doc/v608/TFFTComplex_8h_source.html

 // @(#)root/fft:$Id$
 // Author: Anna Kreshuk   07/4/2006

 /*************************************************************************
  * Copyright (C) 1995-2006, 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_TFFTComplex
 #define ROOT_TFFTComplex

 //////////////////////////////////////////////////////////////////////////
 //
 // TFFTComplex
 // One of the interface classes to the FFTW package, can be used directly
 // or via the TVirtualFFT class. Only the basic interface of FFTW is implemented.
 // Computes complex input/output discrete Fourier transforms (DFT)
 // in one or more dimensions. For the detailed information on the computed
 // transforms please refer to the FFTW manual, chapter "What FFTW really computes".
 //
 // How to use it:
 // 1) Create an instance of TFFTComplex - this will allocate input and output
 //    arrays (unless an in-place transform is specified)
 // 2) Run the Init() function with the desired flags and settings
 // 3) Set the data (via SetPoints(), SetPoint() or SetPointComplex() functions)
 // 4) Run the Transform() function
 // 5) Get the output (via GetPoints(), GetPoint() or GetPointComplex() functions)
 // 6) Repeat steps 3)-5) as needed
 //
 // For a transform of the same size, but with different flags or sign, rerun the Init()
 // function and continue with steps 3)-5)
 // NOTE: 1) running Init() function will overwrite the input array! Don't set any data
 //          before running the Init() function
 //       2) FFTW computes unnormalized transform, so doing a transform followed by
 //          its inverse will lead to the original array scaled by the transform size
 //
 //////////////////////////////////////////////////////////////////////////

 #ifndef ROOT_TVirtualFFT
 #include "TVirtualFFT.h"
 #endif

 class TComplex;

 class TFFTComplex : public TVirtualFFT{
 protected:
    void     *fIn;        //input array
    void     *fOut;       //output array
    void     *fPlan;      //fftw plan (the plan how to compute the transform)
    Int_t     fNdim;      //number of dimensions
    Int_t     fTotalSize; //total size of the transform
    Int_t    *fN;         //transform sizes in each dimension
    Int_t     fSign;      //sign of the exponent of the transform (-1 is FFTW_FORWARD and +1 FFTW_BACKWARD)
    Option_t *fFlags;     //transform flags

    UInt_t MapFlag(Option_t *flag);

 public:
    TFFTComplex();
    TFFTComplex(Int_t n, Bool_t inPlace);
    TFFTComplex(Int_t ndim, Int_t *n, Bool_t inPlace = kFALSE);
    virtual ~TFFTComplex();

    virtual void       Init(Option_t *flags, Int_t sign, const Int_t* /*kind*/);

    virtual Int_t     *GetN()    const {return fN;}
    virtual Int_t      GetNdim() const {return fNdim;}
    virtual Int_t      GetSize() const {return fTotalSize;}
    virtual Option_t  *GetType() const {if (fSign==-1) return "C2CBackward"; else return "C2CForward";}
    virtual Int_t      GetSign() const {return fSign;}
    virtual Option_t  *GetTransformFlag() const {return fFlags;}
    virtual Bool_t     IsInplace() const {if (fOut) return kTRUE; else return kFALSE;};

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

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

    ClassDef(TFFTComplex,0);
 };

 #endif
TFFTComplex::GetSize
virtual Int_t GetSize() const
Definition: TFFTComplex.h:71

TFFTComplex::GetPointsComplex
virtual void GetPointsComplex(Double_t *re, Double_t *im, Bool_t fromInput=kFALSE) const
Copies real and imaginary parts of the output (input) into the argument arrays.
Definition: TFFTComplex.cxx:219

TFFTComplex::fIn
void * fIn
Definition: TFFTComplex.h:50

TFFTComplex::SetPoint
virtual void SetPoint(Int_t ipoint, Double_t re, Double_t im=0)
sets real and imaginary parts of point # ipoint
Definition: TFFTComplex.cxx:255

