/***************************************************************************** * Project: RooFit * * Package: RooFitCore * * File: $Id: RooRealVar.rdl,v 1.49 2005/06/20 15:45:14 wverkerke 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_REAL_VAR #define ROO_REAL_VAR #include "Riostream.h" #include #include #include "TString.h" #include "RooAbsRealLValue.h" #include "RooUniformBinning.h" #include "RooNumber.h" class RooArgSet ; class RooErrorVar ; class RooRealVar : public RooAbsRealLValue { public: // Constructors, assignment etc. RooRealVar() ; RooRealVar(const char *name, const char *title, Double_t value, const char *unit= "") ; RooRealVar(const char *name, const char *title, Double_t minValue, Double_t maxValue, const char *unit= ""); RooRealVar(const char *name, const char *title, Double_t value, Double_t minValue, Double_t maxValue, const char *unit= "") ; RooRealVar(const RooRealVar& other, const char* name=0); virtual TObject* clone(const char* newname) const { return new RooRealVar(*this,newname); } virtual ~RooRealVar(); // Parameter value and error accessors virtual Double_t getVal(const RooArgSet* nset=0) const ; virtual void setVal(Double_t value); inline Double_t getError() const { return _error>=0?_error:0. ; } inline Bool_t hasError() const { return (_error>=0) ; } inline void setError(Double_t value) { _error= value ; removeAsymError() ; } inline void removeError() { _error = -1 ; } inline Double_t getAsymErrorLo() const { return _asymErrLo<=0?_asymErrLo:0. ; } inline Double_t getAsymErrorHi() const { return _asymErrHi>=0?_asymErrHi:0. ; } inline Bool_t hasAsymError() const { return (_asymErrHi>=0 && _asymErrLo<=0) ; } inline void removeAsymError() { _asymErrLo = 1 ; _asymErrHi = -1 ; } inline void setAsymError(Double_t lo, Double_t hi) { _asymErrLo = lo ; _asymErrHi = hi ; removeError() ; } RooErrorVar* errorVar() const ; // Set/get finite fit range limits void setMin(const char* name, Double_t value) ; void setMax(const char* name, Double_t value) ; void setRange(const char* name, Double_t min, Double_t max) ; inline void setMin(Double_t value) { setMin(0,value) ; } inline void setMax(Double_t value) { setMax(0,value) ; } inline void setRange(Double_t min, Double_t max) { setRange(0,min,max) ; } void setBins(Int_t nBins) { setBinning(RooUniformBinning(getMin(),getMax(),nBins)) ; } void setBinning(const RooAbsBinning& binning, const char* name=0) ; // RooAbsRealLValue implementation Bool_t hasBinning(const char* name) const ; const RooAbsBinning& getBinning(const char* name=0, Bool_t verbose=kTRUE, Bool_t createOnTheFly=kFALSE) const ; RooAbsBinning& getBinning(const char* name=0, Bool_t verbose=kTRUE, Bool_t createOnTheFly=kFALSE) ; // Set infinite fit range limits inline void removeMin(const char* name=0) { getBinning(name).setMin(-RooNumber::infinity) ; } inline void removeMax(const char* name=0) { getBinning(name).setMax(RooNumber::infinity) ; } inline void removeRange(const char* name=0) { getBinning(name).setRange(-RooNumber::infinity,RooNumber::infinity) ; } // Backward compatibility functions void setFitBins(Int_t nBins) ; void setFitMin(Double_t value) ; void setFitMax(Double_t value) ; void setFitRange(Double_t min, Double_t max) ; void removeFitMin() ; void removeFitMax() ; void removeFitRange() ; // I/O streaming interface (machine readable) virtual Bool_t readFromStream(istream& is, Bool_t compact, Bool_t verbose=kFALSE) ; virtual void writeToStream(ostream& os, Bool_t compact) const ; // We implement a fundamental type of AbsArg that can be stored in a dataset inline virtual Bool_t isFundamental() const { return kTRUE; } // Printing interface (human readable) virtual void printToStream(ostream& stream, PrintOption opt=Standard, TString indent= "") const ; TString* format(const RooCmdArg& formatArg) const ; TString* format(Int_t sigDigits, const char *options) const ; static void printScientific(Bool_t flag=kFALSE) { _printScientific = flag ; } static void printSigDigits(Int_t ndig=5) { _printSigDigits = ndig>1?ndig:1 ; } using RooAbsRealLValue::operator= ; protected: static Bool_t _printScientific ; static Int_t _printSigDigits ; virtual Double_t evaluate() const { return _value ; } // dummy because we overloaded getVal() virtual void copyCache(const RooAbsArg* source) ; virtual void attachToTree(TTree& t, Int_t bufSize=32000) ; virtual void fillTreeBranch(TTree& t) ; Double_t chopAt(Double_t what, Int_t where) const ; RooLinkedList _altBinning ; //! Optional alternative ranges and binnings // Double_t _fitMin ; // Minimum of fit range [ obsolete ] // Double_t _fitMax ; // Maximum of fit range [ obsolete ] // Int_t _fitBins ; // Number of bins in fit range for binned fits [ obsolete ] Double_t _error; // Symmetric error associated with current value Double_t _asymErrLo ; // Low side of asymmetric error associated with current value Double_t _asymErrHi ; // High side of asymmetric error associated with current value RooAbsBinning* _binning ; ClassDef(RooRealVar,2) // Real-valued variable }; #endif