TrackerLevel2/src/TrkCalib.cpp


/**
 * \file TrkCalib.cpp
 * \author Elena Vannuccini
 */
#include <TrkCalib.h>
using namespace pamela;


TrkCalib::TrkCalib(){

    calib1 = new CalibTrk1Event();

};


TrkCalib::~TrkCalib(){

    calib1->Delete();

};

/**
 * Method to get the view number of the ipkt-th stored DSP-packet.
 * The view number is extracted from the DSP-header.
 */
Int_t TrkCalib::GetView(Int_t ipkt){

    if( ipkt <0 || ipkt >=6 )return 0;
    return calib1->DSPnumber[ipkt]; 

};

Int_t TrkCalib::EvaluatePar(TString what, Int_t ipkt, Int_t ivk, Float_t* result){
    
    // vector to store mean, RMS, n.points
//    Float_t* result = new Float_t[3]; 
    *(result)   = -1.;
    *(result+1) = 0.;
    *(result+2) = 0.;

    // evaluate strip range
    Int_t from = (ivk-1)*128 ;
    Int_t to= ivk*128;
    if( ivk > 0 && ivk <= 24){
        from = (ivk-1)*128 ;
        to   = ivk*128;
    }else if( ivk==0 ){
        from = 0;
        to   = 3072;
    }else if( ivk < 0 && ivk >= -3 ){
        from = (-ivk-1)*1024;
        to   =  -ivk*1024;
    }else{
        return 0;
    }


    float mean =0;
    float rms   =0;
    int   nstrip =0;
    float *pt;

    if(       what.Contains("PED") ){
        pt = (float*)(calib1->DSPped_par);
    }else if( what.Contains("SIG") ){
        pt = (float*)(calib1->DSPsig_par);
    }else{ 
        cout << "TrkCalib::EvaluatePar() --> "<<what<<" not implemented\n";
        return 0;
    };    

    int *ptbad;
    ptbad = (int*)(calib1->DSPbad_par);

    
    for(Int_t is=from; is<to; is++){
        int bad = 1;
        if( what.Contains("-BAD") && ptbad[ipkt*3072+is] == 1 )bad = 0;
        mean   += pt[ipkt*3072+is] * bad;
        rms    += pt[ipkt*3072+is] * pt[ipkt*3072+is] * bad ;
        nstrip += bad;
    }

    *(result) = (Float_t)nstrip;

    if(!nstrip) return 1;

    mean = mean/nstrip;
    rms  = rms/nstrip - mean * mean ;
    if (rms < 0) return 0;

    *(result+1) = mean;
    *(result+2) = sqrt(rms);
    
    return 1;
    
}

/**
 * Method to evaluate mean value of calibration parameters, over a VA1 chip, a ladder or the whole view.
 * @param what Quantity to evaluate ("PED", "SIG" or "BAD")
 * @param ipkt Stored DSP-packet
 * @param ivk  If ivk=1,24 the average is evaluated for the ivk-th VA1 chip. If ivk=-ladder, where 
 * ladder=1-2, the average is evaluated over the ladder. If ivk=0 the average is evaluated over the whole view.
 */
Float_t TrkCalib::GetMean(TString what, Int_t ipkt, Int_t ivk){

    Float_t* result = new Float_t[3];
    if( !EvaluatePar(what,ipkt,ivk, result) ) return 0.;
    Float_t mean = result[1];
    delete [] result;
    return mean;
}; 
/**
 * Method to evaluate RMS of calibration parameters, over a VA1 chip, a ladder or the whole view.
 * Input parameters follow the same notation of  TrkCalib::GetMean(TString what, Int_t ipkt, Int_t ivk).
 */
Float_t TrkCalib::GetRMS(TString what, Int_t ipkt, Int_t ivk){

    Float_t* result = new Float_t[3];
    if( !EvaluatePar(what,ipkt,ivk, result) ) return 0.;
    Float_t rms = result[2];
    delete [] result;
    return rms;

}; 

/**
 * Method to evaluate RMS of calibration parameters, over a VA1 chip, a ladder or the whole view.
 * Input parameters follow the same notation of  TrkCalib::GetMean(TString what, Int_t ipkt, Int_t ivk).
 */
Float_t TrkCalib::GetNGOOD(Int_t ipkt, Int_t ivk){

