Logo ROOT  

Reference Guide
 
Loading...
Searching...
No Matches
RooBifurGauss.cxx
Go to the documentation of this file.
1/*****************************************************************************
2 * Project: RooFit *
3 * Package: RooFitModels *
4 * @(#)root/roofit:$Id$
5 * Authors: *
6 * Abi Soffer, Colorado State University, abi@slac.stanford.edu *
7 * *
8 * Copyright (c) 2000-2005, Regents of the University of California, *
9 * Colorado State University *
10 * and Stanford University. All rights reserved. *
11 * *
12 * Redistribution and use in source and binary forms, *
13 * with or without modification, are permitted according to the terms *
14 * listed in LICENSE (http://roofit.sourceforge.net/license.txt) *
15 *****************************************************************************/
16#include "RooFit.h"
17
18/** \class RooBifurGauss
19 \ingroup Roofit
20
21Bifurcated Gaussian p.d.f with different widths on left and right
22side of maximum value
23**/
24
25#include "RooBifurGauss.h"
26
27#include "RooAbsReal.h"
28#include "RooMath.h"
29#include "RooBatchCompute.h"
30
31#include "TMath.h"
32
33#include <cmath>
34
35using namespace std;
36
37ClassImp(RooBifurGauss);
38
39////////////////////////////////////////////////////////////////////////////////
40
41RooBifurGauss::RooBifurGauss(const char *name, const char *title,
42 RooAbsReal& _x, RooAbsReal& _mean,
43 RooAbsReal& _sigmaL, RooAbsReal& _sigmaR) :
44 RooAbsPdf(name, title),
45 x ("x" , "Dependent" , this, _x),
46 mean ("mean" , "Mean" , this, _mean),
47 sigmaL("sigmaL", "Left Sigma" , this, _sigmaL),
48 sigmaR("sigmaR", "Right Sigma", this, _sigmaR)
49
50{
51}
52
53////////////////////////////////////////////////////////////////////////////////
54
55RooBifurGauss::RooBifurGauss(const RooBifurGauss& other, const char* name) :
56 RooAbsPdf(other,name), x("x",this,other.x), mean("mean",this,other.mean),
57 sigmaL("sigmaL",this,other.sigmaL), sigmaR("sigmaR", this, other.sigmaR)
58{
59}
60
61////////////////////////////////////////////////////////////////////////////////
62
63Double_t RooBifurGauss::evaluate() const {
64 Double_t arg = x - mean;
65
66 Double_t coef(0.0);
67
68 if (arg < 0.0){
69 if (TMath::Abs(sigmaL) > 1e-30) {
70 coef = -0.5/(sigmaL*sigmaL);
71 }
72 } else {
73 if (TMath::Abs(sigmaR) > 1e-30) {
74 coef = -0.5/(sigmaR*sigmaR);
75 }
76 }
77
78 return exp(coef*arg*arg);
79}
80
81////////////////////////////////////////////////////////////////////////////////
82/// Compute multiple values of BifurGauss distribution.
83RooSpan<double> RooBifurGauss::evaluateSpan(RooBatchCompute::RunContext& evalData, const RooArgSet* normSet) const {
84 return RooBatchCompute::dispatch->computeBifurGauss(this, evalData, x->getValues(evalData, normSet), mean->getValues(evalData, normSet), sigmaL->getValues(evalData, normSet), sigmaR->getValues(evalData, normSet));
85}
86
87////////////////////////////////////////////////////////////////////////////////
88
89Int_t RooBifurGauss::getAnalyticalIntegral(RooArgSet& allVars, RooArgSet& analVars, const char* /*rangeName*/) const
90{
91 if (matchArgs(allVars,analVars,x)) return 1 ;
92 return 0 ;
93}
94
95////////////////////////////////////////////////////////////////////////////////
96
97Double_t RooBifurGauss::analyticalIntegral(Int_t code, const char* rangeName) const
98{
99 switch(code) {
100 case 1:
101 {
102 static Double_t root2 = sqrt(2.) ;
103 static Double_t rootPiBy2 = sqrt(atan2(0.0,-1.0)/2.0);
104
105// Double_t coefL(0.0), coefR(0.0);
106// if (TMath::Abs(sigmaL) > 1e-30) {
107// coefL = -0.5/(sigmaL*sigmaL);
108// }
109
110// if (TMath::Abs(sigmaR) > 1e-30) {
111// coefR = -0.5/(sigmaR*sigmaR);
112// }
113
114 Double_t xscaleL = root2*sigmaL;
115 Double_t xscaleR = root2*sigmaR;
116
117 Double_t integral = 0.0;
118 if(x.max(rangeName) < mean)
119 {
120 integral = sigmaL * ( RooMath::erf((x.max(rangeName) - mean)/xscaleL) - RooMath::erf((x.min(rangeName) - mean)/xscaleL) );
121 }
122 else if (x.min(rangeName) > mean)
123 {
124 integral = sigmaR * ( RooMath::erf((x.max(rangeName) - mean)/xscaleR) - RooMath::erf((x.min(rangeName) - mean)/xscaleR) );
125 }
126 else
127 {
128 integral = sigmaR*RooMath::erf((x.max(rangeName) - mean)/xscaleR) - sigmaL*RooMath::erf((x.min(rangeName) - mean)/xscaleL);
129 }
130 // return rootPiBy2*(sigmaR*RooMath::erf((x.max(rangeName) - mean)/xscaleR) -
131 // sigmaL*RooMath::erf((x.min(rangeName) - mean)/xscaleL));
132 return integral*rootPiBy2;
133 }
134 }
135
136 assert(0) ;
137 return 0 ; // to prevent compiler warnings
138}
e
#define e(i)
Definition RSha256.hxx:103
ClassImp
#define ClassImp(name)
Definition Rtypes.h:364
name
char name[80]
Definition TGX11.cxx:110
atan2
double atan2(double, double)
sqrt
double sqrt(double)
exp
double exp(double)
Double_t
RooAbsReal
RooAbsReal is the common abstract base class for objects that represent a real value and implements f...
