/[PAMELA software]/tof/flight/ToFdEdx_patch/src/ToFdEdx_patch.cpp
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Contents of /tof/flight/ToFdEdx_patch/src/ToFdEdx_patch.cpp

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Revision 1.1 - (show annotations) (download)
Mon Dec 10 18:47:02 2018 UTC (6 years, 10 months ago) by mayorov
Branch: MAIN
CVS Tags: HEAD 
ToFdEdx_patch from Wolfgang. Follows Rita Carbone's advanced method to
derive the ToF dEdx (including PMT saturation, Bethe-Bloch effect, etc.)
1 #include <ToFdEdx_patch.h>
2 #include <TGraph.h>
3 #include <TSpline.h>
4 #include <TH1F.h>
5 #include <TMVA/TSpline1.h>
6
7 //------------------------------------------------------------------------
8 void ToFdEdx_patch::Clear(Option_t *option)
9 {
10 //
11 L2 = 0;
12 OBT = 0;
13 PKT = 0;
14 atime = 0;
15 tr = 0;
16 //sntr = 0;
17 // Set arrays and initialize structure
18
19 eDEDXpmt.Set(48); eDEDXpmt.Reset(-1); // Set array size and reset structure
20 eZpmt.Set(48); eZpmt.Reset(-1);
21 eDEDXpad.Set(24); eDEDXpad.Reset(-1);
22 eZpad.Set(24); eZpad.Reset(-1);
23 eDEDXlayer.Set(6); eDEDXlayer.Reset(-1);
24 eZlayer.Set(6); eZlayer.Reset(-1);
25 INFOpmt.Set(48); INFOpmt.Reset(0);
26 INFOlayer.Set(6); INFOlayer.Reset(0);
27 //
28
29 // ToF standalone
30 eDEDXpmtstd.Set(48); eDEDXpmtstd.Reset(-1); // Set array size and reset structure
31 eZpmtstd.Set(48); eZpmtstd.Reset(-1);
32 eDEDXpadstd.Set(24); eDEDXpadstd.Reset(-1);
33 eZpadstd.Set(24); eZpadstd.Reset(-1);
34 eDEDXlayerstd.Set(6); eDEDXlayerstd.Reset(-1);
35 eZlayerstd.Set(6); eZlayerstd.Reset(-1);
36 INFOpmtstd.Set(48); INFOpmtstd.Reset(0);
37 INFOlayerstd.Set(6); INFOlayerstd.Reset(0);
38
39 };
40
41 //------------------------------------------------------------------------
42 void ToFdEdx_patch::Print(Option_t *option)
43 {
44 //
45 printf("========================================================================\n");
46 printf(" OBT: %u PKT: %u ATIME: %u \n",OBT,PKT,atime);
47 };
48
49
50 //------------------------------------------------------------------------
51 void ToFdEdx_patch::InitPar(const char *pardir, const char *param)
52 {
53 // expensive function - call it once/run
54 Define_PMTsat();
55 // for(int i=0; i<48; i++) ReadParTD( i, Form("%s/TD_%d_200b.txt",pardir,i) );
56 // ReadParAtt( Form("%s/attenuation.txt" , pardir) );
57
58 ReadParAtt(pardir, param);
59
60 // Old ToFNaNuclei files
61 ReadParPos( Form("%s/desaturation_position.txt" , pardir) );
62 ReadParDesatBB( Form("%s/desaturation_beta.txt" , pardir) );
63 // ReadParBBneg( Form("%s/BetheBloch.txt" , pardir) );
64 // ReadParBBpos( Form("%s/BetheBloch_betagt1.txt" , pardir) );
65
66 // New Bethe-Bloch pol4 file
67 ReadParBBpol4( Form("%s/BetheBloch_pol4_tri.txt" , pardir) );
68
69
70 };
71
72
73 //------------------------------------------------------------------------
74 void ToFdEdx_patch::Process( PamLevel2 *l2p, const char* alg, const char *tri_or_bi)
75 {
76 // the parameters should be already initialised by InitPar()
77
78 Float_t dedx_corrp[48], dedx_corrhe[48], dedx_corrc[48];
79 Float_t thelp1,thelp2;
80 Float_t xv[6],yv[6]; //,zin[6];
81
82 trkAlg = alg;
83 TF1 *ftri = new TF1("ftri", "1++x++x*x", 0,100);
84
85 // cout<<"In PROCESS "<<endl;
86
87 Clear();
88 L2 = l2p;
89 if(!L2) return;
90 if(!L2) cout<<" L2 error !!!"<<endl;
91
92 // cout<<" L2->GetNTracks(trkAlg) check "<<L2->GetNTracks(trkAlg)<<endl;
93
94
95 // if ( !L2->IsORB() ) printf(" WARNING: OrbitalInfo Tree is needed, the plugin could not work properly without it \n");
96 TrkLevel2 *trkL2 = L2->GetTrkLevel2();
97 if(!trkL2) cout<<" L2->GetTrkLevel2() error !!!"<<endl;
98 if(!trkL2) return;
99 ToFLevel2 *tofL2 = L2->GetToFLevel2();
100 if(!tofL2) cout<<" L2->GetToFLevel2() error !!!"<<endl;
101 if(!tofL2) return;
102 // eNtr = trkL2->GetNTracks();
103 // if(eNtr<1) cout<<" eNtr < 1 !!!"<<endl;
104 // if(eNtr<1) return;
105
106 eNtr = L2->GetNTracks(trkAlg);
107 if(eNtr<1) cout<<" eNtr < 1 !!!"<<endl;
108 if(eNtr<1) return;
109
110
111
112 // cout<<"In PROCESS after first checks "<<endl;
113
114
115 // OBT = L2->GetOrbitalInfo()->OBT;
116 // PKT = L2->GetOrbitalInfo()->pkt_num;
117 // atime = L2->GetOrbitalInfo()->absTime;
118
119 if ( L2->IsORB() ){
120 OBT = L2->GetOrbitalInfo()->OBT;
121 PKT = L2->GetOrbitalInfo()->pkt_num;
122 atime = L2->GetOrbitalInfo()->absTime;
123 } else {
124 atime = 1153000000.; // simulated data no OrbitalInfo fixed date 15-jul-2006
125 };
126
127 //----------------------------------------------------------------------
128 //----------------------------------------------------------------------
129 // Check Attenuation correction file time interval
130 // tmin_atten & tmax_atten time interval limits for attenuation parameters
131 //----------------------------------------------------------------------
132
133 //cout<<atime<<" "<<tmin_atten<<" "<<tmax_atten<<endl;
134
135 if ((atime < tmin_atten) || (atime > tmax_atten)) {
136 ical_atten = 0;
137 for (Int_t ii=0; ii<100; ii++) {
138 //cout<<ii<<" tmin "<<T_int_min[ii]<<" tmax "<<T_int_max[ii]<<endl;
139 if ((atime>T_int_min[ii]) && (atime<=T_int_max[ii])) { // time interval found
140 ical_atten = ii;
141 tmin_atten = T_int_min[ii];
142 tmax_atten = T_int_max[ii];
143 cout<<"Time Interval found: "<<ii<<" tmin "<<T_int_min[ii]<<" tmax "<<T_int_max[ii]<<endl;
144 break;
145 }
146 } // ii
147
148 TArrayF &Apar0 = A0_array[ical_atten];
149 TArrayF &Apar1 = A1_array[ical_atten];
150 TArrayF &Apar2 = A2_array[ical_atten];
151 TArrayF &Apar3 = A3_array[ical_atten];
152 TArrayF &Apar4 = A4_array[ical_atten];
