/***************************************************************************** * Project: RooFit * * Package: RooFitCore * * File: $Id: RooLinTransBinning.h,v 1.9 2007/05/11 09:11:30 verkerke Exp $ * Authors: * * WV, Wouter Verkerke, UC Santa Barbara, verkerke@slac.stanford.edu * * DK, David Kirkby, UC Irvine, dkirkby@uci.edu * * * * Copyright (c) 2000-2005, Regents of the University of California * * and Stanford University. All rights reserved. * * * * Redistribution and use in source and binary forms, * * with or without modification, are permitted according to the terms * * listed in LICENSE (http://roofit.sourceforge.net/license.txt) * *****************************************************************************/ #ifndef ROO_LIN_TRANS_BINNING #define ROO_LIN_TRANS_BINNING #include "Rtypes.h" #include "RooAbsBinning.h" class RooLinTransBinning : public RooAbsBinning { public: RooLinTransBinning(const char* name=0) : RooAbsBinning(name) { // coverity[UNINIT_CTOR] } ; RooLinTransBinning(const RooAbsBinning& input, Double_t slope=1.0, Double_t offset=0.0, const char* name=0) ; RooLinTransBinning(const RooLinTransBinning&, const char* name=0) ; virtual RooAbsBinning* clone(const char* name=0) const { return new RooLinTransBinning(*this,name) ; } virtual ~RooLinTransBinning() ; virtual Int_t numBoundaries() const { return _input->numBoundaries() ; } virtual Int_t binNumber(Double_t x) const { return _input->binNumber(invTrans(x)) ; } virtual Double_t binCenter(Int_t bin) const { return trans(_input->binCenter(binTrans(bin))) ; } virtual Double_t binWidth(Int_t bin) const { return _slope*_input->binWidth(binTrans(bin)) ; } virtual Double_t binLow(Int_t bin) const { if (_slope>0) return trans(_input->binLow(binTrans(bin))) ; else return trans(_input->binHigh(binTrans(bin))) ; } virtual Double_t binHigh(Int_t bin) const { if (_slope>0) return trans(_input->binHigh(binTrans(bin))) ; else return trans(_input->binLow(binTrans(bin))) ; } virtual void setRange(Double_t xlo, Double_t xhi) ; virtual void setMin(Double_t xlo) { setRange(xlo,highBound()) ; } virtual void setMax(Double_t xhi) { setRange(lowBound(),xhi) ; } virtual Double_t lowBound() const { if (_slope>0) return trans(_input->lowBound()) ; else return trans(_input->highBound()) ; } virtual Double_t highBound() const { if (_slope>0) return trans(_input->highBound()) ; else return trans(_input->lowBound()) ; } virtual Double_t averageBinWidth() const { return _slope*_input->averageBinWidth() ; } virtual Double_t* array() const ; void updateInput(const RooAbsBinning& input, Double_t slope=1.0, Double_t offset=0.0) ; protected: inline Int_t binTrans(Int_t bin) const { if (_slope>0) return bin ; else return numBins()-bin-1 ; } inline Double_t trans(Double_t x) const { return x*_slope + _offset ; } inline Double_t invTrans(Double_t x) const { if (_slope==0.) return 0 ; return (x-_offset)/_slope ; } Double_t _slope ; // Slope of transformation Double_t _offset ; // Offset of tranformation RooAbsBinning* _input ; // Input binning mutable Double_t *_array ; //! Array of transformed bin boundaries ClassDef(RooLinTransBinning,1) // Linear transformation of binning specification }; #endif