OrbitalInfo/src/OrbitalInfo.cpp

#include <OrbitalInfo.h>

using namespace std;

ClassImp(OrbitalInfoTrkVar);
ClassImp(OrbitalInfo);

OrbitalInfoTrkVar::OrbitalInfoTrkVar(){
  this->Clear();
  //  Eij = new TMatrixD(3,3);
  //  Sij = new TMatrixD(3,3);
}

void OrbitalInfoTrkVar::Clear(Option_t *t){
  trkseqno = 0;
  pitch = -1000.;
  sunangle = -1000;
  sunmagangle = -1000;
  cutoff = -1000.;
  Eij.Zero();
  Sij.Zero();
}

void OrbitalInfoTrkVar::Delete(Option_t *t){
  //  if ( Eij ) Eij->Delete();
  //  if ( Sij ) Sij->Delete();
}

OrbitalInfo::OrbitalInfo(){
  OrbitalInfoTrk = 0; //ELENA
  this->Clear();
}

OrbitalInfoTrkVar::OrbitalInfoTrkVar(const OrbitalInfoTrkVar &t){
  //
  trkseqno = t.trkseqno;  
  //
  pitch = t.pitch;
  cutoff = t.cutoff;
  sunangle=t.sunangle;
  sunmagangle=t.sunmagangle;
  //
  Eij.ResizeTo(t.Eij);  
  Eij = t.Eij;  
  Sij.ResizeTo(t.Sij);  
  Sij = t.Sij;  
  //
};

void OrbitalInfo::Delete(Option_t *t){ //ELENA
  //
  //  if ( Iij ) Iij->Delete();
  if(OrbitalInfoTrk){ 
    OrbitalInfoTrk->Delete(); //ELENA
    delete OrbitalInfoTrk;  //ELENA
  }
  // 
}; //ELENA

void OrbitalInfo::Set(){//ELENA
  if ( !OrbitalInfoTrk ) OrbitalInfoTrk = new TClonesArray("OrbitalInfoTrkVar",2); //ELENA}  
  //  if ( !Iij ) Iij = new TMatrixD(3,3);
}//ELENA
//--------------------------------------
//
//
//--------------------------------------
void OrbitalInfo::SetTrackArray(TClonesArray *track){//ELENA
//    if(track && strcmp(track->GetClass()->GetName(),"OrbitalInfoTrkVar")==0){
        if(OrbitalInfoTrk)OrbitalInfoTrk->Clear("C");
        OrbitalInfoTrk = track;
//    }
}

OrbitalInfoTrkVar *OrbitalInfo::GetOrbitalInfoTrkVar(Int_t itrk){
  //    
  if(itrk >= ntrk()){
    printf(" OrbitalInfo ERROR: track related variables set %i does not exists! \n",itrk);
    printf("                    stored track related variables = %i \n",ntrk());
    return(NULL);
  }  
  //
  if(!OrbitalInfoTrk)return 0; //ELENA
  TClonesArray &t = *(OrbitalInfoTrk);
  OrbitalInfoTrkVar *orbtrack = (OrbitalInfoTrkVar*)t[itrk];
  return orbtrack;
}
/**
 * Retrieves the tof track matching the seqno-th tracker stored track. 
 * 
 */
OrbitalInfoTrkVar *OrbitalInfo::GetOrbitalInfoStoredTrack(int seqno){

  if( ntrk()==0 ){
    printf("OrbitalInfo::GetOrbitalInfoStoredTrack(int) : requested tracker SeqNo %i but no OrbitalInforimeter tracks are stored\n",seqno);
    return NULL;
  };
  
  OrbitalInfoTrkVar *c = 0;
  Int_t it_tof=0;
     
  do { 
    c = GetOrbitalInfoTrkVar(it_tof);
    it_tof++; 
  } while( c && seqno != c->trkseqno && it_tof < ntrk());       
  
  if(!c || seqno != c->trkseqno){
    c = 0;
    if(seqno!=-1 ) printf("OrbitalInfo::GetOrbitalInfoStoredTrack(int) : requested tracker SeqNo %i does not match OrbitalInfo stored tracks\n",seqno);
  };
  return c;
     
