/* ======================================================================== *\ ! ! * ! * 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, 3/2004 ! ! Copyright: MAGIC Software Development, 2000-2005 ! ! \* ======================================================================== */ ////////////////////////////////////////////////////////////////////////////// // // MHAlpha // // Create a single Alpha-Plot. The alpha-plot is fitted online. You can // check the result when it is filles in the MStatusDisplay // For more information see MHFalseSource::FitSignificance // // For convinience (fit) the output significance is stored in a // container in the parlisrt // // PRELIMINARY! // // // ToDo: // ===== // // - Replace time-binning by histogram (which is enhanced bin-wise) // // ////////////////////////////////////////////////////////////////////////////// #include "MHAlpha.h" #include #include #include #include #include #include #include #include "MSrcPosCam.h" #include "MHillasSrc.h" #include "MTime.h" #include "MObservatory.h" #include "MPointingPos.h" #include "MAstroSky2Local.h" #include "MStatusDisplay.h" #include "MParameters.h" #include "MHMatrix.h" #include "MBinning.h" #include "MParList.h" #include "MLog.h" #include "MLogManip.h" ClassImp(MHAlpha); ClassImp(MAlphaFitter); using namespace std; // -------------------------------------------------------------------------- // // Default Constructor // MHAlpha::MHAlpha(const char *name, const char *title) : fNameParameter("MHillasSrc"), fParameter(0), fOffData(0), fResult(0), fEnergy(0), fBin(0), fPointPos(0), fTimeEffOn(0), fTime(0), fNumTimeBins(10), fHillas(0), fMatrix(0), fSkipHistTime(kFALSE), fSkipHistTheta(kFALSE), fSkipHistEnergy(kFALSE), fForceUsingSize(kFALSE) { // // set the name and title of this object // fName = name ? name : "MHAlpha"; fTitle = title ? title : "Alpha plot"; fHist.SetName("Alpha"); fHist.SetTitle("Alpha"); fHist.SetXTitle("\\Theta [deg]"); //fHist.SetYTitle("E_{est} [GeV]"); fHist.SetZTitle("|\\alpha| [\\circ]"); fHist.SetDirectory(NULL); fHist.UseCurrentStyle(); // Main histogram fHistTime.SetName("Alpha"); fHistTime.SetXTitle("|\\alpha| [\\circ]"); fHistTime.SetYTitle("Counts"); fHistTime.UseCurrentStyle(); fHistTime.SetDirectory(NULL); fHEnergy.SetName("Excess"); //fHEnergy.SetTitle(" N_{exc} vs. E_{est} "); //fHEnergy.SetXTitle("E_{est} [GeV]"); fHEnergy.SetYTitle("N_{exc}"); fHEnergy.SetDirectory(NULL); fHEnergy.UseCurrentStyle(); fHTheta.SetName("ExcessTheta"); fHTheta.SetTitle(" N_{exc} vs. \\Theta "); fHTheta.SetXTitle("\\Theta [\\circ]"); fHTheta.SetYTitle("N_{exc}"); fHTheta.SetDirectory(NULL); fHTheta.UseCurrentStyle(); // effective on time versus time fHTime.SetName("ExcessTime"); fHTime.SetTitle(" N_{exc} vs. Time "); fHTime.SetXTitle("Time"); fHTime.SetYTitle("N_{exc} [s]"); fHTime.UseCurrentStyle(); fHTime.SetDirectory(NULL); fHTime.GetYaxis()->SetTitleOffset(1.2); fHTime.GetXaxis()->SetLabelSize(0.033); fHTime.GetXaxis()->SetTimeFormat("%H:%M:%S %F1995-01-01 00:00:00 GMT"); fHTime.GetXaxis()->SetTimeDisplay(1); fHTime.Sumw2(); MBinning