// @(#)root/spectrum:$Id$ // Author: Miroslav Morhac 25/09/06 /************************************************************************* * 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_TSpectrumTransform #define ROOT_TSpectrumTransform ////////////////////////////////////////////////////////////////////////// // // // TSpectrumTransform // // // // Class to carry out transforms of 1D spectra, its filtering and // // enhancement. It allows to calculate classic Fourier, Cosine, Sin, // // Hartley, Walsh, Haar transforms as well as mixed transforms (Fourier-// // Walsh, Fourier-Haar, Walsh-Haar, Cosine-Walsh, Cosine-Haar, Sin-Walsh// // and Sin-Haar). All the transforms are fast. // // // ////////////////////////////////////////////////////////////////////////// #ifndef ROOT_TNamed #include "TNamed.h" #endif class TH1; class TSpectrumTransform : public TNamed { protected: Int_t fSize; //length of transformed data Int_t fTransformType; //type of transformation (Haar, Walsh, Cosine, Sine, Fourier, Hartley, Fourier-Walsh, Fourier-Haar, Walsh-Haar, Cosine-Walsh, Cosine-Haar, Sine-Walsh, Sine-Haar) Int_t fDegree; //degree of mixed transform, applies only for Fourier-Walsh, Fourier-Haar, Walsh-Haar, Cosine-Walsh, Cosine-Haar, Sine-Walsh, Sine-Haar transforms Int_t fDirection; //forward or inverse transform Int_t fXmin; //first channel of filtered or enhanced region Int_t fXmax; //last channel of filtered or enhanced region Float_t fFilterCoeff; //value set in the filtered region Float_t fEnhanceCoeff; //multiplication coefficient applied in enhanced region; public: enum { kTransformHaar =0, kTransformWalsh =1, kTransformCos =2, kTransformSin =3, kTransformFourier =4, kTransformHartley =5, kTransformFourierWalsh =6, kTransformFourierHaar =7, kTransformWalshHaar =8, kTransformCosWalsh =9, kTransformCosHaar =10, kTransformSinWalsh =11, kTransformSinHaar =12, kTransformForward =0, kTransformInverse =1 }; TSpectrumTransform(); TSpectrumTransform(Int_t size); virtual ~TSpectrumTransform(); protected: void BitReverse(float *working_space,Int_t num); void BitReverseHaar(float *working_space,Int_t shift,Int_t num,Int_t start); void Fourier(float *working_space,Int_t num,Int_t hartley,Int_t direction,Int_t zt_clear); Int_t GeneralExe(float *working_space,Int_t zt_clear,Int_t num,Int_t degree,Int_t type); Int_t GeneralInv(float *working_space,Int_t num,Int_t degree,Int_t type); void Haar(float *working_space,Int_t num,Int_t direction); void Walsh(float *working_space,Int_t num); public: void Enhance(const float *source, float *destVector); void FilterZonal(const float *source, float *destVector); void SetDirection(Int_t direction); void SetEnhanceCoeff(Float_t enhanceCoeff); void SetFilterCoeff(Float_t filterCoeff); void SetRegion(Int_t xmin, Int_t xmax); void SetTransformType(Int_t transType, Int_t degree); void Transform(const float *source, float *destVector); ClassDef(TSpectrumTransform,1) //Spectrum Transformer, it calculates classic orthogonal 1D transforms }; #endif