#include "TDatime.h"
#include "TClass.h"
#include "TNamed.h"
+#include "TRandom3.h"
#include <fstream>
#include <cerrno>
#include <cassert>
fMonitorPeriod(-1),
fUniqueID(0),
fSoftwareTrigger(true, "SOFTWARE"),
- fTotalEventCounter(0)
+ fTotalEventCounter(0),
+ fCDH(NULL)
{
// Default constructor.
fIncludeFiles.Clear();
SetBit(kIncludeInput);
fDataEventsOnly = true;
+ UInt_t randomSeed = 0;
+ bool randomSeedSet = false;
+ fCDH = NULL;
for (int i = 0; i < argc; i++)
{
fMakeSoftwareTriggers = false;
continue;
}
+ if (strcmp(argv[i], "-randomseed") == 0)
+ {
+ if (randomSeedSet)
+ {
+ HLTWarning("The random seed was already specified previously with the option -randomseed."
+ "Will replace the previous value of %d with the new one.",
+ randomSeed
+ );
+ }
+ if (argc <= i+1)
+ {
+ HLTError("The number to use as the seed was not specified for the -randomseed option." );
+ return -EINVAL;
+ }
+ TString numstr = argv[i+1];
+ if (not numstr.IsDigit())
+ {
+ HLTError("The number specified in the -randomseed option is not a valid decimal integer." );
+ return -EINVAL;
+ }
+ randomSeed = numstr.Atoi();
+ randomSeedSet = true;
+ i++;
+ continue;
+ }
HLTError("Unknown option '%s'.", argv[i]);
return -EINVAL;
SetDescription(menu->DefaultDescription());
SetTriggerDomain(menu->DefaultTriggerDomain());
+ // Initialise the random number generator seed value.
+ // NOTE: The GenerateTrigger method called above will set the fUniqueID value
+ // with a random value based on a GUID that should be unique across the system.
+ // This is then used as the seed to the random number generator if the -randomseed
+ // option is not used.
+ if (not randomSeedSet) randomSeed = fUniqueID;
+ gRandom->SetSeed(randomSeed);
+
fTotalEventCounter = 0;
return 0;
}
delete fCTPDecisions;
}
fCTPDecisions=NULL;
+ fCDH = NULL;
Int_t result = UnloadTriggerClass(fCodeFileName);
if (result != 0) return result;
AliHLTUInt32_t eventType=0;
if (!IsDataEvent(&eventType)) {
- if (eventType==gkAliEventTypeEndOfRun) PrintStatistics(fTrigger, kHLTLogImportant, 0);
+ if (eventType==gkAliEventTypeEndOfRun)
+ {
+ PrintStatistics(fTrigger, kHLTLogImportant);
+ }
if (fDataEventsOnly)
{
IgnoreEvent(); // dont generate any trigger decision.
return 0;
}
}
+
+ fCDH = NULL; // have to reset this in case ExtractTriggerData fails.
+ ExtractTriggerData(*GetTriggerData(), NULL, NULL, &fCDH, NULL);
// Copy the trigger counters in case we need to set them back to their original
// value because the PushBack method fails with ENOSPC.
// back the new global trigger decision object.
TString description;
AliHLTTriggerDomain triggerDomain;
- bool triggerResult = fTrigger->CalculateTriggerDecision(triggerDomain, description);
+ bool triggerResult = false;
+ bool matchedItems = fTrigger->CalculateTriggerDecision(triggerResult, triggerDomain, description);
if (fTrigger->CallFailed()) return -EPROTO;
AliHLTGlobalTriggerDecision decision(
triggerResult,
// The following will cause the decision to be generated with default values
// (set in fTriggerDomain and fDescription) if the trigger result is false.
- (triggerResult == true) ? triggerDomain : GetTriggerDomain(),
- (triggerResult == true) ? description.Data() : GetDescription()
+ (matchedItems == true) ? triggerDomain : GetTriggerDomain(),
+ (matchedItems == true) ? description.Data() : GetDescription()
);
decision.SetUniqueID(fUniqueID);
static UInt_t lastTime=0;
TDatime time;
- if (time.Get()-lastTime>60) {
+ if (time.Get()-lastTime>60)
+ {
lastTime=time.Get();
PrintStatistics(fTrigger, kHLTLogImportant);
}
-
+
// add readout filter to event done data
CreateEventDoneReadoutFilter(decision.TriggerDomain(), 3);
// add monitoring filter list
CreateEventDoneReadoutFilter(monitoringFilter, 4);
}
+
+ // Mask the readout list according to the CTP trigger
+ // if the classes have been initialized (mask non-zero).
+ // If we are dealing with a software trigger on the other hand then
+ // mask with the participating detector list.
+ // In both cases we must make sure that HLT is part of the readout mask.
+ if (CTPData() != NULL and CTPData()->Mask() != 0x0)
+ {
+ AliHLTReadoutList readoutlist = decision.ReadoutList();
+ AliHLTReadoutList ctpreadout = CTPData()->ReadoutList(*GetTriggerData());
+ ctpreadout.Enable(AliHLTReadoutList::kHLT);
+ readoutlist.AndEq(ctpreadout);
+ decision.ReadoutList(readoutlist); // override the readout list with the masked one.
+ }
+ else if (softwareTriggerIsValid)
+ {
+ assert(fCDH != NULL);
+ AliHLTReadoutList readoutlist = decision.ReadoutList();
+ UInt_t detectors = fCDH->GetSubDetectors();
+ AliHLTReadoutList softwareReadout(Int_t(detectors | AliHLTReadoutList::kHLT));
+ readoutlist.AndEq(softwareReadout);
+ decision.ReadoutList(readoutlist); // override the readout list with the masked one.
