/[PAMELA software]/DarthVader/TrackerLevel2/src/TrkLevel2.cpp
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revision 1.1 by mocchiut, Fri May 19 13:15:54 2006 UTC revision 1.34 by pam-fi, Thu May 24 13:29:09 2007 UTC
# Line 4  Line 4 
4   */   */
5  #include <TrkLevel2.h>  #include <TrkLevel2.h>
6  #include <iostream>  #include <iostream>
7    #include <math.h>
8  using namespace std;  using namespace std;
9  //......................................  //......................................
10  // F77 routines  // F77 routines
11  //......................................  //......................................
12  extern "C" {      extern "C" {    
13      void dotrack_(int*, double*, double*, double*, double*, int*);      void dotrack_(int*, double*, double*, double*, double*, int*);
14      int  readb_(const char*);      void dotrack2_(int*, double*, double*, double*, double*,double*, double*, double*,int*);
15        void mini2_(int*,int*,int*);
16        void guess_();
17        void gufld_(float*, float*);
18        float risxeta2_(float *);
19        float risxeta3_(float *);
20        float risxeta4_(float *);
21        float risyeta2_(float *);
22  }  }
23    
24  //--------------------------------------  //--------------------------------------
25  //  //
26  //  //
27  //--------------------------------------  //--------------------------------------
28  TrkTrack::TrkTrack(){  TrkTrack::TrkTrack(){
29      image = 0;  //    cout << "TrkTrack::TrkTrack()" << endl;
30        seqno = -1;
31        image = -1;
32      chi2  = 0;      chi2  = 0;
33        nstep = 0;
34      for(int it1=0;it1<5;it1++){      for(int it1=0;it1<5;it1++){
35          al[it1] = 0;          al[it1] = 0;
36          for(int it2=0;it2<5;it2++)          for(int it2=0;it2<5;it2++)coval[it1][it2] = 0;
             coval[it1][it2] = 0;  
37      };      };
38      for(int ip=0;ip<6;ip++){      for(int ip=0;ip<6;ip++){
39          xgood[ip]  = 0;          xgood[ip]  = 0;
# Line 32  TrkTrack::TrkTrack(){ Line 43  TrkTrack::TrkTrack(){
43          zm[ip]     = 0;          zm[ip]     = 0;
44          resx[ip]   = 0;          resx[ip]   = 0;
45          resy[ip]   = 0;          resy[ip]   = 0;
46            tailx[ip]   = 0;
47            taily[ip]   = 0;
48          xv[ip]     = 0;          xv[ip]     = 0;
49          yv[ip]     = 0;          yv[ip]     = 0;
50          zv[ip]     = 0;          zv[ip]     = 0;
# Line 39  TrkTrack::TrkTrack(){ Line 52  TrkTrack::TrkTrack(){
52          ayv[ip]    = 0;          ayv[ip]    = 0;
53          dedx_x[ip] = 0;          dedx_x[ip] = 0;
54          dedx_y[ip] = 0;          dedx_y[ip] = 0;
55      };          };
56    //    clx = 0;
57    //    cly = 0;
58    //    clx = new TRefArray(6,0); //forse causa memory leak???
59    //    cly = new TRefArray(6,0); //forse causa memory leak???
60    //    clx = TRefArray(6,0);
61    //    cly = TRefArray(6,0);
62    
63        TrkParams::SetTrackingMode();
64        TrkParams::SetPrecisionFactor();
65        TrkParams::SetStepMin();
66        TrkParams::SetPFA();
67    
68  };  };
69  //--------------------------------------  //--------------------------------------
70  //  //
71  //  //
72  //--------------------------------------  //--------------------------------------
73  TrkTrack::TrkTrack(const TrkTrack& t){  TrkTrack::TrkTrack(const TrkTrack& t){
74        seqno = t.seqno;
75      image = t.image;      image = t.image;
76      chi2  = t.chi2;      chi2  = t.chi2;
77        nstep = t.nstep;
78      for(int it1=0;it1<5;it1++){      for(int it1=0;it1<5;it1++){
79          al[it1] = t.al[it1];          al[it1] = t.al[it1];
80          for(int it2=0;it2<5;it2++)          for(int it2=0;it2<5;it2++)coval[it1][it2] = t.coval[it1][it2];
             coval[it1][it2] = t.coval[it1][it2];  
81      };      };
82      for(int ip=0;ip<6;ip++){      for(int ip=0;ip<6;ip++){
83          xgood[ip]  = t.xgood[ip];          xgood[ip]  = t.xgood[ip];
# Line 61  TrkTrack::TrkTrack(const TrkTrack& t){ Line 87  TrkTrack::TrkTrack(const TrkTrack& t){
87          zm[ip]     = t.zm[ip];          zm[ip]     = t.zm[ip];
88          resx[ip]   = t.resx[ip];          resx[ip]   = t.resx[ip];
89          resy[ip]   = t.resy[ip];          resy[ip]   = t.resy[ip];
90            tailx[ip]  = t.tailx[ip];
91            taily[ip]  = t.taily[ip];
92          xv[ip]     = t.xv[ip];          xv[ip]     = t.xv[ip];
93          yv[ip]     = t.yv[ip];          yv[ip]     = t.yv[ip];
94          zv[ip]     = t.zv[ip];          zv[ip]     = t.zv[ip];
# Line 68  TrkTrack::TrkTrack(const TrkTrack& t){ Line 96  TrkTrack::TrkTrack(const TrkTrack& t){
96          ayv[ip]    = t.ayv[ip];          ayv[ip]    = t.ayv[ip];
97          dedx_x[ip] = t.dedx_x[ip];          dedx_x[ip] = t.dedx_x[ip];
98          dedx_y[ip] = t.dedx_y[ip];          dedx_y[ip] = t.dedx_y[ip];
99      };          };
100    //    clx = 0;
101    //    cly = 0;
102    //    if(t.clx)clx = new TRefArray(*(t.clx));
103    //    if(t.cly)cly = new TRefArray(*(t.cly));
104    //    clx = TRefArray(t.clx);
105    //    cly = TRefArray(t.cly);
106    
107        TrkParams::SetTrackingMode();
108        TrkParams::SetPrecisionFactor();
109        TrkParams::SetStepMin();  
110        TrkParams::SetPFA();
111    
112    };
113    //--------------------------------------
114    //
115    //
116    //--------------------------------------
117    void TrkTrack::Copy(TrkTrack& t){
118    
119        t.seqno = seqno;
120        t.image = image;
121        t.chi2  = chi2;
122        t.nstep = nstep;
123        for(int it1=0;it1<5;it1++){
124            t.al[it1] = al[it1];
125            for(int it2=0;it2<5;it2++)t.coval[it1][it2] = coval[it1][it2];
126        };
127        for(int ip=0;ip<6;ip++){
128            t.xgood[ip]  = xgood[ip];
129            t.ygood[ip]  = ygood[ip];
130            t.xm[ip]     = xm[ip];
131            t.ym[ip]     = ym[ip];
132            t.zm[ip]     = zm[ip];
133            t.resx[ip]   = resx[ip];
134            t.resy[ip]   = resy[ip];
135            t.tailx[ip]  = tailx[ip];
136            t.taily[ip]  = taily[ip];
137            t.xv[ip]     = xv[ip];
138            t.yv[ip]     = yv[ip];
139            t.zv[ip]     = zv[ip];
140            t.axv[ip]    = axv[ip];
141            t.ayv[ip]    = ayv[ip];
142            t.dedx_x[ip] = dedx_x[ip];
143            t.dedx_y[ip] = dedx_y[ip];
144                
145        };
146    
147    //    t.clx = TRefArray(clx);
148    //    t.cly = TRefArray(cly);
149        
150  };  };
151  //--------------------------------------  //--------------------------------------
152  //  //
# Line 93  int TrkTrack::DoTrack(Trajectory* t){ Line 171  int TrkTrack::DoTrack(Trajectory* t){
171      for (int i=0; i<5; i++)         dal[i]  = (double)al[i];      for (int i=0; i<5; i++)         dal[i]  = (double)al[i];
172      for (int i=0; i<t->npoint; i++) dzin[i] = (double)t->z[i];      for (int i=0; i<t->npoint; i++) dzin[i] = (double)t->z[i];
173    
174        TrkParams::Load(1);
175        if( !TrkParams::IsLoaded(1) ){
176            cout << "int TrkTrack::DoTrack(Trajectory* t) --- ERROR --- m.field not loaded"<<endl;
177            return 0;
178        }
179      dotrack_(&(t->npoint),dzin,dxout,dyout,dal,&ifail);      dotrack_(&(t->npoint),dzin,dxout,dyout,dal,&ifail);
180            
181      for (int i=0; i<t->npoint; i++){      for (int i=0; i<t->npoint; i++){
# Line 110  int TrkTrack::DoTrack(Trajectory* t){ Line 193  int TrkTrack::DoTrack(Trajectory* t){
193  //  //
194  //  //
195  //--------------------------------------  //--------------------------------------
196    /**
197     * Evaluates the trajectory in the apparatus associated to the track.
198     * It integrates the equations of motion in the magnetic field. The magnetic field should be previously loaded ( by calling  TrkLevel2::LoadField() ), otherwise an error message is returned.  
199     * @param t pointer to an object of the class Trajectory,
200     * which z coordinates should be previously initialized by calling the proper constructor ( Trajectory::Trajectory(int n, float* zin) ).
201     * @return error flag.
