/usr/include/root/RooStats/ModelConfig.h is in libroot-roofit-dev 5.34.30-0ubuntu8.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// Author: Kyle Cranmer, Lorenzo Moneta, Gregory Schott, Wouter Verkerke, Sven Kreiss
/*************************************************************************
* Copyright (C) 1995-2008, Rene Brun and Fons Rademakers. *
* All rights reserved. *
* *
* For the licensing terms see $ROOTSYS/LICENSE. *
* For the list of contributors see $ROOTSYS/README/CREDITS. *
*************************************************************************/
#ifndef ROOSTATS_ModelConfig
#define ROOSTATS_ModelConfig
#ifndef ROO_ABS_PDF
#include "RooAbsPdf.h"
#endif
#ifndef ROO_ABS_DATA
#include "RooAbsData.h"
#endif
#ifndef ROO_ARG_SET
#include "RooArgSet.h"
#endif
#ifndef ROO_WORKSPACE
#include "RooWorkspace.h"
#endif
#ifndef ROOT_TRef
#include "TRef.h"
#endif
#include <string>
//_________________________________________________
/*
BEGIN_HTML
<p>
ModelConfig is a simple class that holds configuration information specifying how a model
should be used in the context of various RooStats tools. A single model can be used
in different ways, and this class should carry all that is needed to specify how it should be used.
ModelConfig requires a workspace to be set.
</p>
END_HTML
*/
//
namespace RooStats {
class ModelConfig : public TNamed {
public:
ModelConfig(RooWorkspace * ws = 0) :
TNamed()
{
if(ws) SetWS(*ws);
}
ModelConfig(const char* name, RooWorkspace *ws = 0) :
TNamed(name, name)
{
if(ws) SetWS(*ws);
}
ModelConfig(const char* name, const char* title, RooWorkspace *ws = 0) :
TNamed(name, title)
{
if(ws) SetWS(*ws);
}
// clone
virtual ModelConfig * Clone(const char * name = "") const {
ModelConfig * mc = new ModelConfig(*this);
if(strcmp(name,"")==0)
mc->SetName(this->GetName());
else
mc->SetName(name);
return mc;
}
// set a workspace that owns all the necessary components for the analysis
virtual void SetWS(RooWorkspace & ws);
/// alias for SetWS(...)
virtual void SetWorkspace(RooWorkspace & ws) { SetWS(ws); }
// Set the proto DataSet, add to the the workspace if not already there
virtual void SetProtoData(RooAbsData & data) {
ImportDataInWS(data);
SetProtoData( data.GetName() );
}
// Set the Pdf, add to the the workspace if not already there
virtual void SetPdf(const RooAbsPdf& pdf) {
ImportPdfInWS(pdf);
SetPdf( pdf.GetName() );
}
// Set the Prior Pdf, add to the the workspace if not already there
virtual void SetPriorPdf(const RooAbsPdf& pdf) {
ImportPdfInWS(pdf);
SetPriorPdf( pdf.GetName() );
}
// specify the parameters of interest in the interval
virtual void SetParameters(const RooArgSet& set) {
if (!SetHasOnlyParameters(set,"ModelConfig::SetParameters")) return ;
fPOIName=std::string(GetName()) + "_POI";
DefineSetInWS(fPOIName.c_str(), set);
}
virtual void SetParametersOfInterest(const RooArgSet& set) {
if (!SetHasOnlyParameters(set,"ModelConfig::SetParametersOfInterest")) return ;
SetParameters(set);
}
// specify the parameters of interest
// through a list of comma-separated arguments already in the workspace
virtual void SetParameters(const char *argList) {
if(!GetWS()) return;
SetParameters(GetWS()->argSet(argList));
}
virtual void SetParametersOfInterest(const char *argList) {
SetParameters(argList);
}
// specify the nuisance parameters (e.g. the rest of the parameters)
virtual void SetNuisanceParameters(const RooArgSet& set) {
if (!SetHasOnlyParameters(set,"ModelConfig::SetNuisanceParameters")) return ;
fNuisParamsName=std::string(GetName()) + "_NuisParams";
DefineSetInWS(fNuisParamsName.c_str(), set);
