TrackerLevel2/src/TrkHough.cpp

/**
 * \file TrkHough.cpp
 * \author David Fedele
 */
#include <TrkHough.h>
#include <iostream>
using namespace std;

//--------------------------------------
//
//
//--------------------------------------
TrkHough::TrkHough(){
  
  ndblt=0; 
  alfayz1=0; 
  alfayz2=0; 
  db_cloud=0;
  
  ntrpt=0;  
  alfaxz1=0;
  alfaxz2=0;
  alfaxz3=0;
  tr_cloud=0;
  
  nclouds_yz=0;
  alfayz1_av=0;
  alfayz2_av=0;
  ptcloud_yz=0;
  
  nclouds_xz=0; 
  alfaxz1_av=0;
  alfaxz2_av=0;
  alfaxz3_av=0;
  ptcloud_xz=0;
  
  nclstr=0;
  totaltime=0;
  houghtime=0;
  fittime=0;

//   ntracks=0;
//   al0=0;
//   al1=0;
//   al2=0;
//   al3=0;
//   al4=0;

  Candidates = 0;

};
//--------------------------------------
//
//
//--------------------------------------
/**
 * Fills a TrkHough object with values from a struct cTrkhough (to get data from F77 common).
 */
void TrkHough::SetFromHoughStruct(cTrkHough *lh, cTrkCandidates *lc){

    if(!lh) return;
    // -------------------------
    // fill hough transform info
    // -------------------------
    ndblt          = lh->ndblt_nt;
    ntrpt          = lh->ntrpt_nt;
    nclouds_yz     = lh->nclouds_yz_nt;
    nclouds_xz     = lh->nclouds_xz_nt;
    nclstr         = lh->nclstr;
    totaltime      = lh->totaltime;
    houghtime      = lh->houghtime;
    fittime        = lh->fittime;

    alfayz1        = new Float_t[ndblt];
    alfayz2        = new Float_t[ndblt];
    db_cloud       = new Int_t[ndblt];
    for(int i=0; i<ndblt; i++){
        alfayz1[i]   = (Float_t) lh->alfayz1_nt[i];
        alfayz2[i]   = (Float_t) lh->alfayz2_nt[i];
        db_cloud[i]  = (Int_t) lh->db_cloud_nt[i];
    }

    alfaxz1        = new Float_t[ntrpt];
    alfaxz2        = new Float_t[ntrpt];
    alfaxz3        = new Float_t[ntrpt];
    tr_cloud       = new Int_t[ntrpt];
    for(int i=0; i<ntrpt; i++){
        alfaxz1[i]   = (Float_t) lh->alfaxz1_nt[i];
        alfaxz2[i]   = (Float_t) lh->alfaxz2_nt[i];
        alfaxz3[i]   = (Float_t) lh->alfaxz3_nt[i];
        tr_cloud[i]  = (Int_t) lh->tr_cloud_nt[i];
    }
  
    alfayz1_av        = new Float_t[nclouds_yz];
    alfayz2_av        = new Float_t[nclouds_yz];
    ptcloud_yz        = new Int_t[nclouds_yz];
    for(int i=0; i<nclouds_yz; i++){
        alfayz1_av[i]   = (Float_t) lh->alfayz1_av_nt[i];
        alfayz2_av[i]   = (Float_t) lh->alfayz2_av_nt[i];
        ptcloud_yz[i]   = (Int_t) lh->ptcloud_yz_nt[i];
    }
  
    alfaxz1_av        = new Float_t[nclouds_xz];
    alfaxz2_av        = new Float_t[nclouds_xz];
    alfaxz3_av        = new Float_t[nclouds_xz];
    ptcloud_xz        = new Int_t[nclouds_xz];
    for(int i=0; i<nclouds_xz; i++){
        alfaxz1_av[i]   = (Float_t) lh->alfaxz1_av_nt[i] ;
        alfaxz2_av[i]   = (Float_t) lh->alfaxz2_av_nt[i];
        alfaxz3_av[i]   = (Float_t) lh->alfaxz3_av_nt[i];
        ptcloud_xz[i]   = (Int_t) lh->ptcloud_xz_nt[i];
    }

