doc/v620/THn_8h_source.html

// @(#)root/hist:$Id$

// Author: Axel Naumann, Nov 2011


/*************************************************************************

 * Copyright (C) 1995-2012, Rene Brun and Fons Rademakers.               *

 * All rights reserved.                                                  *

 *                                                                       *

 * For the licensing terms see $ROOTSYS/LICENSE.                         *

 * For the list of contributors see $ROOTSYS/README/CREDITS.             *

 *************************************************************************/


#ifndef ROOT_THN

#define ROOT_THN


#include "THnBase.h"


#include "TNDArray.h"


#include "TArrayD.h"


#include "TObjArray.h"


#include "TAxis.h"


#include "TMath.h"


class TH1;

class TH1D;

class TH2D;

class TH3D;

class THnSparse;

class TF1;


class THn: public THnBase {

private:

   THn(const THn&); // Not implemented

   THn& operator=(const THn&); // Not implemented


protected:

   void AllocCoordBuf() const;

   void InitStorage(Int_t* nbins, Int_t chunkSize);


   THn(): fCoordBuf() {}

   THn(const char* name, const char* title, Int_t dim, const Int_t* nbins,

       const Double_t* xmin, const Double_t* xmax);


public:

   virtual ~THn();


   static THn* CreateHn(const char* name, const char* title, const TH1* h1) {

      return (THn*) CreateHnAny(name, title, h1, kFALSE /*THn*/, -1);

   }

   static THn* CreateHn(const char* name, const char* title, const THnBase* hn) {

      return (THn*) CreateHnAny(name, title, hn, kFALSE /*THn*/, -1);

   }


   ROOT::Internal::THnBaseBinIter* CreateIter(Bool_t respectAxisRange) const;

   Long64_t GetNbins() const { return GetArray().GetNbins(); }


   Long64_t GetBin(const Int_t* idx) const {

      return GetArray().GetBin(idx);

   }

   Long64_t GetBin(const Double_t* x) const {

      if (!fCoordBuf) AllocCoordBuf();

      for (Int_t d = 0; d < fNdimensions; ++d) {

         fCoordBuf[d] = GetAxis(d)->FindFixBin(x[d]);

      }

      return GetArray().GetBin(fCoordBuf);

   }

   Long64_t GetBin(const char* name[]) const {

      if (!fCoordBuf) AllocCoordBuf();

      for (Int_t d = 0; d < fNdimensions; ++d) {

         fCoordBuf[d] = GetAxis(d)->FindBin(name[d]);

      }

      return GetArray().GetBin(fCoordBuf);

   }


   Long64_t GetBin(const Int_t* idx, Bool_t /*allocate*/ = kTRUE) {

      return const_cast<const THn*>(this)->GetBin(idx);

   }

   Long64_t GetBin(const Double_t* x, Bool_t /*allocate*/ = kTRUE) {

      return const_cast<const THn*>(this)->GetBin(x);

   }

   Long64_t GetBin(const char* name[], Bool_t /*allocate*/ = kTRUE) {

      return const_cast<const THn*>(this)->GetBin(name);

   }


   void FillBin(Long64_t bin, Double_t w) {

      // Increment the bin content of "bin" by "w",

      // return the bin index.

      GetArray().AddAt(bin, w);

      if (GetCalculateErrors()) {

         fSumw2.AddAt(bin, w * w);

      }

      FillBinBase(w);

   }


   void SetBinContent(const Int_t* idx, Double_t v) {

      // Forwards to THnBase::SetBinContent().

      // Non-virtual, CINT-compatible replacement of a using declaration.

      THnBase::SetBinContent(idx, v);

   }

    void SetBinContent(Long64_t bin, Double_t v) {

      GetArray().SetAsDouble(bin, v);

   }

   void SetBinError2(Long64_t bin, Double_t e2) {

      if (!GetCalculateErrors()) Sumw2();

      fSumw2.At(bin) = e2;

   }

   void AddBinContent(const Int_t* idx, Double_t v = 1.) {

      // Forwards to THnBase::SetBinContent().

