doc/v608/TVirtualFFT_8h_source.html

 // @(#)root/base:$Id$
 // Author: Anna Kreshuk  10/04/2006

 #ifndef ROOT_TVirtualFFT
 #define ROOT_TVirtualFFT

 //////////////////////////////////////////////////////////////////////////
 //
 // TVirtualFFT
 //
 // TVirtualFFT is an interface class for Fast Fourier Transforms.
 //
 //
 //
 // The default FFT library is FFTW. To use it, FFTW3 library should already
 // be installed, and ROOT should be have fftw3 module enabled, with the directories
 // of fftw3 include file and library specified (see installation instructions).
 // Function SetDefaultFFT() allows to change the default library.
 //
 // Available transform types:
 // FFT:
 // - "C2CFORWARD" - a complex input/output discrete Fourier transform (DFT)
 //                  in one or more dimensions, -1 in the exponent
 // - "C2CBACKWARD"- a complex input/output discrete Fourier transform (DFT)
 //                  in one or more dimensions, +1 in the exponent
 // - "R2C"        - a real-input/complex-output discrete Fourier transform (DFT)
 //                  in one or more dimensions,
 // - "C2R"        - inverse transforms to "R2C", taking complex input
 //                  (storing the non-redundant half of a logically Hermitian array)
 //                  to real output
 // - "R2HC"       - a real-input DFT with output in "halfcomplex" format,
 //                  i.e. real and imaginary parts for a transform of size n stored as
 //                  r0, r1, r2, ..., rn/2, i(n+1)/2-1, ..., i2, i1
 // - "HC2R"       - computes the reverse of FFTW_R2HC, above
 // - "DHT"        - computes a discrete Hartley transform
 //
 // Sine/cosine transforms:
 // Different types of transforms are specified by parameter kind of the SineCosine() static
 // function. 4 different kinds of sine and cosine transforms are available
 //  DCT-I  (REDFT00 in FFTW3 notation)- kind=0
 //  DCT-II (REDFT10 in FFTW3 notation)- kind=1
 //  DCT-III(REDFT01 in FFTW3 notation)- kind=2
 //  DCT-IV (REDFT11 in FFTW3 notation)- kind=3
 //  DST-I  (RODFT00 in FFTW3 notation)- kind=4
 //  DST-II (RODFT10 in FFTW3 notation)- kind=5
 //  DST-III(RODFT01 in FFTW3 notation)- kind=6
 //  DST-IV (RODFT11 in FFTW3 notation)- kind=7
 // Formulas and detailed descriptions can be found in the chapter
 // "What FFTW really computes" of the FFTW manual
 //
 // NOTE: FFTW computes unnormalized transforms, so doing a transform, followed by its
 //       inverse will give the original array, multiplied by normalization constant
 //       (transform size(N) for FFT, 2*(N-1) for DCT-I, 2*(N+1) for DST-I, 2*N for
 //       other sine/cosine transforms)
 //
 // How to use it:
 // Call to the static function FFT returns a pointer to a fast fourier transform
 // with requested parameters. Call to the static function SineCosine returns a
 // pointer to a sine or cosine transform with requested parameters. Example:
 // {
 //    Int_t N = 10; Double_t *in = new Double_t[N];
 //    TVirtualFFT *fftr2c = TVirtualFFT::FFT(1, &N, "R2C");
 //    fftr2c->SetPoints(in);
 //    fftr2c->Transform();
 //    Double_t re, im;
 //    for (Int_t i=0; i<N; i++)
 //       fftr2c->GetPointComplex(i, re, im);
 //    ...
 //    fftr2c->SetPoints(in2);
 //    ...
 //    fftr2c->SetPoints(in3);
 //    ...
 // }
 // Different options are explained in the function comments
 //
 //
 //
 //
 //
 //////////////////////////////////////////////////////////////////////////

 #ifndef ROOT_TObject
 #include "TObject.h"
 #endif

 #ifndef ROOT_TString
 #include "TString.h"
 #endif

 class TComplex;

 class TVirtualFFT: public TObject {

  protected:
    static TVirtualFFT *fgFFT;      //current transformer
    static TString      fgDefault;  //default transformer

  public:

    TVirtualFFT(){};
    virtual ~TVirtualFFT();

    virtual Int_t     *GetN()    const = 0;

    virtual Int_t      GetNdim() const = 0;
    virtual Option_t  *GetType() const = 0;
    virtual Int_t      GetSign() const = 0;
    virtual Option_t  *GetTransformFlag() const = 0;
    virtual void       Init(Option_t *flag,Int_t sign, const Int_t *kind) = 0;
    virtual Bool_t     IsInplace() const = 0;

    virtual void       GetPoints(Double_t *data, Bool_t fromInput = kFALSE) const = 0;
    virtual Double_t   GetPointReal(Int_t ipoint, Bool_t fromInput = kFALSE) const = 0;
    virtual Double_t   GetPointReal(const Int_t *ipoint, Bool_t fromInput = kFALSE) const = 0;
    virtual void       GetPointComplex(Int_t ipoint, Double_t &re, Double_t &im, Bool_t fromInput=kFALSE) const = 0;
    virtual void       GetPointComplex(const Int_t *ipoint, Double_t &re, Double_t &im, Bool_t fromInput=kFALSE) const = 0;
    virtual Double_t*  GetPointsReal(Bool_t fromInput=kFALSE) const = 0;
    virtual void       GetPointsComplex(Double_t *re, Double_t *im, Bool_t fromInput = kFALSE) const = 0;
    virtual void       GetPointsComplex(Double_t *data, Bool_t fromInput = kFALSE) const = 0;