202     */
203    int TrkTrack::DoTrack2(Trajectory* t){
204    
205        double *dxout   = new double[t->npoint];
206        double *dyout   = new double[t->npoint];
207        double *dthxout = new double[t->npoint];
208        double *dthyout = new double[t->npoint];
209        double *dtlout  = new double[t->npoint];
210        double *dzin    = new double[t->npoint];
211        double dal[5];
212    
213        int ifail = 0;
214    
215        for (int i=0; i<5; i++)         dal[i]  = (double)al[i];
216        for (int i=0; i<t->npoint; i++) dzin[i] = (double)t->z[i];
217    
218        TrkParams::Load(1);
219        if( !TrkParams::IsLoaded(1) ){
220            cout << "int TrkTrack::DoTrack2(Trajectory* t) --- ERROR --- m.field not loaded"<<endl;
221            return 0;
222        }
223        dotrack2_(&(t->npoint),dzin,dxout,dyout,dthxout,dthyout,dtlout,dal,&ifail);
224        
225        for (int i=0; i<t->npoint; i++){
226            t->x[i]   = (float)*dxout++;
227            t->y[i]   = (float)*dyout++;
228            t->thx[i] = (float)*dthxout++;
229            t->thy[i] = (float)*dthyout++;
230            t->tl[i]  = (float)*dtlout++;
231        }
232    
233    //    delete [] dxout;
234    //    delete [] dyout;
235    //    delete [] dzin;
236    
237        return ifail;
238    };
239    //--------------------------------------
240    //
241    //
242    //--------------------------------------
243  //float TrkTrack::BdL(){  //float TrkTrack::BdL(){
244  //};  //};
245  //--------------------------------------  //--------------------------------------
# Line 129  Float_t TrkTrack::GetDeflection(){ Line 259  Float_t TrkTrack::GetDeflection(){
259          return def;          return def;
260  };  };
261  //  //
262  Float_t TrkTrack::GetDEDX(){  /**
263          Float_t dedx=0;   * Method to retrieve the dE/dx measured on a tracker view.
264          for(Int_t i=0; i<6; i++)dedx+=dedx_x[i]*xgood[i]+dedx_y[i]*ygood[i];   * @param ip plane (0-5)
265          dedx = dedx/(this->GetNX()+this->GetNY());   * @param iv view (0=x 1=y)
266          return dedx;   */
267    Float_t TrkTrack::GetDEDX(int ip, int iv){
268        if(iv==0 && ip>=0 && ip<6)return fabs(dedx_x[ip]);
269        else if(iv==1 && ip>=0 && ip<6)return fabs(dedx_y[ip]);
270        else {
271            cout << "TrkTrack::GetDEDX(int ip, int iv) -- wrong input parameters "<<ip<<iv<<endl;
272            return 0.;
273        }
274    }
275    /**
276     * Method to evaluate the dE/dx measured on a tracker plane.
277     * The two measurements on x- and y-view are averaged.
278     * @param ip plane (0-5)
279     */
280    Float_t TrkTrack::GetDEDX(int ip){
281        if( (Int_t)XGood(ip)+(Int_t)YGood(ip) == 0 ) return 0;
282        return (GetDEDX(ip,0)+GetDEDX(ip,1))/((Int_t)XGood(ip)+(Int_t)YGood(ip));
283  };  };
284    
285    /**
286     * Method to evaluate the dE/dx averaged over all planes.
287     */
288    Float_t TrkTrack::GetDEDX(){
289        Float_t dedx=0;
290        for(Int_t ip=0; ip<6; ip++)dedx+=GetDEDX(ip,0)*XGood(ip)+GetDEDX(ip,1)*YGood(ip);
291        dedx = dedx/(GetNX()+GetNY());
292        return dedx;
293    };
294    /**
295     * Returns 1 if the cluster on a tracker view includes bad strips.
296     * @param ip plane (0-5)
297     * @param iv view (0=x 1=y)
298     */
299    Bool_t TrkTrack::IsBad(int ip,int iv){
300        if(iv==0 && ip>=0 && ip<6)return (xgood[ip]<0) ;
301        else if(iv==1 && ip>=0 && ip<6)return (ygood[ip]<0) ;
302        else {
303            cout << "TrkTrack::IsBad(int ip, int iv) -- wrong input parameters "<<ip<<iv<<endl;
304            return 0.;
305        }
306    };
307    /**
308     * Returns 1 if the signal on a tracker view is saturated.
309     * @param ip plane (0-5)
310     * @param iv view (0=x 1=y)
311     */
312    Bool_t TrkTrack::IsSaturated(int ip,int iv){
313        if(iv==0 && ip>=0 && ip<6)return (dedx_x[ip]<0) ;
314        else if(iv==1 && ip>=0 && ip<6)return (dedx_y[ip]<0) ;
315        else {
316            cout << "TrkTrack::IsSaturated(int ip, int iv) -- wrong input parameters "<<ip<<iv<<endl;
317            return 0.;
318        }
319    };
320    /**
321     * Returns 1 if either the x or the y signal on a tracker plane is saturated.
322     * @param ip plane (0-5)
323     */
324    Bool_t TrkTrack::IsSaturated(int ip){
325        return (IsSaturated(ip,0)||IsSaturated(ip,1));
326    };
327    /**
328     * Returns 1 if there is at least a saturated signal along the track.
329     */
330    Bool_t TrkTrack::IsSaturated(){
331        for(int ip=0; ip<6; ip++)for(int iv=0; iv<2; iv++)if(IsSaturated(ip,iv))return true;
332        return false;
333    }
334    /**
335     * Returns the track "lever-arm" on the x view, defined as the distance (in planes) between
336     * the upper and lower x measurements (the maximum value of lever-arm is 6).
337     */
338    Int_t TrkTrack::GetLeverArmX(){
339        int first_plane = -1;
340        int last_plane  = -1;
341        for(Int_t ip=0; ip<6; ip++){
342            if( XGood(ip) && first_plane == -1 )first_plane = ip;
343            if( XGood(ip) && first_plane != -1 )last_plane = ip;
344        }
345        if( first_plane == -1 || last_plane == -1){
346            cout<< "Int_t TrkTrack::GetLeverArmX() -- XGood(ip) always false ??? "<<endl;
347            return 0;
348        }
349        return (last_plane-first_plane+1);
350    }
351    /**
352     * Returns the track "lever-arm" on the y view, defined as the distance (in planes) between
353     * the upper and lower y measurements (the maximum value of lever-arm is 6).
354     */
355    Int_t TrkTrack::GetLeverArmY(){
356        int first_plane = -1;
357        int last_plane  = -1;
358        for(Int_t ip=0; ip<6; ip++){
359            if( YGood(ip) && first_plane == -1 )first_plane = ip;
360            if( YGood(ip) && first_plane != -1 )last_plane = ip;
361        }
362        if( first_plane == -1 || last_plane == -1){
363            cout<< "Int_t TrkTrack::GetLeverArmY() -- YGood(ip) always false ??? "<<endl;
364            return 0;
365        }
366        return (last_plane-first_plane+1);
367    }
368  //--------------------------------------  //--------------------------------------
369  //  //
370  //  //
371  //--------------------------------------  //--------------------------------------
372  void TrkTrack::Dump(){  void TrkTrack::Dump(){
373      cout << endl << "========== Track " ;      cout << endl << "========== Track " ;
374        cout << endl << "seq.  n. : "<< seqno;
375        cout << endl << "image n. : "<< image;
376      cout << endl << "al       : "; for(int i=0; i<5; i++)cout << al[i] << " ";      cout << endl << "al       : "; for(int i=0; i<5; i++)cout << al[i] << " ";
377      cout << endl << "chi^2    : "<< chi2;      cout << endl << "chi^2    : "<< chi2;
378      cout << endl << "xgood    : "; for(int i=0; i<6; i++)cout << xgood[i] ;      cout << endl << "n.step   : "<< nstep;
379      cout << endl << "ygood    : "; for(int i=0; i<6; i++)cout << ygood[i] ;      cout << endl << "xgood    : "; for(int i=0; i<6; i++)cout << XGood(i) ;
380        cout << endl << "ygood    : "; for(int i=0; i<6; i++)cout << YGood(i) ;
381      cout << endl << "xm       : "; for(int i=0; i<6; i++)cout << xm[i] << " ";      cout << endl << "xm       : "; for(int i=0; i<6; i++)cout << xm[i] << " ";
382      cout << endl << "ym       : "; for(int i=0; i<6; i++)cout << ym[i] << " ";      cout << endl << "ym       : "; for(int i=0; i<6; i++)cout << ym[i] << " ";
383      cout << endl << "zm       : "; for(int i=0; i<6; i++)cout << zm[i] << " ";      cout << endl << "zm       : "; for(int i=0; i<6; i++)cout << zm[i] << " ";
384        cout << endl << "xv       : "; for(int i=0; i<6; i++)cout << xv[i] << " ";
385        cout << endl << "yv       : "; for(int i=0; i<6; i++)cout << yv[i] << " ";
386        cout << endl << "zv       : "; for(int i=0; i<6; i++)cout << zv[i] << " ";
387        cout << endl << "resx     : "; for(int i=0; i<6; i++)cout << resx[i] << " ";
388        cout << endl << "resy     : "; for(int i=0; i<6; i++)cout << resy[i] << " ";
389        cout << endl << "tailx    : "; for(int i=0; i<6; i++)cout << tailx[i] << " ";
390        cout << endl << "taily    : "; for(int i=0; i<6; i++)cout << taily[i] << " ";
391        cout << endl << "coval    : "; for(int i=0; i<5; i++)cout << coval[0][i]<<" ";
392        cout << endl << "           "; for(int i=0; i<5; i++)cout << coval[1][i]<<" ";
393        cout << endl << "           "; for(int i=0; i<5; i++)cout << coval[2][i]<<" ";
394        cout << endl << "           "; for(int i=0; i<5; i++)cout << coval[3][i]<<" ";
395        cout << endl << "           "; for(int i=0; i<5; i++)cout << coval[4][i]<<" ";
396      cout << endl << "dedx_x   : "; for(int i=0; i<6; i++)cout << dedx_x[i] << " ";      cout << endl << "dedx_x   : "; for(int i=0; i<6; i++)cout << dedx_x[i] << " ";
397      cout << endl << "dedx_y   : "; for(int i=0; i<6; i++)cout << dedx_y[i] << " ";      cout << endl << "dedx_y   : "; for(int i=0; i<6; i++)cout << dedx_y[i] << " ";
398        cout << endl;
399    }
400    /**
401     * Set the TrkTrack position measurements
402     */
403    void TrkTrack::SetMeasure(double *xmeas, double *ymeas, double *zmeas){
404        for(int i=0; i<6; i++) xm[i]=*xmeas++;
405        for(int i=0; i<6; i++) ym[i]=*ymeas++;
406        for(int i=0; i<6; i++) zm[i]=*zmeas++;
407    }
408    /**
409     * Set the TrkTrack position resolution
410     */
