doc/v614/TNDArray_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_TNDArray
 #define ROOT_TNDArray

 #include "TObject.h"
 #include "TError.h"

 //////////////////////////////////////////////////////////////////////////
 //                                                                      //
 // TNDArray                                                             //
 //                                                                      //
 // N-Dim array class.                                                   //
 //                                                                      //
 // Storage layout:                                                      //
 // Assume 3 dimensions, array sizes 2, 4 and 3 i.e. 24 bins:            //
 // Data is stored as [0,0,0], [0,0,1], [0,0,2], [0,1,0],...             //
 //                                                                      //
 // fSizes stores the combined size of each bin in a dimension, i.e. in  //
 // above example it would contain 24, 12, 3, 1.                         //
 //                                                                      //
 // Storage is allocated lazily, only when data is written to the array. //
 //                                                                      //
 // TNDArrayRef gives access to a sub-dimension, e.g. arr[0][1] in above //
 // three-dimensional example, up to an element with conversion operator //
 // to double: double value = arr[0][1][2];                              //
 //                                                                      //
 //////////////////////////////////////////////////////////////////////////

 // Array layout:
 // nbins[0] = 2, nbins[1] = 4, nbins[2] = 3 => 24 bins
 //
 // fSizes: 24, 12, 3 [, 1

 class TNDArray: public TObject {
 public:
    TNDArray(): fNdimPlusOne(), fSizes() {}

    TNDArray(Int_t ndim, const Int_t* nbins, bool addOverflow = false):
    fNdimPlusOne(), fSizes() {
       TNDArray::Init(ndim, nbins, addOverflow);
    }
    ~TNDArray() {
       delete[] fSizes;
    }

    virtual void Init(Int_t ndim, const Int_t* nbins, bool addOverflow = false) {
       // Calculate fSize based on ndim dimensions, nbins for each dimension,
       // possibly adding over- and underflow bin to each dimensions' nbins.
       delete[] fSizes;
       fNdimPlusOne = ndim + 1;
       fSizes = new Long64_t[ndim + 1];
       Int_t overBins = addOverflow ? 2 : 0;
       fSizes[ndim] = 1;
       for (Int_t i = 0; i < ndim; ++i) {
          fSizes[ndim - i - 1] = fSizes[ndim - i] * (nbins[ndim - i - 1] + overBins);
       }
    }

    virtual void Reset(Option_t* option = "") = 0;

    Int_t GetNdimensions() const { return fNdimPlusOne - 1; }
    Long64_t GetNbins() const { return fSizes[0]; }
    Long64_t GetCellSize(Int_t dim) const { return fSizes[dim + 1]; }

    Long64_t GetBin(const Int_t* idx) const {
       // Get the linear bin number for each dimension's bin index
       Long64_t bin = idx[fNdimPlusOne - 2];
       for (Int_t d = 0; d < fNdimPlusOne - 2; ++d) {
          bin += fSizes[d + 1] * idx[d];
       }
       return bin;
    }

    virtual Double_t AtAsDouble(ULong64_t linidx) const = 0;
    virtual void SetAsDouble(ULong64_t linidx, Double_t value) = 0;
    virtual void AddAt(ULong64_t linidx, Double_t value) = 0;

 private:
    TNDArray(const TNDArray&); // intentionally not implemented
    TNDArray& operator=(const TNDArray&); // intentionally not implemented

 protected:
    Int_t  fNdimPlusOne; // Number of dimensions plus one
    Long64_t* fSizes; //[fNdimPlusOne] bin count
    ClassDef(TNDArray, 1); //Base for n-dimensional array
 };

 template <typename T>
 class TNDArrayRef {
 public:
    TNDArrayRef(const T* data, const Long64_t* sizes):
    fData(data), fSizes(sizes) {}

    TNDArrayRef<T> operator[] (Int_t idx) const {
       if (!fData) return TNDArrayRef<T>(0, 0);
       R__ASSERT(idx < fSizes[-1] / fSizes[0] && "index out of range!");
       return TNDArrayRef<T>(fData + idx * fSizes[0], (fSizes[0] == 1) ? 0 : (fSizes + 1));
    }
    operator T() const {
       if (!fData) return T();
       R__ASSERT(fSizes == 0 && "Element operator can only be used on non-array element. Missing an operator[] level?");
       return *fData;
    }

 private:
    const T* fData; // pointer into TNDArray's fData
    const Long64_t* fSizes; // pointer into TNDArray's fSizes
    ClassDefNV(TNDArrayRef, 0); // subdimension of a TNDArray
 };

 template <typename T>
 class TNDArrayT: public TNDArray {
 public:
    TNDArrayT(): fNumData(), fData() {}

    TNDArrayT(Int_t ndim, const Int_t* nbins, bool addOverflow = false):
    TNDArray(ndim, nbins, addOverflow),
    fNumData(), fData() {
       fNumData = fSizes[0];
    }
    ~TNDArrayT() {
       delete[] fData;
    }

    void Init(Int_t ndim, const Int_t* nbins, bool addOverflow = false) {
       delete[] fData;
       fData = 0;
       TNDArray::Init(ndim, nbins, addOverflow);
       fNumData = fSizes[0];
    }

    void Reset(Option_t* /*option*/ = "") {
       // Reset the content

       // Use placement-new with value initialization:
       if (fData) {
          new (fData) T[fNumData]();
       }
    }

 #ifndef __CINT__
    TNDArrayRef<T> operator[](Int_t idx) const {
       if (!fData) return TNDArrayRef<T>(0, 0);
       R__ASSERT(idx < fSizes[0] / fSizes[1] && "index out of range!");
       return TNDArrayRef<T>(fData + idx * fSizes[1], fSizes + 2);
    }
 #endif // __CINT__

