TrackerLevel2/src/TrkStruct.cpp

/**
 * \file TrkStruct.h
 * \author Elena Vannuccini
 * \date
 */
#include <TrkStruct.h>
//#include <TrkCalib.h>

using namespace pamela;
using namespace std;

float aint(float f){
    int   ret  = (int)f;
    float ret1 = 0;
    ret1=(float)ret;
    return ret1;        
}

float anint(float f){
    int   ret  = (int)(f+0.5);
    float ret1 = 0;
    ret1=(float)ret;
    return ret1;        
}
// /**
//  * Method to fill the tracker calibration-parameter struct from on-line calibrations
//  */
// void cTrkCalib::FillACalibFrom(TFile* f0, Int_t ev_reg1, Int_t ev_reg2){

//     TTree *tr1 = (TTree*)f0->Get("CalibTrk1");  
//     TTree *tr2 = (TTree*)f0->Get("CalibTrk2"); 

//     CalibTrk1Event *calibdata1 = 0;
//     CalibTrk2Event *calibdata2 = 0;
//     tr1->SetBranchAddress("CalibTrk1",&calibdata1);
//     tr2->SetBranchAddress("CalibTrk2",&calibdata2);
//     tr1->GetEntry(ev_reg1);
//     tr2->GetEntry(ev_reg2); 
//     Int_t dspn1(0),dspn2(0);
        
//     for(Int_t i=0;i<6;i++){
//      dspn1=calibdata1->DSPnumber[i]-1;
//      dspn2=calibdata2->DSPnumber[i]-1;
//      /*     cout<<"dspn1= "<<dspn1<<"   dspn2= "<<dspn2<<endl; */
//      for(Int_t ii=0;ii<3072;ii++){
//          Int_t j=(ii/128);
//          Int_t jj=ii-j*128; 
//          pedestal[jj][j][dspn1]=calibdata1->DSPped_par[i][ii];
//          pedestal[jj][j][dspn2]=calibdata2->DSPped_par[i][ii];
//          pedestal_t[jj][j][dspn1]=aint(calibdata1->DSPped_par[i][ii]);
//          pedestal_t[jj][j][dspn2]=aint(calibdata2->DSPped_par[i][ii]);
//          sigma[jj][j][dspn1]=calibdata1->DSPsig_par[i][ii];
//          sigma[jj][j][dspn2]=calibdata2->DSPsig_par[i][ii];
//          sigma_t[jj][j][dspn1]=anint(calibdata1->DSPsig_par[i][ii]);
//          sigma_t[jj][j][dspn2]=anint(calibdata2->DSPsig_par[i][ii]);
//          //        cout<<"sigma trk1= "<<sigma[jj][j][dspn1]<<endl;
//          //        cout<<"sigma_t trk1= "<<sigma_t[jj][j][dspn1]<<endl;
//          //        cout<<"sigma trk2= "<<sigma[jj][j][dspn2]<<endl;
//          //        cout<<"sigma_t trk2= "<<sigma_t[jj][j][dspn2]<<endl;
        
//          //
//          // invert the bad
//          //
//          if(calibdata1->DSPbad_par[i][ii]==0) 
//              bad[jj][j][dspn1]=1;
//          else if(calibdata1->DSPbad_par[i][ii]==1)
//              bad[jj][j][dspn1]=0;
//          if(calibdata2->DSPbad_par[i][ii]==0)
//              bad[jj][j][dspn2]=1;
//          else if(calibdata2->DSPbad_par[i][ii]==1)
//              bad[jj][j][dspn2]=0;
//      };
//     };
        
//     tr1->Delete();
//     tr2->Delete();
// };

// /**
//  * Method to fill the tracker calibration-parameter struct from on-line calibrations
//  */
// void cTrkCalib::FillFCalibFrom(TFile* f0, Int_t ev_reg1, Int_t ev_reg2){

//     TTree *tr1 = (TTree*)f0->Get("CalibTrk1");  
//     TTree *tr2 = (TTree*)f0->Get("CalibTrk2"); 

