#include <TObjString.h>
+#include <TBranch.h>
+
#include "AliESDEvent.h"
-#include "AliRawEvent.h"
-#include "AliRawDataArray.h"
+#include "AliRawEventV2.h"
+#include "AliRawDataArrayV2.h"
#include "AliRawEventHeaderBase.h"
-#include "AliRawEquipment.h"
#include "AliRawEquipmentHeader.h"
-#include "AliStats.h"
#include "AliRawDB.h"
const char *AliRawDB::fgkAliRootTag = "$Rev$";
-// Split TPC into 9 branches in order to avoid problems with big memory
+// Split TPC into 18 branches in order to avoid problems with big memory
// consumption in case of TPC events w/o zero-suppression
-Int_t AliRawDB::fgkDetBranches[AliDAQ::kNDetectors+1] = {1,1,1,18,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1};
+Int_t AliRawDB::fgkDetBranches[AliDAQ::kNDetectors+1] = {1,1,1,18,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,10,1};
//______________________________________________________________________________
-AliRawDB::AliRawDB(AliRawEvent *event,
+AliRawDB::AliRawDB(AliRawEventV2 *event,
AliESDEvent *esd,
Int_t compress,
- const char* fileName) :
+ const char* fileName,
+ Int_t basketsize) :
fRawDB(NULL),
fTree(NULL),
fEvent(event),
fESDTree(NULL),
fESD(esd),
fCompress(compress),
+ fBasketSize(basketsize),
fMaxSize(-1),
fFS1(""),
fFS2(""),
// Create a new raw DB
for (Int_t iDet = 0; iDet < AliDAQ::kNDetectors; iDet++) {
- fDetRawData[iDet] = new AliRawDataArray*[fgkDetBranches[iDet]];
+ fDetRawData[iDet] = new AliRawDataArrayV2*[fgkDetBranches[iDet]];
Int_t nDDLsPerBranch = AliDAQ::NumberOfDdls(iDet)/fgkDetBranches[iDet];
for (Int_t iBranch = 0; iBranch < fgkDetBranches[iDet]; iBranch++)
- fDetRawData[iDet][iBranch] = new AliRawDataArray(nDDLsPerBranch);
+ fDetRawData[iDet][iBranch] = new AliRawDataArrayV2(nDDLsPerBranch);
}
- fDetRawData[AliDAQ::kNDetectors] = new AliRawDataArray*[fgkDetBranches[AliDAQ::kNDetectors]];
+ fDetRawData[AliDAQ::kNDetectors] = new AliRawDataArrayV2*[fgkDetBranches[AliDAQ::kNDetectors]];
for (Int_t iBranch = 0; iBranch < fgkDetBranches[AliDAQ::kNDetectors]; iBranch++)
- fDetRawData[AliDAQ::kNDetectors][iBranch] = new AliRawDataArray(100);
+ fDetRawData[AliDAQ::kNDetectors][iBranch] = new AliRawDataArrayV2(100);
if (fileName) {
if (!Create(fileName))
return kFALSE;
}
- // Create raw data TTree
- MakeTree();
-
return kTRUE;
}
+static void BranchResetBit(TBranch *b)
+{
+ // Reset MapObject on this branch and all the sub-branches
+
+ b->ResetBit( kBranchObject | kBranchAny ); // Or in newer ROOT: b->ResetBit( kMapObject )
+ TIter next( b->GetListOfBranches() );
+ TBranch *sub = 0;
+ while ( (sub = (TBranch*)next() ) ) {
+ BranchResetBit( sub );
+ }
+}
+
//______________________________________________________________________________
void AliRawDB::MakeTree()
{
fTree->BranchRef();
- Int_t bufsize = 256000;
- // splitting 29.6 MB/s, no splitting 35.3 MB/s on P4 2GHz 15k SCSI
- //Int_t split = 1;
- Int_t split = 0;
- fTree->Branch("rawevent", "AliRawEvent", &fEvent, bufsize, split);
+ Int_t split = 99;
+ TBranch *b = fTree->Branch("rawevent", "AliRawEventV2", &fEvent, fBasketSize, split);
+ BranchResetBit(b);
// Make brach for each sub-detector
for (Int_t iDet = 0; iDet < AliDAQ::kNDetectors; iDet++) {
- for (Int_t iBranch = 0; iBranch < fgkDetBranches[iDet]; iBranch++)
- fTree->Branch(Form("%s%d",AliDAQ::DetectorName(iDet),iBranch),"AliRawDataArray",
- &fDetRawData[iDet][iBranch],bufsize,split);
+ for (Int_t iBranch = 0; iBranch < fgkDetBranches[iDet]; iBranch++) {
+ b = fTree->Branch(Form("%s%d",AliDAQ::DetectorName(iDet),iBranch),"AliRawDataArrayV2",
+ &fDetRawData[iDet][iBranch],fBasketSize,split);
+ BranchResetBit(b);
+ }
}
// Make special branch for unrecognized raw-data payloads
- for (Int_t iBranch = 0; iBranch < fgkDetBranches[AliDAQ::kNDetectors]; iBranch++)
- fTree->Branch(Form("Common%d",iBranch),"AliRawDataArray",
- &fDetRawData[AliDAQ::kNDetectors][iBranch],bufsize,split);
+ for (Int_t iBranch = 0; iBranch < fgkDetBranches[AliDAQ::kNDetectors]; iBranch++) {
+ b = fTree->Branch(Form("Common%d",iBranch),"AliRawDataArrayV2",
+ &fDetRawData[AliDAQ::kNDetectors][iBranch],fBasketSize,split);
+ BranchResetBit(b);
+ }
// Create tree which will contain the HLT ESD information
fESDTree = new TTree("esdTree", Form("ALICE HLT ESD tree (%s)", GetAliRootTag()));
fESDTree->SetAutoSave(21000000000LL); // autosave when 21 Gbyte written
split = 0;
- fESDTree->Branch("ESD", "AliESDEvent", &fESD, bufsize, split);
+ fESDTree->Branch("ESD", "AliESDEvent", &fESD, fBasketSize, split);
}
}
//______________________________________________________________________________
-Int_t AliRawDB::Close()
+Long64_t AliRawDB::Close()
{
// Close raw DB.
if (!fRawDB) return 0;
// Write the tree.
