#endif
class TClass;
+class TFile;
class AliAnalysisDataSlot;
class AliAnalysisDataContainer;
enum EAnalysisTaskFlags {
kTaskUsed = BIT(14),
kTaskZombie = BIT(15),
- kTaskChecked = BIT(16)
- };
+ kTaskChecked = BIT(16),
+ kTaskPostEventLoop = BIT(17)
+ };
+
+ protected:
+ Bool_t fReady; // Flag if the task is ready
+ Bool_t fInitialized; // True if Init() was called
+ Int_t fNinputs; // Number of inputs
+ Int_t fNoutputs; // Number of outputs
+ Bool_t *fOutputReady; //[fNoutputs] Flags for output readyness
+ TObject *fPublishedData; //! published data
+ TObjArray *fInputs; // Array of input slots
+ TObjArray *fOutputs; // Array of output slots
+
+ // Define the input/output slots (called by user in the ctor of the derived class)
+ //=== CALL IN THE CONSTRUCTOR OF DERIVED CLASS TO DEFINE INPUTS/OUTPUTS ===
+ void DefineInput(Int_t islot, TClass *type);
+ void DefineOutput(Int_t islot, TClass *type);
+ //=====================================================================
+ // === OVERLOAD THIS TO CONNECT TREE BRANCHES AT INPUT SLOTS. YOU
+ // SHOULD DEFINE HERE ALSO THE OBJECTS TO BE CONNECTED TO YOUR OUTPUTS
+ virtual void ConnectInputData(Option_t *option="");
+ //=====================================================================
+
+ // Post output data (called by Exec() when data is ready)
+ //=== CALL IN EXEC() FOR EACH OUTPUT WHEN READY ===
+ Bool_t PostData(Int_t iout, TObject *data, Option_t *option="");
+ //=====================================================================
+
+ // === USE THIS FIRST IN YOUR ConnectInputData() TO CHECH IF A BRANCH IS ALREADY CONNECTED
+ // TO SOME ADDRESS.
+ char *GetBranchAddress(Int_t islot, const char *branch) const;
+ // === CALL THIS AFTERWARDS IN ConnectInputData() IF THE BRANCH ADDRESS IS NOT YET SET
+ Bool_t SetBranchAddress(Int_t islot, const char *branch, void *address) const;
+ //=====================================================================
+ //=== CALL IN ConnectInputData() TO ENABLE ONLY EXPLICIT BRANCHES NEEDED FOR THIS TASK EXECUTION
+ void EnableBranch(Int_t islot, const char *bname) const;
+ //=====================================================================
+ // === CALL THIS IN CreateOutputObjects BEFORE CREATING THE OBJECT FOR EACH
+ // OUTPUT IOUT THAT HAS TO BE WRITTEN TO A FILE
+ TFile *OpenFile(Int_t iout, Option_t *option="RECREATE") const;
+
+public:
AliAnalysisTask();
AliAnalysisTask(const char *name, const char *title);
AliAnalysisTask(const AliAnalysisTask &task);
// Assignment
AliAnalysisTask& operator=(const AliAnalysisTask &task);
+ //=====================================================================
+ // === OVERLOAD THIS AND CREATE YOUR OUTPUT OBJECTS (HISTOGRAMS,DATA) HERE
+ virtual void CreateOutputObjects();
+ // === OVERLOAD THIS IF YOU NEED TO INITIALIZE YOUR CLASS ON THE CLIENT
+ virtual void LocalInit();
+ // === OVERLOAD THIS IF YOU NEED TO TREAT INPUT FILE/TREE CHANGE
+ virtual Bool_t Notify();
+ // === OVERLOAD THIS IF YOU NEED TO TREAT BIN CHANGE IN EVENT MIXING
+ virtual Bool_t NotifyBinChange();
+ //=====================================================================
+ // Optional method that will be called in SlaveTerminate phase for each task
+ // Warning: in PROOF mode this is called before merging so their cleanup is
+ // not allowed - do output cleanup in class destructor.