//     CalibTrk1Event *calibdata1 = 0;
//     CalibTrk2Event *calibdata2 = 0;
//     tr1->SetBranchAddress("CalibTrk1",&calibdata1);
//     tr2->SetBranchAddress("CalibTrk2",&calibdata2);
//     tr1->GetEntry(ev_reg1);
//     tr2->GetEntry(ev_reg2); 
//     Int_t dspn1(0),dspn2(0);
        
//     for(Int_t i=0;i<6;i++){
//      dspn1=calibdata1->DSPnumber[i]-1;
//      dspn2=calibdata2->DSPnumber[i]-1;
//      /*     cout<<"dspn1= "<<dspn1<<"   dspn2= "<<dspn2<<endl; */
//      for(Int_t ii=0;ii<3072;ii++){
//          Int_t j=(ii/128);
//          Int_t jj=ii-j*128; 
//          pedestal[jj][j][dspn1]=calibdata1->DSPped_par[i][ii];
//          pedestal[jj][j][dspn2]=calibdata2->DSPped_par[i][ii];
//          sigma[jj][j][dspn1]=calibdata1->DSPsig_par[i][ii];
//          sigma[jj][j][dspn2]=calibdata2->DSPsig_par[i][ii];
//          //        cout<<"sigma trk1= "<<sigma[jj][j][dspn1]<<endl;
//          //        cout<<"sigma_t trk1= "<<sigma_t[jj][j][dspn1]<<endl;
//          //        cout<<"sigma trk2= "<<sigma[jj][j][dspn2]<<endl;
//          //        cout<<"sigma_t trk2= "<<sigma_t[jj][j][dspn2]<<endl;
        
//          //
//          // invert the bad
//          //
//          if(calibdata1->DSPbad_par[i][ii]==0)
//              bad[jj][j][dspn1]=1;
//          else if(calibdata1->DSPbad_par[i][ii]==1)
//              bad[jj][j][dspn1]=0;
//          if(calibdata2->DSPbad_par[i][ii]==0)
//              bad[jj][j][dspn2]=1;
//          else if(calibdata2->DSPbad_par[i][ii]==1)
//              bad[jj][j][dspn2]=0;
//      };
//     };
        
//     tr1->Delete();
//     tr2->Delete();
// };
// /**
//  * Method to fill the tracker calibration-parameter struct from on-line calibrations
//  */
// void cTrkCalib::FillTCalibFrom(TFile* f0, Int_t ev_reg1, Int_t ev_reg2){

//     TTree *tr1 = (TTree*)f0->Get("CalibTrk1");  
//     TTree *tr2 = (TTree*)f0->Get("CalibTrk2"); 

//     CalibTrk1Event *calibdata1 = 0;
//     CalibTrk2Event *calibdata2 = 0;
//     tr1->SetBranchAddress("CalibTrk1",&calibdata1);
//     tr2->SetBranchAddress("CalibTrk2",&calibdata2);
//     tr1->GetEntry(ev_reg1);
//     tr2->GetEntry(ev_reg2); 
//     Int_t dspn1(0),dspn2(0);
        
//     for(Int_t i=0;i<6;i++){
//      dspn1=calibdata1->DSPnumber[i]-1;
//      dspn2=calibdata2->DSPnumber[i]-1;
//      /*     cout<<"dspn1= "<<dspn1<<"   dspn2= "<<dspn2<<endl; */
//      for(Int_t ii=0;ii<3072;ii++){
//          Int_t j=(ii/128);
//          Int_t jj=ii-j*128; 
//          pedestal_t[jj][j][dspn1]=aint(calibdata1->DSPped_par[i][ii]);
//          pedestal_t[jj][j][dspn2]=aint(calibdata2->DSPped_par[i][ii]);
//          sigma_t[jj][j][dspn1]=anint(calibdata1->DSPsig_par[i][ii]);
//          sigma_t[jj][j][dspn2]=anint(calibdata2->DSPsig_par[i][ii]); 
//      };
//     };
        
//     tr1->Delete();
//     tr2->Delete();
// };
// /**
//  * Method to fill the tracker calibration-parameter struct from default calibration
//  */
// void cTrkCalib::FillTCalibFrom(TString path){
    
//     path_.FillWith(path);
//     fillpedsigfromdefault_();
//     if(path_.error) throw -216;