    if(!lc) return;
    // --------------------------
    // fill track candidates info
    // --------------------------
//     ntracks = lc->ntracks;
//     al0 = new Float_t[ntracks];
//     al1 = new Float_t[ntracks];
//     al2 = new Float_t[ntracks];
//     al3 = new Float_t[ntracks];
//     al4 = new Float_t[ntracks];
//     for(int ii=0; ii<ntracks; ii++){
//      al0[ii] = (Float_t) lc->al[ii][0];
//      al1[ii] = (Float_t) lc->al[ii][1];
//      al2[ii] = (Float_t) lc->al[ii][2];
//      al3[ii] = (Float_t) lc->al[ii][3];
//      al4[ii] = (Float_t) lc->al[ii][4];
//    } 
    TrkTrack*   t_track   = new TrkTrack();
    Candidates    = new TClonesArray("TrkTrack");
    TClonesArray &t = *Candidates;
    for(int i=0; i<lc->ntracks; i++){
        t_track->seqno = i;
        t_track->image = 0;
        t_track->chi2  = lc->chi2[i];
        t_track->nstep = 0;
        for(int it1=0;it1<5;it1++){
            t_track->al[it1] = lc->al[i][it1];
            for(int it2=0;it2<5;it2++)
                t_track->coval[it1][it2] = 0.;
        };
        for(int ip=0;ip<6;ip++){
            // ---------------------------------
            // new implementation of xgood/ygood 
            // ---------------------------------
            t_track->xgood[ip]  = (Int_t) lc->xgood[i][ip];
            t_track->ygood[ip]  = (Int_t) lc->ygood[i][ip];
            int ssensor = lc->sensor[i][ip];
            int sladder = lc->ladder[i][ip];
            if(ip==5&&ssensor!=0)ssensor = 3 - ssensor; //notazione paolo x align
            t_track->xgood[ip] += 10000000*ssensor+10*sladder ; // ladder+sensor
            t_track->ygood[ip] += 10000000*ssensor+10*sladder ; // ladder+sensor
//          if(l2->xbad[i][ip]>0)t_track->xgood[ip]=-t_track->xgood[ip];
//          if(l2->ybad[i][ip]>0)t_track->ygood[ip]=-t_track->ygood[ip];
            t_track->xm[ip]     = lc->xm[i][ip];
            t_track->ym[ip]     = lc->ym[i][ip];
            t_track->zm[ip]     = lc->zm[i][ip];
            t_track->resx[ip]   = lc->resx[i][ip];
            t_track->resy[ip]   = lc->resy[i][ip];
            t_track->tailx[ip]  = 0.;
            t_track->taily[ip]  = 0.;
            t_track->xv[ip]     = lc->xv[i][ip];
            t_track->yv[ip]     = lc->yv[i][ip];
            t_track->zv[ip]     = lc->zv[i][ip];
            t_track->axv[ip]    = lc->axv[i][ip];
            t_track->ayv[ip]    = lc->ayv[i][ip];
            t_track->dedx_x[ip] = 0.;
            t_track->dedx_y[ip] = 0.;
            t_track->multmaxx[ip] = 0;
            t_track->multmaxy[ip] = 0;
            t_track->seedx[ip]  = 0.;
            t_track->seedy[ip]  = 0.;
            t_track->xpu[ip]    = 0.;  
            t_track->ypu[ip]    = 0.;   
            //-----------------------------------------------------
            //-----------------------------------------------------
            //-----------------------------------------------------
            //-----------------------------------------------------
        };
//      if(t_track->IsSaturated())t_track->Dump();
        new(t[i]) TrkTrack(*t_track);
        t_track->Clear();
    };
    
    delete t_track;


