// $Id$ /************************************************************************** * This file is property of and copyright by the ALICE HLT Project * * ALICE Experiment at CERN, All rights reserved. * * * * Primary Authors: Artur Szostak * * for The ALICE HLT Project. * * * * 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. * **************************************************************************/ /// @file AliHLTGlobalTriggerComponent.cxx /// @author Artur Szostak /// @date 26 Nov 2008 /// @brief Implementation of the AliHLTGlobalTriggerComponent component class. /// /// The AliHLTGlobalTriggerComponentComponent class applies the global HLT trigger to all /// trigger information produced by components deriving from AliHLTTrigger. #include "AliHLTGlobalTriggerComponent.h" #include "AliHLTGlobalTriggerDecision.h" #include "AliHLTGlobalTrigger.h" #include "AliHLTGlobalTriggerConfig.h" #include "AliHLTTriggerMenu.h" #include "AliHLTCTPData.h" #include "AliCDBManager.h" #include "AliCDBStorage.h" #include "AliCDBEntry.h" #include "TUUID.h" #include "TROOT.h" #include "TSystem.h" #include "TRegexp.h" #include "TClonesArray.h" #include "TObjString.h" #include "TString.h" #include "TInterpreter.h" #include "TDatime.h" #include "TClass.h" #include #include #include #include #include ClassImp(AliHLTGlobalTriggerComponent) const char* AliHLTGlobalTriggerComponent::fgkTriggerMenuCDBPath = "HLT/ConfigHLT/HLTGlobalTrigger"; namespace { /** * This method is used as a comparison functor with the STL sort routines. */ bool AliHLTDescendingNumbers(UInt_t a, UInt_t b) { return a > b; } } // end of namespace AliHLTGlobalTriggerComponent::AliHLTGlobalTriggerComponent() : AliHLTTrigger(), fTrigger(NULL), fDebugMode(false), fRuntimeCompile(true), fSkipCTPCounters(false), fDeleteCodeFile(false), fCodeFileName(), fClassName(), fCTPDecisions(NULL), fBufferSizeConst(2*(sizeof(AliHLTGlobalTriggerDecision) + sizeof(AliHLTReadoutList))), fBufferSizeMultiplier(1.), fIncludePaths(TObjString::Class()), fIncludeFiles(TObjString::Class()), fLibStateAtLoad() { // Default constructor. ClearInfoForNewEvent(false); } AliHLTGlobalTriggerComponent::~AliHLTGlobalTriggerComponent() { // Default destructor. if (fTrigger != NULL) delete fTrigger; if (fCTPDecisions) { fCTPDecisions->Delete(); delete fCTPDecisions; } } void AliHLTGlobalTriggerComponent::GetOutputDataTypes(AliHLTComponentDataTypeList& list) const { // Returns the kAliHLTDataTypeGlobalTrigger type as output. list.push_back(kAliHLTDataTypeGlobalTrigger); } void AliHLTGlobalTriggerComponent::GetOutputDataSize(unsigned long& constBase, double& inputMultiplier) { // Returns the output data size estimate. constBase = fBufferSizeConst; inputMultiplier = fBufferSizeMultiplier; } Int_t AliHLTGlobalTriggerComponent::DoInit(int argc, const char** argv) { // Initialises the global trigger component. fDebugMode = false; fClassName = ""; fCodeFileName = ""; fDeleteCodeFile = false; const char* configFileName = NULL; const char* codeFileName = NULL; fIncludePaths.Clear(); fIncludeFiles.Clear(); for (int i = 0; i < argc; i++) { if (strcmp(argv[i], "-config") == 0) { if (configFileName != NULL) { HLTWarning("Trigger configuration macro was already specified." " Will replace previous value given by -config." ); } if (argc <= i+1) { HLTError("The trigger configuration macro filename was not specified." ); return -EINVAL; } configFileName = argv[i+1]; i++; continue; } if (strcmp(argv[i], "-includepath") == 0) { if (argc <= i+1) { HLTError("The include path was not specified." ); return -EINVAL; } new (fIncludePaths[fIncludePaths.GetEntriesFast()]) TObjString(argv[i+1]); i++; continue; } if (strcmp(argv[i], "-include") == 0) { if (argc <= i+1) { HLTError("The include file name was not specified." ); return -EINVAL; } new (fIncludeFiles[fIncludeFiles.GetEntriesFast()]) TObjString(argv[i+1]); i++; continue; } if (strcmp(argv[i], "-debug") == 0) { if (fDebugMode == true) { HLTWarning("The debug flag was already specified. Ignoring this instance."); } fDebugMode = true; continue; } if (strcmp(argv[i], "-cint") == 0) { fRuntimeCompile = false; continue; } if (strcmp(argv[i], "-usecode") == 0) { if (codeFileName != NULL) { HLTWarning("Custom trigger code file was already specified." " Will replace previous value given by -usecode." ); } if (argc <= i+1) { HLTError("The custom trigger code filename was not specified." ); return -EINVAL; } codeFileName = argv[i+1]; if (argc <= i+2) { HLTError("The custom trigger class name was not specified." ); return -EINVAL; } fClassName = argv[i+2]; i += 2; continue; } if (strcmp(argv[i], "-skipctp") == 0) { HLTInfo("Skipping CTP counters in trigger decision"); fSkipCTPCounters=true; continue; } HLTError("Unknown option '%s'.", argv[i]); return -EINVAL; } // for loop const AliHLTTriggerMenu* menu = NULL; if (configFileName != NULL) { TString cmd = ".x "; cmd += configFileName; gROOT->ProcessLine(cmd); menu = AliHLTGlobalTriggerConfig::Menu(); } // Try load the trigger menu from the CDB if it is not loaded yet with the // -config option int result = -ENOENT; if (menu == NULL) { result = LoadTriggerMenu(fgkTriggerMenuCDBPath, menu); } if (menu == NULL) { HLTError("No trigger menu configuration found or specified."); return result; } if (codeFileName == NULL) { result = GenerateTrigger(menu, fClassName, fCodeFileName, fIncludePaths, fIncludeFiles); if (result == 0) fDeleteCodeFile = true; } else { result = LoadTriggerClass(codeFileName, fIncludePaths); if (result == 0) fCodeFileName = codeFileName; } if (result != 0) return result; fTrigger = AliHLTGlobalTrigger::CreateNew(fClassName.Data()); if (fTrigger == NULL) { HLTError("Could not create a new instance of '%s'.", fClassName.Data()); return -EIO; } fTrigger->FillFromMenu(*menu); if (fTrigger->CallFailed()) return -EPROTO; // setup the CTP accounting in AliHLTComponent SetupCTPData(); // Set the default values from the trigger menu. SetDescription(menu->DefaultDescription()); SetTriggerDomain(menu->DefaultTriggerDomain()); return 0; } Int_t AliHLTGlobalTriggerComponent::DoDeinit() { // Cleans up the global trigger component. if (fTrigger != NULL) { delete fTrigger; fTrigger = NULL; } if (fCTPDecisions) { fCTPDecisions->Delete(); delete fCTPDecisions; } fCTPDecisions=NULL; Int_t result = UnloadTriggerClass(fCodeFileName); if (result != 0) return result; if (fDeleteCodeFile and !fCodeFileName.IsNull() && gSystem->AccessPathName(fCodeFileName)==0 && !fDebugMode) { fCodeFileName.ReplaceAll(".cxx", "*"); TString command="rm "; command+=fCodeFileName; gSystem->Exec(command); } fCodeFileName=""; fDeleteCodeFile=false; return 0; } AliHLTComponent* AliHLTGlobalTriggerComponent::Spawn() { // Creates a new object instance. return new AliHLTGlobalTriggerComponent; } int AliHLTGlobalTriggerComponent::DoTrigger() { // This method will apply the global trigger decision. if (fTrigger == NULL) { HLTFatal("Global trigger implementation object is NULL!"); return -EIO; } AliHLTUInt32_t eventType=0; if (!IsDataEvent(&eventType)) { if (eventType==gkAliEventTypeEndOfRun) PrintStatistics(fTrigger, kHLTLogImportant, 0); return 0; } // Copy the trigger counters in case we need to set them back to their original // value because the PushBack method fails with ENOSPC. TArrayL64 originalCounters = fTrigger->GetCounters(); if (fTrigger->CallFailed()) return -EPROTO; fTrigger->NewEvent(); if (fTrigger->CallFailed()) return -EPROTO; // Fill in the input data. const TObject* obj = GetFirstInputObject(); while (obj != NULL) { fTrigger->Add(obj, GetDataType(), GetSpecification()); if (fTrigger->CallFailed()) return -EPROTO; obj = GetNextInputObject(); } // add trigger decisions for every CTP class const AliHLTCTPData* pCTPData=CTPData(); if (pCTPData) { AddCTPDecisions(fTrigger, pCTPData, GetTriggerData()); } // Calculate the global trigger result and trigger domain, then create and push // back the new global trigger decision object. TString description; AliHLTTriggerDomain triggerDomain; bool triggerResult = fTrigger->CalculateTriggerDecision(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() ); // mask the readout list according to the CTP trigger // if the classes have been initialized (mask non-zero) if (pCTPData && pCTPData->Mask()) { AliHLTEventDDL eventDDL=pCTPData->ReadoutList(*GetTriggerData()); AliHLTReadoutList ctpreadout(eventDDL); ctpreadout.Enable(AliHLTReadoutList::kHLT); AliHLTReadoutList maskedList=decision.ReadoutList(); maskedList.AndEq(ctpreadout); decision.ReadoutList(maskedList); } decision.SetCounters(fTrigger->GetCounters(), GetEventCount()+1); if (fTrigger->CallFailed()) return -EPROTO; static UInt_t lastTime=0; TDatime time; if (time.Get()-lastTime>5) { lastTime=time.Get(); PrintStatistics(fTrigger); } // Add the input objects used to the global decision. obj = GetFirstInputObject(); while (obj != NULL) { if (obj->IsA() == AliHLTTriggerDecision::Class()) { decision.AddTriggerInput( *static_cast(obj) ); } else { decision.AddInputObject(obj); } obj = GetNextInputObject(); } if (!fSkipCTPCounters && CTPData()) decision.AddInputObject(CTPData()); CreateEventDoneReadoutFilter(decision.TriggerDomain(), 3); CreateEventDoneReadoutFilter(decision.TriggerDomain(), 4); if (TriggerEvent(&decision, kAliHLTDataTypeGlobalTrigger) == -ENOSPC) { // Increase the estimated buffer space required if the PushBack methods in TriggerEvent // returned the "no buffer space" error code. Also remember to set the trigger counters // back to what they were, otherwise triggers will be double counted when we try to reprocess // this event with larger buffers. fBufferSizeConst += 1024*1024; fBufferSizeMultiplier *= 2.; fTrigger->SetCounters(originalCounters); if (fTrigger->CallFailed()) return -EPROTO; return -ENOSPC; } return 0; } int AliHLTGlobalTriggerComponent::Reconfigure(const char* cdbEntry, const char* chainId) { // Reconfigure the component by loading the trigger menu and recreating the // trigger logic class. const char* path = fgkTriggerMenuCDBPath; const char* id = "(unknown)"; if (cdbEntry != NULL) path = cdbEntry; if (chainId != NULL and chainId[0] != '\0') id = chainId; HLTInfo("Reconfiguring from '%s' for chain component '%s'.", path, id); const AliHLTTriggerMenu* menu = NULL; int result = LoadTriggerMenu(path, menu); if (result != 0) return result; TString className; TString codeFileName; result = GenerateTrigger(menu, className, codeFileName, fIncludePaths, fIncludeFiles); if (result != 0) return result; AliHLTGlobalTrigger* trigger = AliHLTGlobalTrigger::CreateNew(className.Data()); if (trigger == NULL) { HLTError("Could not create a new instance of '%s'.", className.Data()); // Make sure to cleanup after the new code file. UnloadTriggerClass(codeFileName); if (not codeFileName.IsNull() and gSystem->AccessPathName(codeFileName)==0 and not fDebugMode) { codeFileName.ReplaceAll(".cxx", "*"); TString command="rm "; command+=codeFileName; gSystem->Exec(command); } return -EIO; } if (fTrigger != NULL) { delete fTrigger; fTrigger = NULL; } fTrigger = trigger; fTrigger->FillFromMenu(*menu); if (fTrigger->CallFailed()) return -EPROTO; // Set the default values from the trigger