/*****************************************************************************
* Project: RooFit *
* Package: RooFitModels *
* File: $Id: RooBCPEffDecay.cc,v 1.19 2005/06/20 15:51:05 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) *
*****************************************************************************/
// -- CLASS DESCRIPTION [PDF] --
//
#include "RooFit.h"
#include "Riostream.h"
#include "Riostream.h"
#include "RooRealVar.h"
#include "RooRandom.h"
#include "RooBCPEffDecay.h"
ClassImp(RooBCPEffDecay)
;
RooBCPEffDecay::RooBCPEffDecay(const char *name, const char *title,
RooRealVar& t, RooAbsCategory& tag,
RooAbsReal& tau, RooAbsReal& dm,
RooAbsReal& avgMistag, RooAbsReal& CPeigenval,
RooAbsReal& a, RooAbsReal& b,
RooAbsReal& effRatio, RooAbsReal& delMistag,
const RooResolutionModel& model, DecayType type) :
RooAbsAnaConvPdf(name,title,model,t),
_absLambda("absLambda","Absolute value of lambda",this,a),
_argLambda("argLambda","Arg(Lambda)",this,b),
_effRatio("effRatio","B0/B0bar efficiency ratio",this,effRatio),
_CPeigenval("CPeigenval","CP eigen value",this,CPeigenval),
_avgMistag("avgMistag","Average mistag rate",this,avgMistag),
_delMistag("delMistag","Delta mistag rate",this,delMistag),
_t("t","time",this,t),
_tau("tau","decay time",this,tau),
_dm("dm","mixing frequency",this,dm),
_tag("tag","CP state",this,tag),
_genB0Frac(0),
_type(type)
{
// Constructor
switch(type) {
case SingleSided:
_basisExp = declareBasis("exp(-@0/@1)",RooArgList(tau,dm)) ;
_basisSin = declareBasis("exp(-@0/@1)*sin(@0*@2)",RooArgList(tau,dm)) ;
_basisCos = declareBasis("exp(-@0/@1)*cos(@0*@2)",RooArgList(tau,dm)) ;
break ;
case Flipped:
_basisExp = declareBasis("exp(@0)/@1)",RooArgList(tau,dm)) ;
_basisSin = declareBasis("exp(@0/@1)*sin(@0*@2)",RooArgList(tau,dm)) ;
_basisCos = declareBasis("exp(@0/@1)*cos(@0*@2)",RooArgList(tau,dm)) ;
break ;
case DoubleSided:
_basisExp = declareBasis("exp(-abs(@0)/@1)",RooArgList(tau,dm)) ;
_basisSin = declareBasis("exp(-abs(@0)/@1)*sin(@0*@2)",RooArgList(tau,dm)) ;
_basisCos = declareBasis("exp(-abs(@0)/@1)*cos(@0*@2)",RooArgList(tau,dm)) ;
break ;
}
}
RooBCPEffDecay::RooBCPEffDecay(const RooBCPEffDecay& other, const char* name) :
RooAbsAnaConvPdf(other,name),
_absLambda("absLambda",this,other._absLambda),
_argLambda("argLambda",this,other._argLambda),
_effRatio("effRatio",this,other._effRatio),
_CPeigenval("CPeigenval",this,other._CPeigenval),
_avgMistag("avgMistag",this,other._avgMistag),
_delMistag("delMistag",this,other._delMistag),
_t("t",this,other._t),
_tau("tau",this,other._tau),
_dm("dm",this,other._dm),
_tag("tag",this,other._tag),
_genB0Frac(other._genB0Frac),
_type(other._type),
_basisExp(other._basisExp),
_basisSin(other._basisSin),
_basisCos(other._basisCos)
{
// Copy constructor
}
RooBCPEffDecay::~RooBCPEffDecay()
{
// Destructor
}
Double_t RooBCPEffDecay::coefficient(Int_t basisIndex) const
{
// B0 : _tag = +1
// B0bar : _tag = -1
if (basisIndex==_basisExp) {
//exp term: (1 -/+ dw)(1+a^2)/2
return (1 - _tag*_delMistag)*(1+_absLambda*_absLambda)/2 ;
// = 1 + _tag*deltaDil/2
}
if (basisIndex==_basisSin) {
//sin term: +/- (1-2w)*ImLambda(= -etaCP * |l| * sin2b)
return -1*_tag*(1-2*_avgMistag)*_CPeigenval*_absLambda*_argLambda ;
// = _tag*avgDil * ...
