doc/v614/RooDstD0BG_8cxx_source.html

 /*****************************************************************************
  * Project: RooFit                                                           *
  * Package: RooFitModels                                                     *
  * @(#)root/roofit:$Id$
  * Authors:                                                                  *
  *   UE, Ulrik Egede,     RAL,               U.Egede@rl.ac.uk                *
  *   MT, Max Turri,       UC Santa Cruz      turri@slac.stanford.edu         *
  *   CC, Chih-hsiang Cheng, Stanford         chcheng@slac.stanford.edu       *
  *   DK, David Kirkby,    UC Irvine,         dkirkby@uci.edu                 *
  *                                                                           *
  * Copyright (c) 2000-2005, Regents of the University of California          *
  *                          RAL 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)             *
  *****************************************************************************/

 /** \class RooDstD0BG
     \ingroup Roofit

 Special p.d.f shape that can be used to model the background of
 D*-D0 mass difference distributions
 **/

 #include "RooFit.h"

 #include "Riostream.h"
 #include "Riostream.h"
 #include <math.h>
 #include "TMath.h"

 #include "RooDstD0BG.h"
 #include "RooAbsReal.h"
 #include "RooRealVar.h"
 #include "RooIntegrator1D.h"
 #include "RooAbsFunc.h"

 using namespace std;

 ClassImp(RooDstD0BG);

 ////////////////////////////////////////////////////////////////////////////////

 RooDstD0BG::RooDstD0BG(const char *name, const char *title,
              RooAbsReal& _dm, RooAbsReal& _dm0,
              RooAbsReal& _c, RooAbsReal& _a, RooAbsReal& _b) :
   RooAbsPdf(name,title),
   dm("dm","Dstar-D0 Mass Diff",this, _dm),
   dm0("dm0","Threshold",this, _dm0),
   C("C","Shape Parameter",this, _c),
   A("A","Shape Parameter 2",this, _a),
   B("B","Shape Parameter 3",this, _b)
 {
 }

 ////////////////////////////////////////////////////////////////////////////////

 RooDstD0BG::RooDstD0BG(const RooDstD0BG& other, const char *name) :
   RooAbsPdf(other,name), dm("dm",this,other.dm), dm0("dm0",this,other.dm0),
   C("C",this,other.C), A("A",this,other.A), B("B",this,other.B)
 {
 }

 ////////////////////////////////////////////////////////////////////////////////

 Double_t RooDstD0BG::evaluate() const
 {
   Double_t arg= dm- dm0;
   if (arg <= 0 ) return 0;
   Double_t ratio= dm/dm0;
   Double_t val= (1- exp(-arg/C))* TMath::Power(ratio, A) + B*(ratio-1);

   return (val > 0 ? val : 0) ;
 }


 ////////////////////////////////////////////////////////////////////////////////
 /// if (matchArgs(allVars,analVars,dm)) return 1 ;

 Int_t RooDstD0BG::getAnalyticalIntegral(RooArgSet& /*allVars*/, RooArgSet& /*analVars*/, const char* /*rangeName*/) const
 {
   return 0 ;
 }

 ////////////////////////////////////////////////////////////////////////////////

 Double_t RooDstD0BG::analyticalIntegral(Int_t code, const char* rangeName) const
 {
   switch(code) {
   case 1:
     {
       Double_t min= dm.min(rangeName);
       Double_t max= dm.max(rangeName);
       if (max <= dm0 ) return 0;
       else if (min < dm0) min = dm0;

       Bool_t doNumerical= kFALSE;
       if ( A != 0 ) doNumerical= kTRUE;
       else if (B < 0) {
    // If b<0, pdf can be negative at large dm, the integral should
    // only up to where pdf hits zero. Better solution should be
    // solve the zero and use it as max.
    // Here we check this whether pdf(max) < 0. If true, let numerical
    // integral take care of. ( kind of ugly!)
    if ( 1- exp(-(max-dm0)/C) + B*(max/dm0 -1) < 0) doNumerical= kTRUE;
       }
       if ( ! doNumerical ) {
    return (max-min)+ C* exp(dm0/C)* (exp(-max/C)- exp(-min/C)) +
      B * (0.5* (max*max - min*min)/dm0 - (max- min));
       } else {
    // In principle the integral for a!=0  can be done analytically.
    // It involves incomplete Gamma function, TMath::Gamma(a+1,m/c),
    // which is not defined for a < -1. And the whole expression is
    // not stable for m/c >> 1.
    // Do numerical integral
    RooArgSet vset(dm.arg(),"vset");
    RooAbsFunc *func= bindVars(vset);
    RooIntegrator1D integrator(*func,min,max);
    return integrator.integral();
       }
     }
   }

   assert(0) ;
   return 0 ;
 }
ROOT::Math::Cephes::B
static double B[]
Definition: SpecFuncCephes.cxx:178