// };

/**
 * Method to fill the tracker VA1-mask struct from calibration
 */
// void cTrkMask::Set(TFile* f0, Int_t ev_reg1, Int_t ev_reg2){
    
//     TrkCalib *calib = new TrkCalib();

//     for(Int_t i=0; i<2; i++){
//      TTree *tr=0; 
//      if(i==0){
//          //-------------------------
//          //read calibration packet 1
//          //-------------------------
//          tr = (TTree*)f0->Get("CalibTrk1");  
//          tr->SetBranchAddress("CalibTrk1",calib->GetPointerTo());
//          tr->GetEntry(ev_reg1);
//      }
//      if(i==1){
//          //-------------------------
//          //read calibration packet 2
//          //-------------------------
//          tr = (TTree*)f0->Get("CalibTrk2"); 
//          tr->SetBranchAddress("CalibTrk2",calib->GetPointerTo());
//          tr->GetEntry(ev_reg2); 
//      }
//      for(Int_t ipkt=0; ipkt<NPLANE; ipkt++){
//          for(Int_t ivk=0; ivk<NVK; ivk++){
//              Int_t view   = calib->GetView(ipkt);
//              Float_t sigm = calib->GetMean("SIG-BAD",ipkt,ivk+1);
//              Float_t sigmin = 0.;
//              if(view%2)sigmin = 6.5;
//              else      sigmin = 2.5;
//              Int_t mask = 1;
//              if( sigm<sigmin )mask = 0;
            
//              mask_vk_run[ivk][view-1] = mask;
            
// //           if(mask==0)cout<< " VIEW "<<view<<" VK "<<ivk+1<<" -- <SIG> "<<sigm<<" ---> MASKED!"<<endl;
//          }   
//      }
//      if(tr)tr->Delete();
//     }

//     if(calib)calib->Delete();

// };

