/***************************************************************************** * Project: RooFit * * Package: RooFitCore * * @(#)root/roofitcore:$Id: RooEfficiency.cxx 25184 2008-08-20 13:59:55Z wouter $ * 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) * *****************************************************************************/ ////////////////////////////////////////////////////////////////////////////// // // BEGIN_HTML // RooEfficiency is a PDF helper class to fit efficiencies parameterized // by a supplied function F. // // Given a dataset with a category C that determines if a given // event is accepted or rejected for the efficiency to be measured, // this class evaluates as F if C is 'accept' and as (1-F) if // C is 'reject'. Values of F below 0 and above 1 are clipped. // F may have an arbitrary number of dependents and parameters // END_HTML // #include "RooFit.h" #include "RooEfficiency.h" #include "RooEfficiency.h" #include "RooStreamParser.h" #include "RooArgList.h" ClassImp(RooEfficiency) ; //_____________________________________________________________________________ RooEfficiency::RooEfficiency(const char *name, const char *title, const RooAbsReal& effFunc, const RooAbsCategory& cat, const char* sigCatName) : RooAbsPdf(name,title), _cat("cat","Signal/Background category",this,(RooAbsCategory&)cat), _effFunc("effFunc","Efficiency modeling function",this,(RooAbsReal&)effFunc), _sigCatName(sigCatName) { // Construct an N+1 dimensional efficiency p.d.f from an N-dimensional efficiency // function and a category cat with two states (0,1) that indicate if a given // event should be counted as rejected or accepted respectively } //_____________________________________________________________________________ RooEfficiency::RooEfficiency(const RooEfficiency& other, const char* name) : RooAbsPdf(other, name), _cat("cat",this,other._cat), _effFunc("effFunc",this,other._effFunc), _sigCatName(other._sigCatName) { // Copy constructor } //_____________________________________________________________________________ RooEfficiency::~RooEfficiency() { // Destructor } //_____________________________________________________________________________ Double_t RooEfficiency::evaluate() const { // Calculate the raw value of this p.d.f which is the effFunc // value if cat==1 and it is (1-effFunc) if cat==0 Double_t effFuncVal = _effFunc ; // Truncate efficiency function in range 0.0-1.0 if (_effFunc>1) { effFuncVal = 1.0 ; } else if (_effFunc<0) { effFuncVal = 0.0 ; } if (_cat.label() == _sigCatName) { // Accept case return effFuncVal ; } else { // Reject case return 1 - effFuncVal ; } } //_____________________________________________________________________________ Int_t RooEfficiency::getAnalyticalIntegral(RooArgSet& allVars, RooArgSet& analVars, const char* /*rangeName*/) const { if (matchArgs(allVars,analVars,_cat)) return 1 ; return 0 ; } //_____________________________________________________________________________ Double_t RooEfficiency::analyticalIntegral(Int_t code, const char* /*rangeName*/) const { assert(code==1) ; return 1.0 ; }
RooEfficiency.cxx:1
RooEfficiency.cxx:2
RooEfficiency.cxx:3
RooEfficiency.cxx:4
RooEfficiency.cxx:5
RooEfficiency.cxx:6
RooEfficiency.cxx:7
RooEfficiency.cxx:8
RooEfficiency.cxx:9
RooEfficiency.cxx:10
RooEfficiency.cxx:11
RooEfficiency.cxx:12
RooEfficiency.cxx:13
RooEfficiency.cxx:14
RooEfficiency.cxx:15
RooEfficiency.cxx:16
RooEfficiency.cxx:17
RooEfficiency.cxx:18
RooEfficiency.cxx:19
RooEfficiency.cxx:20
RooEfficiency.cxx:21
RooEfficiency.cxx:22
RooEfficiency.cxx:23
RooEfficiency.cxx:24
RooEfficiency.cxx:25
RooEfficiency.cxx:26
RooEfficiency.cxx:27
RooEfficiency.cxx:28
RooEfficiency.cxx:29
RooEfficiency.cxx:30
RooEfficiency.cxx:31
RooEfficiency.cxx:32
RooEfficiency.cxx:33
RooEfficiency.cxx:34
RooEfficiency.cxx:35
RooEfficiency.cxx:36
RooEfficiency.cxx:37
RooEfficiency.cxx:38
RooEfficiency.cxx:39
RooEfficiency.cxx:40
RooEfficiency.cxx:41
RooEfficiency.cxx:42
RooEfficiency.cxx:43
RooEfficiency.cxx:44
RooEfficiency.cxx:45
RooEfficiency.cxx:46
RooEfficiency.cxx:47
RooEfficiency.cxx:48
RooEfficiency.cxx:49
RooEfficiency.cxx:50
RooEfficiency.cxx:51
RooEfficiency.cxx:52
RooEfficiency.cxx:53
RooEfficiency.cxx:54
RooEfficiency.cxx:55
RooEfficiency.cxx:56
RooEfficiency.cxx:57
RooEfficiency.cxx:58
RooEfficiency.cxx:59
RooEfficiency.cxx:60
RooEfficiency.cxx:61
RooEfficiency.cxx:62
RooEfficiency.cxx:63
RooEfficiency.cxx:64
RooEfficiency.cxx:65
RooEfficiency.cxx:66
RooEfficiency.cxx:67
RooEfficiency.cxx:68
RooEfficiency.cxx:69
RooEfficiency.cxx:70
RooEfficiency.cxx:71
RooEfficiency.cxx:72
RooEfficiency.cxx:73
RooEfficiency.cxx:74
RooEfficiency.cxx:75
RooEfficiency.cxx:76
RooEfficiency.cxx:77
RooEfficiency.cxx:78
RooEfficiency.cxx:79
RooEfficiency.cxx:80
RooEfficiency.cxx:81
RooEfficiency.cxx:82
RooEfficiency.cxx:83
RooEfficiency.cxx:84
RooEfficiency.cxx:85
RooEfficiency.cxx:86
RooEfficiency.cxx:87
RooEfficiency.cxx:88
RooEfficiency.cxx:89
RooEfficiency.cxx:90
RooEfficiency.cxx:91
RooEfficiency.cxx:92
RooEfficiency.cxx:93
RooEfficiency.cxx:94
RooEfficiency.cxx:95
RooEfficiency.cxx:96
RooEfficiency.cxx:97
RooEfficiency.cxx:98
RooEfficiency.cxx:99
RooEfficiency.cxx:100
RooEfficiency.cxx:101
RooEfficiency.cxx:102
RooEfficiency.cxx:103
RooEfficiency.cxx:104
RooEfficiency.cxx:105
RooEfficiency.cxx:106
RooEfficiency.cxx:107
RooEfficiency.cxx:108
RooEfficiency.cxx:109
RooEfficiency.cxx:110
RooEfficiency.cxx:111
RooEfficiency.cxx:112
RooEfficiency.cxx:113
RooEfficiency.cxx:114
RooEfficiency.cxx:115
RooEfficiency.cxx:116
RooEfficiency.cxx:117
RooEfficiency.cxx:118
RooEfficiency.cxx:119
RooEfficiency.cxx:120
RooEfficiency.cxx:121
RooEfficiency.cxx:122