3 |
* \author Emiliano Mocchiutti |
* \author Emiliano Mocchiutti |
4 |
* |
* |
5 |
**/ |
**/ |
|
#include <TObject.h> |
|
|
#include <TMath.h> |
|
6 |
#include <CaloLevel1.h> |
#include <CaloLevel1.h> |
7 |
// |
// |
8 |
ClassImp(CaloStrip); |
ClassImp(CaloStrip); |
9 |
ClassImp(CaloLevel1); |
ClassImp(CaloLevel1); |
10 |
|
|
11 |
|
Float_t CaloStrip::UXal = CTX; |
12 |
|
Float_t CaloStrip::UYal = CTY; |
13 |
|
Float_t CaloStrip::UZal = CTZ; |
14 |
|
Bool_t CaloStrip::paramload = false; |
15 |
|
|
16 |
/** |
/** |
17 |
* CaloStrip default constructor |
* CaloStrip default constructor |
18 |
**/ |
**/ |
24 |
/** |
/** |
25 |
* CaloStrip default constructor |
* CaloStrip default constructor |
26 |
**/ |
**/ |
27 |
|
CaloStrip::CaloStrip(Bool_t mechalig) { |
28 |
|
c1 = 0; |
29 |
|
this->Clear(); |
30 |
|
if ( mechalig ){ |
31 |
|
ismech = true; |
32 |
|
paramload = true; |
33 |
|
UXal = MECHCTX; |
34 |
|
UYal = MECHCTY; |
35 |
|
UZal = MECHCTZ; |
36 |
|
} else { |
37 |
|
ismech = false; |
38 |
|
UseStandardAlig(); |
39 |
|
}; |
40 |
|
}; |
41 |
|
|
42 |
|
/** |
43 |
|
* CaloStrip default constructor |
44 |
|
**/ |
45 |
CaloStrip::CaloStrip(CaloLevel1 *calo) { |
CaloStrip::CaloStrip(CaloLevel1 *calo) { |
46 |
c1 = calo->GetCaloLevel1(); |
c1 = calo->GetCaloLevel1(); |
47 |
this->Clear(); |
this->Clear(); |
48 |
|
ismech = false; |
49 |
|
UseStandardAlig(); |
50 |
|
}; |
51 |
|
|
52 |
|
/** |
53 |
|
* CaloStrip default constructor |
54 |
|
**/ |
55 |
|
CaloStrip::CaloStrip(CaloLevel1 *calo, Bool_t mechalig) { |
56 |
|
c1 = calo->GetCaloLevel1(); |
57 |
|
this->Clear(); |
58 |
|
if ( mechalig ){ |
59 |
|
ismech = true; |
60 |
|
paramload = true; |
61 |
|
UXal = MECHCTX; |
62 |
|
UYal = MECHCTY; |
63 |
|
UZal = MECHCTZ; |
64 |
|
} else { |
65 |
|
ismech = false; |
66 |
|
UseStandardAlig(); |
67 |
|
}; |
68 |
}; |
}; |
69 |
|
|
70 |
/** |
/** |
71 |
* Clear variables |
* Clear variables |
72 |
**/ |
**/ |
73 |
void CaloStrip::Clear() { |
void CaloStrip::Clear(Option_t *t) { |
74 |
fE = 0.; |
fE = 0.; |
75 |
fX = 0.; |
fX = 0.; |
76 |
fY = 0.; |
fY = 0.; |
81 |
}; |
}; |
82 |
|
|
83 |
/** |
/** |
84 |
|
* Connect to the DB and retrieve alignement parameters |
85 |
|
**/ |
86 |
|
void CaloStrip::UseStandardAlig(){ |
87 |
|
// |
88 |
|
if ( !paramload ){ |
89 |
|
// |
90 |
|
paramload = true; |
91 |
|
ismech = false; |
92 |
|
// |
93 |
|
stringstream aligfile; |
94 |
|
Int_t error = 0; |
95 |
|
FILE *f = 0; |
96 |
|
ifstream badfile; |
97 |
|
GL_PARAM *glparam = new GL_PARAM(); |
98 |
|
// |
99 |
|
TString host = "mysql://localhost/pamelaprod"; |
100 |
|
TString user = "anonymous"; |
101 |
|
TString psw = ""; |
102 |
|
const char *pamdbhost=gSystem->Getenv("PAM_DBHOST"); |
103 |
|
const char *pamdbuser=gSystem->Getenv("PAM_DBUSER"); |
104 |
|
const char *pamdbpsw=gSystem->Getenv("PAM_DBPSW"); |
105 |
|
if ( !pamdbhost ) pamdbhost = ""; |
106 |
|
if ( !pamdbuser ) pamdbuser = ""; |
107 |
|
if ( !pamdbpsw ) pamdbpsw = ""; |
108 |
|
if ( strcmp(pamdbhost,"") ) host = pamdbhost; |
109 |
|
if ( strcmp(pamdbuser,"") ) user = pamdbuser; |
110 |
|
