#ifndef ALITPCCALIBVIEWER_H #define ALITPCCALIBVIEWER_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ /* $Id: AliTPCCalibViewer.h,v */ /////////////////////////////////////////////////// // // // TPC calibration viewer/visualization class // // use Tree for visualization // /////////////////////////////////////////////////// class TFile; class TLegend; class TGraph; #include #include class AliTPCCalPad; class AliTPCCalROC; class TFriendElement; class AliTPCCalibViewer : public TObject { public: AliTPCCalibViewer(); AliTPCCalibViewer(const AliTPCCalibViewer &c); AliTPCCalibViewer(TTree *const tree); AliTPCCalibViewer(const char* fileName, const char* treeName = "calPads"); AliTPCCalibViewer &operator = (const AliTPCCalibViewer & param); virtual ~AliTPCCalibViewer(); virtual void Delete(Option_t* option = ""); TString& GetAbbreviation() { return fAbbreviation; } TString& GetAppendString() { return fAppendString; } void SetAbbreviation(const Char_t *abr) { fAbbreviation = abr; } void SetAppendString(const Char_t *str) { fAppendString = str; } virtual void Draw(Option_t* opt="") { fTree->Draw(opt); } virtual Long64_t Draw(const char* varexp, const TCut& selection, Option_t* option = "", Long64_t nentries = 1000000000, Long64_t firstentry = 0) { return fTree->Draw(varexp, selection, option, nentries, firstentry); }; virtual Long64_t Draw(const char* varexp, const char* selection, Option_t* option = "", Long64_t nentries = 1000000000, Long64_t firstentry = 0) { return fTree->Draw(varexp, selection, option, nentries, firstentry); }; const char* AddAbbreviations(const Char_t *c, Bool_t printDrawCommand = kFALSE); Int_t EasyDraw(const char* drawCommand, const char* sector, const char* cuts = 0, const char* drawOptions = 0, Bool_t writeDrawCommand = kFALSE) const; // easy drawing of data, use '~' for abbreviation of '.fElements' Int_t EasyDraw(const char* drawCommand, Int_t sector, const char* cuts = 0, const char* drawOptions = 0, Bool_t writeDrawCommand = kFALSE) const; // easy drawing of data, use '~' for abbreviation of '.fElements' Int_t EasyDraw1D(const char* drawCommand, const char* sector, const char* cuts = 0, const char* drawOptions = 0, Bool_t writeDrawCommand = kFALSE) const; // easy drawing of data, use '~' for abbreviation of '.fElements' Int_t EasyDraw1D(const char* drawCommand, Int_t sector, const char* cuts = 0, const char* drawOptions = 0, Bool_t writeDrawCommand = kFALSE) const; // easy drawing of data, use '~' for abbreviation of '.fElements' void FormatHistoLabels(TH1 *histo) const; // formats title and axis labels of histo, removes '.fElements' Int_t DrawHisto1D(const char* drawCommand, Int_t sector, const char* cuts = 0, const char *sigmas = "2;4;6", Bool_t plotMean = kTRUE, Bool_t plotMedian = kTRUE, Bool_t plotLTM = kTRUE) const; // draws 1d histograms and superimposes mean, median, ltm and several sigma cuts Int_t DrawHisto1D(const char* drawCommand, const char* sector, const char* cuts = 0, const char *sigmas = "2;4;6", Bool_t plotMean = kTRUE, Bool_t plotMedian = kTRUE, Bool_t plotLTM = kTRUE) const; // draws 1d histograms and superimposes mean, median, ltm and several sigma cuts Int_t SigmaCut(const char* drawCommand, Int_t sector, const char* cuts = 0, Float_t sigmaMax = 5, Bool_t plotMean = kTRUE, Bool_t plotMedian = kTRUE, Bool_t plotLTM = kTRUE, Bool_t pm = kFALSE, const char *sigmas = "", Float_t sigmaStep = -1) const; // draws fraction of used pads over different sigma cuts Int_t SigmaCutNew(const char* drawCommand, const char* sector, const char* cuts = 0, Float_t sigmaMax = 5, Bool_t plotMean = kTRUE, Bool_t plotMedian = kTRUE, Bool_t plotLTM = kTRUE, Bool_t pm = kFALSE, const char *sigmas = "", Float_t sigmaStep = -1) const; // draws fraction of used pads over different sigma cuts Int_t SigmaCut(const char* drawCommand, const char* sector, const char* cuts = 0, Float_t sigmaMax = 5, Bool_t plotMean = kTRUE, Bool_t plotMedian = kTRUE, Bool_t plotLTM = kTRUE, Bool_t pm = kFALSE, const char *sigmas = "", Float_t sigmaStep = -1) const; // draws fraction of used pads over different sigma cuts Int_t Integrate(const char* drawCommand, const char* sector, const char* cuts = 0, Float_t sigmaMax = 5, Bool_t plotMean = kTRUE, Bool_t plotMedian = kTRUE, Bool_t plotLTM = kTRUE, const char *sigmas = "", Float_t sigmaStep = -1) const; // draws an integrated histogram Int_t Integrate(const char* drawCommand, Int_t sector, const char* cuts = 0, Float_t sigmaMax = 5, Bool_t plotMean = kTRUE, Bool_t plotMedian = kTRUE, Bool_t plotLTM = kTRUE, const char *sigmas = "", Float_t sigmaStep = -1) const; // draws an integrated histogram Int_t IntegrateOld(const char* drawCommand, const char* sector, const char* cuts = 0, Float_t sigmaMax = 5, Bool_t plotMean = kTRUE, Bool_t plotMedian = kTRUE, Bool_t plotLTM = kTRUE, const char *sigmas = "", Float_t sigmaStep = -1) const; // draws an integrated histogram AliTPCCalPad* GetCalPadOld(const char* desiredData, const char* cuts = "", const char* calPadName = "NoName") const; // returns an AliTPCCalPad object containing the specified data with cuts applied AliTPCCalPad* GetCalPad(const char* desiredData, const char* cuts = "", const char* calPadName = "NoName") const; // returns an AliTPCCalPad object containing the specified data with cuts applied AliTPCCalROC* GetCalROC(const char* desiredData, UInt_t sector, const char* cuts = "") const; // returns an AliTPCCalROC object containing the specified data for sector with cuts applied TObjArray* GetArrayOfCalPads(); TObjArray* GetListOfVariables(Bool_t printList = kFALSE); TObjArray* GetListOfNormalizationVariables(Bool_t printList = kFALSE) const; static void MakeTreeWithObjects(const char * fileName, const TObjArray *const array, const char * mapFileName = 0); static void MakeTree(const char * fileName, TObjArray * array, const char * mapFileName = 0, AliTPCCalPad *const outlierPad = 0, Float_t ltmFraction = 0.9); static void MakeTree(const char *outPutFileName, const Char_t *inputFileName, AliTPCCalPad *outlierPad = 0, Float_t ltmFraction = 0.9, const char *mapFileName = "$ALICE_ROOT/TPC/Calib/MapCalibrationObjects.root"); static void CreateObjectList(const Char_t *filename, TObjArray *calibObjects); TFriendElement* AddReferenceTree(const char* filename, const char* treename = "calPads", const char* refname = "R"); TFriendElement* AddFriend(const char* treename, const char* filename) {return fTree->AddFriend(treename, filename);}; TFriendElement* AddFriend(TTree* tree, const char* alias, Bool_t warn=kFALSE) {return fTree->AddFriend(tree, alias, warn);}; TFriendElement* AddFriend(const char* treename, TFile* file) {return fTree->AddFriend(treename, file);}; TTree * GetTree() const { return fTree;} TString* Fit(const char* drawCommand, const char* formula, const char* cuts, Double_t & chi2, TVectorD &fitParam, TMatrixD &covMatrix); // // Array tools // static Double_t GetLTM(Int_t n, const Double_t *const array, Double_t *const sigma = 0, Double_t fraction = 0.9); static Int_t GetBin(Float_t value, Int_t nbins, Double_t binLow, Double_t binUp); static TH1F* SigmaCut(Int_t n, const Float_t *array, Float_t mean, Float_t sigma, Int_t nbins, Float_t binLow, Float_t binUp, Float_t sigmaMax, Float_t sigmaStep = -1, Bool_t pm = kFALSE); static TH1F* SigmaCut(TH1F *const histogram, Float_t mean, Float_t sigma, Float_t sigmaMax, Float_t sigmaStep = -1, Bool_t pm = kFALSE); static TH1F* Integrate(TH1F *const histogram, Float_t mean = 0, Float_t sigma = 0, Float_t sigmaMax = 0, Float_t sigmaStep = -1); static TH1F* Integrate(Int_t n, const Float_t *const array, Int_t nbins, Float_t binLow, Float_t binUp, Float_t mean = 0, Float_t sigma = 0, Float_t sigmaMax = 0, Float_t sigmaStep = -1); static TH1F* SigmaCut(Int_t n, const Double_t *array, Double_t mean, Double_t sigma, Int_t nbins, const Double_t *xbins, Double_t sigmaMax); protected: TTree* fTree; // tree containing visualization data (e.g. written by AliTPCCalPad::MakeTree(...) TFile* fFile; // file that contains a calPads tree (e.g. written by AliTPCCalPad::MakeTree(...) TObjArray* fListOfObjectsToBeDeleted; //Objects, that will be deleted when the destructor ist called Bool_t fTreeMustBeDeleted; // decides weather the tree must be deleted in destructor or not TString fAbbreviation; // the abreviation for '.fElements' TString fAppendString; // '.fElements', stored in a TStrig void DrawLines(TH1F *cutHistoMean, TVectorF nsigma, TLegend *legend, Int_t color, Bool_t pm) const; void DrawLines(TGraph *graph, TVectorF nsigma, TLegend *legend, Int_t color, Bool_t pm) const; ClassDef(AliTPCCalibViewer,1) // TPC calibration viewer class }; #endif