153 TArrayF &Apar5 = A5_array[ical_atten];
154
155 for (Int_t ii=0; ii<48;ii++) {
156 A0[ii]=Apar0[ii];
157 A1[ii]=Apar1[ii];
158 A2[ii]=Apar2[ii];
159 A3[ii]=Apar3[ii];
160 A4[ii]=Apar4[ii];
161 A5[ii]=Apar5[ii];
162 // cout<<A0[ii]<<" "<<A1[ii]<<" "<<A2[ii]<<" "<<A3[ii]<<endl;
163 }
164
165 cout<<"attenuation corr: abs time "<<atime<<" interval "<<ical_atten<<" tmin "<<T_int_min[ical_atten]<<" tmax "<<T_int_max[ical_atten]<<endl;
166 }
167
168 //----------------------------------------------------------------------
169 // tmin_2nd & tmax_2nd time interval limits for 2nd order correction
170 //----------------------------------------------------------------------
171
172 //cout<<atime<<" "<<tmin_2nd<<" "<<tmax_2nd<<endl;
173
174 if ((atime < tmin_2nd) || (atime > tmax_2nd)) {
175
176 ical_2nd=0;
177 for (Int_t ii=0; ii<3500; ii++) {
178 //cout<<ii<<" "<<atime<<" tmin "<<mtime[ii]<<" tmax "<<mtime[ii+1]<<endl;
179 if ((atime>mtime[ii]) && (atime<=mtime[ii+1])) { // time interval found
180 ical_2nd = ii;
181 tmin_2nd = mtime[ii];
182 tmax_2nd = mtime[ii+1];
183 //cout<<"Time Interval 2nd order corr "<<ii<<" tmin "<<mtime[ii]<<" tmax "<<mtime[ii+1]<<endl;
184 break;
185 }
186 };
187 cout<<"2nd order corr: abs time "<<atime<<" interval "<<ical_2nd<<" tmin "<<mtime[ical_2nd]<<" tmax "<<mtime[ical_2nd+1]<<endl;
188 }
189 //-----------------------------------------------------------------------
190
191 //== interpolate betwen time limits
192
193 thelp1 = mtime[ical_2nd];
194 thelp2 = mtime[ical_2nd+1];
195
196 TArrayF &corr1 = dedx_corr_mp[ical_2nd];
197 TArrayF &corr2 = dedx_corr_mp[ical_2nd+1];
198
199 TArrayF &corr3 = dedx_corr_mhe[ical_2nd];
200 TArrayF &corr4 = dedx_corr_mhe[ical_2nd+1];
201
202 TArrayF &corr5 = dedx_corr_mc[ical_2nd];
203 TArrayF &corr6 = dedx_corr_mc[ical_2nd+1];
204
205 for (Int_t ii=0; ii<48;ii++) {
206 Float_t yhelp1 = corr1[ii];
207 Float_t yhelp2 = corr2[ii];
208 Float_t slope = (yhelp2-yhelp1)/(thelp2-thelp1);
209 Float_t inter = yhelp1 - slope*thelp1;
210 dedx_corrp[ii] = slope*atime + inter;
211 // if (ii==0) cout<<thelp1<<" "<<thelp2<<" "<<tabs<<" "<<yhelp1<<" "<<yhelp2<<" "<<dedx_corr[0]<<endl;
212 // cout<<ii<<" "<<yhelp1<<" "<<yhelp2<<" => "<<dedx_corr[ii]<<endl;
213
214 yhelp1 = corr3[ii];
215 yhelp2 = corr4[ii];
216 slope = (yhelp2-yhelp1)/(thelp2-thelp1);
217 inter = yhelp1 - slope*thelp1;
218 dedx_corrhe[ii] = slope*atime + inter;
219
220 yhelp1 = corr5[ii];
221 yhelp2 = corr6[ii];
222 slope = (yhelp2-yhelp1)/(thelp2-thelp1);
223 inter = yhelp1 - slope*thelp1;
224 dedx_corrc[ii] = slope*atime + inter;
225
226 }
227
228
229 //--------------- TABLE OF PERIODS WITH HV PROBLEMS --------------------------
230
231 int Aconn=0; // PMT 0,20,22,24
232 int Bconn=0; // PMT 6,12,26,34
233 int Cconn=0; // PMT 4,14,28,32
234 int Dconn=0; // PMT 2,8,10,30
235 int Econn=0; // PMT 42,43,44,47
236 int Fconn=0; // PMT 7,19,23,27
237 int Gconn=0; // PMT 3,11,25,33
238 int Hconn=0; // PMT 1,9,13,21
239 int Iconn=0; // PMT 5,29,31,35
240 int Lconn=0; // PMT 37,40,45,46
241 int Mconn=0; // PMT 15,16,17,18
242 int Nconn=0; // PMT 36,38,39,41
243
244 int standard=0;
245
246 int S115B_ok=0;
247 int S115B_break=0;
248
249 if(atime>=1153660001 && atime<=1154375000)Dconn=1;
250 else if(atime>=1155850001 && atime<=1156280000){
251 Hconn=1;
252 Nconn=1;
253 }
254
255 else if(atime>=1158160000 && atime<=1158220000)Cconn=1; // new period found WM 11-jan-2018
256
257 else if(atime>=1168490001 && atime<=1168940000)Dconn=1;
258 else if(atime>=1168940001 && atime<=1169580000){
259 Fconn=1;
260 Mconn=1;
261 }
262
263 else if(atime>=1174665001 && atime<=1175000000)Bconn=1;
264 else if(atime>=1176120001 && atime<=1176800000)Hconn=1;
265 else if(atime>=1176800001 && atime<=1178330000)Econn=1;
266 else if(atime>=1178330001 && atime<=1181322000)Hconn=1;
267 else if(atime>=1182100001 && atime<=1183030000)Aconn=1;
268 else if(atime>=1184000001 && atime<=1184570000)Hconn=1;
269 else if(atime>=1185090001 && atime<=1185212000)Dconn=1;
270 else if(atime>=1191100001 && atime<=1191940000)Dconn=1;
271 else if(atime>=1196230001 && atime<=1196280000)Hconn=1;
272 else if(atime>=1206100001 && atime<=1206375600)Cconn=1;
273 else if(atime>=1217989201 && atime<=1218547800)Econn=1;
274 else if(atime>=1225789201 && atime<=1226566800)Econn=1;
275 else if(atime>=1229400901 && atime<=1229700000)Econn=1;
276 else if(atime>=1230318001 && atime<=1230415200)Econn=1;
277
278 else if(atime>=1320710401 && atime<=1322006400)Dconn=1; // (0,"","",1320710401,1322006400,213," D connector ",NULL);
279 else if(atime>=1309910401 && atime<=1310083200)Hconn=1; // (0,"","",1309910401,1310083200,217," H connector ",NULL);
280 else if(atime>=1384700001 && atime<=1387400000)Hconn=1; // (0,"","",1384700001,1387400000,217," H connector ",NULL);
281 else if(atime>=1230318001 && atime<=1230410000)Hconn=1; //wm period 38 HV_H 1230318001 - 1230410000 12-26 - 12-27
282
283 else if(atime>=1426620001 && atime<=1427745000)Dconn=1; // 15-03-17 - 15-03-30 HV_D problems
284 else if(atime>=1433820001 && atime<=1433960000)Dconn=1; // 15-06-09 - 15-06-10 HV_D problems
285 else if(atime>=1434460001 && atime<=1435310000)Dconn=1; // 15-06-17 - 15-06-26 HV_D problems
286
287
288 else {
289 standard=1;
290 }
291
292 if(atime<1158720000)S115B_ok=1;
293 else S115B_break=1;
294
295
296 //================================================================
297
298 // cout<<" L2->GetNTracks(trkAlg) "<<L2->GetNTracks(trkAlg)<<endl;
299
300 if( L2->GetNTracks(trkAlg)>=1 ){
301
302 // PamTrack *trackTRK = L2->GetTrack(itr); // 9th
303 PamTrack *trackTRK = L2->GetTrack(0,trkAlg); // 10th
