#ifndef R3BCALODETECTIONUNITSIMPAR_H #define R3BCALODETECTIONUNITSIMPAR_H #include "FairParGenericSet.h" // for FairParGenericSet #include "DataType.h" // for EDataType::kData #include "ValCondition.h" // for ValCondition #include "ValTimeStamp.h" // for ValTimeStamp #include "db_detector_def.h" // for Detector, etc #include "Rtypes.h" // for Double_t, Int_t, UInt_t, etc #include // for operator<<, basic_ostream, etc #include // for string #include "FairDbWriter.h" #include "FairDbReader.h" using namespace std; class FairDbOutTableBuffer; class FairDbResultPool; class FairDbObjTableMap; class FairDbValRecord; class FairParamList; class R3BCaloDetectionUnitSimPar : public FairParGenericSet { using TObject::Compare; public : R3BCaloDetectionUnitSimPar (const char* name="R3BCaloDetectionUnitSimPar", const char* title="Califa Geometry Parameter", const char* context="TestDefaultContext", Bool_t own=kTRUE); virtual ~R3BCaloDetectionUnitSimPar(void); void clear(void); void putParams(FairParamList* list); Bool_t getParams(FairParamList* list); void Print(); /** Accessor functions **/ Int_t GetComboNo() const {return fCompId;} Int_t GetCompId() const {return fCompId;} Int_t GetCrystalNodeId() const {return fCrystalNodeId;} Int_t GetCrystalTypeId() const {return fCrystalTypeId;} Double_t GetWrapThickness() const {return fWrapThickness;} const Double_t* GetCenter() const {return &fCenter[0];} const Double_t* GetRotEuler() const {return &fRotEuler[0];} void SetCompId(Int_t x) {SetComboNo(x); fCompId=x;} void SetCrystalNodeId(Int_t x) {fCrystalNodeId = x;} void SetCrystalTypeId(Int_t x) {fCrystalTypeId = x;} void SetCenter(Double_t x, Double_t y, Double_t z) {fCenter[0]=x;fCenter[1]=y;fCenter[2]=z;} void SetRotEuler(Double_t x, Double_t y, Double_t z) {fRotEuler[0]=x;fRotEuler[1]=y;fRotEuler[2]=z;} void SetWrapThickness(Double_t x) {fWrapThickness = x;} UInt_t GetIndex(UInt_t /*def*/) const { return fCrystalNodeId;} Bool_t Compare(const R3BCaloDetectionUnitSimPar& that ) const; // Add-ons: SQL descriptors for the parameter class virtual std::string GetTableDefinition(const char* Name = 0); virtual FairDbObjTableMap* CreateObjTableMap() const { return new R3BCaloDetectionUnitSimPar(); } // Atomic IO (intrinsic) virtual void Fill(FairDbResultPool& res_in, const FairDbValRecord* valrec); virtual void Store(FairDbOutTableBuffer& res_out, const FairDbValRecord* valrec) const; // Global IO using run_id virtual void fill(UInt_t rid); virtual void store(UInt_t rid); // Validity frame definition virtual ValCondition GetContext(UInt_t rid) { return ValCondition(FairDbDetector::kCal, DataType::kData, ValTimeStamp(rid)); } // SQL-IO Meta-Class Getters FairDbReader* GetParamReader(); FairDbWriter* GetParamWriter(); FairDbWriter* ActivateWriter(Int_t rid); private: // Data Parameters Int_t fCompId; Int_t fCrystalNodeId; Int_t fCrystalTypeId; Double_t fWrapThickness; Double_t fCenter[3]; Double_t fRotEuler[3]; // Database Pool Index Int_t fDbEntry; //! // Parameter Container SQL Writer Meta-Class FairDbWriter* fParam_Writer; //! // Parameter Container SQL Writer Meta-Class FairDbReader* fParam_Reader; //! // Connection Pool FairDbConnectionPool* fMultConn; //! ClassDef(R3BCaloDetectionUnitSimPar,1); // R3BCaloDetectionUnitSimPar Parameter Container example }; inline FairDbReader* R3BCaloDetectionUnitSimPar::GetParamReader() { if (fParam_Reader) { return fParam_Reader; } else { fParam_Reader = new FairDbReader(); return fParam_Reader; } } inline FairDbWriter* R3BCaloDetectionUnitSimPar::GetParamWriter() { if (fParam_Writer) { return fParam_Writer; } else { fParam_Writer = new FairDbWriter(); return fParam_Writer; } } #endif /* !R3BCALODETECTIONUNITSIMPAR_H*/