}
// specify the nuisance parameters
// through a list of comma-separated arguments already in the workspace
virtual void SetNuisanceParameters(const char *argList) {
if(!GetWS()) return;
SetNuisanceParameters(GetWS()->argSet(argList));
}
// specify the constraint parameters
virtual void SetConstraintParameters(const RooArgSet& set) {
if (!SetHasOnlyParameters(set,"ModelConfig::SetConstainedParameters")) return ;
fConstrParamsName=std::string(GetName()) + "_ConstrainedParams";
DefineSetInWS(fConstrParamsName.c_str(), set);
}
// specify the constraint parameters
// through a list of comma-separated arguments already in the workspace
virtual void SetConstraintParameters(const char *argList) {
if(!GetWS()) return;
SetConstraintParameters(GetWS()->argSet(argList));
}
// specify the observables
virtual void SetObservables(const RooArgSet& set) {
if (!SetHasOnlyParameters(set,"ModelConfig::SetObservables")) return ;
fObservablesName=std::string(GetName()) + "_Observables";
DefineSetInWS(fObservablesName.c_str(), set);
}
// specify the observables
// through a list of comma-separated arguments already in the workspace
virtual void SetObservables(const char *argList) {
if(!GetWS()) return;
SetObservables(GetWS()->argSet(argList));
}
// specify the conditional observables
virtual void SetConditionalObservables(const RooArgSet& set) {
if (!SetHasOnlyParameters(set,"ModelConfig::SetConditionalObservables")) return ;
fConditionalObsName=std::string(GetName()) + "_ConditionalObservables";
DefineSetInWS(fConditionalObsName.c_str(), set);
}
// specify the conditional observables
// through a list of comma-separated arguments already in the workspace
virtual void SetConditionalObservables(const char *argList) {
if(!GetWS()) return;
SetConditionalObservables(GetWS()->argSet(argList));
}
// specify the global observables
virtual void SetGlobalObservables(const RooArgSet& set) {
if (!SetHasOnlyParameters(set,"ModelConfig::SetGlobalObservables")) return ;
// make global observables constant
RooFIter iter = set.fwdIterator();
RooAbsArg *arg = iter.next();
while(arg != NULL) {
arg->setAttribute("Constant", kTRUE);
arg = iter.next();
}
fGlobalObsName=std::string(GetName()) + "_GlobalObservables";
DefineSetInWS(fGlobalObsName.c_str(), set);
}
// specify the global observables
// through a list of comma-separated arguments already in the workspace
virtual void SetGlobalObservables(const char *argList) {
if(!GetWS()) return;
SetGlobalObservables(GetWS()->argSet(argList));
}
// set parameter values for a particular hypothesis if using a common PDF
// by saving a snapshot in the workspace
virtual void SetSnapshot(const RooArgSet& set);
// specify the name of the PDF in the workspace to be used
virtual void SetPdf(const char* name) {
if (! GetWS() ) return;
if(GetWS()->pdf(name))
fPdfName = name;
else
coutE(ObjectHandling) << "pdf "<<name<< " does not exist in workspace"<<std::endl;
}
// specify the name of the PDF in the workspace to be used
virtual void SetPriorPdf(const char* name) {
if (! GetWS() ) return;
if(GetWS()->pdf(name))
fPriorPdfName = name;
else
coutE(ObjectHandling) << "pdf "<<name<< " does not exist in workspace"<<std::endl;
}
// specify the name of the dataset in the workspace to be used
virtual void SetProtoData(const char* name){
if (! GetWS() ) return;
if(GetWS()->data(name))
fProtoDataName = name;
else
coutE(ObjectHandling) << "dataset "<<name<< " does not exist in workspace"<<std::endl;
}
/* getter methods */
/// get model PDF (return NULL if pdf has not been specified or does not exist)