304
305 Float_t betamean = fabs(trackTRK->GetToFTrack()->beta[12]);
306
307 Float_t def =trackTRK->GetExtTrack()->al[4];
308 Float_t chi =trackTRK->GetExtTrack()->chi2;
309 Float_t rig = 1./def;
310
311 if(betamean<0.05 || betamean>2){
312 for(int i=0;i<48;i++)INFOpmt[i]=1;
313 for(int i=0;i<6;i++)INFOlayer[i]=1;
314 }
315
316 // define angle:
317
318 double dx = trackTRK->GetToFTrack()->xtr_tof[0] - trackTRK->GetToFTrack()->xtr_tof[5];
319 double dy = trackTRK->GetToFTrack()->ytr_tof[0] - trackTRK->GetToFTrack()->ytr_tof[5];
320 double dr = sqrt(dx*dx+dy*dy);
321 double theta=atan(dr/77.31);
322
323 // TArrayF adc;
324 Float_t adc[48];
325 for(int i=0;i<48;i++){
326 adc[i]=0;
327 }
328
329
330 // Clear the dEdx arrays
331 for(int i=0;i<48;i++){
332 eDEDXpmt[i] = 1000;
333 }
334
335 for(int i=0;i<24;i++) eDEDXpad[i] = 1000.;
336 for(int i=0;i<6;i++) eDEDXlayer[i] = 1000.;
337
338 // Raw ADC in the ToFPMT class
339
340 for (Int_t ipmt=0; ipmt<tofL2->npmt() ; ipmt++){
341 ToFPMT *tofpmt = tofL2->GetToFPMT(ipmt);
342 Int_t pmt_id = tofpmt->pmt_id;
343 adc[pmt_id] = tofpmt->adc ;
344 //cout<<ipmt<<" "<<pmt_id<<" "<<adc[pmt_id]<<endl;
345 } //loop on 48 pmts
346
347 Int_t iverbose=0;
348
349
350 for (Int_t jj=0; jj<6; jj++){
351 xv[jj]=trackTRK->GetToFTrack()->xtr_tof[jj];
352 yv[jj]=trackTRK->GetToFTrack()->ytr_tof[jj];
353 //zin[jj] = L2->GetToFLevel2()->GetZTOF(L2->GetToFLevel2()->GetToFPlaneID(jj));
354 //cout<<"xv "<<xv[jj]<<" yv "<<yv[jj]<<endl;
355 }
356
357
358 Int_t paddleidoftrack[6]= {-1} ;
359 for (Int_t ilay=0; ilay<6; ilay++) {
360 paddleidoftrack[ilay] = L2->GetToFLevel2()->GetPaddleIdOfTrack(xv[ilay], yv[ilay], ilay, 0.0) ;
361 //cout<<ilay<<" "<<paddleidoftrack[ilay]<<endl;
362 }
363
364 //-----------------------------------------------------------------------------------
365
366 // Old loop ToFTrack class
367 // for (Int_t ipmt=0; ipmt<trackTRK->GetToFTrack()->npmtadc; ipmt++){
368 // Int_t ii = trackTRK->GetToFTrack()->pmtadc[ipmt];
369
370 // New loop over PMTs found with GetPaddleIdOfTrack
371 for (Int_t ii=0; ii<48; ii++) {
372
373 Int_t ilay;
374 if(ii<16) ilay=0;
375 if((15<ii)&&(ii<28)) ilay=1;
376 if((27<ii)&&(ii<32)) ilay=2;
377 if((31<ii)&&(ii<36)) ilay=3;
378 if((35<ii)&&(ii<42)) ilay=4;
379 if((41<ii)&&(ii<48)) ilay=5;
380
381 if (paddleidoftrack[ilay] > -1) { // paddle hitted
382
383 Float_t xpos=0;
384 if(ii<16) xpos = yv[0];
385 if((15<ii)&&(ii<28)) xpos = xv[1];
386 if((27<ii)&&(ii<32)) xpos = xv[2];
387 if((31<ii)&&(ii<36)) xpos = yv[3];
388 if((35<ii)&&(ii<42)) xpos = yv[4];
389 if((41<ii)&&(ii<48)) xpos = xv[5];
390
391
392 if(adc[ii]==4095)INFOpmt[ii]=2;
393 else if(adc[ii]>=PMTsat[ii]-5)INFOpmt[ii]=3;
394
395
396 if( adc[ii] >= PMTsat[ii]-5 ) continue;
397 if( adc[ii] <= 0. ) continue;
398
399 double adcpC = f_adcPC( adc[ii] ); // - adc conversion in pC
400 double adccorr = adcpC*fabs(cos(theta));
401
402 if(adccorr<=0)INFOpmt[ii]=4;
403 if(adccorr<=0.) continue;
404
405
406 double adcHe, adcnorm, adclin, dEdx, Zeta;
407
408 adcHe=-2;
409 adcnorm=-2;
410 adclin=-2;
411 dEdx=-2;
412 Zeta=-2;
413
414
415 float dEdxH=-2;
416 double dEdxHe=-2;
417
418 double day = (atime-1150000000)/84600;
419
420
421 Double_t correction = 1.;
422
423 if(Aconn==1 && (ii==0 || ii==20 || ii==22 || ii==24)){
424 correction = 1.675;
425 }
426 else if(Bconn==1 && (ii==6 || ii==12 || ii==26 || ii==34)){
427 correction = 2.482;
428 }
429 else if(Cconn==1 && (ii==4 || ii==14 || ii==28 || ii==32)){
430 correction = 1.464;
431 }
432 else if(Dconn==1 && (ii==2 || ii==8 || ii==10 || ii==30)){
433 correction = 1.995;
434 }
435 else if(Econn==1 && (ii==42 || ii==43 || ii==44 || ii==47)){
436 correction = 1.273;
437 }
438 else if(Fconn==1 && (ii==7 || ii==19 || ii==23 || ii==27)){
439 correction = 1.565;
440 }
441 else if(Mconn==1 && (ii==15 || ii==16 || ii==17 || ii==18)){
442 correction = 1.565;
443 }
444 // else if(Nconn==1 && (ii==36 || ii==38 || ii==39 || ii==41)){
445 // correction = 1.018;
446 // }
447 //-- new WM 12-jan-2018
448 else if(Nconn==1 && (ii==36 || ii==38 || ii==39)){
449 correction = 1.34;
450 }
451 else if(Nconn==1 && (ii==41)){
452 correction = 1.0;
453 }
454 //-- end new WM
455
456 else if(Hconn==1 && (ii==1 || ii==13 || ii==21 || (ii==9&&S115B_ok==1))){
457 correction = 1.84;
458 }
459 else if(S115B_break==1 && ii==9 && Hconn==1){
460 correction = 1.64;
461 }
462 else if(S115B_break==1 && ii==9 && Hconn==0){
463 correction = 1.0;
464 }
465 else correction = 1.;
466
467 // adcHe is the value of the pol5 as a function of the incident position, function derived for helium
468
469 if( ii==9 && S115B_break==1 ){
470 adcHe = (f_att5B( xpos ))/correction;
471 } else {
472 adcHe = Get_adc_he(ii, xpos) / correction;
473 };
474
475 if(adcHe<=0) continue;
476
477 // adcnorm is f_pos(adccorr), where the f_pos function describes the nonlinearity of the PMT
478
479 if(ii==9 && S115B_break==1) adcnorm = f_pos5B(adccorr);
480 else adcnorm = f_pos( (parPos[ii]), adccorr);
481
482 if(adcnorm<=0) continue;
483
484 // adclin is the linear calculation of the dEdx using adcnorm and the attenuation function for He
485
486 if(ii==9 && S115B_break==1) adclin = 36.*adcnorm/adcHe;
487 else adclin = 4.*adcnorm/adcHe;
488
489 if(adclin<=0) INFOpmt[ii]=5;
490 if(adclin<=0) continue;
491
492 // dEdx = f_desatBB(adclin) uses a nonlinear function which takes Birks' effect etc. into account
493
494 if(ii==9 && S115B_break==1) {
495 dEdx = f_desatBB5B( adclin );
496 }
497 else
498 {
499 dEdx = f_desatBB((parDesatBB[ii]), adclin );
500 // new linear behaviour for some PMTs...