}

void OrbitalInfo::Clear(Option_t *t){
  //
  if ( OrbitalInfoTrk ) OrbitalInfoTrk->Delete();
  //
  absTime = 0;
  OBT = 0;
  pkt_num = 0;

  lon = -1000.;
  lat = -1000.;
  alt = -1000.;
  V.SetXYZ(-1000.,-1000.,-1000.);

  Bnorth = -1000.;
  Beast = -1000.;
  Bdown = -1000.;
  Babs = -1000.;
  M = -1000;
  BB0 = -1000.;
  L = -1000.;

   londip = -1000.;
   latdip = -1000.;

  //  std::fill_n(cutoff, 20, 0.);
  //  std::fill_n(cutoff, 2, 0.);
  cutoffsvl = 0.;

  // Quaternions
  q0 = -1000.;
  q1 = -1000.;
  q2 = -1000.;
  q3 = -1000.;

  // Euler angles (nadir reference frame)
  theta = -1000.;
  phi = -1000.;
  etha = -1000.;

  Iij.Zero();

  mode = 0;
  qkind = -1000;
  errq =  -1000;
  azim =  -1000;
  //  std::fill_n(goodAttitude, 5, 0);
}

/**
 * Fills a struct cOrbitalInfo with values from a OrbitalInfo object (to put data into a F77 common).
 */
void OrbitalInfo::GetLevel2Struct(cOrbitalInfo *l2) const{
  l2->abstime  = absTime;
  l2->obt      = OBT;
  l2->pkt_num  = pkt_num;

  l2->lon = lon;
  l2->lat = lat;
  l2->alt = alt;
  l2->V = V;

  l2->Bnorth = Bnorth;
  l2->Beast = Beast;
  l2->Bdown = Bdown;
  l2->Babs = Babs;
  l2->M = M;
  l2->BB0 = BB0;
  l2->L = L;

   l2->londip = londip;
   l2->latdip = latdip;

  l2->cutoffsvl = cutoffsvl;
//  memcpy(l2->cutoffsvl, cutoffsvl, sizeof(cutoffsvl));

  // Quaternions
  l2->q0 = q0;
  l2->q1 = q1;
  l2->q2 = q2;
  l2->q3 = q3;

  // Euler angles (nadir reference frame)
  l2->theta = theta;
  l2->phi = phi;
  l2->etha = etha;

  l2->mode = mode;
  l2->qkind = qkind;
  l2->errq = errq;
  l2->azim = azim;

//   memcpy(l2->goodAttitude, goodAttitude, sizeof(goodAttitude));
}

void OrbitalInfo::SetFromLevel2Struct(cOrbitalInfo *l2){
  absTime  = l2->abstime;
  OBT      = l2->obt;
  pkt_num  = l2->pkt_num;

  lon = l2->lon;
  lat = l2->lat;
  alt = l2->alt;
  V = l2->V;

  l2->Bnorth = Bnorth;
  l2->Beast = Beast;
  l2->Bdown = Bdown;
  l2->Babs = Babs;
  M = l2->M;
  BB0 = l2->BB0;
  L = l2->L;

   londip = l2->londip;
   latdip = l2->latdip;

//  memcpy(cutoff, l2->cutoff, sizeof(l2->cutoff));
  l2->cutoffsvl = cutoffsvl;

  // Quaternions
  q0 = l2->q0;
  q1 = l2->q1;
  q2 = l2->q2;
  q3 = l2->q3;

  // Euler angles (nadir reference frame)
  theta = l2->theta;
  phi = l2->phi;
  etha = l2->etha;

  mode = l2->mode;
  qkind = l2->qkind;
  errq = l2->errq;
  azim = l2->azim;