411    void TrkTrack::SetResolution(double *rx, double *ry){
412        for(int i=0; i<6; i++) resx[i]=*rx++;
413        for(int i=0; i<6; i++) resy[i]=*ry++;
414    }
415    /**
416     * Set the TrkTrack tails position resolution
417     */
418    void TrkTrack::SetTail(double *tx, double *ty, double factor){
419        for(int i=0; i<6; i++) tailx[i]=factor*(*tx++);
420        for(int i=0; i<6; i++) taily[i]=factor*(*ty++);
421    }
422    /**
423     * Set the TrkTrack Student parameter (resx,resy,tailx,taily)
424     * from previous gausian fit
425     *@param flag =0 standard, =1 with noise correction
426     */
427    void TrkTrack::SetStudentParam(int flag){
428        float sx[11]={0.000128242,
429                       0.000136942,
430                       0.000162718,
431                       0.000202644,
432                       0.00025597,
433                       0.000317456,
434                       0.000349048,
435                       0.000384638,
436                       0.000457295,
437                       0.000512319,
438                       0.000538573};
439        float tx[11]={1.79402,
440                       2.04876,
441                       2.88376,
442                       3.3,
443                       3.14084,
444                       4.07686,
445                       4.44736,
446                       3.5179,
447                       3.38697,
448                       3.45739,
449                       3.18627};
450        float sy[11]={0.000483075,
451                       0.000466925,
452                       0.000431658,
453                       0.000428317,
454                       0.000433854,
455                       0.000444044,
456                       0.000482098,
457                       0.000537579,
458                       0.000636279,
459                       0.000741998,
460                       0.000864261};
461        float ty[11]={0.997032,
462                       1.11147,
463                       1.18526,
464                       1.61404,
465                       2.21908,
466                       3.08959,
467                       4.48833,
468                       4.42687,
469                       4.65253,
470                       4.52043,
471                       4.29926};
472        int index;
473        float fact;
474        for(int i=0; i<6; i++) {
475            index = int((fabs(axv[i])+1.)/2.);
476            if(index>10) index=10;
477            tailx[i]=tx[index];
478            if(flag==1) {
479                if(fabs(axv[i])<=10.) fact = resx[i]/risxeta2_(&(axv[i]));
480                if(fabs(axv[i])>10.&&fabs(axv[i])<=15.) fact = resx[i]/risxeta3_(&(axv[i]));
481                if(fabs(axv[i])>15.) fact = resx[i]/risxeta4_(&(axv[i]));
482            } else fact = 1.;
483            resx[i] = sx[index]*fact;
484        }
485        for(int i=0; i<6; i++) {
486            index = int((fabs(ayv[i])+1.)/2.);
487            if(index>10) index=10;
488            taily[i]=ty[index];
489            if(flag==1) fact = resy[i]/risyeta2_(&(ayv[i]));
490            else fact = 1.;
491            resy[i] = sy[index]*fact;
492        }
493    }
494    /**
495     * Set the TrkTrack good measurement
496     */
497    void TrkTrack::SetGood(int *xg, int *yg){
498    
499        for(int i=0; i<6; i++) xgood[i]=*xg++;
500        for(int i=0; i<6; i++) ygood[i]=*yg++;
501    }
502    
503    /**
504     * Load the magnetic field
505     */
506    void TrkTrack::LoadField(TString path){
507        
508    //     strcpy(path_.path,path.Data());
509    //     path_.pathlen = path.Length();
510    //     path_.error   = 0;
511    //     readb_();
512    
513        TrkParams::SetTrackingMode();
514        TrkParams::SetPrecisionFactor();
515        TrkParams::SetStepMin();
516    
517        TrkParams::Set(path,1);
518        TrkParams::Load(1);
519    
520    };
521    
522    
523    /**
524     * Method to fill minimization-routine common
525     */
526    void TrkTrack::FillMiniStruct(cMini2track& track){
527    
528        for(int i=0; i<6; i++){
529    
530    //      cout << i<<" - "<<xgood[i]<<" "<<XGood(i)<<endl;
531    //      cout << i<<" - "<<ygood[i]<<" "<<YGood(i)<<endl;
532            track.xgood[i]=XGood(i);
533            track.ygood[i]=YGood(i);
534            
535            track.xm[i]=xm[i];
536            track.ym[i]=ym[i];
537            track.zm[i]=zm[i];
538            
539    //      --- temporaneo ----------------------------
540    //      andrebbe inserita la dimensione del sensore
541            float segment = 100.;
542            track.xm_a[i]=xm[i];
543            track.xm_b[i]=xm[i];
544            track.ym_a[i]=ym[i];
545            track.ym_b[i]=ym[i];
546            if(       XGood(i) && !YGood(i) ){
547                track.ym_a[i] = track.ym_a[i]+segment;
548                track.ym_b[i] = track.ym_b[i]-segment;
549            }else if( !XGood(i) && YGood(i)){
550                track.xm_a[i] = track.xm_a[i]+segment;
551                track.xm_b[i] = track.xm_b[i]-segment;
552            }
553    //      --- temporaneo ----------------------------
554            
555            track.resx[i]=resx[i];
556            track.resy[i]=resy[i];
557            track.tailx[i]=tailx[i];
558            track.taily[i]=taily[i];
559        }
560    
561        for(int i=0; i<5; i++) track.al[i]=al[i];
562        track.zini = 23.5;
563    // ZINI = 23.5 !!! it should be the same parameter in all codes
564        
565    }
566    /**
567     * Method to set values from  minimization-routine common
568     */
569    void TrkTrack::SetFromMiniStruct(cMini2track *track){
570    
571        for(int i=0; i<5; i++) {
572            al[i]=track->al[i];
573            for(int j=0; j<5; j++) coval[i][j]=track->cov[i][j];
574        }
575        chi2  = track->chi2;
576        nstep = track->nstep;
577        for(int i=0; i<6; i++){
578            xv[i]  = track->xv[i];
579            yv[i]  = track->yv[i];
580            zv[i]  = track->zv[i];
581            xm[i]  = track->xm[i];
582            ym[i]  = track->ym[i];
583            zm[i]  = track->zm[i];
584            axv[i] = track->axv[i];
585            ayv[i] = track->ayv[i];
586        }
587        
588    }
589    /**
590     * \brief Method to re-evaluate coordinates of clusters associated with a track.
591     *
592     * The method can be applied only after recovering level1 information
593     * (either by reprocessing single events from level0 or from  
594     * the TrkLevel1 branch, if present); it calls F77 subroutines that
595     * read the level1 common and fill the minimization-routine common.
596     * Some clusters can be excluded or added by means of the methods:
597     *
598     * TrkTrack::ResetXGood(int ip)
599     * TrkTrack::ResetYGood(int ip)
600     * TrkTrack::SetXGood(int ip, int cid, int is)
601     * TrkTrack::SetYGood(int ip, int cid, int is)
602     *
603     * NB! The method TrkTrack::SetGood(int *xg, int *yg) set the plane-mask (0-1)
604     * for the minimization-routine common. It deletes the cluster information
605     * (at least for the moment...) thus cannot be applied before
606     * TrkTrack::EvaluateClusterPositions().  
607     *
608     * Different p.f.a. can be applied by calling (once) the method:
609     *
610     * TrkParams::SetPFA(0); //Set ETA p.f.a.
611     *
612     * @see TrkParams::SetPFA(int)
613     */
614    void TrkTrack::EvaluateClusterPositions(){
615        
616    //     cout << "void TrkTrack::GetClusterPositions() "<<endl;
617    
618        TrkParams::Load( );
619        if( !TrkParams::IsLoaded() )return;
620        
621        for(int ip=0; ip<6; ip++){
622    //      cout << ip<<" ** "<<xm[ip]<<" / "<<ym[ip]<<endl;;
623            int icx = GetClusterX_ID(ip)+1;
624            int icy = GetClusterY_ID(ip)+1;
625            int sensor = GetSensor(ip)+1;//<< convenzione "Paolo"
626            if(ip==5 && sensor!=0)sensor=3-sensor;//<< convenzione "Elena"
627            int ladder = GetLadder(ip)+1;
628            float ax = axv[ip];
629            float ay = ayv[ip];
630            float v[3];
631            v[0]=xv[ip];
632            v[1]=yv[ip];
633            v[2]=zv[ip];
634            float bfx = 10*TrkParams::GetBX(v);//Tesla
635            float bfy = 10*TrkParams::GetBY(v);//Tesla
636            int ipp=ip+1;
637            xyzpam_(&ipp,&icx,&icy,&ladder,&sensor,&ax,&ay,&bfx,&bfy);
638        }
639    }
640    /**
641     * \brief Tracking method. It calls F77 mini routine.
642     *
643     * @param pfixed Particle momentum. If pfixed=0 the momentum
644     * is left as a free parameter, otherwise it is fixed to the input value.
645     * @param fail Output flag (!=0 if the fit failed).
646     * @param iprint Flag to set debug mode ( 0 = no output; 1 = verbose; 2 = debug).
647     * @param froml1 Flag to re-evaluate positions (see TrkTrack::GetClusterPositions()).
648     *
649     * The option to re-evaluate positions can be used only after recovering
650     * level1 information, eg. by reprocessing the single event.
651     *
652     * Example:
653     *
654     * if( !event->GetTrkLevel0() )return false;
655     * event->GetTrkLevel0()->ProcessEvent(); // re-processing level0->level1
656     * int fail=0;
657     * event->GetTrkLevel2()->GetTrack(0)->Fit(0.,fail,0,1);
658     *
659     * @see EvaluateClusterPositions()
660     *
661     * The fitting procedure can be varied by changing the tracking mode,
662     * the fit-precision factor and the minimum number of step.