binsa, binse, binst; binsa.SetEdges(18, 0, 90); binse.SetEdgesLog(15, 10, 100000); binst.SetEdgesASin(67, -0.005, 0.665); binse.Apply(fHEnergy); binst.Apply(fHTheta); binsa.Apply(fHistTime); MH::SetBinning(&fHist, &binst, &binse, &binsa); } Float_t MHAlpha::FitEnergyBins(Bool_t paint) { // Do not store the 'final' result in fFit MAlphaFitter fit(fFit); const Int_t n = fHist.GetNbinsY(); fHEnergy.SetEntries(0); Float_t mean = 0; Int_t num = 0; for (int i=1; i<=n; i++) { if (fit.FitEnergy(fHist, fOffData, i)) { fHEnergy.SetBinContent(i, fit.GetEventsExcess()); if (fit.GetSignificanceExc()>1) fHEnergy.SetBinError(i, fit.GetEventsExcess()/fit.GetSignificanceExc()); else fHEnergy.SetBinError(i, fit.GetEventsExcess()); if (fit.GetSignificanceExc()>1) { mean += fit.GetSignificanceExc()*fit.GetSignificanceExc(); num++; } } } return TMath::Sqrt(mean)/num; } void MHAlpha::FitThetaBins(Bool_t paint) { // Do not store the 'final' result in fFit MAlphaFitter fit(fFit); const Int_t n = fHist.GetNbinsX(); fHTheta.SetEntries(0); for (int i=1; i<=n; i++) { if (fit.FitTheta(fHist, fOffData, i)) { fHTheta.SetBinContent(i, fit.GetEventsExcess()); if (fit.GetSignificanceExc()>1) fHTheta.SetBinError(i, fit.GetEventsExcess()/fit.GetSignificanceExc()); else fHTheta.SetBinError(i, fit.GetEventsExcess()); } } } // -------------------------------------------------------------------------- // // Return the value from fParemeter which should be filled into the plots // Double_t MHAlpha::GetVal() const { return static_cast(fParameter)->GetAlpha(); } // -------------------------------------------------------------------------- // // Store the pointer to the parameter container storing the plotted value // (here MHillasSrc) in fParameter. // // return whether it was found or not. // Bool_t MHAlpha::GetParameter(const MParList &pl) { fParameter = (MParContainer*)pl.FindObject(fNameParameter, "MHillasSrc"); if (fParameter) return kTRUE; *fLog << err << fNameParameter << " [MHillasSrc] not found... abort." << endl; return kFALSE; } Bool_t MHAlpha::SetupFill(const MParList *pl) { fHist.Reset(); fHEnergy.Reset(); fHTheta.Reset(); fHTime.Reset(); const TString off(Form("%sOff", fName.Data())); if (fName!=off && fOffData==NULL) { const TString desc(Form("%s [%s] found... using ", off.Data(), ClassName())); MHAlpha *hoff = (MHAlpha*)pl->FindObject(off, ClassName()); if (!hoff) *fLog << inf << "No " << desc << "current data only!" << endl; else { *fLog << inf << desc << "on-off mode!" << endl; SetOffData(*hoff); } } if (!GetParameter(*pl)) return kFALSE; fHillas = 0; fEnergy = fForceUsingSize ? 