#include "RooFit.h"
#include "Riostream.h"
#include "Riostream.h"
#include <math.h>
#include "RooChebychev.h"
#include "RooAbsReal.h"
#include "RooRealVar.h"
#include "RooArgList.h"
ClassImp(RooChebychev)
;
RooChebychev::RooChebychev()
{
}
RooChebychev::RooChebychev(const char* name, const char* title,
RooAbsReal& x, const RooArgList& coefList):
RooAbsPdf(name, title),
_x("x", "Dependent", this, x),
_coefList("coefList","List of coefficients",this)
{
TIterator* coefIter = coefList.createIterator() ;
RooAbsArg* coef ;
while((coef = (RooAbsArg*)coefIter->Next())) {
if (!dynamic_cast<RooAbsReal*>(coef)) {
cout << "RooChebychev::ctor(" << GetName() << ") ERROR: coefficient " << coef->GetName()
<< " is not of type RooAbsReal" << endl ;
assert(0) ;
}
_coefList.add(*coef) ;
}
delete coefIter ;
}
RooChebychev::RooChebychev(const RooChebychev& other, const char* name) :
RooAbsPdf(other, name),
_x("x", this, other._x),
_coefList("coefList",this,other._coefList)
{
}
inline static double p0(double ,double a) { return a; }
inline static double p1(double t,double a,double b) { return a*t+b; }
inline static double p2(double t,double a,double b,double c) { return p1(t,p1(t,a,b),c); }
inline static double p3(double t,double a,double b,double c,double d) { return p2(t,p1(t,a,b),c,d); }
inline static double p4(double t,double a,double b,double c,double d,double e) { return p3(t,p1(t,a,b),c,d,e); }
Double_t RooChebychev::evaluate() const
{
Double_t xmin = _x.min(); Double_t xmax = _x.max();
Double_t x(-1+2*(_x-xmin)/(xmax-xmin));
Double_t x2(x*x);
Double_t sum(0) ;
switch (_coefList.getSize()) {
case 7: sum+=((RooAbsReal&)_coefList[6]).getVal()*x*p3(x2,64,-112,56,-7);
case 6: sum+=((RooAbsReal&)_coefList[5]).getVal()*p3(x2,32,-48,18,-1);
case 5: sum+=((RooAbsReal&)_coefList[4]).getVal()*x*p2(x2,16,-20,5);
case 4: sum+=((RooAbsReal&)_coefList[3]).getVal()*p2(x2,8,-8,1);
case 3: sum+=((RooAbsReal&)_coefList[2]).getVal()*x*p1(x2,4,-3);
case 2: sum+=((RooAbsReal&)_coefList[1]).getVal()*p1(x2,2,-1);
case 1: sum+=((RooAbsReal&)_coefList[0]).getVal()*x;
case 0: sum+=1;
}
return sum;
}
Int_t RooChebychev::getAnalyticalIntegral(RooArgSet& allVars, RooArgSet& analVars, const char* ) const
{
if (matchArgs(allVars, analVars, _x)) return 1;
return 0;
}
Double_t RooChebychev::analyticalIntegral(Int_t code, const char* rangeName) const
{
assert(code==1) ;
Double_t xmin = _x.min(rangeName); Double_t xmax = _x.max(rangeName);
Double_t norm(0) ;
switch(_coefList.getSize()) {
case 7: case 6: norm+=((RooAbsReal&)_coefList[5]).getVal()*(-1 + 18./3. - 48./5. + 32./7.);
case 5: case 4: norm+=((RooAbsReal&)_coefList[3]).getVal()*( 1 - 8./3. + 8./5.);
case 3: case 2: norm+=((RooAbsReal&)_coefList[1]).getVal()*(-1 + 2./3.);
case 1: case 0: norm+= 1;
}
norm *= xmax-xmin;
return norm;
}
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