663     * @see SetTrackingMode(int)
664     * @see SetPrecisionFactor(double)
665     * @see SetStepMin(int)
666     */
667    void TrkTrack::Fit(double pfixed, int& fail, int iprint, int froml1){
668    
669        float al_ini[] = {0.,0.,0.,0.,0.};
670    
671        TrkParams::Load( );
672        if( !TrkParams::IsLoaded() )return;
673    
674        extern cMini2track track_;
675        fail = 0;
676        FillMiniStruct(track_);
677        
678        if(froml1!=0)EvaluateClusterPositions();
679        
680        // if fit variables have been reset, evaluate the initial guess
681        if(al[0]==-9999.&&al[1]==-9999.&&al[2]==-9999.&&al[3]==-9999.&&al[4]==-9999.)guess_();
682    
683        // --------------------- free momentum
684        if(pfixed==0.) {
685            track_.pfixed=0.;
686        }
687        // --------------------- fixed momentum
688        if(pfixed!=0.) {
689            al[4]=1./pfixed;    
690            track_.pfixed=pfixed;
691        }
692    
693        //  store temporarily the initial guess
694        for(int i=0; i<5; i++) al_ini[i]=track_.al[i];
695    
696        //  ------------------------------------------
697        //  call mini routine
698    //     TrkParams::Load(1);
699    //     if( !TrkParams::IsLoaded(1) ){
700    //      cout << "void TrkTrack::Fit(double pfixed, int& fail, int iprint) --- ERROR --- m.field not loaded"<<endl;
701    //      return;
702    //     }
703        int istep=0;
704        int ifail=0;
705        mini2_(&istep,&ifail, &iprint);
706        if(ifail!=0) {
707            if(iprint)cout << "ERROR: ifail= " << ifail << endl;
708            fail = 1;
709        }
710        //  ------------------------------------------
711        
712        SetFromMiniStruct(&track_);
713    
714        if(fail){
715            if(iprint)cout << " >>>> fit failed "<<endl;
716            for(int i=0; i<5; i++) al[i]=al_ini[i];
717        }
718    
719    };
720    /**
721     * Reset the fit parameters
722     */
723    void TrkTrack::FitReset(){
724        for(int i=0; i<5; i++) al[i]=-9999.;
725        chi2=0.;
726        nstep=0;
727    //     for(int i=0; i<6; i++) xv[i]=0.;
728    //     for(int i=0; i<6; i++) yv[i]=0.;
729    //     for(int i=0; i<6; i++) zv[i]=0.;
730    //     for(int i=0; i<6; i++) axv[i]=0.;
731    //     for(int i=0; i<6; i++) ayv[i]=0.;
732        for(int i=0; i<5; i++) {
733            for(int j=0; j<5; j++) coval[i][j]=0.;
734        }
735  }  }
736    /**
737     * Set the tracking mode
738     */
739    void TrkTrack::SetTrackingMode(int trackmode){
740        extern cMini2track track_;
741        track_.trackmode = trackmode;
742    }
743    /**
744     * Set the factor scale for tracking precision
745     */
746    void TrkTrack::SetPrecisionFactor(double fact){
747        extern cMini2track track_;
748        track_.fact = fact;
749    }
750    /**
751     * Set the minimum number of steps for tracking precision
752     */
753    void TrkTrack::SetStepMin(int istepmin){
754        extern cMini2track track_;
755        track_.istepmin = istepmin;
756    }
757    
758    
759    /**
760     * Method to retrieve ID (0,1,...) of x-cluster (if any) associated to this track.
761     * If no cluster is associated, ID=-1.
762     * @param ip Tracker plane (0-5)
763     */
764    Int_t TrkTrack::GetClusterX_ID(int ip){
765        return ((Int_t)fabs(xgood[ip]))%10000000-1;
766    };
767    /**
768     * Method to retrieve ID (0-xxx) of y-cluster (if any) associated to this track.
769     * If no cluster is associated, ID=-1.
770     * @param ip Tracker plane (0-5)
771     */
772    Int_t TrkTrack::GetClusterY_ID(int ip){
773        return ((Int_t)fabs(ygood[ip]))%10000000-1;
774    };
775    /**
776     * Method to retrieve the ladder (0-4, increasing x) traversed by the track on this plane.
777     * If no ladder is traversed (dead area) the metod retuns -1.
778     * @param ip Tracker plane (0-5)
779     */
780    Int_t TrkTrack::GetLadder(int ip){
781        if(XGood(ip))return (Int_t)fabs(xgood[ip]/100000000)-1;
782        if(YGood(ip))return (Int_t)fabs(ygood[ip]/100000000)-1;
783        return -1;
784    };
785    /**
786     * Method to retrieve the sensor (0-1, increasing y) traversed by the track on this plane.
787     * If no sensor is traversed (dead area) the metod retuns -1.
788     * @param ip Tracker plane (0-5)
789     */
790    Int_t TrkTrack::GetSensor(int ip){
791        if(XGood(ip))return (Int_t)((Int_t)fabs(xgood[ip]/10000000)%10)-1;
792        if(YGood(ip))return (Int_t)((Int_t)fabs(ygood[ip]/10000000)%10)-1;
793        return -1;
794    };
795    
796    /**
797     * \brief Method to include a x-cluster to the track.
798     * @param ip Tracker plane (0-5)
799     * @param clid Cluster ID (0,1,...)
800     * @param is Sensor (0-1, increasing y)
801     * @see Fit(double pfixed, int& fail, int iprint, int froml1)
802     */
803    void TrkTrack::SetXGood(int ip, int clid, int is){
804        int il=0;       //ladder (temporary)
805        bool bad=false; //ladder (temporary)
806        xgood[ip]=il*100000000+is*10000000+clid;
807        if(bad)xgood[ip]=-xgood[ip];
808    };
809    /**
810     * \brief Method to include a y-cluster to the track.
811     * @param ip Tracker plane (0-5)
812     * @param clid Cluster ID (0,1,...)
813     * @param is Sensor (0-1)
814     * @see Fit(double pfixed, int& fail, int iprint, int froml1)
815     */
816    void TrkTrack::SetYGood(int ip, int clid, int is){
817        int il=0;       //ladder (temporary)
818        bool bad=false; //ladder (temporary)
819        ygood[ip]=il*100000000+is*10000000+clid;
820        if(bad)ygood[ip]=-ygood[ip];
821    };
822    
823    //--------------------------------------
824    //
825    //
826    //--------------------------------------
827    void TrkTrack::Clear(){
828    //    cout << "TrkTrack::Clear()"<<endl;
829        seqno = -1;
830        image = -1;
831        chi2  = 0;
832        nstep = 0;
833        for(int it1=0;it1<5;it1++){
834            al[it1] = 0;
835            for(int it2=0;it2<5;it2++)coval[it1][it2] = 0;
836        };
837        for(int ip=0;ip<6;ip++){
838            xgood[ip]  = 0;
839            ygood[ip]  = 0;
840            xm[ip]     = 0;
841            ym[ip]     = 0;
842            zm[ip]     = 0;
843            resx[ip]   = 0;
844            resy[ip]   = 0;
845            tailx[ip]  = 0;
846            taily[ip]  = 0;
847            xv[ip]     = 0;
848            yv[ip]     = 0;
849            zv[ip]     = 0;
850            axv[ip]    = 0;
851            ayv[ip]    = 0;
852            dedx_x[ip] = 0;
853            dedx_y[ip] = 0;
854    
855        };
856    //     if(clx)clx->Clear();
857    //     if(cly)cly->Clear();
858    //    clx.Clear();
859    //    cly.Clear();
860    };
861    //--------------------------------------
862    //
863    //
864    //--------------------------------------
865    void TrkTrack::Delete(){
866    //    cout << "TrkTrack::Delete()"<<endl;
867        Clear();
868    //    if(clx)delete clx;
869    //    if(cly)delete cly;
870    };
871    //--------------------------------------
872    //
873    //
874    //--------------------------------------
875    
876  //--------------------------------------  //--------------------------------------
877  //  //
878  //  //
879  //--------------------------------------  //--------------------------------------
880  TrkSinglet::TrkSinglet(){  TrkSinglet::TrkSinglet(){
881    //    cout << "TrkSinglet::TrkSinglet() " << GetUniqueID()<<endl;
882      plane    = 0;      plane    = 0;
883      coord[0] = 0;      coord[0] = 0;
884      coord[1] = 0;      coord[1] = 0;
885      sgnl     = 0;      sgnl     = 0;
886    //    cls      = 0;
887  };  };
888  //--------------------------------------  //--------------------------------------
889  //  //
890  //  //
891  //--------------------------------------  //--------------------------------------
892  TrkSinglet::TrkSinglet(const TrkSinglet& s){  TrkSinglet::TrkSinglet(const TrkSinglet& s){
893    //    cout << "TrkSinglet::TrkSinglet(const TrkSinglet& s) " << GetUniqueID()<<endl;
894      plane    = s.plane;      plane    = s.plane;
895      coord[0] = s.coord[0];      coord[0] = s.coord[0];
896      coord[1] = s.coord[1];      coord[1] = s.coord[1];
897      sgnl     = s.sgnl;      sgnl     = s.sgnl;
898    //      cls      = 0;//<<<<pointer
899    //    cls      = TRef(s.cls);
900  };  };
901  //--------------------------------------  //--------------------------------------
902  //  //
# Line 187  void TrkSinglet::Dump(){ Line 913  void TrkSinglet::Dump(){
913  //  //
914  //  //
915  //--------------------------------------  //--------------------------------------
916    void TrkSinglet::Clear(){
917    //    cout << "TrkSinglet::Clear() " << GetUniqueID()<<endl;
918    //    cls=0;
919        plane=-1;
920        coord[0]=-999;
921        coord[1]=-999;
922        sgnl=0;
923        
924    }
925    //--------------------------------------
926    //
927    //
928    //--------------------------------------
929  TrkLevel2::TrkLevel2(){  TrkLevel2::TrkLevel2(){