0 : (MParameterD*)pl->FindObject("MEnergyEst", "MParameterD"); if (!fEnergy) { *fLog << warn << "MEnergyEst [MParameterD] not found... " << flush; if (!fHillas) fHillas = (MHillas*)pl->FindObject("MHillas"); if (fHillas) *fLog << "using SIZE instead!" << endl; else *fLog << "ignored." << endl; fHEnergy.SetTitle(" N_{exc} vs. Size "); fHEnergy.SetXTitle("Size [phe]"); fHist.SetYTitle("Size [phe]"); } else { fHEnergy.SetTitle(" N_{exc} vs. E_{est} "); fHEnergy.SetXTitle("E_{est} [GeV]"); fHist.SetYTitle("E_{est} [GeV]"); } fPointPos = (MPointingPos*)pl->FindObject("MPointingPos"); if (!fPointPos) *fLog << warn << "MPointingPos not found... ignored." << endl; fTimeEffOn = (MTime*)pl->FindObject("MTimeEffectiveOnTime", "MTime"); if (!fTimeEffOn) *fLog << warn << "MTimeEffectiveOnTime [MTime] not found... ignored." << endl; else *fTimeEffOn = MTime(); // FIXME: How to do it different? fTime = (MTime*)pl->FindObject("MTime"); if (!fTime) *fLog << warn << "MTime not found... ignored." << endl; fResult = (MParameterD*)const_cast(pl)->FindCreateObj("MParameterD", "MinimizationValue"); if (!fResult) return kFALSE; fSigma = (MParameterD*)const_cast(pl)->FindCreateObj("MParameterD", "GaussSigma"); if (!fSigma) return kFALSE; fBin = (MParameterI*)const_cast(pl)->FindCreateObj("MParameterI", "Bin"); if (!fBin) return kFALSE; //fExcess = (MParameterD*)const_cast(pl)->FindCreateObj("MParameterD", "MExcess"); //if (!fExcess) // return kFALSE; fLastTime = MTime(); fNumRebin = fNumTimeBins; MBinning binst, binse, binsa; binst.SetEdges(fOffData ? *fOffData : fHist, 'x'); binse.SetEdges(fOffData ? *fOffData : fHist, 'y'); binsa.SetEdges(fOffData ? *fOffData : fHist, 'z'); if (!fOffData) { if (!fPointPos) binst.SetEdges(1, 0, 60); else binst.SetEdges(*pl, "BinningTheta"); if (!fEnergy && !fHillas) binse.SetEdges(1, 10, 100000); else if (fEnergy) binse.SetEdges(*pl, "BinningEnergyEst"); else binse.SetEdges(*pl, "BinningSize"); binsa.SetEdges(*pl, Form("Binning%s", ClassName()+2)); } else { fHEnergy.SetTitle(fOffData->GetTitle()); fHEnergy.SetXTitle(fOffData->GetYaxis()->GetTitle()); fHist.SetYTitle(fOffData->GetYaxis()->GetTitle()); } binse.Apply(fHEnergy); binst.Apply(fHTheta); binsa.Apply(fHistTime); MH::SetBinning(&fHist, &binst, &binse, &binsa); MAlphaFitter *fit = (MAlphaFitter*)pl->FindObject("MAlphaFitter"); if (!fit) *fLog << warn << "MAlphaFitter not found... ignored." << endl; else fit->Copy(fFit); *fLog << inf; fFit.Print(); return kTRUE; } void MHAlpha::InitAlphaTime(const MTime &t) { // // If this is the first call we have to initialize the time-histogram // MBinning bins; bins.SetEdges(1, t.GetAxisTime()-60, t.GetAxisTime()); bins.Apply(fHTime); fLastTime=t; } void MHAlpha::UpdateAlphaTime(Bool_t final) { if (!fTimeEffOn) return; if (!final) { if (fLastTime==MTime() && *fTimeEffOn!=MTime()) { InitAlphaTime(*fTimeEffOn); return; } if (fLastTime!=*fTimeEffOn) { fLastTime=*fTimeEffOn; fNumRebin--; } if (fNumRebin>0) return; } // Check new 'last time' MTime *time = final ? fTime : fTimeEffOn; if (time->GetAxisTime()<=fHTime.GetXaxis()->GetXmax()) { *fLog << warn << "WARNING - New time-stamp " << *time << " lower" << endl; *fLog << "than upper edge of histogram... skipped." << endl; *fLog << "This should not happen. Maybe you started you eventloop with" << endl; *fLog << "an already initialized time stamp MTimeEffectiveOnTime?" << endl; fNumRebin++; return; } // Fit time histogram MAlphaFitter fit(fFit); TH1D *h = fOffData ? fOffData->ProjectionZ("ProjTimeTemp", -1, 9999, -1, 9999, "E") : 0; const Bool_t rc = fit.ScaleAndFit(fHistTime, h); if (h) delete h; if (!rc) return; // Reset Histogram fHistTime.Reset(); fHistTime.SetEntries(0); // // Prepare Histogram // if (final) time->Plus1ns(); // Get number of bins const Int_t n = fHTime.GetNbinsX(); // Enhance binning MBinning bins; bins.SetEdges(fHTime, 'x'); bins.AddEdge(time->GetAxisTime()); bins.Apply(fHTime); // // Fill histogram // fHTime.SetBinContent(n+1, fit.GetEventsExcess()); if (fit.GetSignificanceExc()>1) fHTime.SetBinError(n+1, fit.GetEventsExcess()/fit.GetSignificanceExc()); else fHTime.SetBinError(n+1, fit.GetEventsExcess()); *fLog << all << *fTimeEffOn << ": " << fit.GetEventsExcess() << endl; fNumRebin = fNumTimeBins; } void MHAlpha::SetBin(Int_t ibin) { // Is this necessary? // Could be speed up up searching for it only once. const Float_t max = fFit.GetSignalIntegralMax(); const Int_t bin0 = fHist.GetZaxis()->FindFixBin(max); const Int_t nbinsx = fHist.GetNbinsX(); const Int_t nbinsy = fHist.GetNbinsY(); const Int_t nxy = (nbinsx+2)*(nbinsy+2); const Int_t binz = ibin/nxy; const Bool_t issignal = binz>0 && binzSetVal(issignal ? binz : -binz); } // -------------------------------------------------------------------------- // // Fill the histogram. For details see the code or the class description // Bool_t MHAlpha::Fill(const MParContainer *par, const Stat_t w) { Double_t alpha, energy, theta; Double_t size=-1; if (fMatrix) { alpha = fMap[0]<0 ? GetVal() : (*fMatrix)[fMap[0]]; energy = fMap[1]<0 ? -1 : (*fMatrix)[fMap[1]]; size = fMap[2]<0 ? -1 : (*fMatrix)[fMap[2]]; //<0 ? 1000 : (*fMatrix)[fMap[1]]; theta = 0; if (energy<0) energy=size; if (size<0) size=energy; if (energy<0 && size<0) energy = size = 1000; } else { alpha = GetVal(); if (fHillas) size = fHillas->GetSize(); energy = fEnergy ? fEnergy->GetVal() : (fHillas?fHillas->GetSize():1000); theta = fPointPos ? fPointPos->GetZd() : 0; } // enhance histogram if necessary UpdateAlphaTime(); // Fill histograms const Int_t ibin = fHist.Fill(theta, energy, TMath::Abs(alpha), w); SetBin(ibin); if (!fSkipHistTime) fHistTime.Fill(TMath::Abs(alpha), w); return kTRUE; } // -------------------------------------------------------------------------- // // Paint the integral and the error on top of the histogram // void MHAlpha::PaintText(Double_t val, Double_t error) const { TLatex text(0.45, 0.94, Form("N_{exc} = %.1f \\pm %.1f", val, error)); text.SetBit(TLatex::kTextNDC); text.SetTextSize(0.04); text.Paint(); } // -------------------------------------------------------------------------- // // Paint the integral and the error on top of the histogram // void MHAlpha::PaintText(const TH1D &h) const { Double_t sumv = 0; Double_t sume = 0; for (int i=0; iFindObject only in // gPad itself! TVirtualPad *padsave = gPad; TH1D *h0=0; TString o(opt); if (o==(TString)"proj") { TPaveStats *st=0; for (int x=0; x<4; x++) { TVirtualPad *p=padsave->GetPad(x+1); if (!p || !