1	/**
2	* \file TrkStruct.h
3	* \author Elena Vannuccini
4	* \date
5	*/
6	#include <TrkStruct.h>
7	//#include <TrkCalib.h>
8
9	using namespace pamela;
10	using namespace std;
11
12	float aint(float f){
13	int ret = (int)f;
14	float ret1 = 0;
15	ret1=(float)ret;
16	return ret1;
17	}
18
19	float anint(float f){
20	int ret = (int)(f+0.5);
21	float ret1 = 0;
22	ret1=(float)ret;
23	return ret1;
24	}
25	// /**
26	// * Method to fill the tracker calibration-parameter struct from on-line calibrations
27	// */
28	// void cTrkCalib::FillACalibFrom(TFile* f0, Int_t ev_reg1, Int_t ev_reg2){
29
30	// TTree tr1 = (TTree)f0->Get("CalibTrk1");
31	// TTree tr2 = (TTree)f0->Get("CalibTrk2");
32
33	// CalibTrk1Event *calibdata1 = 0;
34	// CalibTrk2Event *calibdata2 = 0;
35	// tr1->SetBranchAddress("CalibTrk1",&calibdata1);
36	// tr2->SetBranchAddress("CalibTrk2",&calibdata2);
37	// tr1->GetEntry(ev_reg1);
38	// tr2->GetEntry(ev_reg2);
39	// Int_t dspn1(0),dspn2(0);
40
41	// for(Int_t i=0;i<6;i++){
42	// dspn1=calibdata1->DSPnumber[i]-1;
43	// dspn2=calibdata2->DSPnumber[i]-1;
44	// /* cout<<"dspn1= "<<dspn1<<" dspn2= "<<dspn2<<endl; */
45	// for(Int_t ii=0;ii<3072;ii++){
46	// Int_t j=(ii/128);
47	// Int_t jj=ii-j*128;
48	// pedestal[jj][j][dspn1]=calibdata1->DSPped_par[i][ii];
49	// pedestal[jj][j][dspn2]=calibdata2->DSPped_par[i][ii];
50	// pedestal_t[jj][j][dspn1]=aint(calibdata1->DSPped_par[i][ii]);
51	// pedestal_t[jj][j][dspn2]=aint(calibdata2->DSPped_par[i][ii]);
52	// sigma[jj][j][dspn1]=calibdata1->DSPsig_par[i][ii];
53	// sigma[jj][j][dspn2]=calibdata2->DSPsig_par[i][ii];
54	// sigma_t[jj][j][dspn1]=anint(calibdata1->DSPsig_par[i][ii]);
55	// sigma_t[jj][j][dspn2]=anint(calibdata2->DSPsig_par[i][ii]);
56	// // cout<<"sigma trk1= "<<sigma[jj][j][dspn1]<<endl;
57	// // cout<<"sigma_t trk1= "<<sigma_t[jj][j][dspn1]<<endl;
58	// // cout<<"sigma trk2= "<<sigma[jj][j][dspn2]<<endl;
59	// // cout<<"sigma_t trk2= "<<sigma_t[jj][j][dspn2]<<endl;
60
61	// //
62	// // invert the bad
63	// //
64	// if(calibdata1->DSPbad_par[i][ii]==0)
65	// bad[jj][j][dspn1]=1;
66	// else if(calibdata1->DSPbad_par[i][ii]==1)
67	// bad[jj][j][dspn1]=0;
68	// if(calibdata2->DSPbad_par[i][ii]==0)
69	// bad[jj][j][dspn2]=1;
70	// else if(calibdata2->DSPbad_par[i][ii]==1)
71	// bad[jj][j][dspn2]=0;
72	// };
73	// };
74
75	// tr1->Delete();
76	// tr2->Delete();
77	// };
78
79	// /**
80	// * Method to fill the tracker calibration-parameter struct from on-line calibrations
81	// */
82	// void cTrkCalib::FillFCalibFrom(TFile* f0, Int_t ev_reg1, Int_t ev_reg2){
83
84	// TTree tr1 = (TTree)f0->Get("CalibTrk1");
85	// TTree tr2 = (TTree)f0->Get("CalibTrk2");
86
87	// CalibTrk1Event *calibdata1 = 0;
88	// CalibTrk2Event *calibdata2 = 0;
89	// tr1->SetBranchAddress("CalibTrk1",&calibdata1);
90	// tr2->SetBranchAddress("CalibTrk2",&calibdata2);
91	// tr1->GetEntry(ev_reg1);
92	// tr2->GetEntry(ev_reg2);
93	// Int_t dspn1(0),dspn2(0);
94
95	// for(Int_t i=0;i<6;i++){
96	// dspn1=calibdata1->DSPnumber[i]-1;
97	// dspn2=calibdata2->DSPnumber[i]-1;
98	// /* cout<<"dspn1= "<<dspn1<<" dspn2= "<<dspn2<<endl; */
99	// for(Int_t ii=0;ii<3072;ii++){
100	// Int_t j=(ii/128);
101	// Int_t jj=ii-j*128;
102	// pedestal[jj][j][dspn1]=calibdata1->DSPped_par[i][ii];
103	// pedestal[jj][j][dspn2]=calibdata2->DSPped_par[i][ii];
104	// sigma[jj][j][dspn1]=calibdata1->DSPsig_par[i][ii];
105	// sigma[jj][j][dspn2]=calibdata2->DSPsig_par[i][ii];
106	// // cout<<"sigma trk1= "<<sigma[jj][j][dspn1]<<endl;
