// @(#)alimdc:$Name$:$Id$ // Author: Fons Rademakers 26/11/99 /************************************************************************** * Copyright(c) 1998-2003, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ ////////////////////////////////////////////////////////////////////////// // // // AliRawEvent // // // // Set of classes defining the ALICE RAW event format. The AliRawEvent // // class defines a RAW event. It consists of an AliEventHeader object // // an AliEquipmentHeader object, an AliRawData object and an array of // // sub-events, themselves also being AliRawEvents. The number of // // sub-events depends on the number of DATE LDC's. // // The AliRawEvent objects are written to a ROOT file using different // // technologies, i.e. to local disk via AliRawDB or via rfiod using // // AliRawRFIODB or via rootd using AliRawRootdDB or to CASTOR via // // rootd using AliRawCastorDB (and for performance testing there is // // also AliRawNullDB). // // The AliRunDB class provides the interface to the run and file // // catalogues (AliEn or plain MySQL). // // The AliStats class provides statics information that is added as // // a single keyed object to each raw file. // // The AliTagDB provides an interface to a TAG database. // // The AliMDC class is usid by the "alimdc" stand-alone program // // that reads data directly from DATE. // // // ////////////////////////////////////////////////////////////////////////// #include #include "AliRawEventHeader.h" #include "AliRawEquipment.h" #include "AliRawEvent.h" ClassImp(AliRawEvent) //______________________________________________________________________________ AliRawEvent::AliRawEvent() { // Create ALICE event object. If ownData is kFALSE we will use a static // raw data object, otherwise a private copy will be made. fNEquipments = 0; fNSubEvents = 0; fEvtHdr = 0; fEquipments = 0; fSubEvents = 0; } //______________________________________________________________________________ AliRawEvent::AliRawEvent(const AliRawEvent& rawEvent): TObject(rawEvent) { // copy constructor Fatal("AliRawEvent", "copy constructor not implemented"); } //______________________________________________________________________________ AliRawEvent& AliRawEvent::operator = (const AliRawEvent& /*rawEvent*/) { // assignment operator Fatal("operator =", "assignment operator not implemented"); return *this; } //______________________________________________________________________________ AliRawEventHeader *AliRawEvent::GetHeader() { // Get event header part of AliRawEvent. if (!fEvtHdr) fEvtHdr = new AliRawEventHeader; return fEvtHdr; } //______________________________________________________________________________ AliRawEquipment *AliRawEvent::NextEquipment() { // Returns next equipment object. if (!fEquipments) fEquipments = new TObjArray(100); // arbitrary, probably enough to prevent resizing if (fEquipments->GetSize() <= fNEquipments) { fEquipments->Expand(fNEquipments+10); Warning("NextEquipment", "expanded fEquipments by 10 to %d", fEquipments->GetSize()); } AliRawEquipment *eq; if (!(eq = (AliRawEquipment *)fEquipments->At(fNEquipments))) { eq = new AliRawEquipment; fEquipments->AddAt(eq, fNEquipments); } fNEquipments++; return eq; } //______________________________________________________________________________ AliRawEquipment *AliRawEvent::GetEquipment(Int_t index) const { // Get specified equipment. Returns 0 if equipment does not exist. if (!fEquipments) return 0; return (AliRawEquipment *) fEquipments->At(index); } //______________________________________________________________________________ AliRawEvent *AliRawEvent::NextSubEvent() { // Returns next sub-event object. if (!fSubEvents) fSubEvents = new TObjArray(100); // arbitrary, probably enough to prevent resizing if (fSubEvents->GetSize() <= fNSubEvents) { fSubEvents->Expand(fNSubEvents+10); Warning("NextSubEvent", "expanded fSubEvents by 10 to %d", fSubEvents->GetSize()); } AliRawEvent *ev; if (!(ev = (AliRawEvent *)fSubEvents->At(fNSubEvents))) { ev = new AliRawEvent; fSubEvents->AddAt(ev, fNSubEvents); } fNSubEvents++; return ev; } //______________________________________________________________________________ AliRawEvent *AliRawEvent::GetSubEvent(Int_t index) const { // Get specified sub event. Returns 0 if sub event does not exist. if (!fSubEvents) return 0; return (AliRawEvent *) fSubEvents->At(index); } //______________________________________________________________________________ void AliRawEvent::Reset() { // Reset the event in case it needs to be re-used (avoiding costly // new/delete cycle). We reset the size marker for the AliRawData // objects and the sub event counter. for (int i = 0; i < fNEquipments; i++) { AliRawEquipment *eq = (AliRawEquipment *)fEquipments->At(i); eq->Reset(); } fNEquipments = 0; for (int i = 0; i < fNSubEvents; i++) { AliRawEvent *ev = (AliRawEvent *)fSubEvents->At(i); ev->Reset(); } fNSubEvents = 0; } //______________________________________________________________________________ AliRawEvent::~AliRawEvent() { // Clean up event object. Delete also, possible, private raw data. delete fEvtHdr; if (fEquipments) fEquipments->Delete(); delete fEquipments; if (fSubEvents) fSubEvents->Delete(); delete fSubEvents; }