menu. SetDescription(menu->DefaultDescription()); SetTriggerDomain(menu->DefaultTriggerDomain()); // Cleanup the old class code. UnloadTriggerClass(fCodeFileName); if (fDeleteCodeFile and not fCodeFileName.IsNull() and gSystem->AccessPathName(fCodeFileName)==0 and not fDebugMode) { fCodeFileName.ReplaceAll(".cxx", "*"); TString command="rm "; command+=fCodeFileName; gSystem->Exec(command); } fCodeFileName = codeFileName; fDeleteCodeFile = true; // Since we generated a new class. return 0; } int AliHLTGlobalTriggerComponent::LoadTriggerMenu(const char* cdbPath, const AliHLTTriggerMenu*& menu) { // Loads the trigger menu object from the CDB path. HLTDebug("Trying to load trigger menu from '%s'.", cdbPath); if (AliCDBManager::Instance() == NULL) { HLTError("CDB manager object not found."); return -EIO; } AliCDBStorage* store = AliCDBManager::Instance()->GetDefaultStorage(); if (store == NULL) { HLTError("Could not get the the default storage for the CDB."); return -EIO; } Int_t version = store->GetLatestVersion(cdbPath, GetRunNo()); Int_t subVersion = store->GetLatestSubVersion(cdbPath, GetRunNo(), version); AliCDBEntry* entry = AliCDBManager::Instance()->Get(cdbPath, GetRunNo(), version, subVersion); if (entry == NULL) { HLTError("Could not get the CDB entry for \"%s\".", cdbPath); return -EIO; } TObject* obj = entry->GetObject(); if (obj == NULL) { HLTError("Configuration object for \"%s\" is missing.", cdbPath); return -ENOENT; } if (obj->IsA() != AliHLTTriggerMenu::Class()) { HLTError("Wrong type for configuration object in \"%s\". Found a %s but we expect a AliHLTTriggerMenu.", cdbPath, obj->ClassName() ); return -EPROTO; } menu = static_cast(obj); return 0; } int AliHLTGlobalTriggerComponent::GenerateTrigger( const AliHLTTriggerMenu* menu, TString& name, TString& filename, const TClonesArray& includePaths, const TClonesArray& includeFiles ) { // Generates the global trigger class that will implement the specified trigger menu. // See header for more details. HLTDebug("Generating custom HLT trigger class named %s using trigger menu %p.", ((void*)menu), name.Data()); // Create a new UUID and replace the '-' characters with '_' to make it a valid // C++ symbol name. TUUID uuid; TString uuidstr = uuid.AsString(); for (Int_t i = 0; i < uuidstr.Length(); i++) { if (uuidstr[i] == '-') uuidstr[i] = '_'; } // Create the name of the new class. name = "AliHLTGlobalTriggerImpl_"; name += uuidstr; filename = name + ".cxx"; // Open a text file to write the code and generate the new class. fstream code(filename.Data(), ios_base::out | ios_base::trunc); if (not code.good()) { HLTError("Could not open file '%s' for writing.", filename.Data()); return -EIO; } TClonesArray symbols(AliHLTTriggerMenuSymbol::Class()); int result = BuildSymbolList(menu, symbols); if (result != 0) return result; code << "#if !defined(__CINT__) || defined(__MAKECINT__)" << endl; code << "#include " << endl; code << "#include \"TString.h\"" << endl; code << "#include \"TClonesArray.h\"" << endl; code << "#include \"AliHLTLogging.h\"" << endl; code << "#include \"AliHLTGlobalTrigger.h\"" << endl; code << "#include \"AliHLTGlobalTriggerDecision.h\"" << endl; code << "#include \"AliHLTDomainEntry.h\"" << endl; code << "#include \"AliHLTTriggerDomain.h\"" << endl; code << "#include \"AliHLTReadoutList.h\"" << endl; code << "#include \"AliHLTTriggerMenu.h\"" << endl; code << "#include \"AliHLTTriggerMenuItem.h\"" << endl; code << "#include \"AliHLTTriggerMenuSymbol.h\"" << endl; // Add any include files that were specified on the command line. for (Int_t i = 0; i < includeFiles.GetEntriesFast(); i++) { TString file = static_cast(includeFiles.UncheckedAt(i))->String(); code << "#include \"" << file.Data() << "\"" << endl; } if (fDebugMode) { code << "#else" << endl; code << "const char* gFunctionName = \"???\";" << endl; code << "#define HLTDebug(msg) if (CheckFilter(kHLTLogDebug) && CheckGroup(Class_Name())) SendMessage(kHLTLogDebug, Class_Name(), ::gFunctionName, __FILE__, __LINE__, msg)" << endl; } code << "#endif" << endl; code << "class " << name << " :" << endl; // Add appropriate #ifdef sections since we need to prevent inheritance from // AliHLTGlobalTrigger. CINT does not seem to support multiple inheritance nor // multiple levels of inheritance. Neither of the following schemes worked: // // 1) class AliHLTGlobalTrigger : public AliHLTLogging {}; // class AliHLTGlobalTriggerImpl_xyz : public AliHLTGlobalTrigger {}; // // 2) class AliHLTGlobalTrigger {}; // class AliHLTGlobalTriggerImpl_xyz : public AliHLTGlobalTrigger, public AliHLTLogging {}; // // Thus, we are forced to just inherit from AliHLTLogging when running in the CINT // interpreter. But we anyway have to call the global trigger implementation class // through the AliHLTGlobalTriggerWrapper so this is not such a problem. code << "#if !defined(__CINT__) || defined(__MAKECINT__)" << endl; code << " public AliHLTGlobalTrigger," << endl; code << "#endif" << endl; code << " public AliHLTLogging" << endl; code << "{" << endl; code << "public:" << endl; // Generate constructor method. code << " " << name << "() :" << endl; code << "#if !defined(__CINT__) || defined(__MAKECINT__)" << endl; code << " AliHLTGlobalTrigger()," << endl; code << "#endif" << endl; code << " AliHLTLogging()"; // Write the symbols in the trigger menu in the initialisation list. for (Int_t i = 0; i < symbols.GetEntriesFast(); i++) { code << "," << endl; AliHLTTriggerMenuSymbol* symbol = static_cast( symbols.UncheckedAt(i) ); code << " " << symbol->Name() << "()," << endl; if (strcmp(symbol->ObjectClass(), "AliHLTTriggerDecision") == 0) { code << " " << symbol->Name() << "TriggerDomain()," << endl; } code << " " << symbol->Name() << "DomainEntry(kAliHLTAnyDataType)"; } for (UInt_t i = 0; i < menu->NumberOfItems(); i++) { code << "," << endl << " fMenuItemDescription" << i << "()"; } code << endl << " {" << endl; if (fDebugMode) { code << "#ifdef __CINT__" << endl; code << " gFunctionName = \"" << name.Data() <<"\";" << endl; code << "#endif" << endl; code << " SetLocalLoggingLevel(kHLTLogAll);" << endl; code << " HLTDebug(Form(\"Creating new instance at %p.