    Float_t* result = new Float_t[3];
    if( !EvaluatePar("SIG-BAD",ipkt,ivk, result) ) return 0.;
    Float_t ngood = result[0];
    delete [] result;
    return ngood;

}; 
Float_t TrkCalib::GetNBAD(Int_t ipkt, Int_t ivk){

    Float_t* result = new Float_t[3];

    if( !EvaluatePar("SIG",ipkt,ivk, result) ) return 0.;
    Float_t nbad = result[0];
    if( !EvaluatePar("SIG-BAD",ipkt,ivk, result) ) return 0.;
    nbad = nbad - result[0];
    delete [] result;
    return nbad;

}; 
/**
 * Method to get an array with the calibration-parameters, for a VA1 chip, a ladder or a view. 
 */
Float_t* TrkCalib::Get(TString what, Int_t ipkt, Int_t ivk){

    Int_t from = (ivk-1)*128 ;
    Int_t to= ivk*128;
    if( ivk > 0 && ivk <= 24){
        from = (ivk-1)*128 ;
        to   = ivk*128;
    }else if( ivk==0 ){
        from = 0;
        to   = 3072;
    }else if( ivk < 0 && ivk >= -3 ){
        from = (-ivk-1)*1024;
        to   =  -ivk*1024;
    }else{
        return NULL;
    }
    

    float *pt;

    if(       !what.CompareTo("PED") ){
        pt = (float*)(calib1->DSPped_par);
    }else if( !what.CompareTo("SIG") ){
        pt = (float*)(calib1->DSPsig_par);
    }else{ 
        cout << "TrkCalib::Get(TString what, Int_t ipkt) --> "<<what<<" not implemented\n";
        return NULL;
    };

    return &pt[ipkt*3072+from];
}; 

void TrkCalib::HeaderDump(Int_t ipkt){
    cout << "------------------------"<<endl;
    cout << " DSP "<<calib1->DSPnumber[ipkt]<<endl;
    cout << "------------------------"<<endl;
    cout << "DAQ mode "<<calib1->DAQmode[ipkt]<<endl;
    cout << "<PED>  "<<calib1->ped_l1[ipkt]<<" "<<calib1->ped_l2[ipkt]<<" "<<calib1->ped_l3[ipkt]<<" "<<endl;
    cout << "<SIG>  "<<calib1->sig_l1[ipkt]<<" "<<calib1->sig_l2[ipkt]<<" "<<calib1->sig_l3[ipkt]<<" "<<endl;
    cout << "n.BAD  "<<calib1->nbad_l1[ipkt]<<" "<<calib1->nbad_l2[ipkt]<<" "<<calib1->nbad_l3[ipkt]<<" "<<endl;
    cout << "n.events "<<calib1->ncalib_event[ipkt]<<endl;
    cout << "flag     "<<calib1->cal_flag[ipkt]<<endl;

}
/**
 * Method to get the histogram of calibration-parameters, for a VA1 chip, a ladder or a view. 
 */
TH1F* TrkCalib::GetHisto(TString what, Int_t ipkt, Int_t ivk){

    Int_t from = (ivk-1)*128 ;
    Int_t to= ivk*128;
    if( ivk > 0 && ivk <= 24){
        from = (ivk-1)*128 ;
        to   = ivk*128;
    }else if( ivk==0 ){
        from = 0;
        to   = 3072;
    }else if( ivk < 0 && ivk >= -3 ){
        from = (-ivk-1)*1024;
        to   =  -ivk*1024;
    }else{
        return NULL;
    }
    
    TString title ="";
    title.Form(" view %i ",GetView(ipkt));
    title = what + title;
    TH1F* h = new TH1F("h",title.Data(),to-from,from,to);
    Float_t* v = Get(what,ipkt,ivk);
    HeaderDump(ipkt);
    for(Int_t i=from; i<to; i++)h->Fill(i,v[i-from]);
    return h;
    