930      good2    = -1;    //    cout <<"TrkLevel2::TrkLevel2()"<<endl;
931      for(Int_t i=0; i<12 ; i++){      for(Int_t i=0; i<12 ; i++){
932          crc[i] = -1;          good[i] = -1;
933            VKmask[i] = 0;
934            VKflag[i] = 0;  
935      };      };
936      Track    = new TClonesArray("TrkTrack");      Track    = 0;
937      SingletX = new TClonesArray("TrkSinglet");      SingletX = 0;
938      SingletY = new TClonesArray("TrkSinglet");      SingletY = 0;
939    
940    }
941    //--------------------------------------
942    //
943    //
944    //--------------------------------------
945    void TrkLevel2::Set(){
946        if(!Track)Track    = new TClonesArray("TrkTrack");
947        if(!SingletX)SingletX = new TClonesArray("TrkSinglet");
948        if(!SingletY)SingletY = new TClonesArray("TrkSinglet");
949  }  }
950  //--------------------------------------  //--------------------------------------
951  //  //
952  //  //
953  //--------------------------------------  //--------------------------------------
954  void TrkLevel2::Dump(){  void TrkLevel2::Dump(){
955      TClonesArray &t  = *Track;          
956      TClonesArray &sx = *SingletX;          //
     TClonesArray &sy = *SingletY;  
   
957      cout << endl << endl << "=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-";      cout << endl << endl << "=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-";
958      cout << endl << "good2    : " << good2;      cout << endl << "good     : "; for(int i=0; i<12; i++) cout << good[i]<<" ";
     cout << endl << "crc      : "; for(int i=0; i<12; i++) cout << crc[i];  
959      cout << endl << "ntrk()   : " << this->ntrk() ;      cout << endl << "ntrk()   : " << this->ntrk() ;
960      cout << endl << "nclsx()  : " << this->nclsx();      cout << endl << "nclsx()  : " << this->nclsx();
961      cout << endl << "nclsy()  : " << this->nclsy();      cout << endl << "nclsy()  : " << this->nclsy();
962      for(int i=0; i<this->ntrk(); i++)     ((TrkTrack *)t[i])->Dump();      if(Track){
963      for(int i=0; i<this->nclsx(); i++) ((TrkSinglet *)sx[i])->Dump();          TClonesArray &t  = *Track;
964      for(int i=0; i<this->nclsy(); i++) ((TrkSinglet *)sy[i])->Dump();          for(int i=0; i<ntrk(); i++)     ((TrkTrack *)t[i])->Dump();
965        }      
966        if(SingletX){
967            TClonesArray &sx = *SingletX;
968            for(int i=0; i<nclsx(); i++) ((TrkSinglet *)sx[i])->Dump();
969        }
970        if(SingletY){
971            TClonesArray &sy = *SingletY;
972            for(int i=0; i<nclsy(); i++) ((TrkSinglet *)sy[i])->Dump();
973        }
974    }
975    //--------------------------------------
976    //
977    //
978    //--------------------------------------
979    /**
980     * The method returns false if the viking-chip was masked  
981     * either apriori ,on the basis of the mask read from the DB,
982     * or run-by-run, on the basis of the calibration parameters)
983     * @param iv Tracker view (0-11)
984     * @param ivk Viking-chip number (0-23)
985     */
986    Bool_t TrkLevel2::GetVKMask(int iv, int ivk){
987        Int_t whichbit = (Int_t)pow(2,ivk);
988        return (whichbit&VKmask[iv])!=0;    
989    }
990    /**
991     * The method returns false if the viking-chip was masked  
992     * for this event due to common-noise computation failure.
993     * @param iv Tracker view (0-11)
994     * @param ivk Viking-chip number (0-23)
995     */
996    Bool_t TrkLevel2::GetVKFlag(int iv, int ivk){
997        Int_t whichbit = (Int_t)pow(2,ivk);
998        return (whichbit&VKflag[iv])!=0;    
999  }  }
1000    /**
1001     * The method returns true if the viking-chip was masked, either
1002     * forced (see TrkLevel2::GetVKMask(int,int)) or
1003     * for this event only (TrkLevel2::GetVKFlag(int,int)).
1004     * @param iv Tracker view (0-11)
1005     * @param ivk Viking-chip number (0-23)
1006     */
1007    Bool_t TrkLevel2::IsMaskedVK(int iv, int ivk){
1008        return !(GetVKMask(iv,ivk)&&GetVKFlag(iv,ivk) );
1009    };
1010    
1011  //--------------------------------------  //--------------------------------------
1012  //  //
1013  //  //
1014  //--------------------------------------  //--------------------------------------
1015  /**  /**
1016   * Fills a TrkLevel2 object with values from a struct cTrkLevel2 (to get data from F77 common).   * Fills a TrkLevel2 object with values from a struct cTrkLevel2 (to get data from F77 common).
1017     * Ref to Level1 data (clusters) is also set. If l1==NULL no references are set.
1018     * (NB It make sense to set references only if events are stored in a tree that contains also the Level1 branch)
1019   */   */
1020  void TrkLevel2::FillCommonVar(cTrkLevel2 *l2){  void TrkLevel2::SetFromLevel2Struct(cTrkLevel2 *l2, TrkLevel1 *l1){
1021    
1022    //    cout << "void TrkLevel2::SetFromLevel2Struct(cTrkLevel2 *l2, TrkLevel1 *l1)"<<endl;
1023        Clear();
1024    
1025  //  temporary objects:  //  temporary objects:
1026      TrkSinglet* t_singlet = new TrkSinglet();      TrkSinglet* t_singlet = new TrkSinglet();
1027      TrkTrack*   t_track   = new TrkTrack();      TrkTrack*   t_track   = new TrkTrack();
1028    
1029    //  -----------------
1030  //  general variables  //  general variables
1031      good2 = l2->good2;  //  -----------------
1032      for(Int_t i=0; i<12 ; i++){      for(Int_t i=0; i<12 ; i++){
1033          crc[i] = l2->crc[i];          good[i] = l2->good[i];
1034            VKmask[i]=0;
1035            VKflag[i]=0;
1036            for(Int_t ii=0; ii<24 ; ii++){
1037                Int_t setbit = (Int_t)pow(2,ii);
1038                if( l2->vkflag[ii][i]!=-1 )VKmask[i]=VKmask[i]|setbit;
1039                if( l2->vkflag[ii][i]!=0  )VKflag[i]=VKflag[i]|setbit;
1040            };
1041      };      };
1042    //  --------------
1043  //  *** TRACKS ***  //  *** TRACKS ***
1044    //  --------------
1045        if(!Track) Track = new TClonesArray("TrkTrack");
1046      TClonesArray &t = *Track;      TClonesArray &t = *Track;
1047    
1048      for(int i=0; i<l2->ntrk; i++){      for(int i=0; i<l2->ntrk; i++){
1049            t_track->seqno = i;// NBNBNBNB deve sempre essere = i
1050          t_track->image = l2->image[i]-1;          t_track->image = l2->image[i]-1;
1051          t_track->chi2  = l2->chi2_nt[i];          t_track->chi2  = l2->chi2_nt[i];
1052            t_track->nstep = l2->nstep_nt[i];
1053          for(int it1=0;it1<5;it1++){          for(int it1=0;it1<5;it1++){
1054              t_track->al[it1] = l2->al_nt[i][it1];              t_track->al[it1] = l2->al_nt[i][it1];
1055              for(int it2=0;it2<5;it2++)              for(int it2=0;it2<5;it2++)
1056                  t_track->coval[it1][it2] = l2->coval[i][it2][it1];                  t_track->coval[it1][it2] = l2->coval[i][it2][it1];
1057          };          };
1058          for(int ip=0;ip<6;ip++){          for(int ip=0;ip<6;ip++){
1059              t_track->xgood[ip]  = l2->xgood_nt[i][ip];              // ---------------------------------
1060              t_track->ygood[ip]  = l2->ygood_nt[i][ip];              // new implementation of xgood/ygood
1061                // ---------------------------------
1062                t_track->xgood[ip]  = l2->cltrx[i][ip]; //cluster ID
1063                t_track->ygood[ip]  = l2->cltry[i][ip]; //cluster ID
1064                t_track->xgood[ip] += 10000000*l2->ls[i][ip]; // ladder+sensor
1065                t_track->ygood[ip] += 10000000*l2->ls[i][ip]; // ladder+sensor
1066                if(l2->xbad[i][ip]>0)t_track->xgood[ip]=-t_track->xgood[ip];
1067                if(l2->ybad[i][ip]>0)t_track->ygood[ip]=-t_track->ygood[ip];
1068    //          if(l2->xbad[i][ip]>0 || l2->ybad[i][ip]>0){
1069    //          if(l2->dedx_x[i][ip]<0 || l2->dedx_y[i][ip]<0){
1070    //              cout << ip << " - "<< l2->cltrx[i][ip] << " "<<l2->cltry[i][ip]<<" "<<l2->ls[i][ip]<<endl;
1071    //              cout << ip << " - "<<t_track->xgood[ip]<<" "<<t_track->ygood[ip]<<endl;
1072    //              cout << ip << " - "<<t_track->GetClusterX_ID(ip)<<" "<<t_track->GetClusterY_ID(ip)<<" "<<t_track->GetLadder(ip)<<" "<<t_track->GetSensor(ip)<<endl;
1073    //              cout << ip << " - "<<t_track->BadClusterX(ip)<<" "<<t_track->BadClusterY(ip)<<endl;
1074    //              cout << ip << " - "<<t_track->SaturatedClusterX(ip)<<" "<<t_track->SaturatedClusterY(ip)<<endl;
1075    //          }
1076              t_track->xm[ip]     = l2->xm_nt[i][ip];              t_track->xm[ip]     = l2->xm_nt[i][ip];
1077              t_track->ym[ip]     = l2->ym_nt[i][ip];              t_track->ym[ip]     = l2->ym_nt[i][ip];
1078              t_track->zm[ip]     = l2->zm_nt[i][ip];              t_track->zm[ip]     = l2->zm_nt[i][ip];
1079              t_track->resx[ip]   = l2->resx_nt[i][ip];              t_track->resx[ip]   = l2->resx_nt[i][ip];
1080              t_track->resy[ip]   = l2->resy_nt[i][ip];              t_track->resy[ip]   = l2->resy_nt[i][ip];
1081                t_track->tailx[ip]  = l2->tailx[i][ip];
1082                t_track->taily[ip]  = l2->taily[i][ip];
