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slsDetectorPackage/slsDetectorCalibration/interpolations/etaInterpolationBase.h

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#ifndef ETA_INTERPOLATION_BASE_H
#define ETA_INTERPOLATION_BASE_H
#ifdef MYROOT1
#include <TObject.h>
#include <TTree.h>
#include <TH2D.h>
#include <TH2F.h>
#endif
#include <cmath>
#include "slsInterpolation.h"
#include "tiffIO.h"
class etaInterpolationBase : public slsInterpolation {
public:
etaInterpolationBase(int nx=400, int ny=400, int ns=25, int nsy=25, int nb=-1, int nby=-1, double emin=1, double emax=0) : slsInterpolation(nx,ny,ns,nsy), hhx(NULL), hhy(NULL), heta(NULL), nbetaX(nb), nbetaY(nby), etamin(emin), etamax(emax) {
// cout << "eb " << nb << " " << emin << " " << emax << endl;
// cout << nb << " " << etamin << " " << etamax << endl;
if (nbetaX<=0) {
//cout << "aaa:" <<endl;
nbetaX=nSubPixelsX*10;
}
if (nbetaY<=0) {
//cout << "aaa:" <<endl;
nbetaY=nSubPixelsY*10;
}
if (etamin>=etamax) {
etamin=-1;
etamax=2;
}
etastepX=(etamax-etamin)/nbetaX;
etastepY=(etamax-etamin)/nbetaY;
heta=new int[nbetaX*nbetaY];
hhx=new float[nbetaX*nbetaY];
hhy=new float[nbetaX*nbetaY];
rangeMin=etamin;
rangeMax=etamax;
flat= new double[nSubPixelsX*nSubPixelsY];
hintcorr=new int [nSubPixelsX*nSubPixelsY*nPixelsX*nPixelsY];
};
etaInterpolationBase(etaInterpolationBase *orig): slsInterpolation(orig){
nbetaX=orig->nbetaX;
nbetaY=orig->nbetaY;
etamin=orig->etamin;
etamax=orig->etamax;
rangeMin=orig->rangeMin;
rangeMax=orig->rangeMax;
etastepX=(etamax-etamin)/nbetaX;
etastepY=(etamax-etamin)/nbetaY;
heta=new int[nbetaX*nbetaY];
memcpy(heta,orig->heta,nbetaX*nbetaY*sizeof(int));
hhx=new float[nbetaX*nbetaY];
memcpy(hhx,orig->hhx,nbetaX*nbetaY*sizeof(float));
hhy=new float[nbetaX*nbetaY];
memcpy(hhy,orig->hhy,nbetaX*nbetaY*sizeof(float));
hintcorr=new int [nSubPixelsX*nSubPixelsY*nPixelsX*nPixelsY];
};
virtual void resetFlatField() {
for (int ibx=0; ibx<nbetaX*nbetaY; ibx++) {
heta[ibx]=0;
hhx[ibx]=0;
hhy[ibx]=0;
}
};
int *setEta(int *h, int nb=-1, int nby=-1, double emin=1, double emax=0)
{
if (h) {
if (heta) delete [] heta;
heta=h;
nbetaX=nb;
nbetaY=nby;
if (nbetaX<=0) nbetaX=nSubPixelsX*10;
if (nbetaY<=0) nbetaY=nSubPixelsY*10;
etamin=emin;
etamax=emax;
if (etamin>=etamax) {
etamin=-1;
etamax=2;
}
rangeMin=etamin;
rangeMax=etamax;
etastepX=(etamax-etamin)/nbetaX;
etastepY=(etamax-etamin)/nbetaY;
}
return heta;
};
int *setFlatField(int *h, int nb=-1, int nby=-1, double emin=1, double emax=0)
{
return setEta(h, nb, nby, emin, emax);
};
int *getFlatField(){return setEta(NULL);};
int *getFlatField(int &nb, int &nby, double &emin, double &emax){
nb=nbetaX;
nby=nbetaY;
