// set of classes to compare the performance of STL vector versus // native Root TClonesArray. // See main program bench.cxx #include "TRandom.h" #include "TFile.h" #include "TTree.h" #include "TClass.h" //the next include must be the last one on systems like Windows/NT #include "TBench.h" #include "Riostream.h" THit s_hit; #ifdef R__HPUX namespace std { using ::make_pair; } #endif #ifdef R__WIN32 const char *demofile = "bench.root"; #else const char *demofile = "bench.root"; #endif const char* demofile_name(const char* tit) { static std::string fn; #ifdef R__WIN32 fn = "bench."; #else fn = "bench."; #endif fn += tit; fn += ".root"; return fn.c_str(); } namespace { struct Counter { std::string name; int count; Counter(const std::string& n) : name(n), count(0) {} ~Counter() { print(); } void print(const std::string& msg="") { std::cout << msg << " --- Counter: " << name << " " << count << std::endl; } }; } Counter hitCount("THit"); //////////////////////////////////////////////////////////////////////////////// ClassImp(THit); //------------------------------------------------------------- THit::THit() { fPulses = 0; fNpulses = 0; hitCount.count++; } THit::THit(const THit &hit) { hitCount.count++; fX = hit.fX; fY = hit.fY; fZ = hit.fZ; for (Int_t i=0;i<10;i++) fTime[i] = hit.fTime[i]; fPulses = 0; fNpulses = hit.fNpulses; if (fNpulses == 0) return; if (hit.fPulses == 0) return; fPulses = new int[fNpulses]; for (int j=0;jGaus(0,1); fY = gRandom->Gaus(0,1); fZ = gRandom->Gaus(0,10); if (fPulses && fNpulses > 0) delete [] fPulses; fNpulses = t%20 + 1; fPulses = new int[fNpulses]; for (int j=0;j #endif TBuffer &operator>>(TBuffer &buf, THit *&obj) { obj = new THit(); obj->Streamer(buf); return buf; } #endif TBuffer &operator<<(TBuffer &buf, const THit *obj) { ((THit*)obj)->Streamer(buf); return buf; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TObjHit); //------------------------------------------------------------- TObjHit::TObjHit() :THit() {} TObjHit::TObjHit(int t) :THit(t) {} //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhit); //------------------------------------------------------------- TSTLhit::TSTLhit() { } TSTLhit::TSTLhit(Int_t nmax) { fNhits = nmax; fList1.reserve(nmax); } TSTLhit::~TSTLhit() { Clear(); hitCount.print(); } void TSTLhit::Clear(Option_t *) { fList1.erase(fList1.begin(),fList1.end()); } void TSTLhit::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhit"),"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhit",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhit")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhit::ReadTree() { TSTLhit *top = this; TFile *f = new TFile(demofile_name("TSTLhit")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitList); //------------------------------------------------------------- TSTLhitList::TSTLhitList() { } TSTLhitList::TSTLhitList(Int_t nmax) { fNhits = nmax; } TSTLhitList::~TSTLhitList() { Clear(); hitCount.print(); } void TSTLhitList::Clear(Option_t *) { fList1.erase(fList1.begin(),fList1.end()); } void TSTLhitList::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhitList"),"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitList",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitList")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitList::ReadTree() { TSTLhitList *top = this; TFile *f = new TFile(demofile_name("TSTLhitList")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitDeque); //------------------------------------------------------------- TSTLhitDeque::TSTLhitDeque() { } TSTLhitDeque::TSTLhitDeque(Int_t nmax) { fNhits = nmax; } TSTLhitDeque::~TSTLhitDeque() { Clear(); hitCount.print(); } void TSTLhitDeque::Clear(Option_t *) { fList1.erase(fList1.begin(),fList1.end()); } void TSTLhitDeque::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhitDeque"),"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitDeque",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitDeque")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitDeque::ReadTree() { TSTLhitDeque *top = this; TFile *f = new TFile(demofile_name("TSTLhitDeque")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitSet); //------------------------------------------------------------- TSTLhitSet::TSTLhitSet() { } TSTLhitSet::TSTLhitSet(Int_t