}
if (basisIndex==_basisCos) {
//cos term: +/- (1-2w)*(1-a^2)/2
return -1*_tag*(1-2*_avgMistag)*(1-_absLambda*_absLambda)/2 ;
// = -_tag*avgDil * ...
}
return 0 ;
}
Int_t RooBCPEffDecay::getCoefAnalyticalIntegral(RooArgSet& allVars, RooArgSet& analVars, const char* rangeName) const
{
if (rangeName) return 0 ;
if (matchArgs(allVars,analVars,_tag)) return 1 ;
return 0 ;
}
Double_t RooBCPEffDecay::coefAnalyticalIntegral(Int_t basisIndex, Int_t code, const char* /*rangeName*/) const
{
switch(code) {
// No integration
case 0: return coefficient(basisIndex) ;
// Integration over 'tag'
case 1:
if (basisIndex==_basisExp) {
return (1+_absLambda*_absLambda) ;
}
if (basisIndex==_basisSin || basisIndex==_basisCos) {
return 0 ;
}
default:
assert(0) ;
}
return 0 ;
}
Int_t RooBCPEffDecay::getGenerator(const RooArgSet& directVars, RooArgSet &generateVars, Bool_t staticInitOK) const
{
if (staticInitOK) {
if (matchArgs(directVars,generateVars,_t,_tag)) return 2 ;
}
if (matchArgs(directVars,generateVars,_t)) return 1 ;
return 0 ;
}
void RooBCPEffDecay::initGenerator(Int_t code)
{
if (code==2) {
// Calculate the fraction of mixed events to generate
Double_t sumInt = RooRealIntegral("sumInt","sum integral",*this,RooArgSet(_t.arg(),_tag.arg())).getVal() ;
_tag = 1 ;
Double_t b0Int = RooRealIntegral("mixInt","mix integral",*this,RooArgSet(_t.arg())).getVal() ;
_genB0Frac = b0Int/sumInt ;
}
}
void RooBCPEffDecay::generateEvent(Int_t code)
{
// Generate mix-state dependent
if (code==2) {
Double_t rand = RooRandom::uniform() ;
_tag = (rand<=_genB0Frac) ? 1 : -1 ;
}
// Generate delta-t dependent
while(1) {
Double_t rand = RooRandom::uniform() ;
Double_t tval(0) ;
switch(_type) {
case SingleSided:
tval = -_tau*log(rand);
break ;
case Flipped:
tval= +_tau*log(rand);
break ;
case DoubleSided:
tval = (rand<=0.5) ? -_tau*log(2*rand) : +_tau*log(2*(rand-0.5)) ;
break ;
}
// Accept event if T is in generated range
Double_t maxDil = 1.0 ;
Double_t al2 = _absLambda*_absLambda ;
Double_t maxAcceptProb = (1+al2) + fabs(maxDil*_CPeigenval*_absLambda*_argLambda) + fabs(maxDil*(1-al2)/2);
Double_t acceptProb = (1+al2)/2*(1-_tag*_delMistag)
- (_tag*(1-2*_avgMistag))*(_CPeigenval*_absLambda*_argLambda)*sin(_dm*tval)
- (_tag*(1-2*_avgMistag))*(1-al2)/2*cos(_dm*tval);
Bool_t accept = maxAcceptProb*RooRandom::uniform() < acceptProb ? kTRUE : kFALSE ;
if (tval<_t.max() && tval>_t.min() && accept) {
_t = tval ;
break ;
}
}
}
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