501 if ((ii==8) || (ii==9) || (ii==14) || (ii==17) || (ii==28) || (ii==29) || (ii==31) || (ii==32) || (ii==33) || (ii==35) || (ii==40) || (ii==45)) {
502 if (adclin<10.) {
503 Float_t dEdx_help = f_desatBB((parDesatBB[ii]), 10. );
504 Float_t mhelp = dEdx_help / 10.;
505 dEdx = mhelp * adclin ;
506 }
507 }
508 } // else
509
510 if(dEdx<0) INFOpmt[ii]=6;
511 if(dEdx<=0) continue;
512
513 //--------------------- 2nd order correction ----------------------------------
514
515 //------------------------ bi-scale -----------------------------------------
516 if ( strcmp(tri_or_bi,"BI") == 0){
517
518 Float_t slope,inter;
519
520 if(dedx_corrhe[ii]>dedx_corrp[ii]) slope=3./(dedx_corrhe[ii]-dedx_corrp[ii]);
521 else slope=1.;
522 if(dedx_corrhe[ii]>dedx_corrp[ii]) inter=1. - (slope*dedx_corrp[ii]);
523 else inter=0.;
524
525 // For S115B_break dedx_corrp is NOT proton, but calibrated with carbon !!!
526 // dedx_corrhe is calibrated with helium, but probably not very reliable
527 // Do simple linear scaling:
528 if(ii==9 && S115B_break==1) {
529 if(dedx_corrp[ii]>10) slope=36./dedx_corrp[ii];
530 else slope=1.;
531 inter = 0.;
532 }
533
534 dEdxH = inter + slope*dEdx;
535
536 } // bi-scale
537
538 //------------------------ tri-scale -----------------------------------------
539
540 if ( strcmp(tri_or_bi,"TRI") == 0){
541
542 Float_t Xa[3],Ya[3];
543 Ya[0] = 1;
544 Ya[1] = 4;
545 Ya[2] = 36;
546 Xa[0] = dedx_corrp[ii];
547 Xa[1] = dedx_corrhe[ii];
548 Xa[2] = dedx_corrc[ii];
549 TGraph *g1 = new TGraph(3,Xa,Ya);
550 g1->Fit("ftri","q");
551 dEdxH = ftri->Eval(dEdx);
552 g1->Delete();
553 }
554
555 //---------------------------------------------------------------------------------
556
557 // if (iverbose==1) cout<<"dEdx "<<dEdx<<" dEdxH "<<dEdxH<<endl;
558
559 if(dEdxH!=-2)eDEDXpmt[ii]=(Float_t)dEdxH;
560 else eDEDXpmt[ii]=(Float_t)dEdx;
561
562 // The f_BB=f(beta) correction is only used to calculate the charge Zeta
563
564 if(dEdxH!=-2)dEdx=(Float_t)dEdxH;
565
566 dEdxHe=-2;
567
568 if(betamean<100) {
569
570 if(ii==9 && S115B_break==1){
571 if( betamean <1. ) dEdxHe = f_BB5Bpol4( betamean );
572 else dEdxHe = f_BB5Bpol4( 1.0 );
573 } else {
574 if( betamean <1. ) dEdxHe = f_BBpol4( (parBBpol4[ii]), betamean );
575 else dEdxHe = f_BBpol4( (parBBpol4[ii]), 1.0 );
576 }
577
578 if(ii==9 && S115B_break==1) Zeta = sqrt(36.*(dEdx/dEdxHe));
579 else Zeta = sqrt(4.*(dEdx/dEdxHe));
580
581 if(Zeta<0) INFOpmt[ii]=7;
582
583 eZpmt[ii]=(Float_t)Zeta;
584
585 } // betamean < 100
586
587
588
589
590 // if (ii==9) printf("%5d %5.0f %8.2f %8.2f %8.2f %8.2f %8.2f %8.2f %5.4f \n", ii, adc[ii], adcpC, adccorr, adcHe, dEdxHe, dEdx, Zeta, betamean );
591
592 // if (ii==9) cout<<"eDEDXpmt[ii] "<<eDEDXpmt[ii]<<endl; //" eZpmt[ii] "<<eZpmt[ii]<<endl;
593
594 } // paddleidoftrack > -1
595 } //end loop on PMTs 0-47
596
597
598 //-------------------------- paddle + layer ----------------------
599 //-----------------------------------------------------------------
600 // The GetdEdx method "handmade"
601 //-----------------------------------------------------------------
602
603 Int_t ipad_a[6] = {0,8,14,16,18,21};
604 Int_t ipmt_a[6] = {0,16,28,32,36,42};
605
606 for (Int_t ilay=0; ilay<6; ilay++) {
607 paddleidoftrack[ilay] = L2->GetToFLevel2()->GetPaddleIdOfTrack(xv[ilay], yv[ilay], ilay, 0.0) ;
608 }
609
610
611 for (Int_t ilay=0; ilay<6; ilay++) {
612 Float_t xhelp=1000.;
613 Int_t i1 = paddleidoftrack[ilay];
614 if (i1 != -1) {
615 Int_t ipad = ipad_a[ilay]+i1;
616 Int_t ihelp = ipmt_a[ilay]+(i1*2);
617 if ((eDEDXpmt[ihelp]<1000.) && (eDEDXpmt[ihelp+1]==1000.)) xhelp = eDEDXpmt[ihelp];
618 if ((eDEDXpmt[ihelp+1]<1000.) && (eDEDXpmt[ihelp]==1000.)) xhelp = eDEDXpmt[ihelp+1];
619 if ((eDEDXpmt[ihelp]<1000.) && (eDEDXpmt[ihelp+1]<1000.)) xhelp = 0.5*(eDEDXpmt[ihelp]+eDEDXpmt[ihelp+1]);
620 eDEDXpad[ipad] = xhelp;
621 eDEDXlayer[ilay] = xhelp;
622
623 if ((eZpmt[ihelp]>-1) && (eZpmt[ihelp+1]==-1)) xhelp = eZpmt[ihelp];
624 if ((eZpmt[ihelp+1]>-1) && (eZpmt[ihelp]==-1)) xhelp = eZpmt[ihelp+1];
625 if ((eZpmt[ihelp]>-1) && (eZpmt[ihelp+1]>-1)) xhelp = 0.5*(eZpmt[ihelp]+eZpmt[ihelp+1]);
626 eZpad[ipad] = xhelp;
627 eZlayer[ilay] = xhelp;
628
629
630 }
631 } // ilay
632
633
634 } // if( L2->GetNTracks(trkAlg)>=1 )...
