#ifndef FACT_DataCalib #define FACT_DataCalib #include "DataWriteFits2.h" #include "externals/DrsCalib.h" class DimDescribedService; using namespace std; class DataCalib : public DataWriteFits2, public DrsCalibrate { static DrsCalibration fData; static std::vector fStats; /// Storage for mean and rms values /// State of the DRS calibration: Positiove numbers mean that /// we are in a run, negative mean that it is closed static bool fProcessing; DimDescribedService &fDim; // DimService through which statistics updates are transmitted DimDescribedService &fDimRuns; // DimService through which statistics updates are transmitted // uint16_t fDAC[8]; // void WriteFitsImp(const std::string &filename, const std::vector &vec) const; int GetDrsStep() const { return fData.fStep; } public: DataCalib(const std::string &path, uint64_t night, uint32_t id, DimDescribedService &dim, DimDescribedService &runs, MessageImp &imp) : DataWriteFits2(path, night, id, imp), fDim(dim), fDimRuns(runs) { } static void Restart(); static bool ResetTrgOff(DimDescribedService &dim, DimDescribedService &runs); static void Update(DimDescribedService &dim, DimDescribedService &runs); bool Open(const RUN_HEAD* h, const FAD::RunDescription &d); bool WriteEvt(EVENT *e); bool Close(RUN_TAIL * = 0); //static void Apply(int16_t *val, const int16_t *start, uint32_t roi); static void Apply(float *vec, int16_t *val, const int16_t *start, uint32_t roi) { fData.Apply(vec, val, start, roi); } static bool ReadFits(const string &fname, MessageImp &msg); static bool IsValid() { return fData.IsValid(); } static int GetStep() { return fData.fStep; } }; #endif