    virtual void       SetPoint(Int_t ipoint, Double_t re, Double_t im = 0) = 0;
    virtual void       SetPoint(const Int_t *ipoint, Double_t re, Double_t im = 0) = 0;
    virtual void       SetPoints(const Double_t *data) = 0;
    virtual void       SetPointComplex(Int_t ipoint, TComplex &c) = 0;
    virtual void       SetPointsComplex(const Double_t *re, const Double_t *im) =0;
    virtual void       Transform() = 0;

    static TVirtualFFT* FFT(Int_t ndim, Int_t *n, Option_t *option);
    static TVirtualFFT* SineCosine(Int_t ndim, Int_t *n, Int_t *r2rkind, Option_t *option);
    static TVirtualFFT* GetCurrentTransform();

    static void         SetTransform(TVirtualFFT *fft);
    static const char*  GetDefaultFFT();
    static void         SetDefaultFFT(const char *name ="");

    ClassDef(TVirtualFFT, 0); //abstract interface for FFT calculations
 };

 #endif
TVirtualFFT::TVirtualFFT
TVirtualFFT()
Definition: TVirtualFFT.h:100

TVirtualFFT::SetTransform
static void SetTransform(TVirtualFFT *fft)
static: set the current transfrom to parameter
Definition: TVirtualFFT.cxx:362

TVirtualFFT::GetDefaultFFT
static const char * GetDefaultFFT()
static: return the name of the default fft
Definition: TVirtualFFT.cxx:370

TVirtualFFT::SetPointsComplex
virtual void SetPointsComplex(const Double_t *re, const Double_t *im)=0

TVirtualFFT::~TVirtualFFT
virtual ~TVirtualFFT()
destructor
Definition: TVirtualFFT.cxx:97

c
return c
Definition: entrylist_figure1.C:47

Option_t
const char Option_t
Definition: RtypesCore.h:62

TVirtualFFT::IsInplace
virtual Bool_t IsInplace() const =0

TVirtualFFT::GetCurrentTransform
static TVirtualFFT * GetCurrentTransform()
static: return current fgFFT
Definition: TVirtualFFT.cxx:349

ApplicationClassificationKeras.data
data
Definition: ApplicationClassificationKeras.py:17

TString
Basic string class.
Definition: TString.h:137

Int_t
int Int_t
Definition: RtypesCore.h:41

Bool_t
bool Bool_t
Definition: RtypesCore.h:59

kFALSE
const Bool_t kFALSE
Definition: Rtypes.h:92

TVirtualFFT::fgDefault
static TString fgDefault
Definition: TVirtualFFT.h:96

TVirtualFFT::SetDefaultFFT
static void SetDefaultFFT(const char *name="")
static: set name of default fft
Definition: TVirtualFFT.cxx:378

TVirtualFFT::SetPoint
virtual void SetPoint(Int_t ipoint, Double_t re, Double_t im=0)=0

TVirtualFFT::fgFFT
static TVirtualFFT * fgFFT
Definition: TVirtualFFT.h:95

ClassDef
#define ClassDef(name, id)
Definition: Rtypes.h:254

TVirtualFFT::GetN
virtual Int_t * GetN() const =0

TVirtualFFT::SetPointComplex
virtual void SetPointComplex(Int_t ipoint, TComplex &c)=0

TString.h

TComplex
Definition: TComplex.h:29

TVirtualFFT::GetPointReal
virtual Double_t GetPointReal(Int_t ipoint, Bool_t fromInput=kFALSE) const =0

TVirtualFFT::Init
virtual void Init(Option_t *flag, Int_t sign, const Int_t *kind)=0

TVirtualFFT::FFT
static TVirtualFFT * FFT(Int_t ndim, Int_t *n, Option_t *option)
Returns a pointer to the FFT of requested size and type.
Definition: TVirtualFFT.cxx:132

TVirtualFFT::Transform
virtual void Transform()=0

TVirtualFFT::GetPointsReal
virtual Double_t * GetPointsReal(Bool_t fromInput=kFALSE) const =0

TVirtualFFT::GetTransformFlag
virtual Option_t * GetTransformFlag() const =0

TVirtualFFT::GetPointsComplex
virtual void GetPointsComplex(Double_t *re, Double_t *im, Bool_t fromInput=kFALSE) const =0

TVirtualFFT::SetPoints
virtual void SetPoints(const Double_t *data)=0

TVirtualFFT
TVirtualFFT is an interface class for Fast Fourier Transforms.
Definition: TVirtualFFT.h:92

TVirtualFFT::GetPoints
virtual void GetPoints(Double_t *data, Bool_t fromInput=kFALSE) const =0

TVirtualFFT::SineCosine
static TVirtualFFT * SineCosine(Int_t ndim, Int_t *n, Int_t *r2rkind, Option_t *option)
Returns a pointer to a sine or cosine transform of requested size and kind.
Definition: TVirtualFFT.cxx:280

TVirtualFFT::GetPointComplex
virtual void GetPointComplex(Int_t ipoint, Double_t &re, Double_t &im, Bool_t fromInput=kFALSE) const =0

Double_t
double Double_t
Definition: RtypesCore.h:55

TVirtualFFT::GetSign
virtual Int_t GetSign() const =0

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

TObject.h

TVirtualFFT::GetNdim
virtual Int_t GetNdim() const =0

n
const Int_t n
Definition: legend1.C:16

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

TVirtualFFT::GetType
virtual Option_t * GetType() const =0