    T At(const Int_t* idx) const {
       return At(GetBin(idx));
    }
    T& At(const Int_t* idx) {
       return At(GetBin(idx));
    }
    T At(ULong64_t linidx) const {
       if (!fData) return T();
       return fData[linidx];
    }
    T& At(ULong64_t linidx) {
       if (!fData) fData = new T[fNumData]();
       return fData[linidx];
    }

    Double_t AtAsDouble(ULong64_t linidx) const {
       if (!fData) return 0.;
       return fData[linidx];
    }
    void SetAsDouble(ULong64_t linidx, Double_t value) {
       if (!fData) fData = new T[fNumData]();
       fData[linidx] = (T) value;
    }
    void AddAt(ULong64_t linidx, Double_t value) {
       if (!fData) fData = new T[fNumData]();
       fData[linidx] += (T) value;
    }

 protected:
    int fNumData; // number of bins, product of fSizes
    T*  fData; //[fNumData] data
    ClassDef(TNDArrayT, 1); // N-dimensional array
 };

 // FIXME: Remove once we implement https://sft.its.cern.ch/jira/browse/ROOT-6284
 // When building with -fmodules, it instantiates all pending instantiations,
 // instead of delaying them until the end of the translation unit.
 // We 'got away with' probably because the use and the definition of the
 // explicit specialization do not occur in the same TU.
 //
 // In case we are building with -fmodules, we need to forward declare the
 // specialization in order to compile the dictionary G__Hist.cxx.
 template<> void TNDArrayT<double>::Streamer(TBuffer &R__b);
 template<> TClass *TNDArrayT<double>::Class();


 #endif // ROOT_TNDArray
TNDArrayT::TNDArrayT
TNDArrayT(Int_t ndim, const Int_t *nbins, bool addOverflow=false)
Definition: TNDArray.h:126

Long64_t
long long Long64_t
Definition: RtypesCore.h:69

Option_t
const char Option_t
Definition: RtypesCore.h:62

ROOT::Math::Chebyshev::T
double T(double x)
Definition: ChebyshevPol.h:34

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

TBuffer
Buffer base class used for serializing objects.
Definition: TBuffer.h:40

TNDArrayT::SetAsDouble
void SetAsDouble(ULong64_t linidx, Double_t value)
Definition: TNDArray.h:178

TNDArray::fNdimPlusOne
Int_t fNdimPlusOne
Definition: TNDArray.h:93

R__ASSERT
#define R__ASSERT(e)
Definition: TError.h:96

ApplicationClassificationKeras.data
data
Definition: ApplicationClassificationKeras.py:17

Int_t
int Int_t
Definition: RtypesCore.h:41

TNDArrayT::fData
T * fData
Definition: TNDArray.h:189

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

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

TNDArray::operator=
TNDArray & operator=(const TNDArray &)

TNDArrayT::Init
void Init(Int_t ndim, const Int_t *nbins, bool addOverflow=false)
Definition: TNDArray.h:135

ClassDef
#define ClassDef(name, id)
Definition: Rtypes.h:320

TNDArrayT
Definition: TNDArray.h:122

TNDArray::Reset
virtual void Reset(Option_t *option="")=0

TNDArrayRef::fSizes
const Long64_t * fSizes
Definition: TNDArray.h:117

TNDArrayT::At
T & At(ULong64_t linidx)
Definition: TNDArray.h:169

TNDArrayRef
Definition: TNDArray.h:99

TNDArrayT::~TNDArrayT
~TNDArrayT()
Definition: TNDArray.h:131

TNDArrayT::Streamer
void Streamer(TBuffer &R__b)

TNDArray::TNDArray
TNDArray(Int_t ndim, const Int_t *nbins, bool addOverflow=false)
Definition: TNDArray.h:48

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

TNDArrayT::Reset
void Reset(Option_t *="")
Definition: TNDArray.h:142

ClassDefNV
#define ClassDefNV(name, id)
Definition: Rtypes.h:328

TError.h

TNDArrayT::TNDArrayT
TNDArrayT()
Definition: TNDArray.h:124

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

TNDArrayT::Class
TClass * Class()

TClass
The ROOT global object gROOT contains a list of all defined classes.
Definition: TClass.h:75

TNDArrayRef::fData
const T * fData
Definition: TNDArray.h:116

TNDArray::TNDArray
TNDArray()
Definition: TNDArray.h:46

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

TNDArrayT::fNumData
int fNumData
Definition: TNDArray.h:188

TNDArrayT::operator[]
TNDArrayRef< T > operator[](Int_t idx) const
Definition: TNDArray.h:152

Double_t
double Double_t
Definition: RtypesCore.h:55

TNDArrayRef::TNDArrayRef
TNDArrayRef(const T *data, const Long64_t *sizes)
Definition: TNDArray.h:101

TNDArrayT::At
T & At(const Int_t *idx)
Definition: TNDArray.h:162

ULong64_t
unsigned long long ULong64_t
Definition: RtypesCore.h:70

TNDArrayT::AtAsDouble
Double_t AtAsDouble(ULong64_t linidx) const
Definition: TNDArray.h:174

TNDArray::Init
virtual void Init(Int_t ndim, const Int_t *nbins, bool addOverflow=false)
Definition: TNDArray.h:56

TNDArray::fSizes
Long64_t * fSizes
Definition: TNDArray.h:94

TObject
Mother of all ROOT objects.
Definition: TObject.h:37

TObject.h

TNDArray::GetNdimensions
Int_t GetNdimensions() const
Definition: TNDArray.h:71

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

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

TNDArray::~TNDArray
~TNDArray()
Definition: TNDArray.h:52

TNDArrayT::At
T At(ULong64_t linidx) const
Definition: TNDArray.h:165

TNDArray
Definition: TNDArray.h:44

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