\", this));" << endl; } code << " }" << endl; code << " virtual ~" << name << "() {" << endl; if (fDebugMode) { code << "#ifdef __CINT__" << endl; code << " gFunctionName = \"~" << name.Data() << "\";" << endl; code << "#endif" << endl; code << " HLTDebug(Form(\"Deleting instance at %p.\", this));" << endl; } code << " }" << endl; // Generate the FillFromMenu method. code << " virtual void FillFromMenu(const AliHLTTriggerMenu& menu) {" << endl; if (fDebugMode) { code << "#ifdef __CINT__" << endl; code << " gFunctionName = \"FillFromMenu\";" << endl; code << "#endif" << endl; code << " HLTDebug(Form(\"Filling description entries from trigger menu for global trigger %p.\", this));" << endl; } code << " fCounter.Set(menu.NumberOfItems());" << endl; for (UInt_t i = 0; i < menu->NumberOfItems(); i++) { code << " fMenuItemDescription" <Description() : \"\";" << endl; } if (fDebugMode) { code << " HLTDebug(Form(\"Finished filling description entries from trigger menu.\"));" << endl; code << " HLTDebug(Form(\"Filling domain entries from trigger menu symbols for global trigger %p.\", this));" << endl; } code << " for (Int_t i = 0; i < menu.SymbolArray().GetEntriesFast(); i++) {" << endl; // 30 Oct 2009 - CINT sometimes evaluates the dynamic_cast incorrectly. // Have to use the TClass system for extra protection. code << " if (menu.SymbolArray().UncheckedAt(i) == NULL) continue;" << endl; code << " if (menu.SymbolArray().UncheckedAt(i)->IsA() != AliHLTTriggerMenuSymbol::Class()) continue;" << endl; code << " const AliHLTTriggerMenuSymbol* symbol = dynamic_cast(menu.SymbolArray().UncheckedAt(i));" << endl; code << " if (symbol == NULL) continue;" << endl; for (Int_t i = 0; i < symbols.GetEntriesFast(); i++) { AliHLTTriggerMenuSymbol* symbol = static_cast( symbols.UncheckedAt(i) ); code << " if (strcmp(symbol->RealName(), \"" << symbol->RealName() << "\") == 0) {" << endl; if (fDebugMode) { code << " HLTDebug(Form(\"Assinging domain entry value corresponding with symbol '%s' to '%s'.\"," " symbol->RealName(), symbol->BlockType().AsString().Data()));" << endl; } code << " " << symbol->Name() << "DomainEntry = symbol->BlockType();" << endl; code << " continue;" << endl; code << " }" << endl; } code << " }" << endl; if (fDebugMode) { code << " HLTDebug(Form(\"Finished filling domain entries from trigger menu symbols.\"));" << endl; } code << " }" << endl; // Generate the NewEvent method. code << " virtual void NewEvent() {" << endl; if (fDebugMode) { code << "#ifdef __CINT__" << endl; code << " gFunctionName = \"NewEvent\";" << endl; code << "#endif" << endl; code << " HLTDebug(Form(\"New event for global trigger object %p, initialising variables to default values.\", this));" << endl; } // Write code to initialise the symbols in the trigger menu to their default values. for (Int_t i = 0; i < symbols.GetEntriesFast(); i++) { AliHLTTriggerMenuSymbol* symbol = static_cast( symbols.UncheckedAt(i) ); // CINT has problems with the implicit equals operator for complex types, so if // the type has a equals operater we need to write the operator call explicitly. TClass* clas = TClass::GetClass(symbol->Type()); if (clas != NULL and clas->GetMethodAny("operator=") != NULL) { code << " " << symbol->Name() << ".operator = (" << symbol->DefaultValue() << ");" << endl; } else { code << " " << symbol->Name() << " = " << symbol->DefaultValue() << ";" << endl; } if (strcmp(symbol->ObjectClass(), "AliHLTTriggerDecision") == 0) { code << " " << symbol->Name() << "TriggerDomain.Clear();" << endl; } } if (fDebugMode) { code << " HLTDebug(Form(\"Finished initialising variables.\"));" << endl; } code << " }" << endl; // Generate the Add method. code << " virtual void Add(const TObject* _object_, const AliHLTComponentDataType& _type_, AliHLTUInt32_t _spec_) {" << endl; if (fDebugMode) { code << "#ifdef __CINT__" << endl; code << " gFunctionName = \"Add\";" << endl; code << "#endif" << endl; } code << " AliHLTDomainEntry _type_spec_(_type_, _spec_);" << endl; if (fDebugMode) { code << " HLTDebug(Form(\"Adding TObject %p, with class name '%s' from data block" " '%s', to global trigger object %p\", _object_, _object_->ClassName()," " _type_spec_.AsString().Data(), this));" << endl; code << " _object_->Print();" << endl; code << " bool _object_assigned_ = false;" << endl; } for (Int_t i = 0; i < symbols.GetEntriesFast(); i++) { // Write code to check if the block type, specification and class name is correct. // Then write code to assign the variable from the input object. AliHLTTriggerMenuSymbol* symbol = static_cast( symbols.UncheckedAt(i) ); TString expr = symbol->AssignExpression(); if (expr == "") continue; // Skip entries that have no assignment expression. bool isTrigDecision = strcmp(symbol->ObjectClass(), "AliHLTTriggerDecision") == 0; if (fDebugMode) { if (isTrigDecision) { code << " HLTDebug(Form(\"Trying to match input object to class '" << symbol->ObjectClass() << "', trigger name '" << symbol->RealName() << "' and block type '%s'\", " << symbol->Name() << "DomainEntry.AsString().Data()));" << endl; } else { code << " HLTDebug(Form(\"Trying to match input object to class '" << symbol->ObjectClass() << "' and block type '%s'\", " << symbol->Name() << "DomainEntry.AsString().Data()));" << endl; } } // 30 Oct 2009 - CINT sometimes evaluates the dynamic_cast incorrectly. // Have to use the TClass system for extra protection. code << " const " << symbol->ObjectClass() << "* " << symbol->Name() << "_object_ = NULL;" << endl; code << " if (_object_->IsA() == " << symbol->ObjectClass() << "::Class()) " << symbol->Name() << "_object_ = dynamic_castObjectClass() << "*>(_object_);" << endl; code << " if (" << symbol->Name() << "_object_ != NULL && "; if (isTrigDecision) { code << "strcmp(" << symbol->Name() << "_object_->Name(), \"" << symbol->RealName() << "\") == 0 && "; } code << symbol->Name() << "DomainEntry == _type_spec_) {" << endl; TString fullname = symbol->Name(); fullname += "_object_"; expr.ReplaceAll("this", fullname); code << " this->" << symbol->Name() << " = " << expr.Data() << ";" << endl; if (isTrigDecision) { code << " this->" << symbol->Name() << "TriggerDomain = " << fullname.Data() << "->TriggerDomain();" << endl; } if (fDebugMode) { code << " HLTDebug(Form(\"Added TObject %p with class name '%s' to variable " << symbol->Name() << "\", _object_, _object_->ClassName()));" << endl; code << " _object_assigned_ = true;" << endl; } code << " }" << endl; } if (fDebugMode) { code << " if (! _object_assigned_) {" << endl; code << " HLTDebug(Form(\"Did not assign TObject %p" " with class name '%s' to any variable.\", _object_, _object_->ClassName()));" << endl; code << " }" << endl; } code << " }" << endl; // Generate the CalculateTriggerDecision method. // This requires code to be generated that checks which items in the trigger menu // have their conditions asserted and then the trigger domain is generated from // those fired items. // The processing will start from the highest priority trigger group and stop // after at least one trigger from the current priority group being processed // is positive. For each priority group all the trigger menu items are checked. // Their combined trigger condition expression must be true for the trigger priority // group to be triggered positive. The full condition expression is formed by // concatenating the individual condition expressions. If no trailing operators are // used in the individual expressions then the default condition operator is placed // between two concatenated condition expressions. // If a trigger priority group has at least one trigger fired then the trigger domain // is calculated such that it will give the same result as the concatenated trigger // domain merging expressions for all the individual trigger menu items with // 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; if (fDebugMode) { code << "#ifdef __CINT__" << endl; code << " gFunctionName = \"CalculateTriggerDecision\";" << endl; code << "#endif" << endl; code << " HLTDebug(Form(\"Calculating global HLT trigger result with trigger object at %p.\", this));" << endl; } // Build a list of priorities used in the trigger menu. std::vector priorities; for (UInt_t i = 0; i < menu->NumberOfItems(); i++) { const AliHLTTriggerMenuItem* item = menu->Item(i); bool priorityNotInList = std::find(priorities.begin(), priorities.end(), item->Priority()) == priorities.end(); if (priorityNotInList) priorities.push_back(item->Priority()); } std::sort(priorities.begin(), priorities.end(), AliHLTDescendingNumbers); // From the priority list, build the priority groups in the correct order, // i.e. highest priority first. // The priority group is a list of vectors of integers. The integers are the // index numbers into the trigger menu item list for the items which form part // of the priority group. std::vector > priorityGroup; priorityGroup.insert(priorityGroup.begin(), priorities.size(), std::vector()); for (size_t n = 0; n < priorities.size(); n++) { UInt_t priority = priorities[n]; for (UInt_t i = 0; i < menu->NumberOfItems(); i++) { const AliHLTTriggerMenuItem* item = menu->Item(i); if (item->Priority() == priority) priorityGroup[n].push_back(i); } } for (size_t n = 0; n < priorityGroup.size(); n++) { if (fDebugMode) { code << " HLTDebug(Form(\"Processing trigger priority group " << priorities[n] << "\"));" << endl; } code << " "; if (n == 0) code << "UInt_t "; code << "_previous_match_ = 0xFFFFFFFF;" << endl; code << " "; if (n == 0) code << "bool "; code << "_trigger_matched_ = false;" << endl; code << " "; if (n == 0) code << "bool "; code << "_group_result_ = false;" << endl; std::vector conditionOperator; conditionOperator.insert(conditionOperator.begin(), priorityGroup[n].size(), TString("")); std::vector domainOperator; domainOperator.insert(domainOperator.begin(), priorityGroup[n].size(), TString("")); for (size_t m = 0; m < priorityGroup[n].size(); m++) { UInt_t i = priorityGroup[n][m]; const AliHLTTriggerMenuItem* item = menu->Item(i); TString triggerCondition = item->TriggerCondition(); TString mergeExpr = item->MergeExpression(); // Replace the symbols found in the trigger condition and merging expressions // with appropriate compilable versions. for (Int_t j = 0; j < symbols.GetEntriesFast(); j++) { AliHLTTriggerMenuSymbol* symbol = static_cast( symbols.UncheckedAt(j) ); bool symbolNamesDifferent = strcmp(symbol->RealName(), symbol->Name()) != 0; if (strcmp(symbol->ObjectClass(), "AliHLTTriggerDecision") == 0) { TString newname = symbol->Name(); newname += "TriggerDomain"; mergeExpr.ReplaceAll(symbol->RealName(), newname); } else { if (symbolNamesDifferent) mergeExpr.ReplaceAll(symbol->RealName(), symbol->Name()); } if (symbolNamesDifferent) triggerCondition.ReplaceAll(symbol->RealName(), symbol->Name()); } // We allow the trigger conditions and merging expressions to have trailing operators. // Thus, we need to extract the operators and cleanup the expressions so that they will // compile. This means that we silently ignore the trailing operator if not needed. if (ExtractedOperator(triggerCondition, conditionOperator[m])) { // If the trailing operator is the same as the default operator then reset // the value in the operator list so that the default is used in the generated // code. This creates more compact code. if (conditionOperator[m] == menu->DefaultConditionOperator()) conditionOperator[m] = ""; } if (ExtractedOperator(mergeExpr, domainOperator[m])) { if (domainOperator[m] == menu->DefaultDomainOperator()) domainOperator[m] = ""; } if (fDebugMode) { code << " HLTDebug(Form(\"Trying trigger condition " << i << " (Description = '%s').\", fMenuItemDescription" << i << ".Data()));" << endl; } code << " "; if (n == 0 and m == 0) code << "bool "; code << "_item_result_ = false;" << endl; code << " if (" << triggerCondition << ") {" << endl; code << " ++fCounter[" <PreScalar() != 0) { indentation = " "; code << " if ((fCounter[" <PreScalar() << ") == 1) {" << endl; } code << indentation << " _item_result_ = true;" << endl; if (fDebugMode) { code << indentation << " HLTDebug(Form(\"Matched trigger condition " <PreScalar() != 0) { code << " }" << endl; } code << " }" << endl; if (m == 0) { // Since this is the first item of the trigger group, // the generated trigger logic can be simplified a little. code << " _group_result_ = _item_result_;" << endl; code << " if (_item_result_) {" << endl; code << " _domain_ = " << mergeExpr.Data() << ";" << endl; code << " _description_ = fMenuItemDescription" << i << ";" << endl; code << " _previous_match_ = " <DefaultConditionOperator() << " _item_result_;" << endl; } else { code << " _group_result_ = _group_result_ " << conditionOperator[m-1] << " _item_result_;" << endl; } code << " if (_item_result_) {" << endl; code << " if (_trigger_matched_) {" << endl; bool switchWillBeEmpty = true; for (size_t k = 0; k < m; k++) { if (domainOperator[k] == "") continue; switchWillBeEmpty = false; } if (switchWillBeEmpty) { code << " _domain_ = _domain_ " << menu->DefaultDomainOperator() << " " << mergeExpr.Data() << ";" << endl; } else { code << " switch(_previous_match_) {" << endl; for (size_t k = 0; k < m; k++) { if (domainOperator[k] == "") continue; code << " case " << k << ": _domain_ = _domain_ " << domainOperator[k] << " " << mergeExpr.Data() << "; break;" << endl; } code << " default: _domain_ = _domain_ " << menu->DefaultDomainOperator() << " " << mergeExpr.Data() << ";" << endl; code << " }" << endl; } code << " _description_ += \",\";" << endl; code << " _description_ += fMenuItemDescription" << i << ";" << endl; code << " } else {" << endl; code << " _domain_ = " << mergeExpr.Data() << ";" << endl; code << " _description_ = fMenuItemDescription" << i << ";" << endl; code << " }" << endl; code << " _previous_match_ = " << i << ";" << endl; code << " _trigger_matched_ = true;" << endl; code << " }" << endl; } } code << " if (_group_result_) {" << endl; if (fDebugMode) { if (n < priorities.size() - 1) { code << " HLTDebug(Form(\"Matched triggers in trigger priority group " << priorities[n] << ". Stopping processing here because all other trigger groups have lower priority.\"));" << endl; } else { code << " HLTDebug(Form(\"Matched triggers in trigger priority group " << priorities[n] << ".\"));" << endl; } } code << " return true;" << endl; code << " }" << endl; } code << " _domain_.Clear();" << endl; code << " _description_ = \"\";" << endl; code << " return false;" << endl; code << " }" << endl; // Generate getter and setter methods for the counters. code << " const TArrayL64& GetCounters() const { return fCounter; }" << endl; code << " void SetCounters(const TArrayL64& counters) { fCounter = counters; }" << endl; code << "private:" << endl; // Add the symbols in the trigger menu to the list of private variables. for (Int_t i = 0; i < symbols.GetEntriesFast(); i++) { AliHLTTriggerMenuSymbol* symbol = static_cast( symbols.UncheckedAt(i) ); code << " " << symbol->Type() << " " << symbol->Name() << ";" << endl; if (strcmp(symbol->ObjectClass(), "AliHLTTriggerDecision") == 0) { code << " AliHLTTriggerDomain " << symbol->Name() << "TriggerDomain;" << endl; } code << " AliHLTDomainEntry " << symbol->Name() << "DomainEntry;" << endl; } for (UInt_t i = 0; i < menu->NumberOfItems(); i++) { code << " TString fMenuItemDescription" << i << ";" << endl; } code << " TArrayL64 fCounter;" << endl; code << "#if !defined(__CINT__) || defined(__MAKECINT__)" << endl; code << " ClassDef(" << name.Data() << ", 0)" << endl; code << "#else" << endl; code << " virtual const char* Class_Name() const { return \"" << name.Data() << "\"; }" << endl; code << "#endif" << endl; code << "};" << endl; code << "#if !defined(__CINT__) || defined(__MAKECINT__)" << endl; code << "ClassImp(" << name.Data() << ")" << endl; code << "#endif" << endl; code.close(); // Now we need to compile and load the new class. result = LoadTriggerClass(filename, includePaths); return result; } int AliHLTGlobalTriggerComponent::LoadTriggerClass( const char* filename, const TClonesArray& includePaths ) { // Loads the code for a custom global trigger class implementation on the fly. HLTDebug("Loading HLT trigger class from file '%s'.", filename); TString compiler = gSystem->GetBuildCompilerVersion(); if (fRuntimeCompile && (compiler.Contains("gcc") or compiler.Contains("icc"))) { TString includePath; #if defined(PKGINCLUDEDIR) // this is especially for the HLT build system where the package is installed // in a specific directory including proper treatment of include files includePath.Form("-I%s", PKGINCLUDEDIR); #else // the default AliRoot behavior, all include files can be found in the // $ALICE_ROOT subfolders includePath = "-I${ALICE_ROOT}/include -I${ALICE_ROOT}/HLT/BASE -I${ALICE_ROOT}/HLT/trigger"; #endif // Add any include paths that were specified on the command line. for (Int_t i = 0; i < includePaths.GetEntriesFast(); i++) { TString path = static_cast(includePaths.UncheckedAt(i))->String(); includePath += " -I"; includePath += path; } HLTDebug("using include settings: %s", includePath.Data()); gSystem->SetIncludePath(includePath); gSystem->SetFlagsOpt("-O3 -DNDEBUG"); gSystem->SetFlagsDebug("-g3 -DDEBUG -D__DEBUG"); int result = kTRUE; if (fDebugMode) { result = gSystem->CompileMacro(filename, "g"); } else { result = gSystem->CompileMacro(filename, "O"); } if (result != kTRUE) { HLTFatal("Could not compile and load global trigger menu implementation."); return -ENOENT; } } else { // Store the library state to be checked later in UnloadTriggerClass. fLibStateAtLoad = gSystem->GetLibraries(); // If we do not support the compiler then try interpret the class instead. TString cmd = ".L "; cmd += filename; Int_t errorcode = TInterpreter::kNoError; gROOT->ProcessLine(cmd, &errorcode); if (errorcode != TInterpreter::kNoError) { HLTFatal("Could not load interpreted global trigger menu implementation" " (Interpreter error code = %d).", errorcode ); return -ENOENT; } } return 0; } int AliHLTGlobalTriggerComponent::UnloadTriggerClass(const char* filename) { // Unloads the code previously loaded by LoadTriggerClass. HLTDebug("Unloading HLT trigger class in file '%s'.", filename); TString compiler = gSystem->GetBuildCompilerVersion(); if (fRuntimeCompile && (compiler.Contains("gcc") or compiler.Contains("icc"))) { // Generate the library name. TString libname = filename; Ssiz_t dotpos = libname.Last('.'); if (0 <= dotpos and dotpos < libname.Length()) libname[dotpos] = '_'; libname += "."; libname += gSystem->GetSoExt(); // This is a workaround for a problem with unloading shared libraries in ROOT. // If the trigger logic library is loaded before the libAliHLTHOMER.so library // or any other library is loaded afterwards, then during the gInterpreter->UnloadFile // call all the subsequent libraries get unloded. This means that any objects created // from classes implemented in the libAliHLTHOMER.so library will generate segfaults // since the executable code has been unloaded. // We need to check if there are any more libraries loaded after the class we // are unloading and in that case don't unload the class. TString libstring = gSystem->GetLibraries(); TString token, lastlib; Ssiz_t from = 0; Int_t numOfLibs = 0, posOfLib = -1; while (libstring.Tokenize(token, from, " ")) { ++numOfLibs; lastlib = token; if (token.Contains(libname)) posOfLib = numOfLibs; } if (numOfLibs != posOfLib) { HLTWarning(Form("ROOT limitation! Cannot properly cleanup and unload the shared" " library '%s' since another library '%s' was loaded afterwards. Trying to" " unload this library will remove the others and lead to serious memory faults.", libname.Data(), lastlib.Data() )); return 0; } char* path = NULL; int result = 0; if ((path = gSystem->DynamicPathName(libname)) != NULL) { result = gInterpreter->UnloadFile(path); delete [] path; } if (result != TInterpreter::kNoError) return -ENOENT; } else { // This is again a workaround for the problem with unloading files in ROOT. // If the trigger logic class is loaded before the libAliHLTHOMER.so library // or any other library is loaded afterwards, then during the gInterpreter->UnloadFile // call all the subsequent libraries get unloded. // We need to check if the list of loaded libraries has changed since the last // call to LoadTriggerClass. If it has then don't unload the class. if (fLibStateAtLoad != gSystem->GetLibraries()) { TString libstring = gSystem->GetLibraries(); TString token; Ssiz_t from = 0; while (libstring.Tokenize(token, from, " ")) { if (not fLibStateAtLoad.Contains(token)) break; } HLTWarning(Form("ROOT limitation! Cannot properly cleanup and unload the file" " '%s' since another library '%s' was loaded afterwards. Trying to unload" " this file will remove the other library and lead to serious memory faults.", filename, token.Data() )); return 0; } // If we did not compile the trigger logic then remove the interpreted class. TString cmd = ".U "; cmd += filename; Int_t errorcode = TInterpreter::kNoError; gROOT->ProcessLine(cmd, &errorcode); if (errorcode != TInterpreter::kNoError) { HLTFatal("Could not unload interpreted global trigger menu implementation" " (Interpreter error code = %d).", errorcode ); return -ENOENT; } } return 0; } int AliHLTGlobalTriggerComponent::FindSymbol(const char* name, const TClonesArray& list) { // Searches for the named symbol in the given list. // See header for more details. for (int i = 0; i < list.GetEntriesFast(); i++) { const AliHLTTriggerMenuSymbol* symbol = dynamic_cast( list.UncheckedAt(i) ); if (symbol == NULL) continue; if (strcmp(symbol->Name(), name) == 0) return i; } return -1; } int AliHLTGlobalTriggerComponent::BuildSymbolList(const AliHLTTriggerMenu* menu, TClonesArray& list) { // Builds the list of symbols to use in the custom