emin=etamin;
emax=etamax;
return getFlatField();
};
void *writeFlatField(const char * imgname) {
float *gm=NULL;
gm=new float[nbetaX*nbetaY];
for (int ix=0; ix<nbetaX; ix++) {
for (int iy=0; iy<nbetaY; iy++) {
gm[iy*nbetaX+ix]=heta[iy*nbetaX+ix];
}
}
WriteToTiff(gm, imgname, nbetaX, nbetaY);
delete [] gm;
return NULL;
};
int readFlatField(const char * imgname, double emin=1, double emax=0) {
if (emax>=1) etamax=emax;
if (emin<=0) etamin=emin;
if (etamin>=etamax) {
etamin=-1;
etamax=2;
}
etastepX=(etamax-etamin)/nbetaX;
etastepY=(etamax-etamin)/nbetaY;
uint32 nnx;
uint32 nny;
float *gm=ReadFromTiff(imgname, nnx, nny);
/* if (nnx!=nny) { */
/* cout << "different number of bins in x " << nnx << " and y " << nny<< " !"<< endl; */
/* cout << "Aborting read"<< endl; */
/* return 0; */
/* } */
nbetaX=nnx;
nbetaY=nny;
if (gm) {
if (heta) {
delete [] heta;
delete [] hhx;
delete [] hhy;
}
heta=new int[nbetaX*nbetaY];
hhx=new float[nbetaX*nbetaY];
hhy=new float[nbetaX*nbetaY];
for (int ix=0; ix<nbetaX; ix++) {
for (int iy=0; iy<nbetaY; iy++) {
heta[iy*nbetaX+ix]=gm[iy*nbetaX+ix];
}
}
delete [] gm;
return 1;
}
return 0;
};
float *gethhx()
{
// hhx->Scale((double)nSubPixels);
return hhx;
};
float *gethhy()
{
// hhy->Scale((double)nSubPixels);
return hhy;
};
virtual int addToFlatField(double etax, double etay){
int ex,ey;
ex=(etax-etamin)/etastepX;
ey=(etay-etamin)/etastepY;
if (ey<nbetaY && ex<nbetaX && ex>=0 && ey>=0)
heta[ey*nbetaX+ex]++;
return 0;
};
// virtual void prepareInterpolation(int &ok)=0;
void debugSaveAll(int ind=0) {
int ibx, iby;
char tit[10000];
float tot_eta=0;
float *etah=new float[nbetaX*nbetaY];
// int etabins=nbeta;
int ibb=0;
for (int ii=0; ii<nbetaX*nbetaY; ii++) {
etah[ii]=heta[ii];
tot_eta+=heta[ii];
}
sprintf(tit,"/scratch/eta_%d.tiff",ind);
WriteToTiff(etah, tit, nbetaX, nbetaY);
for (int ii=0; ii<nbetaX*nbetaY; ii++) {
ibb=(hhx[ii]*nSubPixelsX);
etah[ii]=ibb;
}
sprintf(tit,"/scratch/eta_hhx_%d.tiff",ind);
WriteToTiff(etah, tit, nbetaX, nbetaY);
for (int ii=0; ii<nbetaX*nbetaY; ii++) {
ibb=hhy[ii]*nSubPixelsY;
etah[ii]=ibb;
}
sprintf(tit,"/scratch/eta_hhy_%d.tiff",ind);
WriteToTiff(etah, tit, nbetaX, nbetaY);
float *ftest=new float[nSubPixelsX*nSubPixelsY];
for (int ib=0; ib<nSubPixelsX*nSubPixelsY; ib++) ftest[ib]=0;
//int ibx=0, iby=0;
for (int ii=0; ii<nbetaX*nbetaY; ii++) {
ibx=nSubPixelsX*hhx[ii];
iby=nSubPixelsY*hhy[ii];
if (ibx<0) ibx=0;
if (iby<0) iby=0;
if (ibx>=nSubPixelsX) ibx=nSubPixelsX-1;
if (iby>=nSubPixelsY) iby=nSubPixelsY-1;
if (ibx>=0 && ibx<nSubPixelsX && iby>=0 && iby<nSubPixelsY) {
//
// if (ibx>0 && iby>0) cout << ibx << " " << iby << " " << ii << endl;
ftest[ibx+iby*nSubPixelsX]+=heta[ii];
} else