RooDstD0BG::analyticalIntegral
Double_t analyticalIntegral(Int_t code, const char *rangeName=0) const
Implements the actual analytical integral(s) advertised by getAnalyticalIntegral. ...
Definition: RooDstD0BG.cxx:88

RooDstD0BG::RooDstD0BG
RooDstD0BG()
Definition: RooDstD0BG.h:28

RooArgSet
Definition: RooArgSet.h:26

RooRealVar.h

RooDstD0BG::dm
RooRealProxy dm
Definition: RooDstD0BG.h:43

Int_t
int Int_t
Definition: RtypesCore.h:41

Bool_t
bool Bool_t
Definition: RtypesCore.h:59

RooDstD0BG
Special p.d.f shape that can be used to model the background of D*-D0 mass difference distributions...
Definition: RooDstD0BG.h:26

std
STL namespace.

RooDstD0BG::evaluate
Double_t evaluate() const
Definition: RooDstD0BG.cxx:67

ROOT::Math::Cephes::A
static double A[]
Definition: SpecFuncCephes.cxx:170

TMath::Power
LongDouble_t Power(LongDouble_t x, LongDouble_t y)
Definition: TMath.h:734

RooDstD0BG::C
RooRealProxy C
Definition: RooDstD0BG.h:45

RooDstD0BG::dm0
RooRealProxy dm0
Definition: RooDstD0BG.h:44

RooDstD0BG::A
RooRealProxy A
Definition: RooDstD0BG.h:45

ROOT::Math::Cephes::C
static double C[]
Definition: SpecFuncCephes.cxx:187

RooIntegrator1D::integral
virtual Double_t integral(const Double_t *yvec=0)
Calculate numeric integral at given set of function binding parameters.
Definition: RooIntegrator1D.cxx:275

RooAbsFunc.h

Riostream.h

kFALSE
const Bool_t kFALSE
Definition: RtypesCore.h:88

RooIntegrator1D
RooIntegrator1D implements an adaptive one-dimensional numerical integration algorithm.
Definition: RooIntegrator1D.h:22

RooAbsReal.h

ClassImp
#define ClassImp(name)
Definition: Rtypes.h:359

RooRealProxy::min
Double_t min(const char *rname=0) const
Definition: RooRealProxy.h:56

Double_t
double Double_t
Definition: RtypesCore.h:55

RooAbsReal
RooAbsReal is the common abstract base class for objects that represent a real value and implements f...
Definition: RooAbsReal.h:53

RooAbsReal::bindVars
RooAbsFunc * bindVars(const RooArgSet &vars, const RooArgSet *nset=0, Bool_t clipInvalid=kFALSE) const
Create an interface adaptor f(vars) that binds us to the specified variables (in arbitrary order)...
Definition: RooAbsReal.cxx:3117

RooDstD0BG::B
RooRealProxy B
Definition: RooDstD0BG.h:45

RooDstD0BG::getAnalyticalIntegral
Int_t getAnalyticalIntegral(RooArgSet &allVars, RooArgSet &analVars, const char *rangeName=0) const
if (matchArgs(allVars,analVars,dm)) return 1 ;
Definition: RooDstD0BG.cxx:81

RooRealProxy::max
Double_t max(const char *rname=0) const
Definition: RooRealProxy.h:57

RooDstD0BG.h

RooAbsPdf
RooAbsPdf is the abstract interface for all probability density functions The class provides hybrid a...
Definition: RooAbsPdf.h:41

RooIntegrator1D.h

RooFit.h

RooRealProxy::arg
const RooAbsReal & arg() const
Definition: RooRealProxy.h:43

TMath.h

exp
double exp(double)

kTRUE
const Bool_t kTRUE
Definition: RtypesCore.h:87

RooAbsFunc
Abstract interface for evaluating a real-valued function of one real variable and performing numerica...
Definition: RooAbsFunc.h:23

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