nmax) { fNhits = nmax; } TSTLhitSet::~TSTLhitSet() { Clear(); hitCount.print(); } void TSTLhitSet::Clear(Option_t *) { fList1.erase(fList1.begin(),fList1.end()); } void TSTLhitSet::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhitSet"),"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitSet",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitSet")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitSet::ReadTree() { TSTLhitSet *top = this; TFile *f = new TFile(demofile_name("TSTLhitSet")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitMultiset); //------------------------------------------------------------- TSTLhitMultiset::TSTLhitMultiset() { } TSTLhitMultiset::TSTLhitMultiset(Int_t nmax) { fNhits = nmax; } TSTLhitMultiset::~TSTLhitMultiset() { Clear(); hitCount.print(); } void TSTLhitMultiset::Clear(Option_t *) { fList1.erase(fList1.begin(),fList1.end()); } void TSTLhitMultiset::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhitMultiset"),"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitMultiset",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitMultiset")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitMultiset::ReadTree() { TSTLhitMultiset *top = this; TFile *f = new TFile(demofile_name("TSTLhitMultiset")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitMap); //------------------------------------------------------------- TSTLhitMap::TSTLhitMap() { } TSTLhitMap::TSTLhitMap(Int_t nmax) { fNhits = nmax; } TSTLhitMap::~TSTLhitMap() { Clear(); hitCount.print(); } void TSTLhitMap::Clear(Option_t *) { fList1.clear(); } void TSTLhitMap::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j (j,s_hit)); } } Int_t TSTLhitMap::MakeTree(int mode, int nevents, int compression, int split, float &cx) { TFile *f=0; TTree *T=0; TSTLhitMap *top = this; if (mode > 0) { f = new TFile(demofile_name("TSTLhitMap"),"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitMap",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitMap")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitMap::ReadTree() { TSTLhitMap *top = this; TFile *f = new TFile(demofile_name("TSTLhitMap")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitMultiMap); //------------------------------------------------------------- TSTLhitMultiMap::TSTLhitMultiMap() { } TSTLhitMultiMap::TSTLhitMultiMap(Int_t nmax) { fNhits = nmax; } TSTLhitMultiMap::~TSTLhitMultiMap() { Clear(); hitCount.print(); } void TSTLhitMultiMap::Clear(Option_t *) { fList1.clear(); } void TSTLhitMultiMap::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j temp(j,s_hit); fList1.insert(temp); } } Int_t TSTLhitMultiMap::MakeTree(int mode, int nevents, int compression, int split, float &cx) { TFile *f=0; TTree *T=0; TSTLhitMultiMap *top = this; if (mode > 0) { f = new TFile(demofile_name("TSTLhitMultiMap"),"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitMultiMap",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitMultiMap")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitMultiMap::ReadTree() { TSTLhitMultiMap *top = this; TFile *f = new TFile(demofile_name("TSTLhitMultiMap")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } #if 0 //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitHashSet); //------------------------------------------------------------- TSTLhitHashSet::TSTLhitHashSet() { } TSTLhitHashSet::TSTLhitHashSet(Int_t nmax) { fNhits = nmax; } TSTLhitHashSet::~TSTLhitHashSet() { Clear(); hitCount.print(); } void TSTLhitHashSet::Clear(Option_t *) { fList1.erase(fList1.begin(),fList1.end()); } void TSTLhitHashSet::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile,"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitHashSet",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitHashSet::ReadTree() { TSTLhitHashSet *top = this; TFile *f = new TFile(demofile); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitHashMultiSet); //------------------------------------------------------------- TSTLhitHashMultiSet::TSTLhitHashMultiSet() { } TSTLhitHashMultiSet::TSTLhitHashMultiSet(Int_t nmax) { fNhits = nmax; } TSTLhitHashMultiSet::~TSTLhitHashMultiSet() { Clear(); hitCount.print(); } void TSTLhitHashMultiSet::Clear(Option_t *) { fList1.erase(fList1.begin(),fList1.end()); } void TSTLhitHashMultiSet::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile,"recreate","STLhit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitHashMultiSet",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitHashMultiSet::ReadTree() { TSTLhitHashMultiSet *top = this; TFile *f = new TFile(demofile); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } #endif //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitStar); //------------------------------------------------------------- TSTLhitStar::TSTLhitStar() { } TSTLhitStar::TSTLhitStar(Int_t nmax) { fNhits = nmax; fList2.reserve(nmax); } TSTLhitStar::~TSTLhitStar() { Clear(); hitCount.print(); } void TSTLhitStar::Clear(Option_t *) { for (std::vector::iterator it = fList2.begin(); it 0) { f = new TFile(demofile_name("TSTLhitStar"),"recreate","STLhitStar",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitStar",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitStar")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitStar::ReadTree() { TSTLhitStar *top = this; TFile *f = new TFile(demofile_name("TSTLhitStar")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitStarList); //------------------------------------------------------------- TSTLhitStarList::TSTLhitStarList() { } TSTLhitStarList::TSTLhitStarList(Int_t nmax) { fNhits = nmax; } TSTLhitStarList::~TSTLhitStarList() { Clear(); hitCount.print(); } void TSTLhitStarList::Clear(Option_t *) { for (std::list::iterator it = fList2.begin(); it!=fList2.end(); it++) { delete (*it); } fList2.erase(fList2.begin(),fList2.end()); } void TSTLhitStarList::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhitStarList"),"recreate","STLhitStar",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitStarList",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitStarList")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitStarList::ReadTree() { TSTLhitStarList *top = this; TFile *f = new TFile(demofile_name("TSTLhitStarList")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitStarDeque); //------------------------------------------------------------- TSTLhitStarDeque::TSTLhitStarDeque() { } TSTLhitStarDeque::TSTLhitStarDeque(Int_t nmax) { fNhits = nmax; } TSTLhitStarDeque::~TSTLhitStarDeque() { Clear(); hitCount.print(); } void TSTLhitStarDeque::Clear(Option_t *) { for (deque::iterator it = fList2.begin(); it!=fList2.end(); it++) { delete (*it); } fList2.erase(fList2.begin(),fList2.end()); } void TSTLhitStarDeque::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhitStarDeque"),"recreate","STLhitStar",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitStarDeque",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitStarDeque")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitStarDeque::ReadTree() { TSTLhitStarDeque *top = this; TFile *f = new TFile(demofile_name("TSTLhitStarDeque")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitStarSet); //------------------------------------------------------------- TSTLhitStarSet::TSTLhitStarSet() { } TSTLhitStarSet::TSTLhitStarSet(Int_t nmax) { fNhits = nmax; } TSTLhitStarSet::~TSTLhitStarSet() { Clear(); hitCount.print(); } void TSTLhitStarSet::Clear(Option_t *) { for (set::iterator it = fList2.begin(); it!=fList2.end(); it++) { delete (*it); } fList2.erase(fList2.begin(),fList2.end()); //hitCount.print("End of Clear"); } void TSTLhitStarSet::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhitStarSet"),"recreate","STLhitStar",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitStarSet",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitStarSet")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitStarSet::ReadTree() { TSTLhitStarSet *top = this; TFile *f = new TFile(demofile_name("TSTLhitStarSet")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitStarMultiSet); //------------------------------------------------------------- TSTLhitStarMultiSet::TSTLhitStarMultiSet() { } TSTLhitStarMultiSet::TSTLhitStarMultiSet(Int_t nmax) { fNhits = nmax; } TSTLhitStarMultiSet::~TSTLhitStarMultiSet() { Clear(); hitCount.print(); } void TSTLhitStarMultiSet::Clear(Option_t *) { for (multiset::iterator it = fList2.begin(); it!