(st = (TPaveStats*)p->GetPrimitive("stats"))) continue; if (st->GetOptStat()==11) continue; const Double_t y1 = st->GetY1NDC(); const Double_t y2 = st->GetY2NDC(); const Double_t x1 = st->GetX1NDC(); const Double_t x2 = st->GetX2NDC(); st->SetY1NDC((y2-y1)/3+y1); st->SetX1NDC((x2-x1)/3+x1); st->SetOptStat(11); } padsave->cd(1); TH1D *hon = fHist.ProjectionZ("Proj"); if (fOffData) { TH1D *hoff = fOffData->ProjectionZ("ProjOff"); const Double_t alpha = fFit.Scale(*hoff, *hon); hon->SetMaximum(); hon->SetMaximum(TMath::Max(hon->GetMaximum(), hoff->GetMaximum())*1.05); // BE CARFEULL: This is a really weird workaround! hoff->SetMaximum(alpha); // For some reason the line-color is resetted hoff->SetLineColor(kRed); if ((h0=(TH1D*)gPad->FindObject("ProjOnOff"))) { h0->Reset(); h0->Add(hoff, hon, -1); const Float_t min = h0->GetMinimum()*1.05; hon->SetMinimum(min<0 ? min : 0); } } else hon->SetMinimum(0); FitEnergyBins(); FitThetaBins(); } if (o==(TString)"variable") if ((h0 = (TH1D*)gPad->FindObject("Proj"))) { // Check whether we are dealing with on-off analysis TH1D *hoff = (TH1D*)gPad->FindObject("ProjOff"); // BE CARFEULL: This is a really weird workaround! const Double_t scale = !hoff || hoff->GetMaximum()<0 ? 1 : hoff->GetMaximum(); // Do not store the 'final' result in fFit MAlphaFitter fit(fFit); fit.Fit(*h0, hoff, scale, kTRUE); fit.PaintResult(); } if (o==(TString)"time") PaintText(fHTime);//.Integral(), 0); if (o==(TString)"theta") { TH1 *h = (TH1*)gPad->FindObject(Form("%s_x", fHist.GetName())); if (h) { TH1D *h2 = (TH1D*)fHist.Project3D("dum_x"); h2->SetDirectory(0); h2->Scale(fHTheta.Integral()/h2->Integral()); h->Reset(); h->Add(h2); delete h2; } PaintText(fHTheta);//.Integral(), 0); } if (o==(TString)"energy") { TH1 *h = (TH1*)gPad->FindObject(Form("%s_y", fHist.GetName())); if (h) { TH1D *h2 = (TH1D*)fHist.Project3D("dum_y"); h2->SetDirectory(0); h2->Scale(fHEnergy.Integral()/h2->Integral()); h->Reset(); h->Add(h2); delete h2; } PaintText(fHEnergy);//.Integral(), 0); if (fHEnergy.GetMaximum()>1) { gPad->SetLogx(); gPad->SetLogy(); } } gPad = padsave; } // -------------------------------------------------------------------------- // // Draw the histogram // void MHAlpha::Draw(Option_t *opt) { TVirtualPad *pad = gPad ? gPad : MakeDefCanvas(this); /* if (TString(opt).Contains("sizebins", TString::kIgnoreCase)) { AppendPad("sizebins"); return; } */ // Do the projection before painting the histograms into // the individual pads AppendPad("proj"); pad->SetBorderMode(0); pad->Divide(2,2); TH1D *h=0; pad->cd(1); gPad->SetBorderMode(0); h = fHist.ProjectionZ("Proj", -1, 9999, -1, 9999, "E"); h->SetBit(TH1::kNoTitle); h->SetStats(kTRUE); h->SetXTitle(fHist.GetZaxis()->GetTitle()); h->SetYTitle("Counts"); h->SetDirectory(NULL); h->SetMarkerStyle(kFullDotMedium); h->SetBit(kCanDelete); h->Draw(""); if (fOffData) { // To get green on-data //h->SetMarkerColor(kGreen); //h->SetLineColor(kGreen); h = fOffData->ProjectionZ("ProjOff", -1, 9999, -1, 