Definition RooAbsReal.h:61
RooAbsReal::getValues
virtual RooSpan< const double > getValues(RooBatchCompute::RunContext &evalData, const RooArgSet *normSet=nullptr) const
by this change, please consult the release notes for ROOT 6.24 for guidance on how to make this trans...
Definition RooAbsReal.cxx:312
RooAbsReal::matchArgs
Bool_t matchArgs(const RooArgSet &allDeps, RooArgSet &numDeps, const RooArgProxy &a) const
Utility function for use in getAnalyticalIntegral().
Definition RooAbsReal.cxx:3403
RooArgSet
RooArgSet is a container object that can hold multiple RooAbsArg objects.
Definition RooArgSet.h:29
RooBatchCompute::RooBatchComputeInterface::computeBifurGauss
virtual RooSpan< double > computeBifurGauss(const RooAbsReal *, RunContext &, RooSpan< const double > x, RooSpan< const double > mean, RooSpan< const double > sigmaL, RooSpan< const double > sigmaR)=0
RooBifurGauss
Bifurcated Gaussian p.d.f with different widths on left and right side of maximum value.
Definition RooBifurGauss.h:24
RooBifurGauss::evaluateSpan
RooSpan< double > evaluateSpan(RooBatchCompute::RunContext &evalData, const RooArgSet *normSet) const
Compute multiple values of BifurGauss distribution.
Definition RooBifurGauss.cxx:83
RooBifurGauss::mean
RooRealProxy mean
Definition RooBifurGauss.h:41
RooBifurGauss::sigmaL
RooRealProxy sigmaL
Definition RooBifurGauss.h:42
RooBifurGauss::getAnalyticalIntegral
Int_t getAnalyticalIntegral(RooArgSet &allVars, RooArgSet &analVars, const char *rangeName=0) const
Interface function getAnalyticalIntergral advertises the analytical integrals that are supported.
Definition RooBifurGauss.cxx:89
RooBifurGauss::evaluate
Double_t evaluate() const
Evaluate this PDF / function / constant. Needs to be overridden by all derived classes.
Definition RooBifurGauss.cxx:63
RooBifurGauss::sigmaR
RooRealProxy sigmaR
Definition RooBifurGauss.h:43
RooBifurGauss::analyticalIntegral
Double_t analyticalIntegral(Int_t code, const char *rangeName=0) const
Implements the actual analytical integral(s) advertised by getAnalyticalIntegral.
Definition RooBifurGauss.cxx:97
RooBifurGauss::x
RooRealProxy x
Definition RooBifurGauss.h:40
RooMath::erf
static std::complex< double > erf(const std::complex< double > z)
complex erf function
Definition RooMath.cxx:580
RooSpan
A simple container to hold a batch of data values.
Definition RooSpan.h:34
RooTemplateProxy::min
double min(const char *rname=0) const
Query lower limit of range. This requires the payload to be RooAbsRealLValue or derived.
Definition RooTemplateProxy.h:306
RooTemplateProxy::max
double max(const char *rname=0) const
Query upper limit of range. This requires the payload to be RooAbsRealLValue or derived.
Definition RooTemplateProxy.h:308
x
Double_t x[n]
Definition legend1.C:17
RooBatchCompute::dispatch
R__EXTERN RooBatchComputeInterface * dispatch
This dispatch pointer points to an implementation of the compute library, provided one has been loade...
Definition RooBatchCompute.h:68
TMath::Abs
Short_t Abs(Short_t d)
Definition TMathBase.h:120
RooBatchCompute::RunContext
This struct enables passing computation data around between elements of a computation graph.
Definition RunContext.h:31