1083              t_track->xv[ip]     = l2->xv_nt[i][ip];              t_track->xv[ip]     = l2->xv_nt[i][ip];
1084              t_track->yv[ip]     = l2->yv_nt[i][ip];              t_track->yv[ip]     = l2->yv_nt[i][ip];
1085              t_track->zv[ip]     = l2->zv_nt[i][ip];              t_track->zv[ip]     = l2->zv_nt[i][ip];
# Line 256  void TrkLevel2::FillCommonVar(cTrkLevel2 Line 1087  void TrkLevel2::FillCommonVar(cTrkLevel2
1087              t_track->ayv[ip]    = l2->ayv_nt[i][ip];              t_track->ayv[ip]    = l2->ayv_nt[i][ip];
1088              t_track->dedx_x[ip] = l2->dedx_x[i][ip];              t_track->dedx_x[ip] = l2->dedx_x[i][ip];
1089              t_track->dedx_y[ip] = l2->dedx_y[i][ip];              t_track->dedx_y[ip] = l2->dedx_y[i][ip];
1090                //-----------------------------------------------------
1091                //-----------------------------------------------------
1092                //-----------------------------------------------------
1093                //-----------------------------------------------------
1094          };          };
1095    //      if(t_track->IsSaturated())t_track->Dump();
1096          new(t[i]) TrkTrack(*t_track);          new(t[i]) TrkTrack(*t_track);
1097          t_track->Clear();          t_track->Clear();
1098      };      };
1099    
1100    //  ----------------
1101  //  *** SINGLETS ***  //  *** SINGLETS ***
1102    //  ----------------
1103        if(!SingletX)SingletX = new TClonesArray("TrkSinglet");
1104      TClonesArray &sx = *SingletX;      TClonesArray &sx = *SingletX;
1105      for(int i=0; i<l2->nclsx; i++){      for(int i=0; i<l2->nclsx; i++){
1106          t_singlet->plane    = l2->planex[i];          t_singlet->plane    = l2->planex[i];
1107          t_singlet->coord[0] = l2->xs[i][0];          t_singlet->coord[0] = l2->xs[i][0];
1108          t_singlet->coord[1] = l2->xs[i][1];          t_singlet->coord[1] = l2->xs[i][1];
1109          t_singlet->sgnl     = l2->signlxs[i];          t_singlet->sgnl     = l2->signlxs[i];
1110            //-----------------------------------------------------
1111    //      if(l1) t_singlet->cls      = l1->GetCluster(l2->clsx[i]-1);
1112            //-----------------------------------------------------
1113          new(sx[i]) TrkSinglet(*t_singlet);          new(sx[i]) TrkSinglet(*t_singlet);
1114          t_singlet->Clear();          t_singlet->Clear();
1115      }      }
1116        if(!SingletY)SingletY = new TClonesArray("TrkSinglet");
1117      TClonesArray &sy = *SingletY;      TClonesArray &sy = *SingletY;
1118      for(int i=0; i<l2->nclsy; i++){      for(int i=0; i<l2->nclsy; i++){
1119          t_singlet->plane    = l2->planey[i];          t_singlet->plane    = l2->planey[i];
1120          t_singlet->coord[0] = l2->ys[i][0];          t_singlet->coord[0] = l2->ys[i][0];
1121          t_singlet->coord[1] = l2->ys[i][1];          t_singlet->coord[1] = l2->ys[i][1];
1122          t_singlet->sgnl     = l2->signlys[i];          t_singlet->sgnl     = l2->signlys[i];
1123            //-----------------------------------------------------
1124    //      if(l1) t_singlet->cls      = l1->GetCluster(l2->clsy[i]-1);
1125            //-----------------------------------------------------
1126          new(sy[i]) TrkSinglet(*t_singlet);          new(sy[i]) TrkSinglet(*t_singlet);
1127          t_singlet->Clear();          t_singlet->Clear();
1128          };      };
1129            
1130        delete t_track;
1131        delete t_singlet;
1132    }
1133    /**
1134     * Fills a struct cTrkLevel2 with values from a TrkLevel2 object (to put data into a F77 common).
1135     */
1136    
1137    void TrkLevel2::GetLevel2Struct(cTrkLevel2 *l2) const {
1138      
1139    //  general variables
1140    //    l2->good2 = good2 ;
1141        for(Int_t i=0; i<12 ; i++){
1142    //      l2->crc[i] = crc[i];
1143                    l2->good[i] = good[i];
1144        };
1145    //  *** TRACKS ***
1146    
1147        if(Track){
1148            l2->ntrk              =  Track->GetEntries();    
1149            for(Int_t i=0;i<l2->ntrk;i++){
1150                l2->image[i] = 1 + ((TrkTrack *)Track->At(i))->image;
1151                l2->chi2_nt[i] =  ((TrkTrack *)Track->At(i))->chi2;
1152                l2->nstep_nt[i] =  ((TrkTrack *)Track->At(i))->nstep;
1153                for(int it1=0;it1<5;it1++){
1154                    l2->al_nt[i][it1] = ((TrkTrack *)Track->At(i))->al[it1];
1155                    for(int it2=0;it2<5;it2++)
1156                        l2->coval[i][it2][it1] = ((TrkTrack *)Track->At(i))->coval[it1][it2];
1157                };
1158                for(int ip=0;ip<6;ip++){
1159                    l2->xgood_nt[i][ip] = ((TrkTrack *)Track->At(i))->XGood(ip);
1160                    l2->ygood_nt[i][ip] = ((TrkTrack *)Track->At(i))->YGood(ip);
1161                    l2->xm_nt[i][ip]    = ((TrkTrack *)Track->At(i))->xm[ip];
1162                    l2->ym_nt[i][ip]    = ((TrkTrack *)Track->At(i))->ym[ip];
1163                    l2->zm_nt[i][ip]    = ((TrkTrack *)Track->At(i))->zm[ip];
1164                    l2->resx_nt[i][ip]  = ((TrkTrack *)Track->At(i))->resx[ip];
1165                    l2->resy_nt[i][ip]  = ((TrkTrack *)Track->At(i))->resy[ip];
1166                    l2->tailx[i][ip]  = ((TrkTrack *)Track->At(i))->tailx[ip];
1167                    l2->taily[i][ip]  = ((TrkTrack *)Track->At(i))->taily[ip];
1168                    l2->xv_nt[i][ip]    = ((TrkTrack *)Track->At(i))->xv[ip];
1169                    l2->yv_nt[i][ip]    = ((TrkTrack *)Track->At(i))->yv[ip];
1170                    l2->zv_nt[i][ip]    = ((TrkTrack *)Track->At(i))->zv[ip];
1171                    l2->axv_nt[i][ip]   = ((TrkTrack *)Track->At(i))->axv[ip];
1172                    l2->ayv_nt[i][ip]   = ((TrkTrack *)Track->At(i))->ayv[ip];
1173                    l2->dedx_x[i][ip]   = ((TrkTrack *)Track->At(i))->dedx_x[ip];
1174                    l2->dedx_y[i][ip]   = ((TrkTrack *)Track->At(i))->dedx_y[ip];
1175                };
1176            }
1177        }
1178    //  *** SINGLETS ***    
1179        if(SingletX){
1180            l2->nclsx              = SingletX->GetEntries();
1181            for(Int_t i=0;i<l2->nclsx;i++){
1182                l2->planex[i]  = ((TrkSinglet *)SingletX->At(i))->plane;
1183                l2->xs[i][0]   = ((TrkSinglet *)SingletX->At(i))->coord[0];
1184                l2->xs[i][1]   = ((TrkSinglet *)SingletX->At(i))->coord[1];
1185                l2->signlxs[i] = ((TrkSinglet *)SingletX->At(i))->sgnl;
1186            }
1187        }
1188    
1189        if(SingletY){
1190            l2->nclsy              = SingletY->GetEntries();
1191            for(Int_t i=0;i<l2->nclsy;i++){
1192                l2->planey[i]  = ((TrkSinglet *)SingletY->At(i))->plane;
1193                l2->ys[i][0]   = ((TrkSinglet *)SingletY->At(i))->coord[0];
1194                l2->ys[i][1]   = ((TrkSinglet *)SingletY->At(i))->coord[1];
1195                l2->signlys[i] = ((TrkSinglet *)SingletY->At(i))->sgnl;
1196            }
1197        }
1198  }  }
1199  //--------------------------------------  //--------------------------------------
1200  //  //
1201  //  //
1202  //--------------------------------------  //--------------------------------------
1203  void TrkLevel2::Clear(){  void TrkLevel2::Clear(){
     good2    = -1;  
1204      for(Int_t i=0; i<12 ; i++){      for(Int_t i=0; i<12 ; i++){
1205          crc[i] = -1;          good[i] = -1;
1206            VKflag[i] = 0;
1207            VKmask[i] = 0;
1208      };      };
1209      Track->RemoveAll();  //    if(Track)Track->Clear("C");
1210      SingletX->RemoveAll();  //    if(SingletX)SingletX->Clear("C");
1211      SingletY->RemoveAll();  //    if(SingletY)SingletY->Clear("C");
1212        if(Track)Track->Delete();
1213        if(SingletX)SingletX->Delete();
1214        if(SingletY)SingletY->Delete();
1215    }
1216    // //--------------------------------------
1217    // //
1218    // //
1219    // //--------------------------------------
1220    void TrkLevel2::Delete(){
1221            
1222    //    cout << "void TrkLevel2::Delete()"<<endl;
1223        Clear();
1224        if(Track)delete Track;
1225        if(SingletX)delete SingletX;
1226        if(SingletY)delete SingletY;
1227    
1228  }  }
1229  //--------------------------------------  //--------------------------------------
1230  //  //
# Line 301  void TrkLevel2::Clear(){ Line 1234  void TrkLevel2::Clear(){
1234   * Sort physical tracks and stores them in a TObjectArray, ordering by increasing chi**2 value (in case of track image, it selects the one with lower chi**2). The total number of physical tracks is given by GetNTracks() and the it-th physical track can be retrieved by means of the method GetTrack(int it).   * Sort physical tracks and stores them in a TObjectArray, ordering by increasing chi**2 value (in case of track image, it selects the one with lower chi**2). The total number of physical tracks is given by GetNTracks() and the it-th physical track can be retrieved by means of the method GetTrack(int it).