      // Non-virtual, CINT-compatible replacement of a using declaration.

      THnBase::AddBinContent(idx, v);

   }

   void AddBinContent(Long64_t bin, Double_t v = 1.) {

      GetArray().AddAt(bin, v);

   }

   void AddBinError2(Long64_t bin, Double_t e2) {

      fSumw2.At(bin) += e2;

   }

   Double_t GetBinContent(const Int_t *idx) const {

      // Forwards to THnBase::GetBinContent() overload.

      // Non-virtual, CINT-compatible replacement of a using declaration.

      return THnBase::GetBinContent(idx);

   }

   Double_t GetBinContent(Long64_t bin, Int_t* idx = 0) const {

      // Get the content of bin, and set its index if idx is != 0.

      if (idx) {

         const TNDArray& arr = GetArray();

         Long64_t prevCellSize = arr.GetNbins();

         for (Int_t i = 0; i < GetNdimensions(); ++i) {

            Long64_t cellSize = arr.GetCellSize(i);

            idx[i] = (bin % prevCellSize) / cellSize;

            prevCellSize = cellSize;

         }

      }

      return GetArray().AtAsDouble(bin);

   }

   Double_t GetBinError2(Long64_t linidx) const {

      return GetCalculateErrors() ? fSumw2.At(linidx) : GetBinContent(linidx);

   }


   virtual const TNDArray& GetArray() const = 0;

   virtual TNDArray& GetArray() = 0;


   void Sumw2();


   TH1D*      Projection(Int_t xDim, Option_t* option = "") const {

      // Forwards to THnBase::Projection().

      // Non-virtual, as a CINT-compatible replacement of a using

      // declaration.

      return THnBase::Projection(xDim, option);

   }


   TH2D*      Projection(Int_t yDim, Int_t xDim,

                         Option_t* option = "") const {

      // Forwards to THnBase::Projection().

      // Non-virtual, as a CINT-compatible replacement of a using

      // declaration.

      return THnBase::Projection(yDim, xDim, option);

   }


   TH3D*      Projection(Int_t xDim, Int_t yDim, Int_t zDim,

                         Option_t* option = "") const {

      // Forwards to THnBase::Projection().

      // Non-virtual, as a CINT-compatible replacement of a using

      // declaration.

      return THnBase::Projection(xDim, yDim, zDim, option);

   }


   THn*       Projection(Int_t ndim, const Int_t* dim,

                         Option_t* option = "") const {

      return (THn*) ProjectionND(ndim, dim, option);

   }


   THn*       Rebin(Int_t group) const {

      return (THn*) RebinBase(group);

   }

   THn*       Rebin(const Int_t* group) const {

      return (THn*) RebinBase(group);

   }


   void Reset(Option_t* option = "");


protected:

   TNDArrayT<Double_t> fSumw2; // bin error, lazy allocation happens in TNDArrayT

   mutable Int_t* fCoordBuf; //! Temporary buffer


   ClassDef(THn, 1); //Base class for multi-dimensional histogram

};


//______________________________________________________________________________

/** \class THnT

 Templated implementation of the abstract base THn.

 All functionality and the interfaces to be used are in THn!


 THn does not know how to store any bin content itself. Instead, this

 is delegated to the derived, templated class: the template parameter decides

 what the format for the bin content is. The actual storage is delegated to

 TNDArrayT<T>.


 Typedefs exist for template parematers with ROOT's generic types:


 Templated name   |     Typedef   |    Bin content type

 -----------------|---------------|--------------------

   THnT<Char_t>   |       THnC    |     Char_t

   THnT<Short_t>  |       THnS    |     Short_t

   THnT<Int_t>    |       THnI    |     Int_t

   THnT<Long_t>   |       THnL    |     Long_t

   THnT<Float_t>  |       THnF    |     Float_t

   THnT<Double_t> |       THnD    |     Double_t


 We recommend to use THnC wherever possible, and to map its value space

 of 256 possible values to e.g. float values outside the class. This saves an

 enourmous amount of memory. Only if more than 256 values need to be

 distinguished should e.g. THnS or even THnF be chosen.