635
636
637
638 //================================================================
639 //================================================================
640 //============== standalone dEdx and beta =============
641 //================================================================
642 //================================================================
643
644 if (L2->GetToFStoredTrack(-1) ) {
645
646 // ToF track
647
648 ToFTrkVar *tof = L2->GetToFStoredTrack(-1);
649
650 Float_t betamean = tof->CalcBeta(10., 10., 20.);
651
652 if(betamean<0.05 || betamean>2){
653 for(int i=0;i<48;i++)INFOpmtstd[i]=1;
654 for(int i=0;i<6;i++)INFOlayerstd[i]=1;
655 }
656
657 // define angle:
658
659 double theta =0.;
660 if (fabs((tof->xtofpos[0])<100) && (fabs(tof->xtofpos[2])<100) && (fabs(tof->ytofpos[0])<100) && (fabs(tof->ytofpos[2])<100)) {
661 double dx = tof->xtofpos[0] - tof->xtofpos[2];
662 double dy = tof->ytofpos[0] - tof->ytofpos[2];
663 double dr = sqrt(dx*dx+dy*dy);
664 theta=atan(dr/77.31);
665 } // if...
666
667 // Clear ADC;
668 Float_t adc[48];
669 for(int i=0;i<48;i++){
670 // adc[i]=0;
671 adc[i]=4095;
672 }
673
674
675 for (Int_t ipmt=0; ipmt<tofL2->npmt() ; ipmt++){
676 ToFPMT *tofpmt = tofL2->GetToFPMT(ipmt);
677 Int_t pmt_id = tofpmt->pmt_id;
678 adc[pmt_id] = tofpmt->adc ; // raw ADC
679 } //loop on 48 pmts
680
681
682 //====================================================================
683 //=========== Check ToF standalone using HitPaddle ==================
684 //====================================================================
685
686 Int_t paddleidoftrack[6] = {-1, -1, -1, -1, -1, -1};;
687
688 for(Int_t jj=0; jj<8; jj++){
689 Int_t HitPad = L2->GetToFLevel2()->HitPaddle(0,jj);
690 if (HitPad==1) paddleidoftrack[0] = jj;
691 }
692 for(Int_t jj=0; jj<6; jj++){
693 Int_t HitPad = L2->GetToFLevel2()->HitPaddle(1,jj);
694 if (HitPad==1) paddleidoftrack[1] = jj;
695 }
696
697 for(Int_t jj=0; jj<2; jj++){
698 Int_t HitPad = L2->GetToFLevel2()->HitPaddle(2,jj);
699 if (HitPad==1) paddleidoftrack[2] = jj;
700 }
701 for(Int_t jj=0; jj<2; jj++){
702 Int_t HitPad = L2->GetToFLevel2()->HitPaddle(3,jj);
703 if (HitPad==1) paddleidoftrack[3] = jj;
704 }
705
706 for(Int_t jj=0; jj<3; jj++){
707 Int_t HitPad = L2->GetToFLevel2()->HitPaddle(4,jj);
708 if (HitPad==1) paddleidoftrack[4] = jj;
709 }
710 for(Int_t jj=0; jj<3; jj++){
711 Int_t HitPad = L2->GetToFLevel2()->HitPaddle(5,jj);
712 if (HitPad==1) paddleidoftrack[5] = jj;
713 }
714
715 /*
716 cout<<"paddleidoftrack std ";
717 for (Int_t ilay=0; ilay<6; ilay++) {
718 cout<<" "<<paddleidoftrack[ilay];
719 }
720 cout<<endl;
721 */
722 //==================================================================
723 //==================================================================
724 //==================================================================
725
726 // Clear the dEdx arrays
727 for(int i=0;i<48;i++){
728 eDEDXpmtstd[i] = 1000;
729 }
730
731 for(int i=0;i<24;i++) eDEDXpadstd[i] = 1000.;
732 for(int i=0;i<6;i++) eDEDXlayerstd[i] = 1000.;
733
734
735 Int_t ipad_a[6] = {0,8,14,16,18,21};
736 Int_t ipmt_a[6] = {0,16,28,32,36,42};
737
738 Int_t pmthit[48];
739 for(int i=0;i<48;i++) pmthit[i] = 0;
740
741 for(int i=0;i<6;i++) {
742 if (paddleidoftrack[i] > -1) {
743 Int_t ipad = ipad_a[i] + paddleidoftrack[i];
744 pmthit[2*ipad] = 1;
745 pmthit[2*ipad+1] = 1;
746 }
747 }
748
749
750
751 for (Int_t ipmt=0; ipmt<48; ipmt++){
752 if (pmthit[ipmt] == 1) {
753
754 Int_t ii = ipmt;
755
756 Float_t xpos=0;
757 if(ii<16) xpos = tof->ytofpos[0];
758 if((15<ii)&&(ii<28)) xpos = tof->xtofpos[0];
759 if((27<ii)&&(ii<32)) xpos = tof->xtofpos[1];
760 if((31<ii)&&(ii<36)) xpos = tof->ytofpos[1];
761 if((35<ii)&&(ii<42)) xpos = tof->ytofpos[2];
762 if((41<ii)&&(ii<48)) xpos = tof->xtofpos[2];
763
764
765 if(adc[ii]==4095)INFOpmtstd[ii]=2;
766 else if(adc[ii]>=PMTsat[ii]-5)INFOpmtstd[ii]=3;
767
768 //cout<<ii<<" "<<adc[ii]<<" "<<PMTsat[ii]<<endl;
769
770 if( adc[ii] >= PMTsat[ii]-5 ) continue;