//   memcpy(goodAttitude, l2->goodAttitude, sizeof(l2->goodAttitude));
}

1	#include <OrbitalInfo.h>
2
3	using namespace std;
4
5	ClassImp(OrbitalInfoTrkVar);
6	ClassImp(OrbitalInfo);
7
8	OrbitalInfoTrkVar::OrbitalInfoTrkVar(){
9	this->Clear();
10	// Eij = new TMatrixD(3,3);
11	// Sij = new TMatrixD(3,3);
12	}
13
14	void OrbitalInfoTrkVar::Clear(Option_t *t){
15	trkseqno = 0;
16	pitch = -1000.;
17	sunangle = -1000;
18	sunmagangle = -1000;
19	cutoff = -1000.;
20	Eij.Zero();
21	Sij.Zero();
22	}
23
24	void OrbitalInfoTrkVar::Delete(Option_t *t){
25	// if ( Eij ) Eij->Delete();
26	// if ( Sij ) Sij->Delete();
27	}
28
29	OrbitalInfo::OrbitalInfo(){
30	OrbitalInfoTrk = 0; //ELENA
31	this->Clear();
32	}
33
34	OrbitalInfoTrkVar::OrbitalInfoTrkVar(const OrbitalInfoTrkVar &t){
35	//
36	trkseqno = t.trkseqno;
37	//
38	pitch = t.pitch;
39	cutoff = t.cutoff;
40	sunangle=t.sunangle;
41	sunmagangle=t.sunmagangle;
42	//
43	Eij.ResizeTo(t.Eij);
44	Eij = t.Eij;
45	Sij.ResizeTo(t.Sij);
46	Sij = t.Sij;
47	//
48	};
49
50	void OrbitalInfo::Delete(Option_t *t){ //ELENA
51	//
52	// if ( Iij ) Iij->Delete();
53	if(OrbitalInfoTrk){
54	OrbitalInfoTrk->Delete(); //ELENA
55	delete OrbitalInfoTrk; //ELENA
56	}
57	//
58	}; //ELENA
59
60	void OrbitalInfo::Set(){//ELENA
61	if ( !OrbitalInfoTrk ) OrbitalInfoTrk = new TClonesArray("OrbitalInfoTrkVar",2); //ELENA}
62	// if ( !Iij ) Iij = new TMatrixD(3,3);
63	}//ELENA
64	//--------------------------------------
65	//
66	//
67	//--------------------------------------
68	void OrbitalInfo::SetTrackArray(TClonesArray *track){//ELENA
69	// if(track && strcmp(track->GetClass()->GetName(),"OrbitalInfoTrkVar")==0){
70	if(OrbitalInfoTrk)OrbitalInfoTrk->Clear("C");
71	OrbitalInfoTrk = track;
72	// }
73	}
74
75	OrbitalInfoTrkVar *OrbitalInfo::GetOrbitalInfoTrkVar(Int_t itrk){
76	//
77	if(itrk >= ntrk()){
78	printf(" OrbitalInfo ERROR: track related variables set %i does not exists! \n",itrk);
79	printf(" stored track related variables = %i \n",ntrk());
80	return(NULL);
81	}
82	//
83	if(!OrbitalInfoTrk)return 0; //ELENA
84	TClonesArray &t = *(OrbitalInfoTrk);
85	OrbitalInfoTrkVar orbtrack = (OrbitalInfoTrkVar)t[itrk];
86	return orbtrack;
87	}
88	/**
89	* Retrieves the tof track matching the seqno-th tracker stored track.
90	*
91	*/
92	OrbitalInfoTrkVar *OrbitalInfo::GetOrbitalInfoStoredTrack(int seqno){
93
94	if( ntrk()==0 ){
95	printf("OrbitalInfo::GetOrbitalInfoStoredTrack(int) : requested tracker SeqNo %i but no OrbitalInforimeter tracks are stored\n",seqno);
96	return NULL;
97	};
98
99	OrbitalInfoTrkVar *c = 0;
100	Int_t it_tof=0;
101
102	do {
103	c = GetOrbitalInfoTrkVar(it_tof);
104	it_tof++;
105	} while( c && seqno != c->trkseqno && it_tof < ntrk());
106
107	if(!c \|\| seqno != c->trkseqno){
108	c = 0;
109	if(seqno!=-1 ) printf("OrbitalInfo::GetOrbitalInfoStoredTrack(int) : requested tracker SeqNo %i does not match OrbitalInfo stored tracks\n",seqno);
