source: fact/tools/rootmacros/FOscilloscopeAllPx.c@ 12640

#include <cstdio>
#include "FCalibrateEvent.c"
#include <numeric>
int FOscilloscopeAllPx(fits &datafile, vector<int16_t> &data, vector<int16_t> &data_offset, unsigned int &data_num, UInt_t data_px, vector<float> &drs_basemean, vector<float> &drs_gainmean, vector<float> &drs_triggeroffsetmean, UInt_t data_roi, float threshold, TH1F* spectrum[])
//Data, calibration, data_roi, data_num, data_px, threshold, two histograms
{
        UInt_t start_sample = 10;
        UInt_t end_sample = data_roi-60;
        UInt_t min_dist = 150;
        UInt_t integration_size = 10;
        UInt_t integration_delay = 5;
        
        vector<float> calevent(data_px*data_roi); //Vector for the calibrated event
        
        float sample, last_sample, integral;
        UInt_t drs_calib_offset;

//**********************************************************************************    
        for (size_t i=0; i<datafile.GetNumRows(); i++)
        {
                datafile.GetRow(i);
                cout << "Event number: " << data_num << endl;
                
                FCalibrateEvent(data, data_offset, drs_basemean, drs_gainmean, drs_triggeroffsetmean, calevent, data_px, data_roi);
                
                //Iterate over the pixels
                for (int j=0; j<data_px; j++)
                {
//              size_t j=pixelnr; //Fix the Pixel to a SoftID
                
                        //Iterate over the slices
                        for (UInt_t k=start_sample; k<end_sample; k++)
                        {
                                if((calevent[j*data_roi+k-1]<threshold)&&(calevent[j*data_roi+k]>threshold))
                                {
                                        integral = 0; //std::accumulate(calevent.begin()[k+integration_delay],calevent.begin()[k+integration_delay+integration_size]);
                                        for(UInt_t l=integration_delay; l<integration_delay+integration_size; l++)
                                        {
                                                integral+=calevent[j*data_roi+k+l];
                                        }
//                                      if((integral>60)&&(integral<=300)) {
//                                      if((integral>60)&&(integral<=300)) {
                                        //Iterate for the pulseshape
//                                      for(Int_t l=-10; l<60; l++)
//                                      {
//                                              drs_calib_offset = (k+l+data_offset[j])%data_roi;
//                                              sample = (data[j*data_roi+k+l]*2000/4096.-drs_basemean[j*data_roi+drs_calib_offset]-drs_triggeroffsetmean[j*data_roi+k+l])/drs_gainmean[j*data_roi+drs_calib_offset]*1907.35;
//                                      }
//                                      }
                                        spectrum[j]->Fill(integral);
                                        k+=min_dist;
                                }
                        }
                }
        }
        return 0;
}