1235   * This method is overridden by PamLevel2::GetTracks(), where calorimeter and TOF information is used.   * This method is overridden by PamLevel2::GetTracks(), where calorimeter and TOF information is used.
1236   */   */
1237  TClonesArray *TrkLevel2::GetTracks(){  TRefArray *TrkLevel2::GetTracks_NFitSorted(){
1238    
1239      TClonesArray *sorted = new TClonesArray("TrkTrack");      if(!Track)return 0;
     TClonesArray &t = *Track;  
     TClonesArray &ts = *sorted;  
     int N=this->ntrk();  
     vector<int> m(N); for(int i=0; i<N; i++)m[i]=1;  
1240    
1241        TRefArray *sorted = new TRefArray();
1242            
1243        TClonesArray &t  = *Track;
1244    //    TClonesArray &ts = *PhysicalTrack;
1245        int N = ntrk();
1246        vector<int> m(N); for(int i=0; i<N; i++)m[i]=1;
1247    //      int m[50]; for(int i=0; i<N; i++)m[i]=1;
1248            
1249      int indo=0;      int indo=0;
1250      int indi=0;      int indi=0;
1251      while(N != 0){      while(N > 0){
1252          float chi2ref=1000000;  //    while(N != 0){
1253          for(int i=0; i<this->ntrk(); i++){          int nfit =0;
1254              if(((TrkTrack *)t[i])->chi2 < chi2ref && m[i]==1){          float chi2ref = numeric_limits<float>::max();
1255                  chi2ref = ((TrkTrack *)t[i])->chi2;                  
1256                  indi = i;          // first loop to search maximum num. of fit points
1257            for(int i=0; i < ntrk(); i++){
1258                if( ((TrkTrack *)t[i])->GetNtot() >= nfit && m[i]==1){
1259                    nfit =    ((TrkTrack *)t[i])->GetNtot();
1260              }              }
1261          }          }
1262          if( ((TrkTrack *)t[indi])->image != -1 ){          //second loop to search minimum chi2 among selected
1263            for(int i=0; i<ntrk(); i++){
1264                Float_t chi2 = ((TrkTrack *)t[i])->chi2;
1265                if(chi2 < 0) chi2 = -chi2*1000;
1266                if(    chi2 < chi2ref
1267                       && ((TrkTrack *)t[i])->GetNtot() == nfit
1268                       && m[i]==1){
1269                    chi2ref = ((TrkTrack *)t[i])->chi2;
1270                    indi = i;
1271                };
1272            };
1273            if( ((TrkTrack *)t[indi])->HasImage() ){
1274              m[((TrkTrack *)t[indi])->image] = 0;              m[((TrkTrack *)t[indi])->image] = 0;
1275              N--;              N--;
1276          }          
1277          new(ts[indo]) TrkTrack(*(TrkTrack*)t[indi]);  //          cout << "i** "<< ((TrkTrack *)t[indi])->image << " " << nfiti <<" "<<chi2i<<endl;
1278            };
1279            sorted->Add( (TrkTrack*)t[indi] );      
1280                    
1281          m[indi] = 0;          m[indi] = 0;
1282    //      cout << "SORTED "<< indo << " "<< indi << " "<< N << " "<<((TrkTrack *)t[indi])->image<<" "<<chi2ref<<endl;
1283          N--;              N--;    
1284          indo++;          indo++;
1285      }      }
1286        m.clear();
1287    //    cout << "GetTracks_NFitSorted(it): Done"<< endl;
1288    
1289      return sorted;      return sorted;
1290    //    return PhysicalTrack;
1291  }  }
1292  //--------------------------------------  //--------------------------------------
1293  //  //
# Line 346  TrkTrack *TrkLevel2::GetStoredTrack(int Line 1305  TrkTrack *TrkLevel2::GetStoredTrack(int
1305          cout << "                Stored tracks ntrk() = "<< this->ntrk() << endl;          cout << "                Stored tracks ntrk() = "<< this->ntrk() << endl;
1306          return 0;          return 0;
1307      }      }
1308        if(!Track){
1309            cout << "TrkTrack *TrkLevel2::GetStoredTrack(int is) >> (TClonesArray*) Track ==0 "<<endl;
1310        };
1311      TClonesArray &t = *(Track);      TClonesArray &t = *(Track);
1312      TrkTrack *track = (TrkTrack*)t[is];      TrkTrack *track = (TrkTrack*)t[is];
1313      return track;      return track;
# Line 355  TrkTrack *TrkLevel2::GetStoredTrack(int Line 1317  TrkTrack *TrkLevel2::GetStoredTrack(int
1317  //  //
1318  //--------------------------------------  //--------------------------------------
1319  /**  /**
1320     * Retrieves the is-th stored X singlet.
1321     * @param it Singlet number, ranging from 0 to nclsx().
1322     */
1323    TrkSinglet *TrkLevel2::GetSingletX(int is){
1324    
1325            if(is >= this->nclsx()){
1326                    cout << "** TrkLevel2 ** Singlet "<< is << "doen not exits! " << endl;
1327                    cout << "                Stored x-singlets nclsx() = "<< this->nclsx() << endl;
1328                    return 0;
1329            }
1330            if(!SingletX)return 0;
1331            TClonesArray &t = *(SingletX);
1332            TrkSinglet *singlet = (TrkSinglet*)t[is];
1333            return singlet;
1334    }
1335    //--------------------------------------
1336    //
1337    //
1338    //--------------------------------------
1339    /**
1340     * Retrieves the is-th stored Y singlet.
1341     * @param it Singlet number, ranging from 0 to nclsx().
1342     */
1343    TrkSinglet *TrkLevel2::GetSingletY(int is){
1344    
1345            if(is >= this->nclsy()){
1346                    cout << "** TrkLevel2 ** Singlet "<< is << "doen not exits! " << endl;
1347                    cout << "                Stored y-singlets nclsy() = "<< this->nclsx() << endl;
1348                    return 0;
1349            }
1350            if(!SingletY)return 0;
1351            TClonesArray &t = *(SingletY);
1352            TrkSinglet *singlet = (TrkSinglet*)t[is];
1353            return singlet;
1354    }
1355    //--------------------------------------
1356    //
1357    //
1358    //--------------------------------------
1359    /**
1360   * Retrieves the it-th "physical" track, sorted by the method GetNTracks().   * Retrieves the it-th "physical" track, sorted by the method GetNTracks().
1361   * @param it Track number, ranging from 0 to GetNTracks().   * @param it Track number, ranging from 0 to GetNTracks().
1362   */   */
1363    
1364  TrkTrack *TrkLevel2::GetTrack(int it){  TrkTrack *TrkLevel2::GetTrack(int it){
1365            
1366      if(it >= this->GetNTracks()){          if(it >= this->GetNTracks()){
1367          cout << "** TrkLevel2 ** Track "<< it << "does not exits! " << endl;                  cout << "** TrkLevel2 ** Track "<< it << "does not exits! " << endl;
1368          cout << "                Physical tracks GetNTracks() = "<< this->ntrk() << endl;                  cout << "                Physical tracks GetNTracks() = "<< this->ntrk() << endl;
1369          return 0;                  return 0;
1370      }          }
1371      TrkTrack *track = (TrkTrack*)(*(this->GetTracks()))[it];          
1372      return track;          TRefArray *sorted = GetTracks();  //TEMPORANEO  
1373            if(!sorted)return 0;
1374            TrkTrack *track = (TrkTrack*)sorted->At(it);
1375            sorted->Clear();
1376            delete sorted;
1377            return track;
1378  }  }
1379    /**
1380     * Give the number of "physical" tracks, sorted by the method GetTracks().
1381     */
1382    Int_t TrkLevel2::GetNTracks(){
1383                    
1384            Float_t ntot=0;
1385            if(!Track)return 0;
1386            TClonesArray &t = *Track;
1387            for(int i=0; i<ntrk(); i++) {    
1388                    if( ((TrkTrack *)t[i])->GetImageSeqNo() == -1 ) ntot+=1.;
1389                    else ntot+=0.5;
1390            }
1391            return (Int_t)ntot;
1392    
1393    };
1394  //--------------------------------------  //--------------------------------------
1395  //  //
1396  //  //
# Line 383  TrkTrack *TrkLevel2::GetTrackImage(int i Line 1406  TrkTrack *TrkLevel2::GetTrackImage(int i
1406          cout << "                Physical tracks GetNTracks() = "<< this->ntrk() << endl;          cout << "                Physical tracks GetNTracks() = "<< this->ntrk() << endl;
1407          return 0;          return 0;
1408      }      }
1409      TrkTrack *track = (TrkTrack*)(*(this->GetTracks()))[it];          
1410        TRefArray* sorted = GetTracks(); //TEMPORANEO
1411        if(!sorted)return 0;
1412        TrkTrack *track = (TrkTrack*)sorted->At(it);
1413            
1414      if(!track->HasImage()){      if(!track->HasImage()){
1415          cout << "** TrkLevel2 ** Track "<< it << "does not have image! " << endl;          cout << "** TrkLevel2 ** Track "<< it << "does not have image! " << endl;
1416          return 0;          return 0;
1417      }      }
1418        if(!Track)return 0;
1419      TrkTrack *image = (TrkTrack*)(*Track)[track->image];      TrkTrack *image = (TrkTrack*)(*Track)[track->image];
1420    
1421        sorted->Delete();
1422        delete sorted;
1423    
1424      return image;      return image;
1425            
1426  }  }
# Line 400  TrkTrack *TrkLevel2::GetTrackImage(int i Line 1432  TrkTrack *TrkLevel2::GetTrackImage(int i
1432   * Loads the magnetic field.   * Loads the magnetic field.