771 if( adc[ii] <= 0. ) continue;
772
773 double adcpC = f_adcPC( adc[ii] ); // - adc conversion in pC
774 double adccorr = adcpC*fabs(cos(theta));
775
776 //cout<<ii<<" adc "<<adc[ii]<<" adcpC "<<adcpC<<" adccorr "<<adccorr<<endl;
777
778
779 if(adccorr<=0)INFOpmt[ii]=4;
780 if(adccorr<=0.) continue;
781
782
783 double adcHe, adcnorm, adclin, dEdx, Zeta;
784
785 adcHe=-2;
786 adcnorm=-2;
787 adclin=-2;
788 dEdx=-2;
789 Zeta=-2;
790
791 float dEdxH=-2;
792 double dEdxHe=-2;
793
794 // double day = (atime-1150000000)/84600;
795
796
797 Double_t correction = 1.;
798
799 if(Aconn==1 && (ii==0 || ii==20 || ii==22 || ii==24)){
800 correction = 1.675;
801 }
802 else if(Bconn==1 && (ii==6 || ii==12 || ii==26 || ii==34)){
803 correction = 2.482;
804 }
805 else if(Cconn==1 && (ii==4 || ii==14 || ii==28 || ii==32)){
806 correction = 1.464;
807 }
808 else if(Dconn==1 && (ii==2 || ii==8 || ii==10 || ii==30)){
809 correction = 1.995;
810 }
811 else if(Econn==1 && (ii==42 || ii==43 || ii==44 || ii==47)){
812 correction = 1.273;
813 }
814 else if(Fconn==1 && (ii==7 || ii==19 || ii==23 || ii==27)){
815 correction = 1.565;
816 }
817 else if(Mconn==1 && (ii==15 || ii==16 || ii==17 || ii==18)){
818 correction = 1.565;
819 }
820 // else if(Nconn==1 && (ii==36 || ii==38 || ii==39 || ii==41)){
821 // correction = 1.018;
822 // }
823 //-- new WM 12-jan-2018
824 else if(Nconn==1 && (ii==36 || ii==38 || ii==39)){
825 correction = 1.34;
826 }
827 else if(Nconn==1 && (ii==41)){
828 correction = 1.0;
829 }
830 //-- end new WM
831
832 else if(Hconn==1 && (ii==1 || ii==13 || ii==21 || (ii==9&&S115B_ok==1))){
833 correction = 1.84;
834 }
835 else if(S115B_break==1 && ii==9 && Hconn==1){
836 correction = 1.64;
837 }
838 else if(S115B_break==1 && ii==9 && Hconn==0){
839 correction = 1.0;
840 }
841 else correction = 1.;
842
843 // adcHe is the value of the pol5 as a function of the incident position, curve derived for helium
844
845 if( ii==9 && S115B_break==1 ){
846 adcHe = (f_att5B( xpos ))/correction;
847 } else {
848 adcHe = Get_adc_he(ii, xpos) / correction;
849 };
850
851 if(adcHe<=0) continue;
852
853 // adcnorm is f_pos(adccorr), where the f_pos function describes the nonlinearity of the PMT
854
855 if(ii==9 && S115B_break==1) adcnorm = f_pos5B(adccorr);
856 else adcnorm = f_pos( (parPos[ii]), adccorr);
857
858 //cout<<"adcnorm "<<adcnorm<<endl;
859
860 if(adcnorm<=0) continue;
861
862 // adclin is the linear calculation of the dEdx using adcnorm and the attenuation function for He
863
864 if(ii==9 && S115B_break==1) adclin = 36.*adcnorm/adcHe;
865 else adclin = 4.*adcnorm/adcHe;
866
867 //cout<<"adclin "<<adclin<<endl;
868
869 if(adclin<=0) INFOpmt[ii]=5;
870 if(adclin<=0) continue;
871
872 // dEdx = f_desatBB(adclin) uses a nonlinear function which takes Birks' effect etc. into account
873
874
875 if(ii==9 && S115B_break==1) {
876 dEdx = f_desatBB5B( adclin );
877 }
878 else
879 {
880 dEdx = f_desatBB((parDesatBB[ii]), adclin );
881 // new linear behaviour for some PMTs...
882 if ((ii==8) || (ii==9) || (ii==14) || (ii==17) || (ii==28) || (ii==29) || (ii==31) || (ii==32) || (ii==33) || (ii==35) || (ii==40) || (ii==45)) {
883 if (adclin<10.) {
884 Float_t dEdx_help = f_desatBB((parDesatBB[ii]), 10. );
885 Float_t mhelp = dEdx_help / 10.;
886 dEdx = mhelp * adclin ;
887 }
888 // if (iverbose==1) cout<<"dEdx after linear correction f_desatBB "<<dEdx<<endl;
889 }
890 } // else
891
892 if(dEdx<0) INFOpmtstd[ii]=6;
893 if(dEdx<=0) continue;
894
895
896 //--------------------- 2nd order correction ----------------------------------
897
898 //------------------------ bi-scale -----------------------------------------
899 if ( strcmp(tri_or_bi,"BI") == 0){
900
901 Float_t slope,inter;
902
903 if(dedx_corrhe[ii]>dedx_corrp[ii]) slope=3./(dedx_corrhe[ii]-dedx_corrp[ii]);
904 else slope=1.;
905 if(dedx_corrhe[ii]>dedx_corrp[ii]) inter=1. - (slope*dedx_corrp[ii]);
906 else inter=0.;
907
908 // For S115B_break dedx_corrp is NOT proton, but calibrated with carbon !!!