9999, "E"); h->SetBit(TH1::kNoTitle); h->SetXTitle(fHist.GetZaxis()->GetTitle()); h->SetYTitle("Counts"); h->SetDirectory(NULL); h->SetMarkerStyle(kFullDotMedium); h->SetBit(kCanDelete); h->SetMarkerColor(kRed); h->SetLineColor(kRed); //h->SetFillColor(18); h->Draw("same"/*"bar same"*/); h = (TH1D*)h->Clone("ProjOnOff"); h->SetBit(TH1::kNoTitle); h->SetXTitle(fHist.GetZaxis()->GetTitle()); h->SetYTitle("Counts"); h->SetDirectory(NULL); h->SetMarkerStyle(kFullDotMedium); h->SetBit(kCanDelete); h->SetMarkerColor(kBlue); h->SetLineColor(kBlue); h->Draw("same"); TLine lin; lin.SetLineStyle(kDashed); lin.DrawLine(h->GetXaxis()->GetXmin(), 0, h->GetXaxis()->GetXmax(), 0); } // After the Alpha-projection has been drawn. Fit the histogram // and paint the result into this pad AppendPad("variable"); if (fHEnergy.GetNbinsX()>1) { pad->cd(2); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); fHEnergy.Draw(); AppendPad("energy"); h = (TH1D*)fHist.Project3D("y"); h->SetBit(TH1::kNoTitle|TH1::kNoStats); h->SetXTitle("E [GeV]"); h->SetYTitle("Counts"); h->SetDirectory(NULL); h->SetMarkerStyle(kFullDotMedium); h->SetBit(kCanDelete); h->SetMarkerColor(kCyan); h->SetLineColor(kCyan); h->Draw("Psame"); } else delete pad->GetPad(2); if (fTimeEffOn && fTime || fHTime.GetNbinsX()>1) { pad->cd(3); gPad->SetBorderMode(0); gPad->SetGridx(); gPad->SetGridy(); fHTime.Draw(); AppendPad("time"); } else delete pad->GetPad(3); if (fHTheta.GetNbinsX()>1) { pad->cd(4); gPad->SetGridx(); gPad->SetGridy(); gPad->SetBorderMode(0); fHTheta.Draw(); AppendPad("theta"); h = (TH1D*)fHist.Project3D("x"); h->SetBit(TH1::kNoTitle|TH1::kNoStats); h->SetXTitle("\\theta [\\circ]"); h->SetYTitle("Counts"); h->SetDirectory(NULL); h->SetMarkerStyle(kFullDotMedium); h->SetBit(kCanDelete); h->SetMarkerColor(kCyan); h->SetLineColor(kCyan); h->Draw("Psame"); } else delete pad->GetPad(4); } void MHAlpha::DrawAll(Bool_t newc) { if (!newc && !fDisplay) return; // FIXME: Do in Paint if special option given! TCanvas &c = newc ? *new TCanvas : fDisplay->AddTab("SizeBins"); Int_t n = fHist.GetNbinsY(); Int_t nc = (Int_t)(TMath::Sqrt((Float_t)n-1)+1); c.Divide(nc, nc, 1e-10, 1e-10); gPad->SetBorderMode(0); gPad->SetFrameBorderMode(0); // Do not store the 'final' result in fFit MAlphaFitter fit(fFit); for (int i=1; i<=fHist.GetNbinsY(); i++) { c.cd(i); gPad->SetBorderMode(0); gPad->SetFrameBorderMode(0); TH1D *hon = fHist.ProjectionZ("Proj", -1, 9999, i, i, "E"); hon->SetBit(TH1::kNoTitle); hon->SetStats(kTRUE); hon->SetXTitle(fHist.GetZaxis()->GetTitle()); hon->SetYTitle("Counts"); hon->SetDirectory(NULL); hon->SetMarkerStyle(kFullDotMedium); hon->SetBit(kCanDelete); hon->Draw(""); TH1D *hof = 0; Double_t alpha = 1; if (fOffData) { hon->SetMarkerColor(kGreen); hof = fOffData->ProjectionZ("ProjOff", -1, 9999, i, i, "E"); hof->SetBit(TH1::kNoTitle|TH1::kNoStats); hof->SetXTitle(fHist.GetZaxis()->GetTitle()); hof->SetYTitle("Counts"); hof->SetDirectory(NULL); hof->SetMarkerStyle(kFullDotMedium); hof->SetBit(kCanDelete); hof->SetMarkerColor(kRed); hof->SetLineColor(kRed); hof->Draw("same"); alpha = fit.Scale(*hof, *hon); hon->SetMaximum(); hon->SetMaximum(TMath::Max(hon->GetMaximum(), hof->GetMaximum())*1.05); TH1D *diff = new TH1D(*hon); diff->Add(hof, -1); diff->SetBit(TH1::kNoTitle); diff->SetXTitle(fHist.GetZaxis()->GetTitle()); diff->SetYTitle("Counts"); diff->SetDirectory(NULL); diff->SetMarkerStyle(kFullDotMedium); diff->SetBit(kCanDelete); diff->SetMarkerColor(kBlue); diff->Draw("same"); TLine lin; lin.SetLineStyle(kDashed); lin.DrawLine(diff->GetXaxis()->GetXmin(), 0, diff->GetXaxis()->GetXmax(), 0); const Float_t min = diff->GetMinimum()*1.05; hon->SetMinimum(min<0 ? min : 0); } if (hof ? fit.Fit(*hon, *hof, alpha) : fit.Fit(*hon)) { *fLog << dbg << "Bin " << i << ": sigmaexc=" << fit.GetSignificanceExc() << " omega=" << fit.GetGausSigma() << " events=" << fit.GetEventsExcess() << " scale=" << fit.GetScaleFactor() << endl; fit.DrawResult(); } /* if (fit.FitEnergy(fHist, fOffData, i, kTRUE)) { fHEnergy.SetBinContent(i, fit.GetEventsExcess()); fHEnergy.SetBinError(i, fit.GetEventsExcess()*0.2); }*/ } } void MHAlpha::DrawNicePlot(Bool_t newc, const char *title) { if (!newc && !fDisplay) return; if (!fOffData) return; // Open and setup canvas/pad TCanvas &c = newc ? *new TCanvas : fDisplay->AddTab("ThetsSq"); c.SetBorderMode(0); c.SetFrameBorderMode(0); c.SetFillColor(kWhite); c.SetLeftMargin(0.12); c.SetRightMargin(0.01); c.SetBottomMargin(0.16); c.SetTopMargin(0.18); c.SetGridy(); gStyle->SetOptStat(0); // Get on-data TH1D *hon = (TH1D*)fHist.ProjectionZ("Proj", -1, 9999, -1, 9999, "E"); hon->SetDirectory(NULL); hon->SetBit(kCanDelete); hon->SetMarkerSize(0); hon->SetLineWidth(2); hon->SetLineColor(kBlack); hon->SetMarkerColor(kBlack); // Get off-data TH1D *hoff = 0; if (fOffData) { hoff = (TH1D*)fOffData->ProjectionZ("ProjOff", -1, 9999, -1, 9999, "E"); hoff->SetDirectory(NULL); hoff->SetBit(kCanDelete); hoff->SetFillColor(17); hoff->SetMarkerSize(0); hoff->SetLineColor(kBlack); hoff->SetMarkerColor(kBlack); } // Setup plot which is drawn first TH1D *h = hoff ? hoff : hon; h->GetXaxis()->SetLabelSize(0.06); h->GetXaxis()->SetTitleSize(0.06); h->GetXaxis()->SetTitleOffset(0.95); h->GetYaxis()->SetLabelSize(0.06); h->GetYaxis()->SetTitleSize(0.06); h->GetYaxis()->CenterTitle(); h->SetYTitle("Counts"); h->SetTitleSize(0.07); h->SetTitle(""); const Double_t imax = fFit.GetSignalIntegralMax(); if (imax<1) h->GetXaxis()->SetRangeUser(0, 0.6*0.6); // scale off-data fFit.Scale(*hoff, *hon); hon->SetMinimum(0); hoff->SetMinimum(0); // draw data if (hoff) { hoff->SetMaximum(TMath::Max(hon->GetMaximum(),hoff->GetMaximum())*1.1); hoff->Draw("bar"); hon->Draw("same"); } else { hon->SetMaximum(); hon->Draw(); } // draw a preliminary tag TLatex text; text.SetTextColor(kWhite); text.SetBit(TLatex::kTextNDC); text.SetTextSize(0.07); text.SetTextAngle(2.5); text.DrawLatex(0.45, 0.2, "preliminary"); //enum { kTextNDC = BIT(14) }; // draw line showing cut TLine line; line.SetLineColor(14); line.SetLineStyle(7); line.DrawLine(imax, 0, imax, h->GetMaximum()); // Add a title above the plot TPaveText *pave=new TPaveText(0.12, 0.83, 0.99, 0.975, "blNDC"); pave->SetBorderSize(1); pave->SetLabel(title); char