};
//--------------------------------------
//
//
//--------------------------------------
TrkTrack *TrkHough::GetCandidate(int it){
    
    if(it >= GetNCandidates()){
        cout << "** TrkHough ** Track-candidate "<< it << "does not exits! " << endl; 
        cout << "               n.candidates = "<< GetNCandidates() << endl;
        return 0;
    }
    if(!Candidates){
        cout << "TrkTrack *TrkHough::GetCandidate(int is) >> (TClonesArray*) Candidate ==0 "<<endl;
    };
    
    TClonesArray &t = *(Candidates);
    TrkTrack *track = (TrkTrack*)t[it];
    return track;
}
//--------------------------------------
//
//
//--------------------------------------
void TrkHough::Clear(){
 

    ndblt = 0;
    ntrpt = 0;
    nclouds_yz = 0;
    nclouds_xz = 0;
    nclstr = 0;
    totaltime = 0;
    houghtime = 0;
    fittime = 0;
//    ntracks = 0;

    if(Candidates)Candidates->Delete();
};
//--------------------------------------
//
//
//--------------------------------------
void TrkHough::Delete(){

    Clear();

    delete [] alfayz1; 
    delete [] alfayz2; 
    delete [] db_cloud;
    
    delete [] alfaxz1;
    delete [] alfaxz2;
    delete [] alfaxz3;
    delete [] tr_cloud;
  
    delete [] alfayz1_av;
    delete [] alfayz2_av;
    delete [] ptcloud_yz;
     
    delete [] alfaxz1_av;
    delete [] alfaxz2_av;
    delete [] alfaxz3_av;
    delete [] ptcloud_xz;

//     delete [] al0;
//     delete [] al1;
//     delete [] al2;
//     delete [] al3;
//     delete [] al4;

    if(Candidates)delete Candidates;

};