}

ClassImp(TrkCalib);
1
2	/**
3	* \file TrkCalib.cpp
4	* \author Elena Vannuccini
5	*/
6	#include <TrkCalib.h>
7	using namespace pamela;
8
9
10	TrkCalib::TrkCalib(){
11
12	calib1 = new CalibTrk1Event();
13
14	};
15
16
17	TrkCalib::~TrkCalib(){
18
19	calib1->Delete();
20
21	};
22
23	/**
24	* Method to get the view number of the ipkt-th stored DSP-packet.
25	* The view number is extracted from the DSP-header.
26	*/
27	Int_t TrkCalib::GetView(Int_t ipkt){
28
29	if( ipkt <0 \|\| ipkt >=6 )return 0;
30	return calib1->DSPnumber[ipkt];
31
32	};
33
34	Int_t TrkCalib::EvaluatePar(TString what, Int_t ipkt, Int_t ivk, Float_t* result){
35
36	// vector to store mean, RMS, n.points
37	// Float_t* result = new Float_t[3];
38	*(result) = -1.;
39	*(result+1) = 0.;
40	*(result+2) = 0.;
41
42	// evaluate strip range
43	Int_t from = (ivk-1)*128 ;
44	Int_t to= ivk*128;
45	if( ivk > 0 && ivk <= 24){
46	from = (ivk-1)*128 ;
47	to = ivk*128;
48	}else if( ivk==0 ){
49	from = 0;
50	to = 3072;
51	}else if( ivk < 0 && ivk >= -3 ){
52	from = (-ivk-1)*1024;
53	to = -ivk*1024;
54	}else{
55	return 0;
56	}
57
58
59	float mean =0;
60	float rms =0;
61	int nstrip =0;
62	float *pt;
63
64	if( what.Contains("PED") ){
65	pt = (float*)(calib1->DSPped_par);
66	}else if( what.Contains("SIG") ){
67	pt = (float*)(calib1->DSPsig_par);
68	}else{
69	cout << "TrkCalib::EvaluatePar() --> "<<what<<" not implemented\n";
70	return 0;
71	};
72
73	int *ptbad;
74	ptbad = (int*)(calib1->DSPbad_par);
75
76
77	for(Int_t is=from; is<to; is++){
78	int bad = 1;
79	if( what.Contains("-BAD") && ptbad[ipkt*3072+is] == 1 )bad = 0;
80	mean += pt[ipkt3072+is] bad;
81	rms += pt[ipkt3072+is] pt[ipkt3072+is] bad ;
82	nstrip += bad;
83	}
84
85	*(result) = (Float_t)nstrip;
86
87	if(!nstrip) return 1;
88
89	mean = mean/nstrip;
90	rms = rms/nstrip - mean * mean ;
91	if (rms < 0) return 0;
92
93	*(result+1) = mean;
94	*(result+2) = sqrt(rms);
95
96	return 1;
97
98	}
99
100	/**
101	* Method to evaluate mean value of calibration parameters, over a VA1 chip, a ladder or the whole view.
102	* @param what Quantity to evaluate ("PED", "SIG" or "BAD")
103	* @param ipkt Stored DSP-packet
104	* @param ivk If ivk=1,24 the average is evaluated for the ivk-th VA1 chip. If ivk=-ladder, where
105	* ladder=1-2, the average is evaluated over the ladder. If ivk=0 the average is evaluated over the whole view.
106	*/
107	Float_t TrkCalib::GetMean(TString what, Int_t ipkt, Int_t ivk){
108
109	Float_t* result = new Float_t[3];
110	if( !EvaluatePar(what,ipkt,ivk, result) ) return 0.;
111	Float_t mean = result[1];
112	delete [] result;
113	return mean;
114	};
115	/**
116	* Method to evaluate RMS of calibration parameters, over a VA1 chip, a ladder or the whole view.
117	* Input parameters follow the same notation of TrkCalib::GetMean(TString what, Int_t ipkt, Int_t ivk).
118	*/
119	Float_t TrkCalib::GetRMS(TString what, Int_t ipkt, Int_t ivk){
120
121	Float_t* result = new Float_t[3];
122	if( !EvaluatePar(what,ipkt,ivk, result) ) return 0.;
123	Float_t rms = result[2];
124	delete [] result;
125	return rms;
126
127	};
128
129	/**