if ( strcmp(pamdbpsw,"") ) psw = pamdbpsw; |
111 |
|
TSQLServer *dbc = TSQLServer::Connect(host.Data(),user.Data(),psw.Data()); |
112 |
|
// |
113 |
|
UXal = 0.; |
114 |
|
UYal = 0.; |
115 |
|
UZal = 0.; |
116 |
|
// |
117 |
|
if ( dbc ){ |
118 |
|
// |
119 |
|
// determine where I can find calorimeter ADC to MIP conversion file |
120 |
|
// |
121 |
|
printf(" Querying DB for calorimeter parameters files...\n"); |
122 |
|
// |
123 |
|
// |
124 |
|
// |
125 |
|
error = 0; |
126 |
|
error = glparam->Query_GL_PARAM(1000,102,dbc); |
127 |
|
if ( error >= 0 ){ |
128 |
|
// |
129 |
|
aligfile.str(""); |
130 |
|
aligfile << glparam->PATH.Data() << "/"; |
131 |
|
aligfile << glparam->NAME.Data(); |
132 |
|
// |
133 |
|
printf("\n Using parameter file: \n %s \n",aligfile.str().c_str()); |
134 |
|
f = fopen(aligfile.str().c_str(),"rb"); |
135 |
|
if ( f ){ |
136 |
|
// |
137 |
|
fread(&UXal,sizeof(UXal),1,f); |
138 |
|
fread(&UYal,sizeof(UYal),1,f); |
139 |
|
fread(&UZal,sizeof(UZal),1,f); |
140 |
|
// |
141 |
|
fclose(f); |
142 |
|
}; |
143 |
|
// |
144 |
|
}; |
145 |
|
dbc->Close(); |
146 |
|
}; |
147 |
|
if ( !UXal ){ |
148 |
|
// |
149 |
|
printf(" No able to query DB for calorimeter parameters files\n Using hard-coded parameters \n"); |
150 |
|
UXal = CTX; |
151 |
|
UYal = CTY; |
152 |
|
UZal = CTZ; |
153 |
|
}; |
154 |
|
// |
155 |
|
}; |
156 |
|
// |
157 |
|
}; |
158 |
|
|
159 |
|
/** |
160 |
* Given a strip returns its position in the PAMELA reference system |
* Given a strip returns its position in the PAMELA reference system |
161 |
**/ |
**/ |
162 |
void CaloStrip::Set(Int_t view, Int_t plane, Int_t strip) { |
void CaloStrip::Set(Int_t view, Int_t plane, Int_t strip) { |
187 |
fView = view + 1; |
fView = view + 1; |
188 |
fPlane = plane + 1; |
fPlane = plane + 1; |
189 |
fStrip = strip + 1; |
fStrip = strip + 1; |
190 |
|
// |
191 |
if ( fPlane%2 ){ |
if ( fPlane%2 ){ |
192 |
lShift = -0.5; |
lShift = +0.5; |
193 |
} else { |
} else { |
194 |
lShift = 0.5; |
lShift = -0.5; |
195 |
}; |
}; |
196 |
// |
// |
197 |
shift_.shift = lShift; |
shift_.shift = lShift; |
214 |
// |
// |
215 |
// X view |
// X view |
216 |
// |
// |
217 |
fX = (lPos - CTX)/10.; |
fX = (lPos - UXal)/10.; |
218 |
fY = 0.; |
fY = 0.; |
219 |
fZ = (zplane[fPlane-1] - 5.81 + CTZ)/10.; |
fZ = (zplane[fPlane-1] - 5.81 + UZal)/10.; |
220 |
} else { |
// |
221 |
|
} else { |
222 |
// |
// |
223 |
// Y view |
// Y view |
224 |
// |
// |
225 |
fX = 0; |
fX = 0; |
226 |
fY = (lPos - CTY)/10.; |
fY = (lPos - UYal)/10.; |
227 |
fZ = (zplane[fPlane-1] + CTZ)/10.; |
fZ = (zplane[fPlane-1] + UZal)/10.; |
228 |
}; |
}; |
229 |
// |
// |
230 |
}; |
}; |
253 |
Float_t dzx[22]; |
Float_t dzx[22]; |
254 |
Float_t dzy[22]; |
Float_t dzy[22]; |
255 |
for ( Int_t i=0; i < 22; i++){ |
for ( Int_t i=0; i < 22; i++){ |
256 |
dzx[i] = fabs(fZ*10. - (zplane[i] - 5.81 + CTZ)); |
dzx[i] = fabs(fZ*10. - (zplane[i] - 5.81 + UZal)); |
257 |
dzy[i] = fabs(fZ*10. - (zplane[i] + CTZ)); |
dzy[i] = fabs(fZ*10. - (zplane[i] + UZal)); |
258 |
}; |
}; |
259 |
// |
// |
260 |
Float_t minx = TMath::MinElement(22,dzx); |