cout << "Bad interpolation "<< ii << " " << ibx << " " << iby<< endl;
}
sprintf(tit,"/scratch/ftest_%d.tiff",ind);
WriteToTiff(ftest, tit, nSubPixelsX, nSubPixelsY);
//int ibx=0, iby=0;
tot_eta/=nSubPixelsX*nSubPixelsY;
int nbad=0;
for (int ii=0; ii<nbetaX*nbetaY; ii++) {
ibx=nSubPixelsX*hhx[ii];
iby=nSubPixelsY*hhy[ii];
if (ftest[ibx+iby*nSubPixelsX]<tot_eta*0.5) {
etah[ii]=1;
nbad++;
} else if(ftest[ibx+iby*nSubPixelsX]>tot_eta*2.){
etah[ii]=2;
nbad++;
} else
etah[ii]=0;
}
sprintf(tit,"/scratch/eta_bad_%d.tiff",ind);
WriteToTiff(etah, tit, nbetaX, nbetaY);
// cout << "Index: " << ind << "\t Bad bins: "<< nbad << endl;
//int ibx=0, iby=0;
delete [] ftest;
delete [] etah;
}
protected:
double calcDiff(double avg, float *hx, float *hy) {
//double p_tot=0;
double diff=0, d;
//double bsize=1./nSubPixels;
int nbad=0;
double p_tot_x[nSubPixelsX], p_tot_y[nSubPixelsY], p_tot[nSubPixelsX*nSubPixelsY];
double maxdiff=0, mindiff=avg*nSubPixelsX*nSubPixelsY;
int ipx, ipy;
for (ipy=0; ipy<nSubPixelsY; ipy++) {
for (ipx=0; ipx<nSubPixelsX; ipx++) {
p_tot[ipx+ipy*nSubPixelsX]=0;
}
p_tot_y[ipy]=0;
p_tot_x[ipy]=0;
}
for (int ibx=0; ibx<nbetaX; ibx++) {
for (int iby=0; iby<nbetaY; iby++) {
ipx=hx[ibx+iby*nbetaX]*nSubPixelsX;
if (ipx<0) ipx=0;
if (ipx>=nSubPixelsX) ipx=nSubPixelsX-1;
ipy=hy[ibx+iby*nbetaX]*nSubPixelsY;
if (ipy<0) ipy=0;
if (ipy>=nSubPixelsY) ipy=nSubPixelsY-1;
p_tot[ipx+ipy*nSubPixelsX]+=heta[ibx+iby*nbetaX];
p_tot_y[ipy]+=heta[ibx+iby*nbetaX];
p_tot_x[ipx]+=heta[ibx+iby*nbetaX];
}
}
// cout << endl << endl;
for (ipy=0; ipy<nSubPixelsY; ipy++) {
cout.width(5);
//flat_y[ipy]=p_tot_y[ipy];//avg/nSubPixels;
for (ipx=0; ipx<nSubPixelsX; ipx++) {
// flat_x[ipx]=p_tot_x[ipx];///avg/nSubPixels;
flat[ipx+nSubPixelsX*ipy]=p_tot[ipx+nSubPixelsX*ipy];///avg;
d=p_tot[ipx+nSubPixelsX*ipy]-avg;
if (d<0) d*=-1.;
if (d>5*sqrt(avg) )
nbad++;
diff+=d*d;
if (d<mindiff) mindiff=d;
if (d>maxdiff) maxdiff=d;
// cout << setprecision(4) << p_tot[ipx+nSubPixels*ipy] << " ";
}
/* cout << "** " << setprecision(4) << flat_y[ipy]; */
//cout << "\n";
}
/* cout << "**" << endl; cout.width(5); */
/* for (ipx=0; ipx<nSubPixels; ipx++) { */
/* cout << setprecision(4) << flat_x[ipx] << " "; */
/* } */
//cout << "**" << endl; cout.width(5);
//cout << "Min diff: " << mindiff/sqrt(avg) << " Max diff: " << maxdiff/sqrt(avg) << " Nbad: " << nbad << endl;
// cout << "Bad pixels: " << 100.*(float)nbad/((float)(nSubPixels*nSubPixels)) << " %" << endl;
return sqrt(diff);
}
float *hhx;
float *hhy;
int *heta;
int nbetaX, nbetaY;
double etamin, etamax, etastepX, etastepY;
double rangeMin, rangeMax;
double *flat;
int *hintcorr;
};
#endif
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