110	};
111	return c;
112
113	}
114
115	void OrbitalInfo::Clear(Option_t *t){
116	//
117	if ( OrbitalInfoTrk ) OrbitalInfoTrk->Delete();
118	//
119	absTime = 0;
120	OBT = 0;
121	pkt_num = 0;
122
123	lon = -1000.;
124	lat = -1000.;
125	alt = -1000.;
126	V.SetXYZ(-1000.,-1000.,-1000.);
127
128	Bnorth = -1000.;
129	Beast = -1000.;
130	Bdown = -1000.;
131	Babs = -1000.;
132	M = -1000;
133	BB0 = -1000.;
134	L = -1000.;
135
136	londip = -1000.;
137	latdip = -1000.;
138
139	// std::fill_n(cutoff, 20, 0.);
140	// std::fill_n(cutoff, 2, 0.);
141	cutoffsvl = 0.;
142
143	// Quaternions
144	q0 = -1000.;
145	q1 = -1000.;
146	q2 = -1000.;
147	q3 = -1000.;
148
149	// Euler angles (nadir reference frame)
150	theta = -1000.;
151	phi = -1000.;
152	etha = -1000.;
153
154	Iij.Zero();
155
156	mode = 0;
157	qkind = -1000;
158	errq = -1000;
159	azim = -1000;
160	// std::fill_n(goodAttitude, 5, 0);
161	}
162
163	/**
164	* Fills a struct cOrbitalInfo with values from a OrbitalInfo object (to put data into a F77 common).
165	*/
166	void OrbitalInfo::GetLevel2Struct(cOrbitalInfo *l2) const{
167	l2->abstime = absTime;
168	l2->obt = OBT;
169	l2->pkt_num = pkt_num;
170
171	l2->lon = lon;
172	l2->lat = lat;
173	l2->alt = alt;
174	l2->V = V;
175
176	l2->Bnorth = Bnorth;
177	l2->Beast = Beast;
178	l2->Bdown = Bdown;
179	l2->Babs = Babs;
180	l2->M = M;
181	l2->BB0 = BB0;
182	l2->L = L;
183
184	l2->londip = londip;
185	l2->latdip = latdip;
186
187	l2->cutoffsvl = cutoffsvl;
188	// memcpy(l2->cutoffsvl, cutoffsvl, sizeof(cutoffsvl));
189
190	// Quaternions
191	l2->q0 = q0;
192	l2->q1 = q1;
193	l2->q2 = q2;
194	l2->q3 = q3;
195
196	// Euler angles (nadir reference frame)
197	l2->theta = theta;
198	l2->phi = phi;
199	l2->etha = etha;
200
201	l2->mode = mode;
202	l2->qkind = qkind;
203	l2->errq = errq;
204	l2->azim = azim;
205
206	// memcpy(l2->goodAttitude, goodAttitude, sizeof(goodAttitude));
207	}
208
209	void OrbitalInfo::SetFromLevel2Struct(cOrbitalInfo *l2){
210	absTime = l2->abstime;
211	OBT = l2->obt;
212	pkt_num = l2->pkt_num;
213
214	lon = l2->lon;
215	lat = l2->lat;
216	alt = l2->alt;
217	V = l2->V;
218
219	l2->Bnorth = Bnorth;
220	l2->Beast = Beast;
221	l2->Bdown = Bdown;
222	l2->Babs = Babs;
223	M = l2->M;
224	BB0 = l2->BB0;
225	L = l2->L;
226
227	londip = l2->londip;
228	latdip = l2->latdip;
229
230	// memcpy(cutoff, l2->cutoff, sizeof(l2->cutoff));
231	l2->cutoffsvl = cutoffsvl;
232
233	// Quaternions
234	q0 = l2->q0;
235	q1 = l2->q1;
236	q2 = l2->q2;
237	q3 = l2->q3;
238
239	// Euler angles (nadir reference frame)
240	theta = l2->theta;
241	phi = l2->phi;
242	etha = l2->etha;
243
244	mode = l2->mode;
245	qkind = l2->qkind;
246	errq = l2->errq;
247	azim = l2->azim;
248
249	// memcpy(goodAttitude, l2->goodAttitude, sizeof(l2->goodAttitude));
250	}
251