 Implementation detail: the derived, templated class is kept extremely small

 on purpose. That way the (templated thus inlined) uses of this class will

 only create a small amount of machine code, in contrast to e.g. STL.

*/


template <typename T>

class THnT: public THn {

public:

   THnT() {}


   THnT(const char* name, const char* title,

       Int_t dim, const Int_t* nbins,

       const Double_t* xmin, const Double_t* xmax):

   THn(name, title, dim, nbins, xmin, xmax),

   fArray(dim, nbins, true)  {}


   const TNDArray& GetArray() const { return fArray; }

   TNDArray& GetArray() { return fArray; }


protected:

   TNDArrayT<T> fArray; // bin content

   ClassDef(THnT, 1); // multi-dimensional histogram with templated storage

};


typedef THnT<Float_t>  THnF;

typedef THnT<Double_t> THnD;

typedef THnT<Char_t>   THnC;

typedef THnT<Short_t>  THnS;

typedef THnT<Int_t>    THnI;

typedef THnT<Long_t>   THnL;

typedef THnT<Long64_t> THnL64;


#endif // ROOT_THN

d
#define d(i)
Definition: RSha256.hxx:102

Int_t
int Int_t
Definition: RtypesCore.h:41

kFALSE
const Bool_t kFALSE
Definition: RtypesCore.h:88

Bool_t
bool Bool_t
Definition: RtypesCore.h:59

Double_t
double Double_t
Definition: RtypesCore.h:55

Long64_t
long long Long64_t
Definition: RtypesCore.h:69

kTRUE
const Bool_t kTRUE
Definition: RtypesCore.h:87

Option_t
const char Option_t
Definition: RtypesCore.h:62

ClassDef
#define ClassDef(name, id)
Definition: Rtypes.h:326

TArrayD.h

TAxis.h

name
char name[80]
Definition: TGX11.cxx:109

xmin
float xmin
Definition: THbookFile.cxx:93

xmax
float xmax
Definition: THbookFile.cxx:93

THnBase.h

THnI
THnT< Int_t > THnI
Definition: THn.h:250

THnL
THnT< Long_t > THnL
Definition: THn.h:251

THnF
THnT< Float_t > THnF
Definition: THn.h:246

THnS
THnT< Short_t > THnS
Definition: THn.h:249

THnD
THnT< Double_t > THnD
Definition: THn.h:247

THnL64
THnT< Long64_t > THnL64
Definition: THn.h:252

THnC
THnT< Char_t > THnC
Definition: THn.h:248

TMath.h

TNDArray.h

TObjArray.h

ROOT::Internal::THnBaseBinIter
Iterator over THnBase bins (internal implementation).
Definition: THnBase.h:285

TAxis::FindBin
virtual Int_t FindBin(Double_t x)
Find bin number corresponding to abscissa x.
Definition: TAxis.cxx:279

TAxis::FindFixBin
virtual Int_t FindFixBin(Double_t x) const
Find bin number corresponding to abscissa x.
Definition: TAxis.cxx:405

TF1
1-Dim function class
Definition: TF1.h:211

TH1D
1-D histogram with a double per channel (see TH1 documentation)}
Definition: TH1.h:614

TH1
The TH1 histogram class.
Definition: TH1.h:56

TH2D
2-D histogram with a double per channel (see TH1 documentation)}
Definition: TH2.h:292

TH3D
3-D histogram with a double per channel (see TH1 documentation)}
Definition: TH3.h:304