+ virtual void FinishTaskOutput();
// Conect inputs/outputs to data containers (by AliAnalysisModule)
Bool_t ConnectInput(Int_t islot, AliAnalysisDataContainer *cont);
Bool_t ConnectOutput(Int_t islot, AliAnalysisDataContainer *cont);
TClass *GetOutputType(Int_t islot) const;
// === USE THIS TO RETREIVE INPUT DATA AND STATICALLY CAST IT TO THE DECLARED TYPE
TObject *GetInputData(Int_t islot) const;
+ TObject *GetOutputData(Int_t islot) const;
Bool_t IsOutputReady(Int_t islot) const {return fOutputReady[islot];}
Bool_t IsChecked() const {return TObject::TestBit(kTaskChecked);}
+ Bool_t IsPostEventLoop() const {return TObject::TestBit(kTaskPostEventLoop);}
Bool_t IsInitialized() const {return fInitialized;}
Bool_t IsReady() const {return fReady;}
Bool_t IsUsed() const {return TObject::TestBit(kTaskUsed);}
void PrintTask(Option_t *option="all", Int_t indent=0) const;
void PrintContainers(Option_t *option="all", Int_t indent=0) const;
void SetChecked(Bool_t flag=kTRUE) {TObject::SetBit(kTaskChecked,flag);}
+ void SetPostEventLoop(Bool_t flag=kTRUE);
void SetUsed(Bool_t flag=kTRUE);
void SetZombie(Bool_t flag=kTRUE) {TObject::SetBit(kTaskZombie,flag);}
// Main task execution
// === OVERLOAD THIS IF YOU WANT TO DO SOMETHING WITH THE OUTPUT
virtual void Terminate(Option_t *option="");
//=====================================================================
-
- protected:
- // Define the input/output slots (called by user in the ctor of the derived class)
- //=== CALL IN THE CONSTRUCTOR OF DERIVED CLASS TO DEFINE INPUTS/OUTPUTS ===
- void DefineInput(Int_t islot, TClass *type);
- void DefineOutput(Int_t islot, TClass *type);
- //=====================================================================
-
- //=====================================================================
- // === OVERLOAD THIS TO CONNECT TREE BRANCHES AT INPUT SLOTS. YOU
- // SHOULD DEFINE HERE ALSO THE OBJECTS TO BE CONNECTED TO YOUR OUTPUTS
- virtual void Init(Option_t *option="");
- //=====================================================================
-
- // Post output data (called by Exec() when data is ready)
- //=== CALL IN EXEC() FOR EACH OUTPUT WHEN READY ===
- Bool_t PostData(Int_t iout, TObject *data, Option_t *option="");
- //=====================================================================
-
- // === USE THIS FIRST IN YOUR Init() TO CHECH IF A BRANCH IS ALREADY CONNECTED
- // TO SOME ADDRESS.
- char *GetBranchAddress(Int_t islot, const char *branch) const;
- // === CALL THIS AFTERWARDS IN Init() IF THE BRANCH ADDRESS IS NOT YET SET
- Bool_t SetBranchAddress(Int_t islot, const char *branch, void *address) const;
- //=====================================================================
- // === CALL THIS IN INIT IF THE OUTPUT IS TO BE WRITTEN AT OUTPUT IOUT
- void OpenFile(Int_t iout, const char *name, Option_t *option) const;
-
- Bool_t fReady; // Flag if the task is ready
- Bool_t fInitialized; // True if Init() was called
- Int_t fNinputs; // Number of inputs
- Int_t fNoutputs; // Number of outputs
- Bool_t *fOutputReady; //[fNoutputs] Flags for output readyness
- TObject *fPublishedData; // !published data
- TObjArray *fInputs; // Array of input slots
- TObjArray *fOutputs; // Array of output slots
-
- ClassDef(AliAnalysisTask,2) // Class describing an analysis task
+
+ ClassDef(AliAnalysisTask,1) // Class describing an analysis task
};
#endif