909 // dedx_corrhe is calibrated with helium, but probably not very reliable
910 // Do simple linear scaling:
911 if(ii==9 && S115B_break==1) {
912 if(dedx_corrp[ii]>10) slope=36./dedx_corrp[ii];
913 else slope=1.;
914 inter = 0.;
915 }
916
917 dEdxH = inter + slope*dEdx;
918
919 } // bi-scale
920
921 //------------------------ tri-scale -----------------------------------------
922
923 if ( strcmp(tri_or_bi,"TRI") == 0){
924
925 Float_t Xa[3],Ya[3];
926 Ya[0] = 1;
927 Ya[1] = 4;
928 Ya[2] = 36;
929 Xa[0] = dedx_corrp[ii];
930 Xa[1] = dedx_corrhe[ii];
931 Xa[2] = dedx_corrc[ii];
932 TGraph *g1 = new TGraph(3,Xa,Ya);
933 g1->Fit("ftri","q");
934 dEdxH = ftri->Eval(dEdx);
935 g1->Delete();
936 }
937
938 //---------------------------------------------------------------------------------
939
940 // if (iverbose==1) cout<<"dEdx "<<dEdx<<" dEdxH "<<dEdxH<<endl;
941
942 if(dEdxH!=-2)eDEDXpmtstd[ii]=(Float_t)dEdxH;
943 else eDEDXpmtstd[ii]=(Float_t)dEdx;
944
945
946 // The f_BB=f(beta) correction is only used in ToFNaNuclei to calculate the charge Zeta
947
948 dEdxHe=-2;
949
950 if(betamean<100) {
951
952 if(ii==9 && S115B_break==1){
953 if( betamean <1. ) dEdxHe = f_BB5Bpol4( betamean );
954 else dEdxHe = f_BB5Bpol4( 1.0 );
955 } else {
956 if( betamean <1. ) dEdxHe = f_BBpol4( (parBBpol4[ii]), betamean );
957 else dEdxHe = f_BBpol4( (parBBpol4[ii]), 1.0 );
958 }
959
960 if(ii==9 && S115B_break==1) Zeta = sqrt(36.*(dEdx/dEdxHe));
961 else Zeta = sqrt(4.*(dEdx/dEdxHe));
962
963 if(Zeta<0) INFOpmtstd[ii]=7;
964
965 eZpmtstd[ii]=(Float_t)Zeta;
966
967 } // betamean < 100
968
969
970
971 // printf("%5d %8.2f %8.2f %8.2f %8.2f %8.2f %8.2f %5.4f \n", ii, adcpC, adccorr, adcHe, dEdxHe, dEdx, Zeta, betamean );
972
973 //cout<<"eDEDXpmtstd[ii] "<<eDEDXpmt[ii]<<" eZpmtstd[ii] "<<eZpmtstd[ii]<<endl;
974
975 } // hitted PMTs
976 } //end loop on PMTs along the track
977
978 //-----------------------------------------------------------------
979 // The GetdEdx method "handmade"
980 //-----------------------------------------------------------------
981
982
983 for (Int_t ilay=0; ilay<6; ilay++) {
984 Float_t xhelp=1000.;
985 Int_t i1 = paddleidoftrack[ilay];
986 if (i1 != -1) {
987 Int_t ipad = ipad_a[ilay]+i1;
988 Int_t ihelp = ipmt_a[ilay]+(i1*2);
989 if ((eDEDXpmtstd[ihelp]<1000.) && (eDEDXpmtstd[ihelp+1]==1000.)) xhelp = eDEDXpmtstd[ihelp];
990 if ((eDEDXpmtstd[ihelp+1]<1000.) && (eDEDXpmtstd[ihelp]==1000.)) xhelp = eDEDXpmtstd[ihelp+1];
991 if ((eDEDXpmtstd[ihelp]<1000.) && (eDEDXpmtstd[ihelp+1]<1000.)) xhelp = 0.5*(eDEDXpmtstd[ihelp]+eDEDXpmtstd[ihelp+1]);
992 eDEDXpadstd[ipad] = xhelp;
993 eDEDXlayerstd[ilay] = xhelp;
994
995 if ((eZpmtstd[ihelp]>-1) && (eZpmtstd[ihelp+1]==-1)) xhelp = eZpmtstd[ihelp];
996 if ((eZpmtstd[ihelp+1]>-1) && (eZpmtstd[ihelp]==-1)) xhelp = eZpmtstd[ihelp+1];
997 if ((eZpmtstd[ihelp]>-1) && (eZpmtstd[ihelp+1]>-1)) xhelp = 0.5*(eZpmtstd[ihelp]+eZpmtstd[ihelp+1]);
998 eZpadstd[ipad] = xhelp;
999 eZlayerstd[ilay] = xhelp;
1000
1001
1002 }
1003 } // ilay
1004
1005 } // if (pam_event->GetToFStoredTrack(-1) )...
1006
1007 ftri->Delete();
1008
1009 };
1010
1011
1012 //------------------------------------------------------------------------
1013 void ToFdEdx_patch::PrintTD()
1014 {
1015 for(int i=0; i<48; i++) {
1016 /*
1017 TArrayF &binx = TDx[i];
1018 TArrayF &biny = TDy[i];
1019 for(int k=0; k<200; k++) { // bin temporali
1020 printf("%d %d %f %f", i,k, binx[k], biny[k]);
1021
1022 }
1023 */
1024 }
1025 }
1026
1027
1028 //------------------------------------------------------------------------
1029 void ToFdEdx_patch::Define_PMTsat()
1030 {
1031 Float_t sat[48] = {
1032 3176.35,3178.19,3167.38,3099.73,3117.00,3126.29,3111.44,3092.27,
1033 3146.48,3094.41,3132.13,3115.37,3099.32,3110.97,3111.80,3143.14,
1034 3106.72,3153.44,3136.00,3188.96,3104.73,3140.45,3073.18,3106.62,
1035 3112.48,3146.92,3127.24,3136.52,3109.59,3112.89,3045.15,3147.26,
1036 3095.92,3121.05,3083.25,3123.62,3150.92,3125.30,3067.60,3160.18,
1037 3119.36,3108.92,3164.77,3133.64,3111.47,3131.98,3128.87,3135.56 };
1038 PMTsat.Set(48,sat);
1039 }
1040
1041 //------------------------------------------------------------------------
1042 /*
1043 void ToFdEdx_patch::ReadParTD( Int_t ipmt, const char *fname )
1044 {
1045 printf("read %s\n",fname);
1046 if(ipmt<0) return;
1047 if(ipmt>47) return;
1048 FILE *fattin = fopen( fname , "r" );
1049 Float_t yTD[200],xTD[200];
1050 for(int j=0;j<200;j++){
1051 float x,y,ym,e;
1052 if(fscanf(fattin,"%f %f %f %f",
1053 &x, &y, &ym, &e )!=4) break;
1054 xTD[j]=x;
1055 if(ym>0&&fabs(y-ym)>1) yTD[j]=ym;
1056 else yTD[j]=y;
1057 }
1058 TDx[ipmt].Set(200,xTD);
1059 TDy[ipmt].Set(200,yTD);
1060 fclose(fattin);
1061 }
1062 */
1063 //------------------------------------------------------------------------
1064 void ToFdEdx_patch::ReadParBBpos( const char *fname )
1065 {
1066 printf("read %s\n",fname);
1067 parBBpos.Set(48);
1068 FILE *fattin = fopen( fname , "r" );
1069 for (int i=0; i<48; i++) {
1070 int tid=0;
1071 float tp;
1072 if(fscanf(fattin,"%d %f",
1073 &tid, &tp )!=2) break;
1074 parBBpos[i]=tp;
1075 }
1076 fclose(fattin);
1077 }
1078
1079 //------------------------------------------------------------------------
1080 void ToFdEdx_patch::ReadParDesatBB( const char *fname )
1081 {
1082 printf("read %s\n",fname);
1083 FILE *fattin = fopen( fname , "r" );
1084 for (int i=0; i<48; i++) {
1085 int tid=0;
1086 float tp[3];
1087 if(fscanf(fattin,"%d %f %f %f",
1088 &tid, &tp[0], &tp[1], &tp[2] )!=4) break;
1089 parDesatBB[i].Set(3,tp);
1090 }
1091 fclose(fattin);
1092 }
1093
1094
1095 //------------------------------------------------------------------------
1096 void ToFdEdx_patch::ReadParBBneg( const char *fname )
1097
1098 {
1099 printf("read %s\n",fname);
1100 FILE *fattin = fopen( fname , "r" );