ClassImp(TrkHough);
1	/**
2	* \file TrkHough.cpp
3	* \author David Fedele
4	*/
5	#include <TrkHough.h>
6	#include <iostream>
7	using namespace std;
8
9	//--------------------------------------
10	//
11	//
12	//--------------------------------------
13	TrkHough::TrkHough(){
14
15	ndblt=0;
16	alfayz1=0;
17	alfayz2=0;
18	db_cloud=0;
19
20	ntrpt=0;
21	alfaxz1=0;
22	alfaxz2=0;
23	alfaxz3=0;
24	tr_cloud=0;
25
26	nclouds_yz=0;
27	alfayz1_av=0;
28	alfayz2_av=0;
29	ptcloud_yz=0;
30
31	nclouds_xz=0;
32	alfaxz1_av=0;
33	alfaxz2_av=0;
34	alfaxz3_av=0;
35	ptcloud_xz=0;
36
37	nclstr=0;
38	totaltime=0;
39	houghtime=0;
40	fittime=0;
41
42	// ntracks=0;
43	// al0=0;
44	// al1=0;
45	// al2=0;
46	// al3=0;
47	// al4=0;
48
49	Candidates = 0;
50
51	};
52	//--------------------------------------
53	//
54	//
55	//--------------------------------------
56	/**
57	* Fills a TrkHough object with values from a struct cTrkhough (to get data from F77 common).
58	*/
59	void TrkHough::SetFromHoughStruct(cTrkHough lh, cTrkCandidates lc){
60
61	if(!lh) return;
62	// -------------------------
63	// fill hough transform info
64	// -------------------------
65	ndblt = lh->ndblt_nt;
66	ntrpt = lh->ntrpt_nt;
67	nclouds_yz = lh->nclouds_yz_nt;
68	nclouds_xz = lh->nclouds_xz_nt;
69	nclstr = lh->nclstr;
70	totaltime = lh->totaltime;
71	houghtime = lh->houghtime;
72	fittime = lh->fittime;
73
74	alfayz1 = new Float_t[ndblt];
75	alfayz2 = new Float_t[ndblt];
76	db_cloud = new Int_t[ndblt];
77	for(int i=0; i<ndblt; i++){
78	alfayz1[i] = (Float_t) lh->alfayz1_nt[i];
79	alfayz2[i] = (Float_t) lh->alfayz2_nt[i];
80	db_cloud[i] = (Int_t) lh->db_cloud_nt[i];
81	}
82
83	alfaxz1 = new Float_t[ntrpt];
84	alfaxz2 = new Float_t[ntrpt];
85	alfaxz3 = new Float_t[ntrpt];
86	tr_cloud = new Int_t[ntrpt];
87	for(int i=0; i<ntrpt; i++){
88	alfaxz1[i] = (Float_t) lh->alfaxz1_nt[i];
89	alfaxz2[i] = (Float_t) lh->alfaxz2_nt[i];
90	alfaxz3[i] = (Float_t) lh->alfaxz3_nt[i];
91	tr_cloud[i] = (Int_t) lh->tr_cloud_nt[i];
92	}
93
94	alfayz1_av = new Float_t[nclouds_yz];
95	alfayz2_av = new Float_t[nclouds_yz];
96	ptcloud_yz = new Int_t[nclouds_yz];
97	for(int i=0; i<nclouds_yz; i++){
98	alfayz1_av[i] = (Float_t) lh->alfayz1_av_nt[i];
99	alfayz2_av[i] = (Float_t) lh->alfayz2_av_nt[i];
100	ptcloud_yz[i] = (Int_t) lh->ptcloud_yz_nt[i];
101	}
102
103	alfaxz1_av = new Float_t[nclouds_xz];
104	alfaxz2_av = new Float_t[nclouds_xz];
105	alfaxz3_av = new Float_t[nclouds_xz];
106	ptcloud_xz = new Int_t[nclouds_xz];
107	for(int i=0; i<nclouds_xz; i++){
108	alfaxz1_av[i] = (Float_t) lh->alfaxz1_av_nt[i] ;
109	alfaxz2_av[i] = (Float_t) lh->alfaxz2_av_nt[i];
110	alfaxz3_av[i] = (Float_t) lh->alfaxz3_av_nt[i];
111	ptcloud_xz[i] = (Int_t) lh->ptcloud_xz_nt[i];
112	}
113
114	if(!lc) return;
115	// --------------------------
116	// fill track candidates info
117	// --------------------------
118	// ntracks = lc->ntracks;
119	// al0 = new Float_t[ntracks];
120	// al1 = new Float_t[ntracks];
121	// al2 = new Float_t[ntracks];
122	// al3 = new Float_t[ntracks];
123	// al4 = new Float_t[ntracks];
124	// for(int ii=0; ii<ntracks; ii++){
125	// al0[ii] = (Float_t) lc->al[ii][0];
126	// al1[ii] = (Float_t) lc->al[ii][1];
127	// al2[ii] = (Float_t) lc->al[ii][2];
128	// al3[ii] = (Float_t) lc->al[ii][3];
129	// al4[ii] = (Float_t) lc->al[ii][4];
130	// }
131	TrkTrack* t_track = new TrkTrack();
132	Candidates = new TClonesArray("TrkTrack");
133	TClonesArray &t = *Candidates;
134	for(int i=0; i<lc->ntracks; i++){
135	t_track->seqno = i;
136	t_track->image = 0;
137	t_track->chi2 = lc->chi2[i];