global trigger menu // implementation class. // See header for more details. // Note: when we build the symbol list we must use the symbol name as returned // by the Name() method and not the RealName() method when using FindSymbol. // This is so that we avoid problems with the generated code not compiling // because names like "abc-xyz" and "abc_xyz" are synonymous. // Name() returns the converted C++ symbol name as used in the generated code. for (UInt_t i = 0; i < menu->NumberOfSymbols(); i++) { const AliHLTTriggerMenuSymbol* symbol = menu->Symbol(i); if (FindSymbol(symbol->Name(), list) != -1) { HLTError("Multiple symbols with the name '%s' defined in the trigger menu.", symbol->Name()); return -EIO; } new (list[list.GetEntriesFast()]) AliHLTTriggerMenuSymbol(*symbol); } TRegexp exp("[_a-zA-Z][-_a-zA-Z0-9]*"); TRegexp hexexp("x[a-fA-F0-9]+"); for (UInt_t i = 0; i < menu->NumberOfItems(); i++) { const AliHLTTriggerMenuItem* item = menu->Item(i); TString str = item->TriggerCondition(); Ssiz_t start = 0; do { Ssiz_t length = 0; Ssiz_t pos = exp.Index(str, &length, start); if (pos == kNPOS) break; start = pos+length; // Check if there is a numerical character before the found // regular expression. If so, then the symbol is not a valid one // and should be skipped. if (pos > 0) { bool notValid = false; switch (str[pos-1]) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': notValid = true; break; default: notValid = false; break; } if (notValid) continue; } TString s = str(pos, length); if (s == "and" or s == "and_eq" or s == "bitand" or s == "bitor" or s == "compl" or s == "not" or s == "not_eq" or s == "or" or s == "or_eq" or s == "xor" or s == "xor_eq" or s == "true" or s == "false" ) { // Ignore iso646.h and other keywords. continue; } // Need to create the symbols first and check if its name is in the list // before actually adding it to the symbols list. AliHLTTriggerMenuSymbol newSymbol; newSymbol.Name(s.Data()); newSymbol.Type("bool"); newSymbol.ObjectClass("AliHLTTriggerDecision"); newSymbol.AssignExpression("this->Result()"); newSymbol.DefaultValue("false"); if (FindSymbol(newSymbol.Name(), list) == -1) { new (list[list.GetEntriesFast()]) AliHLTTriggerMenuSymbol(newSymbol); } } while (start < str.Length()); } return 0; } bool AliHLTGlobalTriggerComponent::ExtractedOperator(TString& expr, TString& op) { // Extracts the trailing operator from the expression. Ssiz_t i = 0; // First skip the trailing whitespace. bool whitespace = true; for (i = expr.Length()-1; i >= 0 and whitespace; i--) { switch (expr[i]) { case ' ': case '\t': case '\r': case '\n': whitespace = true; break; default: whitespace = false; } } if (i < 0 or whitespace) return false; // Now find the first whitespace character before the trailing symbol. bool nonwhitespace = true; for (; i >= 0 and nonwhitespace; i--) { switch (expr[i]) { case ' ': case '\t': case '\r': case '\n': nonwhitespace = false; break; default: nonwhitespace = true; } } if (i < 0 or nonwhitespace) return false; // Extract the last symbols and check if it is a valid operator. TString s = expr; s.Remove(0, i+2); if (s == "and" or s == "and_eq" or s == "bitand" or s == "bitor" or s == "compl" or s == "not" or s == "not_eq" or s == "or" or s == "or_eq" or s == "xor" or s == "xor_eq" or s == "&&" or s == "&=" or s == "&" or s == "|" or s == "~" or s == "!" or s == "!=" or s == "||" or s == "|=" or s == "^" or s == "^=" or s == "==" or s == "+" or s == "-" or s == "*" or s == "/" or s == "%" or s == ">" or s == "<" or s == ">=" or s == "<=" ) { expr.Remove(i+1); op = s; return true; } return false; } int AliHLTGlobalTriggerComponent::PrintStatistics(const AliHLTGlobalTrigger* pTrigger, AliHLTComponentLogSeverity level, int offset) const { // print some statistics int totalEvents=GetEventCount()+offset; const TArrayL64& counters = pTrigger->GetCounters(); if (pTrigger->CallFailed()) return -EPROTO; for (int i = 0; i < counters.GetSize(); i++) { ULong64_t count = counters[i]; float ratio=0; if (totalEvents>0) ratio=100*(float)count/totalEvents; HLTLog(level, "Item %d: total events: %d - counted events: %llu (%.1f%%)", i, totalEvents, count, ratio); } return 0; } int AliHLTGlobalTriggerComponent::AddCTPDecisions(AliHLTGlobalTrigger* pTrigger, const AliHLTCTPData* pCTPData, const AliHLTComponentTriggerData* trigData) { // add trigger decisions for the valid CTP classes if (!pCTPData || !pTrigger) return 0; AliHLTUInt64_t triggerMask=pCTPData->Mask(); AliHLTUInt64_t bit0=0x1; if (!fCTPDecisions) { fCTPDecisions=new TClonesArray(AliHLTTriggerDecision::Class(), gkNCTPTriggerClasses); if (!fCTPDecisions) return -ENOMEM; fCTPDecisions->ExpandCreate(gkNCTPTriggerClasses); for (int i=0; iName(i); if (triggerMask&(bit0<(fCTPDecisions->At(i)); assert(pDecision); if (!pDecision) { delete fCTPDecisions; fCTPDecisions=NULL; return -ENOENT; } pDecision->Name(name); } } } for (int i=0; iName(i); if ((triggerMask&(bit0<(fCTPDecisions->At(i)); HLTDebug("updating CTP trigger decision %d %s (%p casted %p)", i, name, fCTPDecisions->At(i), pDecision); if (!pDecision) return -ENOENT; bool result=false; if (trigData) result=pCTPData->EvaluateCTPTriggerClass(name, *trigData); else result=pCTPData->EvaluateCTPTriggerClass(name); pDecision->Result(result); pDecision->TriggerDomain().Clear(); if (trigData) pDecision->TriggerDomain().Add(pCTPData->ReadoutList(*trigData)); else pDecision->TriggerDomain().Add(pCTPData->ReadoutList()); pTrigger->Add(fCTPDecisions->At(i), kAliHLTDataTypeTriggerDecision, kAliHLTVoidDataSpec); if (pTrigger->CallFailed()) return -EPROTO; } return 0; }