Bool_t error = kFALSE;
- if (fTree->Write() == 0)
- error = kTRUE;
+ if (fTree)
+ if (fTree->Write() == 0)
+ error = kTRUE;
if (fESDTree)
if (fESDTree->Write() == 0)
error = kTRUE;
// Close DB, this also deletes the fTree
fRawDB->Close();
- Int_t filesize = fRawDB->GetEND();
+ fTree = NULL;
+
+ Long64_t filesize = fRawDB->GetEND();
if (fDeleteFiles) {
gSystem->Unlink(fRawDB->GetName());
//______________________________________________________________________________
Int_t AliRawDB::Fill()
{
- // Fill the trees and return the number of written bytes
-
- for (Int_t iDet = 0; iDet < (AliDAQ::kNDetectors + 1); iDet++)
- for (Int_t iBranch = 0; iBranch < fgkDetBranches[iDet]; iBranch++)
- fDetRawData[iDet][iBranch]->ClearData();
+ // Fill the trees and return the number of written bytes
- // Move the raw-data payloads to the corresponding branches
- for(Int_t iSubEvent = 0; iSubEvent < fEvent->GetNSubEvents(); iSubEvent++) {
- AliRawEvent *subEvent = fEvent->GetSubEvent(iSubEvent);
- for(Int_t iEquipment = 0; iEquipment < subEvent->GetNEquipments(); iEquipment++) {
- AliRawEquipment *equipment = subEvent->GetEquipment(iEquipment);
- UInt_t eqId = equipment->GetEquipmentHeader()->GetId();
- Int_t ddlIndex;
- Int_t iDet = AliDAQ::DetectorIDFromDdlID(eqId,ddlIndex);
- Int_t iBranch;
- if (iDet < 0 || iDet > AliDAQ::kNDetectors) {
- iDet = AliDAQ::kNDetectors;
- iBranch = 0; // can we split somehow the unrecognized data??? For the moment - no
- }
- else {
- iBranch = (ddlIndex * fgkDetBranches[iDet])/AliDAQ::NumberOfDdls(iDet);
- }
- equipment->SetRawDataRef(fDetRawData[iDet][iBranch]);
- }
- }
+ // Create raw data TTree if it not yet done
+ if (!fTree) MakeTree();
Double_t bytes = fRawDB->GetBytesWritten();
Bool_t error = kFALSE;
// Return the total size of the trees
Long64_t total = 0;
- {
+ if (fTree) {
Int_t skey = 0;
TDirectory *dir = fTree->GetDirectory();
if (dir) {
}
//______________________________________________________________________________
-void AliRawDB::WriteStats(AliStats* stats)
+Long64_t AliRawDB::AutoSave()
{
- // Write stats to raw DB, local run DB and global MySQL DB.
-
- AliRawEventHeaderBase &header = *GetEvent()->GetHeader();
-
- // Write stats into RawDB
- TDirectory *ds = gDirectory;
- GetDB()->cd();
- stats->SetEvents(GetEvents());
- stats->SetLastId(header.GetP("Id")[0]);
- stats->SetFileSize(GetBytesWritten());
- stats->SetCompressionFactor(GetCompressionFactor());
- stats->SetEndTime();
- stats->Write("stats");
- ds->cd();
+ // Auto-save the raw-data and
+ // esd (if any) trees
+
+ Long64_t nbytes = fTree->AutoSave();
+
+ if (fESDTree) nbytes += fESDTree->AutoSave();
+
+ return nbytes;
}
//______________________________________________________________________________
// used to generate the raw data file.
// Stored in the raw-data file title.
- TString version = fgkAliRootTag;
+ static TString version = fgkAliRootTag;
version.Remove(TString::kBoth,'$');
version.ReplaceAll("Rev","AliRoot version");
return kTRUE;
}
+
+
+//______________________________________________________________________________
+void AliRawDB::Reset()
+{
+ // Clear the raw-data arrays
+ // Should be done before processing the raw-data event
+
+ for (Int_t iDet = 0; iDet < (AliDAQ::kNDetectors + 1); iDet++)
+ for (Int_t iBranch = 0; iBranch < fgkDetBranches[iDet]; iBranch++)
+ fDetRawData[iDet][iBranch]->ClearData();
+}
+
+//______________________________________________________________________________
+AliRawDataArrayV2 *AliRawDB::GetRawDataArray(UInt_t eqSize, UInt_t eqId) const
+{
+ // Return the corresponding raw-datra array (branch)
+ // depending on the equipment ID
+
+ Int_t iDet = AliDAQ::kNDetectors;
+ Int_t iBranch = 0; // can we split somehow the unrecognized data??? For the moment - no
+ if(eqSize) {
+ Int_t ddlIndex = -1;
+ iDet = AliDAQ::DetectorIDFromDdlID(eqId,ddlIndex);
+ if (iDet < 0 || iDet >= AliDAQ::kNDetectors)
+ iDet = AliDAQ::kNDetectors;
+ else
+ iBranch = (ddlIndex * fgkDetBranches[iDet])/AliDAQ::NumberOfDdls(iDet);
+ }
+
+ return fDetRawData[iDet][iBranch];
+}
+