/***************************************************************************** * Project: RooFit * * Package: RooFitCore * * @(#)root/roofitcore:$Id: RooMultiCatIter.cxx 25400 2008-09-15 10:08:28Z 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 // RooMultiCatIter iterators over all state permutations of a list of categories. // It serves as the state iterator for a RooSuperCategory or a RooMultiCategory. // Since this iterator only constructs state labels and does not change the value // of its input categories, it is not required that its inputs are LValues. // For cases where all inputs are LValues (such as for RooSuperCategory) the // values of the input can be changes by assigning the super category the // string label generated by this iterator // END_HTML // #include "RooFit.h" #if ROOT_VERSION_CODE <= ROOT_VERSION(5,19,04) #ifndef nullptr #define nullptr 0 #endif #endif #include "RooAbsCategoryLValue.h" #include "RooAbsCategoryLValue.h" #include "RooMultiCatIter.h" ClassImp(RooMultiCatIter) ; //_____________________________________________________________________________ RooMultiCatIter::RooMultiCatIter(const RooArgSet& catList, const char* rangeName) : _catList("catList") { // Construct iterator over all permutations of states of categories in catList. // If rangeName is not null, iteration is restricted to states that are selected // in the given range name if (rangeName) { _rangeName = rangeName ; } initialize(catList) ; } //_____________________________________________________________________________ RooMultiCatIter::RooMultiCatIter(const RooMultiCatIter& other) : TIterator(other), _catList("catList") { // Copy constructor initialize(other._catList) ; } //_____________________________________________________________________________ void RooMultiCatIter::initialize(const RooArgSet& catList) { // Build iterator array for given catList // Copy RooCategory list into internal argset TIterator* catIter = catList.createIterator() ; TObject* obj ; while ((obj = catIter->Next())) { _catList.add((RooAbsArg&)*obj) ; } delete catIter ; // Allocate storage for component iterators _nIter = catList.getSize() ; _iterList = new pTIterator[_nIter] ; _catPtrList = new pRooCategory[_nIter] ; _curTypeList = new RooCatType[_nIter] ; // Construct component iterators _curIter = 0 ; _curItem = 0 ; TIterator* cIter = _catList.createIterator() ; RooAbsCategoryLValue* cat ; while((cat=(RooAbsCategoryLValue*)cIter->Next())) { _catPtrList[_curIter] = cat ; _iterList[_curIter++] = cat->typeIterator() ; } delete cIter ; Reset() ; } //_____________________________________________________________________________ RooMultiCatIter::~RooMultiCatIter() { // Destructor for (_curIter=0 ; _curIter<_nIter ; _curIter++) { delete _iterList[_curIter] ; } delete[] _iterList ; delete[] _catPtrList ; delete[] _curTypeList ; } //_____________________________________________________________________________ const TCollection* RooMultiCatIter::GetCollection() const { // Dummy implementation, always returns zero //return &_catList.getCollection() ; return 0 ; } //_____________________________________________________________________________ TObjString* RooMultiCatIter::compositeLabel() { // Construct string with composite object // label corresponding to the state name // of a RooMultiCategory or RooSuperCategory // constructed from this set of input categories TString& str = _compositeLabel.String() ; str = "{" ; Int_t i ; for (i=0 ; i<_nIter ; i++) { if (i>0) str.Append(";") ; str.Append(_curTypeList[i].GetName()) ; } str.Append("}") ; return &_compositeLabel ; } //_____________________________________________________________________________ TObject* RooMultiCatIter::Next() { // Iterator increment operator // Check for end if (_curIter==_nIter) { _curItem = 0; return 0 ; } RooCatType* next = (RooCatType*) _iterList[_curIter]->Next() ; if (next) { // Increment current iterator _curTypeList[_curIter] = *next ; //_catPtrList[_curIter]->setIndex(next->getVal()) ; // If higher order increment was successful, reset master iterator if (_curIter>0) _curIter=0 ; _curItem = compositeLabel() ; return _curItem ; } else { // Reset current iterator _iterList[_curIter]->Reset() ; next = (RooCatType*) _iterList[_curIter]->Next() ; if (next) _curTypeList[_curIter] = *next ; //if (next) _catPtrList[_curIter]->setIndex(next->getVal()) ; // Increment next iterator _curIter++ ; _curItem = Next() ; return _curItem ; } } //_____________________________________________________________________________ void RooMultiCatIter::Reset() { // Rewind master iterator for (_curIter=0 ; _curIter<_nIter ; _curIter++) { TIterator* cIter = _iterList[_curIter] ; cIter->Reset() ; RooCatType* first = (RooCatType*) cIter->Next() ; if (first) { if (_curIter==0) cIter->Reset() ; _curTypeList[_curIter] = *first ; } } _curIter=0 ; } //_____________________________________________________________________________ TObject *RooMultiCatIter::operator*() const { // Return current item (dummy) return _curItem ; } //_____________________________________________________________________________ bool RooMultiCatIter::operator!=(const TIterator &aIter) const { // Comparison operator to other iterator // Returns true if both iterator iterate over the // same set of input categories and are not at the // same sequential position if (nullptr == &aIter) return false; if ((aIter.IsA() == RooMultiCatIter::Class())) { const RooMultiCatIter &iter(dynamic_cast<const RooMultiCatIter &>(aIter)); return (_curItem != iter._curItem); } return false; }