THnBase
Multidimensional histogram base.
Definition: THnBase.h:43

THnBase::AddBinContent
void AddBinContent(const Int_t *x, Double_t v=1.)
Definition: THnBase.h:164

THnBase::Projection
TH1D * Projection(Int_t xDim, Option_t *option="") const
Project all bins into a 1-dimensional histogram, keeping only axis "xDim".
Definition: THnBase.h:197

THnBase::GetNdimensions
Int_t GetNdimensions() const
Definition: THnBase.h:135

THnBase::CreateHnAny
static THnBase * CreateHnAny(const char *name, const char *title, const TH1 *h1, Bool_t sparse, Int_t chunkSize=1024 *16)
Create a THn / THnSparse object from a histogram deriving from TH1.
Definition: THnBase.cxx:197

THnBase::RebinBase
THnBase * RebinBase(Int_t group) const
Combine the content of "group" neighboring bins into a new bin and return the resulting THnBase.
Definition: THnBase.cxx:1057

THnBase::ProjectionND
THnBase * ProjectionND(Int_t ndim, const Int_t *dim, Option_t *option="") const
Definition: THnBase.h:228

THnBase::GetCalculateErrors
Bool_t GetCalculateErrors() const
Definition: THnBase.h:136

THnBase::GetBinContent
Double_t GetBinContent(const Int_t *idx) const
Definition: THnBase.h:168

THnBase::SetBinContent
void SetBinContent(const Int_t *idx, Double_t v)
Definition: THnBase.h:178

THnBase::GetAxis
TAxis * GetAxis(Int_t dim) const
Definition: THnBase.h:125

THnBase::fNdimensions
Int_t fNdimensions
Definition: THnBase.h:45

THnBase::FillBinBase
void FillBinBase(Double_t w)
Increment the statistics due to filled weight "w",.
Definition: THnBase.h:84

THnSparse
Efficient multidimensional histogram.
Definition: THnSparse.h:36

THnT
Templated implementation of the abstract base THn.
Definition: THn.h:228

THnT::GetArray
const TNDArray & GetArray() const
Definition: THn.h:238

THnT::fArray
TNDArrayT< T > fArray
Definition: THn.h:242

THnT::THnT
THnT()
Definition: THn.h:230

THnT::THnT
THnT(const char *name, const char *title, Int_t dim, const Int_t *nbins, const Double_t *xmin, const Double_t *xmax)
Definition: THn.h:232

THnT::GetArray
TNDArray & GetArray()
Definition: THn.h:239

THn
Multidimensional histogram.
Definition: THn.h:36

THn::THn
THn()
Definition: THn.h:45

THn::AllocCoordBuf
void AllocCoordBuf() const
Create the coordinate buffer.
Definition: THn.cxx:229

THn::FillBin
void FillBin(Long64_t bin, Double_t w)
Definition: THn.h:90

THn::GetBinError2
Double_t GetBinError2(Long64_t linidx) const
Definition: THn.h:141

THn::Projection
TH1D * Projection(Int_t xDim, Option_t *option="") const
Definition: THn.h:150

THn::THn
THn(const THn &)

THn::AddBinContent
void AddBinContent(const Int_t *idx, Double_t v=1.)
Definition: THn.h:112

THn::InitStorage
void InitStorage(Int_t *nbins, Int_t chunkSize)
Initialize the storage of a histogram created via Init()
Definition: THn.cxx:237

THn::CreateHn
static THn * CreateHn(const char *name, const char *title, const TH1 *h1)
Definition: THn.h:52

THn::AddBinContent
void AddBinContent(Long64_t bin, Double_t v=1.)
Definition: THn.h:117

THn::Rebin
THn * Rebin(Int_t group) const
Definition: THn.h:178

THn::GetBinContent
Double_t GetBinContent(const Int_t *idx) const
Definition: THn.h:123

THn::GetBin
Long64_t GetBin(const Int_t *idx) const
Definition: THn.h:62

THn::GetBin
Long64_t GetBin(const char *name[], Bool_t=kTRUE)
Definition: THn.h:86

