#pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define DEFAULTNOPEAKS 20 #define ADDRESSNUMBER 32 using std::cout; using std::endl; using std::setw; using std::setprecision; using std::stringstream; using std::ostringstream; class AculCalibration : public TObject { public: //smysl jako verejne globalni promenne maji: //fNOSpectra - pocet zkalibrovanych spekter //???? - pocet spravne zkalibrovanych spekter //???? - pocet nespravne zkalibrovanych spekter //fEnergy[4] - tabulka s energiemi piku, nacita se zvenci //private: // TObjArray *fHRawList; //list of raw histograms, list is set to owner TObjArray fHRawList; //list of raw histograms, list is set to owner TObjArray fHAnalyzedList; //list of fitted and analyzed histograms, list is set to owner TObjArray fHEnergyList; //list of calibrated histograms, list is set to owner THStack fHEnergyStack; //some stack THStack *fCurrentHStack; //dodelat current histograms TObjArray fCurrentHistList; // TRandom3 *fRanGen; // static TRandom3 fRanGen; //! // THStack *fHStack; //parameters to be read from file Int_t kRaNOPEAKS; Double_t fEnergy[DEFAULTNOPEAKS]; Double_t fLowerChannel; Double_t fUpperChannel; Double_t fLowerPeakRelativeHight; //pouziva se, private Double_t fUpperPeakRelativeHight; //pouziva se, private, nastavit nenulovou prednastavenou hodnotu Double_t fPeakPositionTolerance; //pouziva se, private Width_t fFitFuncLineWidth; //private Double_t fFitMinSigma; //pouziva se, private Double_t fFitPeakThreshold; //pouziva se, private, prozkoumat, k cemu vlastne slouzi ve fci ShowPeaks, popremyslet o vhodnem prednastaveni v konstruktoru //these variables are the main for the class // Double_t fAOld[BLOCKSNUMBER][ADDRESSNUMBER]; //calibration parameter, f(x) = fAOld*x + fBOld // Double_t fBOld[BLOCKSNUMBER][ADDRESSNUMBER]; //calibration parameter, f(x) = fAOld*x + fBOld // Double_t fC[BLOCKSNUMBER][ADDRESSNUMBER]; //treti kalibracni parametr, jine zavislosti nez pol1 // Double_t fD[BLOCKSNUMBER][ADDRESSNUMBER]; //ctvrty kalibracni parametr private: TArrayD fA; TArrayD fB; // TArrayD fC; // TArrayD fD; public: //smysl je velmi pochybny TFile *fCalInformation; Double_t GetA(Int_t i); //to obtain calib parameter A Double_t GetB(Int_t i); //to obtain calib parameter B private: Double_t fPeak[DEFAULTNOPEAKS]; //v teto promenne je ulozena momentalni hodnota piku v kanalech, zejmena v jedne fci, mozno udelat ji jako lokalni, bude navratovou hodnotou fce PeaksFitting, predelat delku pole public: AculCalibration(); //default constructor AculCalibration(const char* parfile); // virtual ~AculCalibration(); Bool_t SetInputParameters(const char* inputparfile = "parforcal.par"); // Function which loads text file containing parameters for calibration // // -inputparfile: file containing information on calibration source // -In file with the data must be preserved systematic // -There cannot be whitelines (probably) // //Example of "parforcal.par" file //................................................................ //223Ra // //4 nopeaks //number of peaks //4.415 E1 //in MeV //5.153 E2 //in MeV //5.683 E3 //in MeV //7.419 E4 //in MeV //100 lowerchannel //in channels //4096 upperchannel //in channels //0.1 lowerpeakhight //in relative units //0.1 upperpeakhight //in relative units //0.1 peakpositiontolerance //in relative units //2 fitfunctionlinewidth //integer 1 - 10 //5 minfitsigma //minimal sigma of the peaks to be fitted //0.4 fithightthreshold // //................................................................ Bool_t SetCalibrationParameters(const char* calparfile); //Loads the file with calibration parameters // // calparfile: file containing calibration parameters in format: crate number, address, subaddress, fAOld, fBOld, fC, fD // // allowed comment characters: *, #, %, // void PrintInputParameters(); //I hope this is selfunderstanding function void PrintCalibrationParameters(); //Print calibration parameters fA, fB which are currently saved in object AculCalibration // // // Bool_t CalculateCalibParameters(const char* inputfile, const char* block, const char* treename, Int_t lowerchannel = 0, Int_t upperchannel = 4095, Int_t nEBins = 1000, Int_t lowersubaddress = 0, Int_t uppersubaddress = ADDRESSNUMBER-1); //calculate calibration parameters for given block in given file //function is not completely ready to use // //function for calculation of calibrate parameters for DAQ system based on "Go4" // // inputfile: root file with calibration spectra // block: block name to be calibrated // lowerchannel: minimal channel from which the spectrum will be analysed // upperchannel: maximal channel up to which the spectrum will be analysed // lowersubaddress: block subaddress // uppersubaddress: block subbaddress void CalibrateRawSpectra(); UShort_t SomeFunction(UShort_t x, int len); template T SomeFunction(T x, int len) { /*T max = x[0]; for(int i = 1; i < len; i++) if(max < x[i]) max = x[i];*/ // return max; return x; } void CalibrateRawSpectra(const char* inputfile, const char* block, const char* treename, Int_t lowerchannel = 0, Int_t upperchannel = 4095, Int_t nEBins = 1000, Int_t lowersubaddress = 0, Int_t uppersubaddress = ADDRESSNUMBER-1); void FindEnergyPeaks(TCanvas *c1, const char* ifile, const char* outfile); // const char* inputfile, const char* block, // const Int_t address, const Int_t address, const char* treename, Int_t lowerchannel = 0, // Int_t upperchannel = 4095, Int_t lowersubaddress = 0, Int_t uppersubaddress = ADDRESSNUMBER-1); Int_t PeaksFitting(TH1* hSpectrum, Option_t* option = "", Double_t sigmamin = 2); //return values: // 0: OK // 1: something wrong // 2: something other wrong // //possible options: "V", "Q", "", ?"gp"? Int_t SearchPeaks(const TH1 *hin, Double_t sigma = 2, Option_t *option = "", const Int_t searchedpeaks = 100); void FillRawSpectraFile(const char* rawdatafile, const char* block, const char* treename, TCanvas* rawCanvas = NULL, Option_t *option = "", Int_t xaxismin = 0, Int_t xaxismax = 4096); void ShowRawSpectra(const char* filename, const Int_t block, TCanvas* rawCanvas = NULL, Int_t xaxismin = 0, Int_t xaxismax = 4096, /*TObjArray* histList = NULL,*/ const Int_t subaddress = 16); //this function is written for old format of raw data //do not use this function!!!!!!!!!!! void ShowSpectra(const char* filename, TCanvas* rawCanvas = NULL, Option_t *option = "", Int_t xaxismin = 0, Int_t xaxismax = 4096, /*TObjArray* histList = NULL,*/ const Int_t subaddress = ADDRESSNUMBER); void ShowAnalyzedSpectra(const char* filename, TCanvas* fittedRawCanvas = NULL, Int_t xaxismin = 0, Int_t xaxismax = 4096, Int_t subaddress = 16); //This function displays analyzed spectrum from a file, divides the canvas into a sufficient number of pads and displays //spectrums of each block subadress on the suitable pads or displays one selected spectrum . //Selects the peaks in the histogram and displays on the histogram how the spectrum were fitted. // // filename: file .root containing analysed spectra // fittedRawCanvas: canvas on which one you will see the spectrum // xaxismin: Minimum channel, which will be displayed // xaxismax: Maximum channel, which will be displayed // subaddress: void ShowEnergySpectra(const char *filename, TCanvas* energyCanvas = NULL, const Int_t subaddress = 16, Option_t* option = "", Double_t xaxismin = 0., Double_t xaxismax = 10.); //option: "sum", "c", "+", //Displays the spectrum of the selected subbaddress block in MeV // // filename: file .root containing calibrated spectra in MeV // energyCanvas: : canvas on which one you will see the spectrum // subaddress: block subaddress which will be drawn // option: sum ,+ ,c // xaxismin: Minimum channel, which will be displayed // xaxismax: Maximum channel, which will be displayed void DivideCanvas(TCanvas *c1, Int_t inputs); //dodelat funkce TTree* Get...(...) pro raw, anal i E spectra Bool_t AddCalFileToList(const char* calfilelist = "CalFileList.log"); void ClearHistograms(Option_t* option = ""); void DeleteStacks(Option_t* option = ""); void MakeCalibrationFile(Char_t* calibrationfile, Char_t* calfilelist); void Reset(); //private: ClassDef(AculCalibration, 1); };