1433   * @param s Path of the magnetic-field files.   * @param s Path of the magnetic-field files.
1434   */   */
1435  void TrkLevel2::LoadField(TString s){  void TrkLevel2::LoadField(TString path){
1436      readb_(s.Data());  //
1437    //     strcpy(path_.path,path.Data());
1438    //     path_.pathlen = path.Length();
1439    //     path_.error   = 0;
1440    //     readb_();
1441    
1442        TrkParams::SetTrackingMode();
1443        TrkParams::SetPrecisionFactor();
1444        TrkParams::SetStepMin();
1445    
1446        TrkParams::Set(path,1);
1447        TrkParams::Load(1);
1448    
1449    //
1450  };  };
1451    // /**
1452    //  * Get BY (kGauss)
1453    //  * @param v (x,y,z) coordinates in cm
1454    //  */
1455    // float TrkLevel2::GetBX(float* v){
1456    //     float b[3];
1457    //     gufld_(v,b);
1458    //     return b[0]/10.;
1459    // }
1460    // /**
1461    //  * Get BY (kGauss)
1462    //  * @param v (x,y,z) coordinates in cm
1463    //  */
1464    // float TrkLevel2::GetBY(float* v){
1465    //     float b[3];
1466    //     gufld_(v,b);
1467    //     return b[1]/10.;
1468    // }
1469    // /**
1470    //  * Get BY (kGauss)
1471    //  * @param v (x,y,z) coordinates in cm
1472    //  */
1473    // float TrkLevel2::GetBZ(float* v){
1474    //     float b[3];
1475    //     gufld_(v,b);
1476    //     return b[2]/10.;
1477    // }
1478    //--------------------------------------
1479    //
1480    //
1481    //--------------------------------------
1482    /**
1483     * Get tracker-plane (mechanical) z-coordinate
1484     * @param plane_id plane index (1=TOP,2,3,4,5,6=BOTTOM)
1485     */
1486    Float_t TrkLevel2::GetZTrk(Int_t plane_id){
1487            switch(plane_id){
1488                    case 1: return ZTRK1;
1489                    case 2: return ZTRK2;
1490                    case 3: return ZTRK3;
1491                    case 4: return ZTRK4;
1492                    case 5: return ZTRK5;
1493                    case 6: return ZTRK6;
1494                    default: return 0.;
1495            };
1496    };
1497    //--------------------------------------
1498    //
1499    //
1500    //--------------------------------------
1501    /**
1502     * Trajectory default constructor.
1503     * (By default is created with z-coordinates inside the tracking volume)
1504      */
1505    Trajectory::Trajectory(){
1506        npoint = 10;
1507        x = new float[npoint];
1508        y = new float[npoint];
1509        z = new float[npoint];
1510        thx = new float[npoint];
1511        thy = new float[npoint];
1512        tl = new float[npoint];
1513        float dz = ((ZTRK1)-(ZTRK6))/(npoint-1);
1514        for(int i=0; i<npoint; i++){
1515            x[i] = 0;
1516            y[i] = 0;
1517            z[i] = (ZTRK1) - i*dz;
1518            thx[i] = 0;
1519            thy[i] = 0;
1520            tl[i] = 0;
1521        }
1522    }
1523  //--------------------------------------  //--------------------------------------
1524  //  //
1525  //  //
1526  //--------------------------------------  //--------------------------------------
1527  /**  /**
1528   * Trajectory constructor.   * Trajectory constructor.
1529     * (By default is created with z-coordinates inside the tracking volume)
1530   * \param n Number of points   * \param n Number of points
1531   */   */
1532  Trajectory::Trajectory(int n){  Trajectory::Trajectory(int n){
1533        if(n<=0){
1534            cout << "NB! Trajectory must have at least 1 point >>> created with 10 points" << endl;
1535            n=10;
1536        }
1537      npoint = n;      npoint = n;
1538      x = new float[npoint];      x = new float[npoint];
1539      y = new float[npoint];      y = new float[npoint];
1540      z = new float[npoint];      z = new float[npoint];
1541        thx = new float[npoint];
1542        thy = new float[npoint];
1543        tl = new float[npoint];
1544        float dz = ((ZTRK1)-(ZTRK6))/(npoint-1);
1545      for(int i=0; i<npoint; i++){      for(int i=0; i<npoint; i++){
1546          x[i] = 0;          x[i] = 0;
1547          y[i] = 0;          y[i] = 0;
1548          z[i] = 0;          z[i] = (ZTRK1) - i*dz;
1549            thx[i] = 0;
1550            thy[i] = 0;
1551            tl[i] = 0;
1552      }      }
1553  }  }
1554  //--------------------------------------  //--------------------------------------
# Line 432  Trajectory::Trajectory(int n){ Line 1561  Trajectory::Trajectory(int n){
1561   * \param pz Pointer to float array, defining z coordinates   * \param pz Pointer to float array, defining z coordinates
1562   */   */
1563  Trajectory::Trajectory(int n, float* zin){  Trajectory::Trajectory(int n, float* zin){
1564      npoint = n;      npoint = 10;
1565        if(n>0)npoint = n;
1566      x = new float[npoint];      x = new float[npoint];
1567      y = new float[npoint];      y = new float[npoint];
1568      z = new float[npoint];      z = new float[npoint];
1569      for(int i=0; i<npoint; i++){      thx = new float[npoint];
1570        thy = new float[npoint];
1571        tl = new float[npoint];
1572        int i=0;
1573        do{
1574          x[i] = 0;          x[i] = 0;
1575          y[i] = 0;          y[i] = 0;
1576          z[i] = zin[i];          z[i] = zin[i];
1577      }          thx[i] = 0;
1578            thy[i] = 0;
1579            tl[i] = 0;
1580            i++;            
1581        }while(zin[i-1] > zin[i] && i < npoint);
1582        npoint=i;
1583        if(npoint != n)cout << "NB! Trajectory created with "<<npoint<<" points"<<endl;
1584    }
1585    void Trajectory::Delete(){
1586        
1587        if(x) delete [] x;
1588        if(y) delete [] y;
1589        if(z) delete [] z;
1590        if(thx) delete [] thx;
1591        if(thy) delete [] thy;
1592        if(tl) delete [] tl;
1593    
1594  }  }
1595  //--------------------------------------  //--------------------------------------
1596  //  //
# Line 452  Trajectory::Trajectory(int n, float* zin Line 1602  Trajectory::Trajectory(int n, float* zin
1602  void Trajectory::Dump(){  void Trajectory::Dump(){
1603      cout <<endl<< "Trajectory ========== "<<endl;      cout <<endl<< "Trajectory ========== "<<endl;
1604      for (int i=0; i<npoint; i++){      for (int i=0; i<npoint; i++){
1605          cout << i <<" >> " << x[i] <<" "<< y[i] <<" "<< z[i] << endl;;          cout << i <<" >> " << x[i] <<" "<< y[i] <<" "<< z[i] ;
1606            cout <<" -- " << thx[i] <<" "<< thy[i] ;
1607            cout <<" -- " << tl[i] << endl;
1608        };
1609    }
1610    //--------------------------------------
1611    //
1612    //
1613    //--------------------------------------
1614    /**
1615     * Get trajectory length between two points
1616     * @param ifirst first point (default 0)
1617     * @param ilast last point (default npoint)
1618     */
1619    float Trajectory::GetLength(int ifirst, int ilast){
1620        if( ifirst<0    ) ifirst = 0;
1621        if( ilast>=npoint) ilast  = npoint-1;
1622        float l=0;
1623        for(int i=ifirst;i<=ilast;i++){
1624            l=l+tl[i];
1625      };      };
1626        if(z[ilast] > ZINI)l=l-tl[ilast];
1627        if(z[ifirst] < ZINI)   l=l-tl[ifirst];
1628        
1629        return l;
1630    
1631  }  }
1632    
1633    /**
1634     * Evaluates the trajectory in the apparatus associated to the track.
1635     * It integrates the equations of motion in the magnetic field. The magnetic field should be previously loaded ( by calling  TrkLevel2::LoadField() ), otherwise an error message is returned.  
1636     * @param t pointer to an object of the class Trajectory,
1637     * which z coordinates should be previously initialized by calling the proper constructor ( Trajectory::Trajectory(int n, float* zin) ).
1638     * @return error flag.
1639     */
1640    int Trajectory::DoTrack2(float* al){
1641    
1642        double *dxout   = new double[npoint];
1643        double *dyout   = new double[npoint];
1644        double *dthxout = new double[npoint];
1645        double *dthyout = new double[npoint];
1646        double *dtlout  = new double[npoint];
1647        double *dzin    = new double[npoint];
1648        double dal[5];
1649    
1650        int ifail = 0;
1651    
1652        for (int i=0; i<5; i++)      dal[i]  = (double)al[i];
1653        for (int i=0; i<npoint; i++) dzin[i] = (double)z[i];
1654    
1655        TrkParams::Load(1);
1656        if( !TrkParams::IsLoaded(1) ){
1657            cout << "int Trajectory::DoTrack2(float* al) --- ERROR --- m.field not loaded"<<endl;
1658            return 0;
1659        }
1660        dotrack2_(&(npoint),dzin,dxout,dyout,dthxout,dthyout,dtlout,dal,&ifail);
1661        
1662        for (int i=0; i<npoint; i++){
1663            x[i]   = (float)*dxout++;
1664            y[i]   = (float)*dyout++;
1665            thx[i] = (float)*dthxout++;
1666            thy[i] = (float)*dthyout++;
1667            tl[i]  = (float)*dtlout++;
1668        }
1669    
1670        return ifail;
1671    };
1672    
1673  ClassImp(TrkLevel2);  ClassImp(TrkLevel2);
1674  ClassImp(TrkSinglet);  ClassImp(TrkSinglet);
1675  ClassImp(TrkTrack);  ClassImp(TrkTrack);

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