txt[1000]; TText *ptxt; sprintf(txt, " "); ptxt = pave->AddText(txt); ptxt->SetTextAlign(23); sprintf(txt, "Significance %.1f\\sigma, off-scale %.2f (\\omega=%.2f\\circ)", fFit.GetSignificance(), fFit.GetScaleFactor(), fFit.GetGausSigma()); ptxt = pave->AddText(txt); ptxt->SetTextAlign(23); sprintf(txt, "%.1f excess events, %.1f background events", fFit.GetEventsExcess(), fFit.GetEventsBackground()); ptxt = pave->AddText(txt); ptxt->SetTextAlign(23); pave->SetBit(kCanDelete); pave->Draw(); } Bool_t MHAlpha::Finalize() { //TH1D *h = fHist.ProjectionZ("AlphaExc_px", -1, 9999, -1, 9999, "E"); //h->SetDirectory(0); //Bool_t rc = fFit.Fit(*h); //delete h; if (!fFit.FitAlpha(fHist, fOffData)) { *fLog << warn << "MAlphaFitter - Fit failed..." << endl; return kTRUE; } // Store the final result in fFit *fLog << all; fFit.Print("result"); fResult->SetVal(fFit.GetMinimizationValue()); fSigma->SetVal(fFit.GetGausSigma()); if (!fSkipHistEnergy) { *fLog << inf << "Processing energy bins..." << endl; FitEnergyBins(); } if (!fSkipHistTheta) { *fLog << inf << "Processing theta bins..." << endl; FitThetaBins(); } if (!fSkipHistTime) { *fLog << inf << "Processing time bins..." << endl; UpdateAlphaTime(kTRUE); MH::RemoveFirstBin(fHTime); } if (fOffData) DrawAll(kFALSE); return kTRUE; } // -------------------------------------------------------------------------- // // You can use this function if you want to use a MHMatrix instead of // MMcEvt. This function adds all necessary columns to the // given matrix. Afterward you should fill the matrix with the corresponding // data (eg from a file by using MHMatrix::Fill). If you now loop // through the matrix (eg using MMatrixLoop) MHHadronness::Fill // will take the values from the matrix instead of the containers. // // It takes fSkipHist* into account! // void MHAlpha::InitMapping(MHMatrix *mat, Int_t type) { if (fMatrix) return; fMatrix = mat; fMap[0] = fMatrix->AddColumn(GetParameterRule()); fMap[1] = -1; fMap[2] = -1; fMap[3] = -1; fMap[4] = -1; if (!fSkipHistEnergy) if (type==0) { fMap[1] = fMatrix->AddColumn("MEnergyEst.fVal"); fMap[2] = -1; } else { fMap[1] = -1; fMap[2] = fMatrix->AddColumn("MHillas.fSize"); } if (!fSkipHistTheta) fMap[3] = fMatrix->AddColumn("MPointingPos.fZd"); // if (!fSkipHistTime) // fMap[4] = fMatrix->AddColumn("MTime.GetAxisTime"); } void MHAlpha::StopMapping() { fMatrix = NULL; } Int_t MHAlpha::ReadEnv(const TEnv &env, TString prefix, Bool_t print) { Bool_t rc = kFALSE; if (IsEnvDefined(env, prefix, "NumTimeBins", print)) { SetNumTimeBins(GetEnvValue(env, prefix, "NumTimeBins", fNumTimeBins)); rc = kTRUE; } if (IsEnvDefined(env, prefix, "ForceUsingSize", print)) { fForceUsingSize = GetEnvValue(env, prefix, "ForceUsingSize", fForceUsingSize); rc = kTRUE; } return rc; } Int_t MHAlpha::DistancetoPrimitive(Int_t px, Int_t py) { // If pad has no subpad return (we are in one of the subpads) if (gPad->GetPad(1)==NULL) return 9999; // If pad has a subpad we are in the main pad. Check its value. return gPad->GetPad(1)->DistancetoPrimitive(px,py)==0 ? 0 : 9999; }