130	* Method to evaluate RMS of calibration parameters, over a VA1 chip, a ladder or the whole view.
131	* Input parameters follow the same notation of TrkCalib::GetMean(TString what, Int_t ipkt, Int_t ivk).
132	*/
133	Float_t TrkCalib::GetNGOOD(Int_t ipkt, Int_t ivk){
134
135	Float_t* result = new Float_t[3];
136	if( !EvaluatePar("SIG-BAD",ipkt,ivk, result) ) return 0.;
137	Float_t ngood = result[0];
138	delete [] result;
139	return ngood;
140
141	};
142	Float_t TrkCalib::GetNBAD(Int_t ipkt, Int_t ivk){
143
144	Float_t* result = new Float_t[3];
145
146	if( !EvaluatePar("SIG",ipkt,ivk, result) ) return 0.;
147	Float_t nbad = result[0];
148	if( !EvaluatePar("SIG-BAD",ipkt,ivk, result) ) return 0.;
149	nbad = nbad - result[0];
150	delete [] result;
151	return nbad;
152
153	};
154	/**
155	* Method to get an array with the calibration-parameters, for a VA1 chip, a ladder or a view.
156	*/
157	Float_t* TrkCalib::Get(TString what, Int_t ipkt, Int_t ivk){
158
159	Int_t from = (ivk-1)*128 ;
160	Int_t to= ivk*128;
161	if( ivk > 0 && ivk <= 24){
162	from = (ivk-1)*128 ;
163	to = ivk*128;
164	}else if( ivk==0 ){
165	from = 0;
166	to = 3072;
167	}else if( ivk < 0 && ivk >= -3 ){
168	from = (-ivk-1)*1024;
169	to = -ivk*1024;
170	}else{
171	return NULL;
172	}
173
174
175	float *pt;
176
177	if( !what.CompareTo("PED") ){
178	pt = (float*)(calib1->DSPped_par);
179	}else if( !what.CompareTo("SIG") ){
180	pt = (float*)(calib1->DSPsig_par);
181	}else{
182	cout << "TrkCalib::Get(TString what, Int_t ipkt) --> "<<what<<" not implemented\n";
183	return NULL;
184	};
185
186	return &pt[ipkt*3072+from];
187	};
188
189	void TrkCalib::HeaderDump(Int_t ipkt){
190	cout << "------------------------"<<endl;
191	cout << " DSP "<<calib1->DSPnumber[ipkt]<<endl;
192	cout << "------------------------"<<endl;
193	cout << "DAQ mode "<<calib1->DAQmode[ipkt]<<endl;
194	cout << "<PED> "<<calib1->ped_l1[ipkt]<<" "<<calib1->ped_l2[ipkt]<<" "<<calib1->ped_l3[ipkt]<<" "<<endl;
195	cout << "<SIG> "<<calib1->sig_l1[ipkt]<<" "<<calib1->sig_l2[ipkt]<<" "<<calib1->sig_l3[ipkt]<<" "<<endl;
196	cout << "n.BAD "<<calib1->nbad_l1[ipkt]<<" "<<calib1->nbad_l2[ipkt]<<" "<<calib1->nbad_l3[ipkt]<<" "<<endl;
197	cout << "n.events "<<calib1->ncalib_event[ipkt]<<endl;
198	cout << "flag "<<calib1->cal_flag[ipkt]<<endl;
199
200	}
201	/**
202	* Method to get the histogram of calibration-parameters, for a VA1 chip, a ladder or a view.
203	*/
204	TH1F* TrkCalib::GetHisto(TString what, Int_t ipkt, Int_t ivk){
205
206	Int_t from = (ivk-1)*128 ;
207	Int_t to= ivk*128;
208	if( ivk > 0 && ivk <= 24){
209	from = (ivk-1)*128 ;
210	to = ivk*128;
211	}else if( ivk==0 ){
212	from = 0;
213	to = 3072;
214	}else if( ivk < 0 && ivk >= -3 ){
215	from = (-ivk-1)*1024;
216	to = -ivk*1024;
217	}else{
218	return NULL;
219	}
220
221	TString title ="";
222	title.Form(" view %i ",GetView(ipkt));
223	title = what + title;
224	TH1F* h = new TH1F("h",title.Data(),to-from,from,to);
225	Float_t* v = Get(what,ipkt,ivk);
226	HeaderDump(ipkt);
227	for(Int_t i=from; i<to; i++)h->Fill(i,v[i-from]);
228	return h;
229
230	}
231
232	ClassImp(TrkCalib);