Modified files to use constants declared in the

[u/mrichter/AliRoot.git] / TPC / AliTPCCalROC.h

diff --git a/TPC/AliTPCCalROC.h b/TPC/AliTPCCalROC.h
index 12e35d57a0a54ff2f106ef23a39edb4b4a5a21b1..80ac4901e58d8830273dc18656f8a19624bf8135 100644 (file)
--- a/TPC/AliTPCCalROC.h
+++ b/TPC/AliTPCCalROC.h
@@ -10,10 +10,14 @@
 //  TPC calibration base class for one ROC      //
 //                                              //
 //////////////////////////////////////////////////
-
 #include <TObject.h>
+#include <TMath.h>
 #include <AliTPCROC.h>
+#include "TLinearFitter.h"
 
+class TH1F;
+class TH2F;
+class TArrayI;
 //_____________________________________________________________________________
 class AliTPCCalROC : public TObject {
 
@@ -22,7 +26,9 @@ class AliTPCCalROC : public TObject {
   AliTPCCalROC();
   AliTPCCalROC(UInt_t sector);
   AliTPCCalROC(const AliTPCCalROC &c);
+ AliTPCCalROC &operator = (const AliTPCCalROC & param);
   virtual           ~AliTPCCalROC();  
+  UInt_t        GetSector() const { return fSector;}
   UInt_t        GetNrows() const               { return fNRows;};
   UInt_t        GetNchannels()       const     { return fNChannels;};
   UInt_t        GetNPads(UInt_t row)  const     { return (row<fNRows)? AliTPCROC::Instance()->GetNPads(fSector,row):0;};
@@ -31,8 +37,34 @@ class AliTPCCalROC : public TObject {
   void         SetValue(UInt_t row, UInt_t pad, Float_t vd) { if ( row<fNRows && (fIndexes[row]+pad)<fNChannels)fData[fIndexes[row]+pad]= vd; };
   void         SetValue(UInt_t channel, Float_t vd) {fData[channel]= vd; };
   virtual void Draw(Option_t* option = "");
+  //
+  // algebra
+  void Add(Float_t c1); // add c1 to each channel of the ROC
+  void Multiply(Float_t c1); // multiply each channel of the ROC with c1
+  void Add(const AliTPCCalROC * roc, Double_t c1 = 1);  // multiply AliTPCCalROC roc by c1 and add each channel to the coresponing channel in the ROC
+  void Multiply(const AliTPCCalROC * roc);   // multiply each channel of the ROC with the coresponding channel of 'roc'
+  void Divide(const AliTPCCalROC * roc);   // divide each channel of the ROC by the coresponding value of 'roc'
+  // statistic
+  //
+  Double_t GetMean(AliTPCCalROC* outlierROC = 0);
+  Double_t GetRMS(AliTPCCalROC* outlierROC = 0);
+  Double_t GetMedian(AliTPCCalROC* outlierROC = 0) ;
+  Double_t GetLTM(Double_t *sigma=0, Double_t fraction=0.9, AliTPCCalROC* outlierROC = 0);
+  TH1F * MakeHisto1D(Float_t min=4, Float_t max=-4, Int_t type=0);     
+  TH2F * MakeHisto2D(Float_t min=4, Float_t max=-4, Int_t type=0);   
+  TH2F * MakeHistoOutliers(Float_t delta=4, Float_t fraction=0.7, Int_t mode=0);
+
+  AliTPCCalROC * LocalFit(Int_t rowRadius, Int_t padRadius, AliTPCCalROC* ROCoutliers = 0, Bool_t robust = kFALSE, Double_t chi2Threshold = 5, Double_t robustFraction = 0.7);
+  void GlobalFit(const AliTPCCalROC* ROCoutliers, Bool_t robust, TVectorD &fitParam, TMatrixD &covMatrix, Float_t & chi2, Int_t fitType = 1, Double_t chi2Threshold = 5, Double_t robustFraction = 0.7);
+  
+  static AliTPCCalROC* CreateGlobalFitCalROC(TVectorD &fitParam, Int_t sector);
+  
   static void Test();
  protected:
+  
+  Double_t GetNeighbourhoodValue(TLinearFitter* fitterQ, Int_t row, Int_t pad, Int_t rRadius, Int_t pRadius, AliTPCCalROC* ROCoutliers, Bool_t robust, Double_t chi2Threshold, Double_t robustFraction);
+  void GetNeighbourhood(TArrayI* &rowArray, TArrayI* &padArray, Int_t row, Int_t pad, Int_t rRadius, Int_t pRadius);
+  
   UInt_t     fSector;          // sector number
   UInt_t     fNChannels;       // number of channels
   UInt_t     fNRows;           // number of rows