -3.80870e+01 4.88510e+00 6.76055e-04 2.41850e-01 ERR DEF= 0.5 EXTERNAL ERROR MATRIX. NDIM= 16 NPAR= 8 ERR DEF=0.5 1.514e+04 4.911e+02 -1.188e+03 -4.912e+02 1.831e-05 -4.185e-01 1.072e-03 5.761e+01 4.911e+02 1.526e+04 -4.912e+02 -1.199e+03 2.077e-05 -3.357e-01 1.049e-03 5.511e+01 -1.188e+03 -4.912e+02 2.401e+03 4.912e+02 -1.831e-05 4.186e-01 -1.072e-03 -5.761e+01 -4.912e+02 -1.199e+03 4.912e+02 2.448e+03 -2.077e-05 3.360e-01 -1.049e-03 -5.512e+01 1.831e-05 2.077e-05 -1.831e-05 -2.077e-05 1.365e-10 9.224e-08 1.770e-10 -2.204e-06 -4.185e-01 -3.357e-01 4.186e-01 3.360e-01 9.224e-08 1.229e-02 -1.004e-06 -4.953e-01 1.072e-03 1.049e-03 -1.072e-03 -1.049e-03 1.770e-10 -1.004e-06 6.894e-09 8.387e-05 5.761e+01 5.511e+01 -5.761e+01 -5.512e+01 -2.204e-06 -4.953e-01 8.387e-05 2.395e+01 PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 4 5 6 7 8 1 0.22165 1.000 0.032 -0.197 -0.081 0.013 -0.031 0.105 0.096 2 0.22151 0.032 1.000 -0.081 -0.196 0.014 -0.025 0.102 0.091 3 0.46595 -0.197 -0.081 1.000 0.203 -0.032 0.077 -0.263 -0.240 4 0.46485 -0.081 -0.196 0.203 1.000 -0.036 0.061 -0.255 -0.228 5 0.20621 0.013 0.014 -0.032 -0.036 1.000 0.071 0.182 -0.039 6 0.93520 -0.031 -0.025 0.077 0.061 0.071 1.000 -0.109 -0.913 7 0.39982 0.105 0.102 -0.263 -0.255 0.182 -0.109 1.000 0.206 8 0.94120 0.096 0.091 -0.240 -0.228 -0.039 -0.913 0.206 1.000 RooTreeData::plotOn: plotting 15169 events out of 30481 total events RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsReal::plotOn(totalPdf1) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf1) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ............................................................................................................................................................................................................................ RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf1) directly selected PDF components: (DLineshape1_2,DLineshape1_3,argus1) RooAbsPdf::plotOn(totalPdf1) indirectly selected PDF components: (signal1_3) RooAbsReal::plotOn(totalPdf1) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf1) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ................................................................................................................................................................................................................ RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf1) directly selected PDF components: (DLineshape1_3,argus1) RooAbsPdf::plotOn(totalPdf1) indirectly selected PDF components: (signal1_3) RooAbsReal::plotOn(totalPdf1) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf1) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .......................................................................................................................................... RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf1) directly selected PDF components: (argus1) RooAbsPdf::plotOn(totalPdf1) indirectly selected PDF components: () RooAbsReal::plotOn(totalPdf1) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf1) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ........................................................................................................................................ RooTreeData::plotOn: plotting 15312 events out of 30481 total events RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsReal::plotOn(totalPdf2) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf2) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ............................................................................................................................................................................................................................ RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf2) directly selected PDF components: (DLineshape2_2,DLineshape2_3,argus2) RooAbsPdf::plotOn(totalPdf2) indirectly selected PDF components: (signal2_3) RooAbsReal::plotOn(totalPdf2) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf2) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ................................................................................................................................................................................................................ RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf2) directly selected PDF components: (DLineshape2_3,argus2) RooAbsPdf::plotOn(totalPdf2) indirectly selected PDF components: (signal2_3) RooAbsReal::plotOn(totalPdf2) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf2) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events .......................................................................................................................................... RooSimultaneous::plotOn(totalPdf) plot on mbc represents a slice in the index category (dflav) RooAbsPdf::plotOn(totalPdf2) directly selected PDF components: (argus2) RooAbsPdf::plotOn(totalPdf2) indirectly selected PDF components: () RooAbsReal::plotOn(totalPdf2) slice variable dflav was not projected anyway RooAbsReal::plotOn(totalPdf2) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ...................................................................................................................................... Info in : eps file /home/xs32/work/CLEO/analysis/DHad/9.03/fig/regular3/signal_Single_Dp_to_Kspipi0__Dm_to_Kspipi0.eps has been created RooSimultaneous::plotOn(totalPdf) plot on mbc averages with data index category (dflav) RooAbsReal::plotOn(totalPdf) plot on mbc integrates over variables (dflav) RooAbsReal::plotOn(totalPdf) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf) creating coefficient projection integrals from current normalization: (mbc,dflav) with current range: to reference normalization: (mbc,Ebeam,dflav) with reference range: RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ............................................................................................................................................................................................................................ RooSimultaneous::plotOn(totalPdf) plot on mbc averages with data index category (dflav) RooAbsPdf::plotOn(totalPdf) directly selected PDF components: (argus1,argus2) RooAbsPdf::plotOn(totalPdf) indirectly selected PDF components: (totalPdf1,totalPdf2) RooAbsReal::plotOn(totalPdf) plot on mbc integrates over variables (dflav) RooAbsReal::plotOn(totalPdf) plot on mbc averages using data variables (Ebeam) RooAddPdf::syncCoefProjList(totalPdf) creating coefficient projection integrals from current normalization: (mbc,dflav) with current range: to reference normalization: (mbc,Ebeam,dflav) with reference range: RooAddPdf::syncCoefProjList(totalPdf1) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal1_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(totalPdf2) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooAddPdf::syncCoefProjList(signal2_3) creating coefficient projection integrals from current normalization: (mbc) with current range: to reference normalization: (mbc,Ebeam) with reference range: RooDataProjBinding::operator() projecting over 900 events ........................................................................................................................................ Fit done. Save txtfile as: /home/xs32/work/CLEO/analysis/DHad/9.03/dat/fit/regular3/signal_Single_Dp_to_Kspipi0__Dm_to_Kspipi0.txt png file generated. dhad: done.