=fList2.end(); it++) { delete (*it); } fList2.erase(fList2.begin(),fList2.end()); } void TSTLhitStarMultiSet::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile_name("TSTLhitStarMultiSet"),"recreate","STLhitStar",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitStarMultiSet",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitStarMultiSet")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitStarMultiSet::ReadTree() { TSTLhitStarMultiSet *top = this; TFile *f = new TFile(demofile_name("TSTLhitStarMultiSet")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitStarMap); //------------------------------------------------------------- TSTLhitStarMap::TSTLhitStarMap() { } TSTLhitStarMap::TSTLhitStarMap(Int_t nmax) { fNhits = nmax; } TSTLhitStarMap::~TSTLhitStarMap() { Clear(); hitCount.print(); } void TSTLhitStarMap::Clear(Option_t *) { for (std::map::iterator it = fList2.begin(); it!=fList2.end(); it++) { delete (*it).second; } fList2.clear(); } void TSTLhitStarMap::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j (j,new THit(j))); } } Int_t TSTLhitStarMap::MakeTree(int mode, int nevents, int compression, int split, float &cx) { TFile *f=0; TTree *T=0; TSTLhitStarMap *top = this; if (mode > 0) { f = new TFile(demofile_name("TSTLhitStarMap"),"recreate","STLhitStar",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitStarMap",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitStarMap")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitStarMap::ReadTree() { TSTLhitStarMap *top = this; TFile *f = new TFile(demofile_name("TSTLhitStarMap")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TSTLhitStarMultiMap); //------------------------------------------------------------- TSTLhitStarMultiMap::TSTLhitStarMultiMap() { } TSTLhitStarMultiMap::TSTLhitStarMultiMap(Int_t nmax) { fNhits = nmax; } TSTLhitStarMultiMap::~TSTLhitStarMultiMap() { Clear(); hitCount.print(); } void TSTLhitStarMultiMap::Clear(Option_t *) { for (multimap::iterator it = fList2.begin(); it!=fList2.end(); it++) { delete (*it).second; } fList2.clear(); } void TSTLhitStarMultiMap::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j temp(j,new THit(j)); fList2.insert(temp); } } Int_t TSTLhitStarMultiMap::MakeTree(int mode, int nevents, int compression, int split, float &cx) { TFile *f=0; TTree *T=0; TSTLhitStarMultiMap *top = this; if (mode > 0) { f = new TFile(demofile_name("TSTLhitStarMultiMap"),"recreate","STLhitStar",compression); T = new TTree("T","Demo tree"); T->Branch("event","TSTLhitStarMultiMap",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile_name("TSTLhitStarMultiMap")); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TSTLhitStarMultiMap::ReadTree() { TSTLhitStarMultiMap *top = this; TFile *f = new TFile(demofile_name("TSTLhitStarMultiMap")); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); Clear(); } delete f; return nbytes; } //////////////////////////////////////////////////////////////////////////////// ClassImp(TCloneshit); //------------------------------------------------------------- TCloneshit::TCloneshit() { fList3 = new TClonesArray("TObjHit"); } TCloneshit::TCloneshit(Int_t nmax) { fNhits = nmax; fList3 = new TClonesArray("TObjHit",nmax); TObjHit::Class()->IgnoreTObjectStreamer(); } TCloneshit::~TCloneshit() { Clear(); hitCount.print(); } void TCloneshit::Clear(Option_t *) { fList3->Delete(); //fList3->Clear(); } void TCloneshit::MakeEvent(int /*ievent*/) { Clear(); for (Int_t j=0; j 0) { f = new TFile(demofile,"recreate","Cloneshit",compression); T = new TTree("T","Demo tree"); T->Branch("event","TCloneshit",&top,64000,split); } for (int ievent=0; ievent 0) T->Fill(); } if (mode == 0) return 0; T->Write(); delete f; f = new TFile(demofile); Int_t nbytes = f->GetEND(); cx = f->GetCompressionFactor(); delete f; return nbytes; } Int_t TCloneshit::ReadTree() { TCloneshit *top = this; TFile *f = new TFile(demofile); TTree *T = (TTree*)f->Get("T"); T->SetBranchAddress("event",&top); Int_t nevents = (Int_t)T->GetEntries(); Int_t nbytes = 0; for (int ievent=0; ieventGetEntry(ievent); } delete f; return nbytes; }