/* ======================================================================== *\ ! ! * ! * This file is part of MARS, the MAGIC Analysis and Reconstruction ! * Software. It is distributed to you in the hope that it can be a useful ! * and timesaving tool in analysing Data of imaging Cerenkov telescopes. ! * It is distributed WITHOUT ANY WARRANTY. ! * ! * Permission to use, copy, modify and distribute this software and its ! * documentation for any purpose is hereby granted without fee, ! * provided that the above copyright notice appear in all copies and ! * that both that copyright notice and this permission notice appear ! * in supporting documentation. It is provided "as is" without express ! * or implied warranty. ! * ! ! ! Author(s): Thomas Bretz, 9/2004 ! ! Copyright: MAGIC Software Development, 2000-2004 ! ! \* ======================================================================== */ ///////////////////////////////////////////////////////////////////////////// // // MJOptimizeCuts // // Class for otimizing the parameters of the supercuts // // Minimization Control // ==================== // // To choose the minimization algorithm use: // void SetOptimizer(Optimizer_t o); // // Allowed options are: // enum Optimizer_t // { // kMigrad, // Minimize by the method of Migrad // kSimplex, // Minimize by the method of Simplex // kMinimize, // Migrad + Simplex (if Migrad fails) // kMinos, // Minos error determination // kImprove, // Local minimum search // kSeek, // Minimize by the method of Monte Carlo // kNone // Skip optimization // }; // // For more details on the methods see TMinuit. // // // You can change the behaviour of the minimization using // // void SetNumMaxCalls(UInt_t num=0); // void SetTolerance(Float_t tol=0); // // While NumMaxCalls is the first, Tolerance the second arguement. // For more details start root and type // // gMinuit->mnhelp("command") // // while command can be // * MIGRAD // * SIMPLEX // * MINIMIZE // * MINOS // * IMPROVE // * SEEK // // The default (num==0 and tol==0) should always give you the // corresponding defaults used in Minuit. // // // FIXME: Implement changing cut in hadronness... // FIXME: Show MHSignificance on MStatusDisplay during filling... // FIXME: Choose step-size percentage as static data membewr // FIXME: Choose minimization method // ///////////////////////////////////////////////////////////////////////////// #include "MJOptimizeCuts.h" #include "MHMatrix.h" // Environment #include "MLog.h" #include "MLogManip.h" // Eventloop #include "MReadTree.h" #include "MParList.h" #include "MTaskList.h" // Parameter container #include "MGeomCamMagic.h" #include "MParameters.h" #include "MFilterList.h" // histograms #include "../mhflux/MHAlpha.h" // Tasks #include "MF.h" #include "MFillH.h" #include "MContinue.h" #include "MMatrixLoop.h" #include "MFMagicCuts.h" ClassImp(MJOptimizeCuts); using namespace std; //------------------------------------------------------------------------ // MHAlpha *MJOptimizeCuts::CreateNewHist(const char *name) const { TClass *cls = gROOT->GetClass(fNameHist); if (!cls) { *fLog << err << "Class " << fNameHist << " not found in dictionary... abort." << endl; return NULL; } if (!cls->InheritsFrom(MHAlpha::Class())) { *fLog << err << "Class " << fNameHist << " doesn't inherit from MHAlpha... abort." << endl; return NULL; } MHAlpha *h = (MHAlpha*)cls->New(); if (h && name) h->SetName(name); return h; } //------------------------------------------------------------------------ // Bool_t MJOptimizeCuts::RunOnOffCore(MHAlpha &histon, MHAlpha &histof, const char *fname, MFilter *filter, MAlphaFitter *fit, const char *tree) { fLog->Separator("Preparing On/Off-optimization"); MParList parlist; MGeomCamMagic geom; // For GetConvMm2Deg parlist.AddToList(&geom); MHMatrix m("M"); AddRulesToMatrix(m); parlist.AddToList(&m); const Int_t idxdatatype = m.AddColumn("DataType.fVal"); histon.SkipHistTime(); histon.SkipHistTheta(); //histon.SkipHistEnergy(); histof.SkipHistTime(); histof.SkipHistTheta(); //histof.SkipHistEnergy(); histon.ForceUsingSize(); histof.ForceUsingSize(); histon.InitMapping(&m, 