TFFTComplex::Init
virtual void Init(Option_t *flags, Int_t sign, const Int_t *)
Creates the fftw-plan.
Definition: TFFTComplex.cxx:138

c
return c
Definition: entrylist_figure1.C:47

Option_t
const char Option_t
Definition: RtypesCore.h:62

TFFTComplex::GetNdim
virtual Int_t GetNdim() const
Definition: TFFTComplex.h:70

TFFTComplex::GetPointComplex
virtual void GetPointComplex(Int_t ipoint, Double_t &re, Double_t &im, Bool_t fromInput=kFALSE) const
returns real and imaginary parts of the point #ipoint
Definition: TFFTComplex.cxx:187

TVirtualFFT.h

ApplicationClassificationKeras.data
data
Definition: ApplicationClassificationKeras.py:17

TFFTComplex::GetType
virtual Option_t * GetType() const
Definition: TFFTComplex.h:72

Int_t
int Int_t
Definition: RtypesCore.h:41

Bool_t
bool Bool_t
Definition: RtypesCore.h:59

TFFTComplex::GetN
virtual Int_t * GetN() const
Definition: TFFTComplex.h:69

kFALSE
const Bool_t kFALSE
Definition: Rtypes.h:92

TFFTComplex::fTotalSize
Int_t fTotalSize
Definition: TFFTComplex.h:54

TFFTComplex::fFlags
Option_t * fFlags
Definition: TFFTComplex.h:57

TFFTComplex::SetPointComplex
virtual void SetPointComplex(Int_t ipoint, TComplex &c)
Definition: TFFTComplex.cxx:276

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

TFFTComplex::fNdim
Int_t fNdim
Definition: TFFTComplex.h:53

TFFTComplex::fSign
Int_t fSign
Definition: TFFTComplex.h:56

TFFTComplex::Transform
virtual void Transform()
Computes the transform, specified in Init() function.
Definition: TFFTComplex.cxx:156

TFFTComplex::GetSign
virtual Int_t GetSign() const
Definition: TFFTComplex.h:73

TFFTComplex::IsInplace
virtual Bool_t IsInplace() const
Definition: TFFTComplex.h:75

TFFTComplex::MapFlag
UInt_t MapFlag(Option_t *flag)
allowed options: "ES" - FFTW_ESTIMATE "M" - FFTW_MEASURE "P" - FFTW_PATIENT "EX" - FFTW_EXHAUSTIVE ...
Definition: TFFTComplex.cxx:316

TComplex
Definition: TComplex.h:29

TFFTComplex::TFFTComplex
TFFTComplex()
default
Definition: TFFTComplex.cxx:49

UInt_t
unsigned int UInt_t
Definition: RtypesCore.h:42

TFFTComplex::fOut
void * fOut
Definition: TFFTComplex.h:51

TFFTComplex::GetPoints
virtual void GetPoints(Double_t *data, Bool_t fromInput=kFALSE) const
Copies the output(or input) into the argument array.
Definition: TFFTComplex.cxx:169

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

TFFTComplex::~TFFTComplex
virtual ~TFFTComplex()
Destroys the data arrays and the plan.
Definition: TFFTComplex.cxx:109

TFFTComplex::GetPointReal
virtual Double_t GetPointReal(Int_t, Bool_t) const
Definition: TFFTComplex.h:78

Double_t
double Double_t
Definition: RtypesCore.h:55

TFFTComplex::GetPointReal
virtual Double_t GetPointReal(const Int_t *, Bool_t) const
Definition: TFFTComplex.h:79

TFFTComplex::SetPoints
virtual void SetPoints(const Double_t *data)
set all points.
Definition: TFFTComplex.cxx:286

TFFTComplex::GetTransformFlag
virtual Option_t * GetTransformFlag() const
Definition: TFFTComplex.h:74

TFFTComplex::fN
Int_t * fN
Definition: TFFTComplex.h:55

TFFTComplex::fPlan
void * fPlan
Definition: TFFTComplex.h:52

TFFTComplex
Definition: TFFTComplex.h:48

kTRUE
const Bool_t kTRUE
Definition: Rtypes.h:91

TFFTComplex::SetPointsComplex
virtual void SetPointsComplex(const Double_t *re, const Double_t *im)
set all points. the values are copied
Definition: TFFTComplex.cxx:297

n
const Int_t n
Definition: legend1.C:16

TFFTComplex::GetPointsReal
virtual Double_t * GetPointsReal(Bool_t) const
Definition: TFFTComplex.h:82