RooAbsPdf * GetPdf() const { return (GetWS()) ? GetWS()->pdf(fPdfName.c_str()) : 0; }
/// get RooArgSet containing the parameter of interest (return NULL if not existing)
const RooArgSet * GetParametersOfInterest() const { return (GetWS()) ? GetWS()->set(fPOIName.c_str()) : 0; }
/// get RooArgSet containing the nuisance parameters (return NULL if not existing)
const RooArgSet * GetNuisanceParameters() const { return (GetWS()) ? GetWS()->set(fNuisParamsName.c_str()) : 0; }
/// get RooArgSet containing the constraint parameters (return NULL if not existing)
const RooArgSet * GetConstraintParameters() const { return (GetWS()) ? GetWS()->set(fConstrParamsName.c_str()) : 0; }
/// get parameters prior pdf (return NULL if not existing)
RooAbsPdf * GetPriorPdf() const { return (GetWS()) ? GetWS()->pdf(fPriorPdfName.c_str()) : 0; }
/// get RooArgSet for observables (return NULL if not existing)
const RooArgSet * GetObservables() const { return (GetWS()) ? GetWS()->set(fObservablesName.c_str()) : 0; }
/// get RooArgSet for conditional observables (return NULL if not existing)
const RooArgSet * GetConditionalObservables() const { return (GetWS()) ? GetWS()->set(fConditionalObsName.c_str()) : 0; }
/// get RooArgSet for global observables (return NULL if not existing)
const RooArgSet * GetGlobalObservables() const { return (GetWS()) ? GetWS()->set(fGlobalObsName.c_str()) : 0; }
/// get Proto data set (return NULL if not existing)
RooAbsData * GetProtoData() const { return (GetWS()) ? GetWS()->data(fProtoDataName.c_str()) : 0; }
/// get RooArgSet for parameters for a particular hypothesis (return NULL if not existing)
const RooArgSet * GetSnapshot() const;
void LoadSnapshot() const;
RooWorkspace * GetWS() const;
/// alias for GetWS()
RooWorkspace * GetWorkspace() const { return GetWS(); }
/// guesses Observables and ParametersOfInterest if not already set
void GuessObsAndNuisance(const RooAbsData& data);
// overload the print method
virtual void Print(Option_t* option = "") const;
protected:
// helper function to check that content of a given set is exclusively parameters
Bool_t SetHasOnlyParameters(const RooArgSet& set, const char* errorMsgPrefix=0) ;
// helper functions to define a set in the WS
void DefineSetInWS(const char* name, const RooArgSet& set);
// internal function to import Pdf in WS
void ImportPdfInWS(const RooAbsPdf & pdf);
// internal function to import data in WS
void ImportDataInWS(RooAbsData & data);
TRef fRefWS; // WS reference used in the file
std::string fWSName; // name of the WS
std::string fPdfName; // name of PDF in workspace
std::string fDataName; // name of data set in workspace
std::string fPOIName; // name for RooArgSet specifying parameters of interest
std::string fNuisParamsName; // name for RooArgSet specifying nuisance parameters
std::string fConstrParamsName; // name for RooArgSet specifying constrained parameters
std::string fPriorPdfName; // name for RooAbsPdf specifying a prior on the parameters
std::string fConditionalObsName; // name for RooArgSet specifying conditional observables
std::string fGlobalObsName; // name for RooArgSet specifying global observables
std::string fProtoDataName; // name for RooArgSet specifying dataset that should be used as protodata
std::string fSnapshotName; // name for RooArgSet that specifies a particular hypothesis
std::string fObservablesName; // name for RooArgSet specifying observable parameters.
ClassDef(ModelConfig,4) // A class that holds configuration information for a model using a workspace as a store
};
} // end namespace RooStats
#endif
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