107	// // cout<<"sigma_t trk1= "<<sigma_t[jj][j][dspn1]<<endl;
108	// // cout<<"sigma trk2= "<<sigma[jj][j][dspn2]<<endl;
109	// // cout<<"sigma_t trk2= "<<sigma_t[jj][j][dspn2]<<endl;
110
111	// //
112	// // invert the bad
113	// //
114	// if(calibdata1->DSPbad_par[i][ii]==0)
115	// bad[jj][j][dspn1]=1;
116	// else if(calibdata1->DSPbad_par[i][ii]==1)
117	// bad[jj][j][dspn1]=0;
118	// if(calibdata2->DSPbad_par[i][ii]==0)
119	// bad[jj][j][dspn2]=1;
120	// else if(calibdata2->DSPbad_par[i][ii]==1)
121	// bad[jj][j][dspn2]=0;
122	// };
123	// };
124
125	// tr1->Delete();
126	// tr2->Delete();
127	// };
128	// /**
129	// * Method to fill the tracker calibration-parameter struct from on-line calibrations
130	// */
131	// void cTrkCalib::FillTCalibFrom(TFile* f0, Int_t ev_reg1, Int_t ev_reg2){
132
133	// TTree tr1 = (TTree)f0->Get("CalibTrk1");
134	// TTree tr2 = (TTree)f0->Get("CalibTrk2");
135
136	// CalibTrk1Event *calibdata1 = 0;
137	// CalibTrk2Event *calibdata2 = 0;
138	// tr1->SetBranchAddress("CalibTrk1",&calibdata1);
139	// tr2->SetBranchAddress("CalibTrk2",&calibdata2);
140	// tr1->GetEntry(ev_reg1);
141	// tr2->GetEntry(ev_reg2);
142	// Int_t dspn1(0),dspn2(0);
143
144	// for(Int_t i=0;i<6;i++){
145	// dspn1=calibdata1->DSPnumber[i]-1;
146	// dspn2=calibdata2->DSPnumber[i]-1;
147	// /* cout<<"dspn1= "<<dspn1<<" dspn2= "<<dspn2<<endl; */
148	// for(Int_t ii=0;ii<3072;ii++){
149	// Int_t j=(ii/128);
150	// Int_t jj=ii-j*128;
151	// pedestal_t[jj][j][dspn1]=aint(calibdata1->DSPped_par[i][ii]);
152	// pedestal_t[jj][j][dspn2]=aint(calibdata2->DSPped_par[i][ii]);
153	// sigma_t[jj][j][dspn1]=anint(calibdata1->DSPsig_par[i][ii]);
154	// sigma_t[jj][j][dspn2]=anint(calibdata2->DSPsig_par[i][ii]);
155	// };
156	// };
157
158	// tr1->Delete();
159	// tr2->Delete();
160	// };
161	// /**
162	// * Method to fill the tracker calibration-parameter struct from default calibration
163	// */
164	// void cTrkCalib::FillTCalibFrom(TString path){
165
166	// path_.FillWith(path);
167	// fillpedsigfromdefault_();
168	// if(path_.error) throw -216;
169
170	// };
171
172	/**
173	* Method to fill the tracker VA1-mask struct from calibration
174	*/
175	// void cTrkMask::Set(TFile* f0, Int_t ev_reg1, Int_t ev_reg2){
176
177	// TrkCalib *calib = new TrkCalib();
178
179	// for(Int_t i=0; i<2; i++){
180	// TTree *tr=0;
181	// if(i==0){
182	// //-------------------------
183	// //read calibration packet 1
184	// //-------------------------
185	// tr = (TTree*)f0->Get("CalibTrk1");
186	// tr->SetBranchAddress("CalibTrk1",calib->GetPointerTo());
187	// tr->GetEntry(ev_reg1);
188	// }
189	// if(i==1){
190	// //-------------------------
191	// //read calibration packet 2
192	// //-------------------------
193	// tr = (TTree*)f0->Get("CalibTrk2");
194	// tr->SetBranchAddress("CalibTrk2",calib->GetPointerTo());
195	// tr->GetEntry(ev_reg2);
196	// }
197	// for(Int_t ipkt=0; ipkt<NPLANE; ipkt++){
198	// for(Int_t ivk=0; ivk<NVK; ivk++){
199	// Int_t view = calib->GetView(ipkt);
200	// Float_t sigm = calib->GetMean("SIG-BAD",ipkt,ivk+1);
201	// Float_t sigmin = 0.;
202	// if(view%2)sigmin = 6.5;
203	// else sigmin = 2.5;
204	// Int_t mask = 1;
205	// if( sigm<sigmin )mask = 0;
206
207	// mask_vk_run[ivk][view-1] = mask;
208
209	// // if(mask==0)cout<< " VIEW "<<view<<" VK "<<ivk+1<<" -- <SIG> "<<sigm<<" ---> MASKED!"<<endl;
210	// }
211	// }
212	// if(tr)tr->Delete();
213	// }
214
215	// if(calib)calib->Delete();
216
217	// };
218