+ }
if (TriggerEvent(&decision, kAliHLTDataTypeGlobalTrigger) == -ENOSPC)
{
return -EIO;
}
Int_t version = store->GetLatestVersion(cdbPath, GetRunNo());
+ if (version < 0)
+ {
+ HLTError("Could not find an entry in the CDB for \"%s\".", cdbPath);
+ return -EIO;
+ }
Int_t subVersion = store->GetLatestSubVersion(cdbPath, GetRunNo(), version);
AliCDBEntry* entry = AliCDBManager::Instance()->Get(cdbPath, GetRunNo(), version, subVersion);
if (entry == NULL)
code << "#include \"TClass.h\"" << endl;
code << "#include \"TString.h\"" << endl;
code << "#include \"TClonesArray.h\"" << endl;
+ code << "#include \"TRandom3.h\"" << endl;
code << "#include \"AliHLTLogging.h\"" << endl;
code << "#include \"AliHLTGlobalTrigger.h\"" << endl;
code << "#include \"AliHLTGlobalTriggerDecision.h\"" << endl;
// positive results. Again, if no trailing operators are used in the individual
// merging expressions then the default domain operator is placed between two
// expression fragments.
- code << " virtual bool CalculateTriggerDecision(AliHLTTriggerDomain& _domain_, TString& _description_) {" << endl;
+ code << " virtual bool CalculateTriggerDecision(bool& _trigger_result_, AliHLTTriggerDomain& _domain_, TString& _description_) {" << endl;
if (fDebugMode)
{
code << "#ifdef __CINT__" << endl;
code << " if (" << triggerCondition << ") {" << endl;
code << " ++fCounter[" << i << "];" << endl;
const char* indentation = "";
- if (item->PreScalar() != 0)
+ // Generate the code to handle the prescalar and scale-down
+ bool havePrescalar = item->PreScalar() != 0;
+ bool haveScaledown = item->ScaleDown() < 1;
+ if (havePrescalar or haveScaledown)
{
indentation = " ";
- code << " if ((fCounter[" << i << "] % " << item->PreScalar() << ") == 1) {" << endl;
+ code << " if (";
+ if (havePrescalar) code << "(fCounter[" << i << "] % " << item->PreScalar() << ") == 1";
+ if (havePrescalar and haveScaledown) code << " && ";
+ if (haveScaledown)
+ {
+ std::streamsize oldprecision = code.precision(17);
+ code << "gRandom->Rndm() < " << item->ScaleDown();
+ code.precision(oldprecision);
+ }
+ code << ") {" << endl;
}
code << indentation << " _item_result_ = true;" << endl;
if (fDebugMode)
code << indentation << " HLTDebug(Form(\"Matched trigger condition " << i
<< " (Description = '%s').\", fMenuItemDescription" << i << ".Data()));" << endl;
}
- if (item->PreScalar() != 0)
+ if (havePrescalar or haveScaledown)
{
code << " }" << endl;
}
code << " HLTDebug(Form(\"Matched triggers in trigger priority group " << priorities[n] << ".\"));" << endl;
}
}
+ bool methodReturnResult = true;
+ if (priorityGroup[n].size() > 0)
+ {
+ const AliHLTTriggerMenuItem* item = menu->Item(priorityGroup[n][0]);
+ methodReturnResult = item->DefaultResult();
+ }
+ // Check to see if the items of the group all have the same default result.
+ // If not then warn the user since only the first item's value will be used.
+ for (size_t m = 1; m < priorityGroup[n].size(); m++)
+ {
+ const AliHLTTriggerMenuItem* item = menu->Item(priorityGroup[n][m]);
+ if (item->DefaultResult() != methodReturnResult)
+ {
+ HLTWarning("Found items with different default results set for priority group %d."
+ "Will only use the value from the first item.",
+ item->Priority()
+ );
+ break;
+ }
+ }
+ code << " _trigger_result_ = " << (methodReturnResult ? "true" : "false") << ";" << endl;
code << " return true;" << endl;
code << " }" << endl;
}
code << " _domain_.Clear();" << endl;
code << " _description_ = \"\";" << endl;
+ code << " _trigger_result_ = " << (menu->DefaultResult() ? "true" : "false") << ";" << endl;
code << " return false;" << endl;
code << " }" << endl;
bool AliHLTGlobalTriggerComponent::FillSoftwareTrigger()
{
// Fills the fSoftwareTrigger structure.
- const AliRawDataHeader* cdh;
- if (ExtractTriggerData(*GetTriggerData(), NULL, NULL, &cdh, NULL) != 0) return false;
- UChar_t l1msg = cdh->GetL1TriggerMessage();
+
+ if (fCDH == NULL) return false;
+ UChar_t l1msg = fCDH->GetL1TriggerMessage();
if ((l1msg & 0x1) == 0x0) return false; // skip physics events.
// From here on everything must be a software trigger.
if (((l1msg >> 2) & 0xF) == 0xE)
fSoftwareTrigger.Name("SOFTWARE");
fSoftwareTrigger.Description("Generated internal software trigger.");
}
- UInt_t detectors = cdh->GetSubDetectors();
+ UInt_t detectors = fCDH->GetSubDetectors();
fSoftwareTrigger.ReadoutList( AliHLTReadoutList(Int_t(detectors)) );
return true;
}
int AliHLTGlobalTriggerComponent::PrintStatistics(const AliHLTGlobalTrigger* pTrigger, AliHLTComponentLogSeverity level, int offset) const
{
// print some statistics
- int totalEvents=GetEventCount()+offset;
+ int totalEvents=fTotalEventCounter+offset;
const TArrayL64& counters = pTrigger->GetCounters();
if (pTrigger->CallFailed()) return -EPROTO;
for (int i = 0; i < counters.GetSize(); i++) {