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slsDetectorPackage/slsDetectorCalibration/multiThreadedInterpolatingDetector.h

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// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef MULTITHREADED_INTERPOLATING_DETECTOR_H
#define MULTITHREADED_INTERPOLATING_DETECTOR_H
#include "interpolatingDetector.h"
#include "multiThreadedCountingDetector.h"
//#include <mutex>
using namespace std;
class multiThreadedInterpolatingDetector : public multiThreadedCountingDetector
{
public:
multiThreadedInterpolatingDetector(interpolatingDetector *d, int n, int fs=1000) : multiThreadedCountingDetector(d,n,fs) { };
//virtual ~multiThreadedInterpolatingDetector() {multiThreadedCountingDetector::~multiThreadedCountingDetector();};
virtual void prepareInterpolation(int &ok){
/* getFlatField(); //sum up all etas */
/* setFlatField(); //set etas to all detectors */
/* for (int i=0; i<nThreads; i++) { */
(dets[0])->prepareInterpolation(ok);
// }
}
virtual int *getFlatField(){
return (dets[0])->getFlatField();
}
virtual int *getFlatField(int &nb, double emi, double ema){
return (dets[0])->getFlatField(nb,emi,ema);
}
virtual int *setFlatField(int *h=NULL, int nb=-1, double emin=1, double emax=0){
return (dets[0])->setFlatField(h,nb,emin,emax);
};
void *writeFlatField(const char * imgname){
return dets[0]->writeFlatField(imgname);
};
void *readFlatField(const char * imgname, int nb=-1, double emin=1, double emax=0){
return (dets[0])->readFlatField(imgname, nb, emin, emax);
};
/* virtual int setNSubPixels(int ns) { return (dets[0])->setNSubPixels(ns);}; */
virtual void resetFlatField() {(dets[0])->resetFlatField();};
/** sets file pointer where to write the clusters to
\param f file pointer
\returns current file pointer
*/
virtual slsInterpolation *setInterpolation(slsInterpolation *f){
//int ok;
for (int i=0; i<nThreads; i++)
(dets[i])->setInterpolation(f);
return (dets[0])->getInterpolation();
};
virtual slsInterpolation *getInterpolation(){
return (dets[0])->getInterpolation();
};
virtual int *getImage(int &nnx, int &nny, int &nsx, int &nsy) {
if (getInterpolation()==NULL) return multiThreadedAnalogDetector::getImage(nnx,nny,nsx, nsy);
//if one interpolates, the whole image is stored in detector 0;
int *img;
// int nnx, nny, ns;
// int nnx, nny, ns;
int nn=dets[0]->getImageSize(nnx, nny,nsx, nsy);
if (image) {
delete image;
image=NULL;
}
image=new int[nn];
img=dets[0]->getImage();
for (int i=0; i<nn; i++) {
image[i]=img[i];
}
return image;
};
};
#endif
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