Float_t minx = TMath::MinElement(22,dzx); |
276 |
if ( fView == 1 ){ |
if ( fView == 1 ){ |
277 |
if ( dzx[i] == minx ){ |
if ( dzx[i] == minx ){ |
278 |
fPlane = i+1; |
fPlane = i+1; |
279 |
pos = fX*10. + CTX; |
pos = fX*10. + UXal; |
280 |
}; |
}; |
281 |
} else { |
} else { |
282 |
if ( dzy[i] == miny ){ |
if ( dzy[i] == miny ){ |
283 |
fPlane = i+1; |
fPlane = i+1; |
284 |
pos = fY*10. + CTY; |
pos = fY*10. + UYal; |
285 |
}; |
}; |
286 |
}; |
}; |
287 |
}; |
}; |
296 |
for ( Int_t i=0; i < 96; i++){ |
for ( Int_t i=0; i < 96; i++){ |
297 |
ca->Set(fView-1,fPlane-1,i); |
ca->Set(fView-1,fPlane-1,i); |
298 |
if ( fView == 1 ){ |
if ( fView == 1 ){ |
299 |
stpos = ca->GetX()*10. + CTX; |
stpos = ca->GetX()*10. + UXal; |
300 |
} else { |
} else { |
301 |
stpos = ca->GetY()*10. + CTY; |
stpos = ca->GetY()*10. + UYal; |
302 |
}; |
}; |
303 |
dxy[i] = fabs(pos - stpos); |
dxy[i] = fabs(pos - stpos); |
304 |
}; |
}; |
326 |
/** |
/** |
327 |
* Clear the CaloLevel1 object |
* Clear the CaloLevel1 object |
328 |
**/ |
**/ |
329 |
void CaloLevel1::Clear() { |
void CaloLevel1::Clear(Option_t *t) { |
330 |
// |
// |
331 |
istrip = 0; |
istrip = 0; |
332 |
estrip.Reset(); |
estrip.Reset(); |
364 |
* Given estrip entry returns energy plus view, plane and strip numbers |
* Given estrip entry returns energy plus view, plane and strip numbers |
365 |
**/ |
**/ |
366 |
Float_t CaloLevel1::DecodeEstrip(Int_t entry, Int_t &view, Int_t &plane, Int_t &strip){ |
Float_t CaloLevel1::DecodeEstrip(Int_t entry, Int_t &view, Int_t &plane, Int_t &strip){ |
367 |
|
Bool_t sat = false; |
368 |
|
Float_t mip=this->DecodeEstrip(entry,view,plane,strip,sat); |
369 |
|
return(mip); |
370 |
|
}; |
371 |
|
|
372 |
|
/** |
373 |
|
* Given estrip entry returns energy plus view, plane, strip numbers and saturation info |
374 |
|
**/ |
375 |
|
Float_t CaloLevel1::DecodeEstrip(Int_t entry, Int_t &view, Int_t &plane, Int_t &strip, Bool_t &saturated){ |
376 |
// |
// |
377 |
if ( entry>istrip ) return(0.); |
if ( entry>istrip ){ |
378 |
|
// |
379 |
|
printf(" ERROR: problems decoding entry %i, it seems that number of entries is %i\n",entry,istrip); |
380 |
|
// |
381 |
|
return(0.); |
382 |
|
}; |
383 |
// |
// |
384 |
// printf(" num lim %f \n",std::numeric_limits<Float_t>::max()); |
// printf(" num lim %f \n",std::numeric_limits<Float_t>::max()); |
385 |
// printf(" estrip.At(%i) = %i \n",entry,estrip.At(entry)); |
// printf(" estrip.At(%i) = %i \n",entry,estrip.At(entry)); |
421 |
// |
// |
422 |
strip = (Int_t)truncf((Float_t)((eval - fbi*1000000000 -plom*10000000)/100000)); |
strip = (Int_t)truncf((Float_t)((eval - fbi*1000000000 -plom*10000000)/100000)); |
423 |
// |
// |
424 |
Float_t mip = ((Float_t)(eval - fbi*1000000000 -plom*10000000 -strip*100000))/tim; |
Double_t mip = (Double_t)(((Float_t)(eval - fbi*1000000000 -plom*10000000 -strip*100000))/tim); |
425 |
// |
// |
426 |
if ( mip > 0. && mip < 99999. ) return(mip); |
saturated = false; |
427 |
|
if ( mip > 5000. ){ |
428 |
|
mip -= 5000.; |
429 |
|
saturated = true; |
430 |
|
}; |
431 |
|
if ( mip > 0. && mip < 99999. ) return((Float_t)mip); |