THn::SetBinContent
void SetBinContent(Long64_t bin, Double_t v)
Definition: THn.h:105

THn::GetBin
Long64_t GetBin(const char *name[]) const
Definition: THn.h:72

THn::fCoordBuf
Int_t * fCoordBuf
Definition: THn.h:189

THn::Projection
TH2D * Projection(Int_t yDim, Int_t xDim, Option_t *option="") const
Definition: THn.h:157

THn::Rebin
THn * Rebin(const Int_t *group) const
Definition: THn.h:181

THn::~THn
virtual ~THn()
Destruct a THn.
Definition: THn.cxx:195

THn::CreateHn
static THn * CreateHn(const char *name, const char *title, const THnBase *hn)
Definition: THn.h:55

THn::GetBin
Long64_t GetBin(const Int_t *idx, Bool_t=kTRUE)
Definition: THn.h:80

THn::fSumw2
TNDArrayT< Double_t > fSumw2
Definition: THn.h:188

THn::SetBinContent
void SetBinContent(const Int_t *idx, Double_t v)
Definition: THn.h:100

THn::GetBinContent
Double_t GetBinContent(Long64_t bin, Int_t *idx=0) const
Definition: THn.h:128

THn::operator=
THn & operator=(const THn &)

THn::Reset
void Reset(Option_t *option="")
Reset the contents of a THn.
Definition: THn.cxx:247

THn::GetBin
Long64_t GetBin(const Double_t *x, Bool_t=kTRUE)
Definition: THn.h:83

THn::GetNbins
Long64_t GetNbins() const
Definition: THn.h:60

THn::Projection
TH3D * Projection(Int_t xDim, Int_t yDim, Int_t zDim, Option_t *option="") const
Definition: THn.h:165

THn::AddBinError2
void AddBinError2(Long64_t bin, Double_t e2)
Definition: THn.h:120

THn::GetArray
virtual TNDArray & GetArray()=0

THn::Sumw2
void Sumw2()
Enable calculation of errors.
Definition: THn.cxx:213

THn::GetArray
virtual const TNDArray & GetArray() const =0

THn::GetBin
Long64_t GetBin(const Double_t *x) const
Definition: THn.h:65

THn::Projection
THn * Projection(Int_t ndim, const Int_t *dim, Option_t *option="") const
Definition: THn.h:173

THn::CreateIter
ROOT::Internal::THnBaseBinIter * CreateIter(Bool_t respectAxisRange) const
Create an iterator over all bins. Public interface is THnIter.
Definition: THn.cxx:204

THn::SetBinError2
void SetBinError2(Long64_t bin, Double_t e2)
Definition: THn.h:108

TNDArrayT< Double_t >

TNDArrayT::AddAt
void AddAt(ULong64_t linidx, Double_t value)
Definition: TNDArray.h:182

TNDArrayT::At
T At(const Int_t *idx) const
Definition: TNDArray.h:159

TNDArray
Definition: TNDArray.h:44

TNDArray::AddAt
virtual void AddAt(ULong64_t linidx, Double_t value)=0

TNDArray::AtAsDouble
virtual Double_t AtAsDouble(ULong64_t linidx) const =0

TNDArray::GetNbins
Long64_t GetNbins() const
Definition: TNDArray.h:72

TNDArray::GetCellSize
Long64_t GetCellSize(Int_t dim) const
Definition: TNDArray.h:73

TNDArray::GetBin
Long64_t GetBin(const Int_t *idx) const
Definition: TNDArray.h:75

TNDArray::SetAsDouble
virtual void SetAsDouble(ULong64_t linidx, Double_t value)=0

x
Double_t x[n]
Definition: legend1.C:17

h1
TH1F * h1
Definition: legend1.C:5

v
@ v
Definition: rootcling_impl.cxx:3622

group
Definition: TWinNTSystem.h:59