1); histof.InitMapping(&m, 1); if (filter && filter->InheritsFrom(MFMagicCuts::Class())) ((MFMagicCuts*)filter)->InitMapping(&m); parlist.AddToList(&histon); parlist.AddToList(&histof); if (fname) { MReadTree read(tree); read.DisableAutoScheme(); // AutoScheme doesn't seem to be faster! read.AddFile(fname); if (!FillMatrix(read, parlist)) return kFALSE; } else { MParameterI par("DataType"); parlist.AddToList(&par); gLog.Separator("Reading On-Data"); par.SetVal(1); MReadTree readon(tree); readon.DisableAutoScheme(); // AutoScheme doesn't seem to be faster! AddSequences(readon, fNamesOn); if (!FillMatrix(readon, parlist)) return kFALSE; gLog.Separator("Reading Off-Data"); par.SetVal(0); MReadTree readoff(tree); readoff.DisableAutoScheme(); // AutoScheme doesn't seem to be faster! AddSequences(readoff, fNamesOff); if (!FillMatrix(readoff, parlist)) return kFALSE; } MTaskList tasklist; parlist.Replace(&tasklist); if (fit) parlist.AddToList(fit); MFilterList list; SetupFilters(list, filter); MContinue contin(&list); parlist.AddToList(&list); MFillH fillof(&histof, "", "FillHistOff"); MFillH fillon(&histon, "", "FillHistOn"); MF f0(Form("M[%d]<0.5", idxdatatype), "FilterOffData"); MF f1(Form("M[%d]>0.5", idxdatatype), "FilterOnData"); fillof.SetFilter(&f0); fillon.SetFilter(&f1); MMatrixLoop loop(&m); tasklist.AddToList(&loop); tasklist.AddToList(&list); tasklist.AddToList(&contin); tasklist.AddToList(&f0); tasklist.AddToList(&f1); tasklist.AddToList(&fillof); tasklist.AddToList(&fillon); // Optimize with the tasklist in this parameterlist if (!Optimize(parlist)) return kFALSE; *fLog << inf << "Finished processing of " << fname << endl; // Copy the result back to be accessible by the user if (fit) histon.GetAlphaFitter().Copy(*fit); // Print the result histon.GetAlphaFitter().Print("result"); // Store result if requested TObjArray cont; cont.Add(&contin); return WriteContainer(cont, fNameOut); } Bool_t MJOptimizeCuts::RunOnCore(MHAlpha &hist, const char *fname, MFilter *filter, MAlphaFitter *fit) { fLog->Separator("Preparing On-only-optimization"); MParList parlist; MGeomCamMagic geom; // For GetConvMm2Deg parlist.AddToList(&geom); MHMatrix m("M"); AddRulesToMatrix(m); parlist.AddToList(&m); hist.SkipHistTime(); hist.SkipHistTheta(); hist.SkipHistEnergy(); hist.InitMapping(&m); if (filter && filter->InheritsFrom(MFMagicCuts::Class())) ((MFMagicCuts*)filter)->InitMapping(&m); MReadTree read("Events"); read.DisableAutoScheme(); // AutoScheme doesn't seem to be faster! if (fname) read.AddFile(fname); else AddSequences(read, fNamesOn); if (!FillMatrix(read, parlist)) return kFALSE; MTaskList tasklist; parlist.Replace(&tasklist); if (fit) parlist.AddToList(fit); MFilterList list; SetupFilters(list, filter); MContinue contin(&list); parlist.AddToList(&list); MFillH fill(&hist); MMatrixLoop loop(&m); tasklist.AddToList(&loop); tasklist.AddToList(&list); tasklist.AddToList(&contin); tasklist.AddToList(&fill); // Optimize with the tasklist in this parameterlist if (!Optimize(parlist)) return kFALSE; *fLog << inf << "Finished processing of " << fname << endl; // Copy the result back to be accessible by the user if (fit) hist.GetAlphaFitter().Copy(*fit); // Print the result hist.GetAlphaFitter().Print("result"); // Store result if requested TObjArray cont; cont.Add(&contin); return WriteContainer(cont, fNameOut); } //------------------------------------------------------------------------ // Bool_t MJOptimizeCuts::RunOnOff(const char *fname, MFilter *filter, MAlphaFitter *fit, const char *tree) { MHAlpha *histon = CreateNewHist("Hist"); MHAlpha *histof = CreateNewHist("HistOff"); if (!histon || !histof) return kFALSE; const Bool_t rc = RunOnOffCore(*histon, *histof, fname, filter, fit, tree); delete histon; delete histof; return rc; } //------------------------------------------------------------------------ // Bool_t MJOptimizeCuts::RunOn(const char *fname, MFilter *filter, MAlphaFitter *fit) { MHAlpha *histon = CreateNewHist(); if (!histon) return kFALSE; const Bool_t rc = RunOnCore(*histon, fname, filter, fit); delete histon; return rc; }