432 |
// |
// |
433 |
printf(" WARNING: problems decoding value %i at entry %i \n",estrip.At(entry),entry); |
printf(" ERROR: problems decoding value %i at entry %i \n",estrip.At(entry),entry); |
434 |
// |
// |
435 |
view = -1; |
view = -1; |
436 |
plane = -1; |
plane = -1; |
442 |
* Returns energy released on plane nplane (where 0<= nplane <= 43, 0 = 1Y, 1 = 1X, 2 = 2Y, 3 = 2X, etc. etc.). |
* Returns energy released on plane nplane (where 0<= nplane <= 43, 0 = 1Y, 1 = 1X, 2 = 2Y, 3 = 2X, etc. etc.). |
443 |
*/ |
*/ |
444 |
Float_t CaloLevel1::qtotpl(Int_t nplane){ |
Float_t CaloLevel1::qtotpl(Int_t nplane){ |
445 |
|
Bool_t sat = false; |
446 |
|
Float_t mip = this->qtotpl(nplane,sat); |
447 |
|
return(mip); |
448 |
|
}; |
449 |
|
|
450 |
|
/* |
451 |
|
* Returns energy released on plane nplane (where 0<= nplane <= 43, 0 = 1Y, 1 = 1X, 2 = 2Y, 3 = 2X, etc. etc.). |
452 |
|
*/ |
453 |
|
Float_t CaloLevel1::qtotpl(Int_t nplane, Bool_t &sat){ |
454 |
// |
// |
455 |
|
sat = false; |
456 |
Int_t sview = 1; |
Int_t sview = 1; |
457 |
if ( nplane%2 ) sview = 0; |
if ( nplane%2 ) sview = 0; |
458 |
// |
// |
459 |
Int_t splane = nplane-(sview+1)/2; |
// Int_t splane = nplane-(sview+1)/2; |
460 |
|
Int_t splane = (nplane+sview-1)/2; |
461 |
// |
// |
462 |
Float_t totmip = qtotpl(sview,splane); |
Float_t totmip = qtotpl(sview,splane,sat); |
463 |
// |
// |
464 |
return(totmip); |
return(totmip); |
465 |
// |
// |
469 |
* Returns energy released on view "view" (0 = X, 1 = Y) and plane "plane" ( 0 <= plane <= 21 ). |
* Returns energy released on view "view" (0 = X, 1 = Y) and plane "plane" ( 0 <= plane <= 21 ). |
470 |
*/ |
*/ |
471 |
Float_t CaloLevel1::qtotpl(Int_t sview, Int_t splane){ |
Float_t CaloLevel1::qtotpl(Int_t sview, Int_t splane){ |
472 |
|
Bool_t sat = false; |
473 |
|
Float_t mip = this->qtotpl(sview,splane,sat); |
474 |
|
return(mip); |
475 |
|
}; |
476 |
|
|
477 |
|
/* |
478 |
|
* Returns energy released on view "view" (0 = X, 1 = Y) and plane "plane" ( 0 <= plane <= 21 ). |
479 |
|
*/ |
480 |
|
Float_t CaloLevel1::qtotpl(Int_t sview, Int_t splane, Bool_t &sat){ |
481 |
// |
// |
482 |
Int_t view = -1; |
Int_t view = -1; |
483 |
Int_t plane = -1; |
Int_t plane = -1; |
484 |
Int_t strip = -1; |
Int_t strip = -1; |
485 |
|
Bool_t lsat = false; |
486 |
|
sat = false; |
487 |
// |
// |
488 |
Float_t mip = 0.; |
Float_t mip = 0.; |
489 |
Float_t totmip = 0.; |
Float_t totmip = 0.; |
492 |
// |
// |
493 |
for (Int_t i = 0; i<istrip; i++ ){ |
for (Int_t i = 0; i<istrip; i++ ){ |
494 |
// |
// |
495 |
mip = DecodeEstrip(i,view,plane,strip); |
mip = DecodeEstrip(i,view,plane,strip,lsat); |
496 |
// |
// |
497 |
if ( view == sview && splane == plane ) totmip += mip; |
if ( view == sview && splane == plane ){ |
498 |
|
if ( lsat ) sat = true; |
499 |
|
totmip += mip; |
500 |
|
//printf(" totmip %f mip %f \n",totmip,mip); |
501 |
|
}; |
502 |
// |
// |
503 |
// entry are ordered by strip, plane and view number. Go out if you pass the input strip |
// entry are ordered by strip, plane and view number. Go out if you pass the input strip |
504 |
// |
// |