138	t_track->nstep = 0;
139	for(int it1=0;it1<5;it1++){
140	t_track->al[it1] = lc->al[i][it1];
141	for(int it2=0;it2<5;it2++)
142	t_track->coval[it1][it2] = 0.;
143	};
144	for(int ip=0;ip<6;ip++){
145	// ---------------------------------
146	// new implementation of xgood/ygood
147	// ---------------------------------
148	t_track->xgood[ip] = (Int_t) lc->xgood[i][ip];
149	t_track->ygood[ip] = (Int_t) lc->ygood[i][ip];
150	int ssensor = lc->sensor[i][ip];
151	int sladder = lc->ladder[i][ip];
152	if(ip==5&&ssensor!=0)ssensor = 3 - ssensor; //notazione paolo x align
153	t_track->xgood[ip] += 10000000ssensor+10sladder ; // ladder+sensor
154	t_track->ygood[ip] += 10000000ssensor+10sladder ; // ladder+sensor
155	// if(l2->xbad[i][ip]>0)t_track->xgood[ip]=-t_track->xgood[ip];
156	// if(l2->ybad[i][ip]>0)t_track->ygood[ip]=-t_track->ygood[ip];
157	t_track->xm[ip] = lc->xm[i][ip];
158	t_track->ym[ip] = lc->ym[i][ip];
159	t_track->zm[ip] = lc->zm[i][ip];
160	t_track->resx[ip] = lc->resx[i][ip];
161	t_track->resy[ip] = lc->resy[i][ip];
162	t_track->tailx[ip] = 0.;
163	t_track->taily[ip] = 0.;
164	t_track->xv[ip] = lc->xv[i][ip];
165	t_track->yv[ip] = lc->yv[i][ip];
166	t_track->zv[ip] = lc->zv[i][ip];
167	t_track->axv[ip] = lc->axv[i][ip];
168	t_track->ayv[ip] = lc->ayv[i][ip];
169	t_track->dedx_x[ip] = 0.;
170	t_track->dedx_y[ip] = 0.;
171	t_track->multmaxx[ip] = 0;
172	t_track->multmaxy[ip] = 0;
173	t_track->seedx[ip] = 0.;
174	t_track->seedy[ip] = 0.;
175	t_track->xpu[ip] = 0.;
176	t_track->ypu[ip] = 0.;
177	//-----------------------------------------------------
178	//-----------------------------------------------------
179	//-----------------------------------------------------
180	//-----------------------------------------------------
181	};
182	// if(t_track->IsSaturated())t_track->Dump();
183	new(t[i]) TrkTrack(*t_track);
184	t_track->Clear();
185	};
186
187	delete t_track;
188
189
190	};
191	//--------------------------------------
192	//
193	//
194	//--------------------------------------
195	TrkTrack *TrkHough::GetCandidate(int it){
196
197	if(it >= GetNCandidates()){
198	cout << " TrkHough Track-candidate "<< it << "does not exits! " << endl;
199	cout << " n.candidates = "<< GetNCandidates() << endl;
200	return 0;
201	}
202	if(!Candidates){
203	cout << "TrkTrack TrkHough::GetCandidate(int is) >> (TClonesArray) Candidate ==0 "<<endl;
204	};
205
206	TClonesArray &t = *(Candidates);
207	TrkTrack track = (TrkTrack)t[it];
208	return track;
209	}
210	//--------------------------------------
211	//
212	//
213	//--------------------------------------
214	void TrkHough::Clear(){
215
216
217	ndblt = 0;
218	ntrpt = 0;
219	nclouds_yz = 0;
220	nclouds_xz = 0;
221	nclstr = 0;
222	totaltime = 0;
223	houghtime = 0;
224	fittime = 0;
225	// ntracks = 0;
226
227	if(Candidates)Candidates->Delete();
228	};
229	//--------------------------------------
230	//
231	//
232	//--------------------------------------
233	void TrkHough::Delete(){
234
235	Clear();
236
237	delete [] alfayz1;
238	delete [] alfayz2;
239	delete [] db_cloud;
240
241	delete [] alfaxz1;
242	delete [] alfaxz2;
243	delete [] alfaxz3;
244	delete [] tr_cloud;
245
246	delete [] alfayz1_av;
247	delete [] alfayz2_av;
248	delete [] ptcloud_yz;
249
250	delete [] alfaxz1_av;
251	delete [] alfaxz2_av;
252	delete [] alfaxz3_av;
253	delete [] ptcloud_xz;
254
255	// delete [] al0;
256	// delete [] al1;
257	// delete [] al2;
258	// delete [] al3;
259	// delete [] al4;
260
261	if(Candidates)delete Candidates;
262
263	};
264
265
266	ClassImp(TrkHough);