1101 for (int i=0; i<48; i++) {
1102 int tid=0;
1103 float tp[3];
1104 if(fscanf(fattin,"%d %f %f %f",
1105 &tid, &tp[0], &tp[1], &tp[2] )!=4) break;
1106 parBBneg[i].Set(3,tp);
1107 }
1108 fclose(fattin);
1109 }
1110
1111 //------------------------------------------------------------------------
1112 void ToFdEdx_patch::ReadParBBpol4( const char *fname )
1113
1114 {
1115 printf("read %s\n",fname);
1116 FILE *fattin = fopen( fname , "r" );
1117 for (int i=0; i<48; i++) {
1118 int tid=0;
1119 float tp[5];
1120 if(fscanf(fattin,"%d %f %f %f %f %f",
1121 &tid, &tp[0], &tp[1], &tp[2], &tp[3], &tp[4] )!=6) break;
1122 parBBpol4[i].Set(5,tp);
1123 }
1124 fclose(fattin);
1125 }
1126 //------------------------------------------------------------------------
1127 void ToFdEdx_patch::ReadParPos( const char *fname )
1128 {
1129 printf("read %s\n",fname);
1130 FILE *fattin = fopen( fname , "r" );
1131 for (int i=0; i<48; i++) {
1132 int tid=0;
1133 float tp[4];
1134 if(fscanf(fattin,"%d %f %f %f %f",
1135 &tid, &tp[0], &tp[1], &tp[2], &tp[3])!=5) break;
1136 parPos[i].Set(4,tp);
1137 }
1138 fclose(fattin);
1139 }
1140
1141 //------------------------------------------------------------------------
1142 /*void ToFdEdx_patch::ReadParAtt( const char *fname )
1143 {
1144 printf("read %s\n",fname);
1145 FILE *fattin = fopen( fname , "r" );
1146 for (int i=0; i<48; i++) {
1147 int tid=0;
1148 float tp[6];
1149 if(fscanf(fattin,"%d %f %f %f %f %f %f",
1150 &tid, &tp[0], &tp[1], &tp[2], &tp[3], &tp[4], &tp[5] )!=7) break;
1151 parAtt[i].Set(6,tp);
1152 }
1153 fclose(fattin);
1154 }
1155 */
1156
1157 //---------------------------------------------------------------------------
1158
1159 double ToFdEdx_patch::f_att(float C0, float C1, float C2, float C3, float C4, float C5, float x)
1160 {
1161
1162 //cout<<"in f_att: para "<<C0<<" "<<C1<<" "<<C2<<" "<<C3<<" "<<C4<<" "<<C5<<" x "<<x<<endl;
1163
1164 return
1165 C0 +
1166 C1*x +
1167 C2*x*x +
1168 C3*x*x*x +
1169 C4*x*x*x*x +
1170 C5*x*x*x*x*x;
1171 }
1172
1173
1174 /*
1175 double ToFdEdx_patch::f_att( TArrayF &p, float x )
1176 {
1177
1178 //cout<<"in f_att: para "<<p[0]<<" "<<p[1]<<" "<<p[2]<<" "<<p[3]<<" "<<p[4]<<" "<<p[5]<<" x "<<x<<endl;
1179
1180 return
1181 p[0] +
1182 p[1]*x +
1183 p[2]*x*x +
1184 p[3]*x*x*x +
1185 p[4]*x*x*x*x +
1186 p[5]*x*x*x*x*x;
1187 }
1188 */
1189
1190 //------------------------------------------------------------------------
1191 double ToFdEdx_patch::f_att5B( float x )
1192 {
1193 return
1194 101.9409 +
1195 6.643781*x +
1196 0.2765518*x*x +
1197 0.004617647*x*x*x +
1198 0.0006195132*x*x*x*x +
1199 0.00002813734*x*x*x*x*x;
1200 }
1201
1202
1203 double ToFdEdx_patch::f_pos( TArrayF &p, float x )
1204 {
1205 return
1206 p[0] +
1207 p[1]*x +
1208 p[2]*x*x +
1209 p[3]*x*x*x;
1210 }
1211
1212 double ToFdEdx_patch::f_pos5B( float x )
1213 {
1214 return
1215 15.45132 +
1216 0.8369721*x +
1217 0.0005*x*x;
1218 }
1219
1220
1221
1222 double ToFdEdx_patch::f_adcPC( float x )
1223 {
1224 return 28.12+0.6312*x-5.647e-05*x*x+3.064e-08*x*x*x;
1225 }
1226
1227 /*
1228 float ToFdEdx_patch::Get_adc_he( int id, float pl_x[6], float pl_y[6])
1229 {
1230
1231 //
1232 // input: id - pmt [0:47}
1233 // pl_x - coord x of the tof plane
1234 // pl_y - coord y
1235
1236
1237
1238 adc_he = 0;
1239 // if( eGeom.GetXY(id)==1 ) adc_he = f_att( (parAtt[id]), pl_x[eGeom.GetPlane(id)] );
1240 // if( eGeom.GetXY(id)==2 ) adc_he = f_att( (parAtt[id]), pl_y[eGeom.GetPlane(id)] );
1241 if( eGeom.GetXY(id)==1 ) adc_he = f_att( A0[id],A1[id],A2[id],A3[id], A4[id], A5[id], pl_x[eGeom.GetPlane(id)] );
1242 if( eGeom.GetXY(id)==2 ) adc_he = f_att( A0[id],A1[id],A2[id],A3[id], A4[id], A5[id], pl_y[eGeom.GetPlane(id)] );
1243
1244 //cout<<"in Get_adc_he "<<adc_he<<endl;
1245
1246 return adc_he;
1247 }
1248 */
1249
1250 //------------------------------------------------------------------------
1251
1252 float ToFdEdx_patch::Get_adc_he( int id, float x)
1253 {
1254 // input: id - pmt [0:47] , position in the paddle
1255
1256 adc_he = 0;
1257 adc_he = f_att( A0[id],A1[id],A2[id],A3[id], A4[id], A5[id], x );
1258
1259 //cout<<"in Get_adc_he "<<adc_he<<endl;
1260
1261 return adc_he;
1262 }
1263
1264 //------------------------------------------------------------------------
1265 double ToFdEdx_patch::f_BB( TArrayF &p, float x )
1266 {
1267 return p[0]/(x*x)*(log(x*x/(1-x*x)) - p[1]*x*x - p[2]);
1268 }
1269
1270 //------------------------------------------------------------------------
1271 double ToFdEdx_patch::f_BBpol4( TArrayF &p, float x )
1272 {
1273 return p[0] + p[1]*x + p[2]*x*x + p[3]*x*x*x + p[4 ]*x*x*x*x;
1274 }
1275
1276 //------------------------------------------------------------------------
1277 double ToFdEdx_patch::f_BB5B( float x )
1278 {
1279 return 0.165797/(x*x)*(log(x*x/(1-x*x)) + 140.481*x*x + 52.9258);
1280 }
1281 //------------------------------------------------------------------------
1282 double ToFdEdx_patch::f_BB5Bpol4( float x )
1283 {
1284 // return 138.165 - 120.884*x - 122.502*x*x + 203.795*x*x*x - 64.1068*x*x*x*x ;
1285 return 67.2843 + 223.175*x - 721.068*x*x + 646.677*x*x*x - 181.868*x*x*x*x ;
1286
1287 }
1288 //------------------------------------------------------------------------
1289 double ToFdEdx_patch::f_desatBB( TArrayF &p, float x )
1290 {
1291 return
1292 p[0] +
1293 p[1]*x +
1294 p[2]*x*x;
1295 }
1296
1297 //------------------------------------------------------------------------
1298 double ToFdEdx_patch::f_desatBB5B( float x )
1299 {
1300 return
1301 -2.4 +
1302 0.75*x +
1303 0.009*x*x;
1304 }
1305
1306 //------------------------------------------------------------------------
1307 void ToFdEdx_patch::ReadParAtt(const char *pardir, const char *param)
1308 {
1309 char filename[100],filename1[100],filename2[100],name[50];
1310 char str1[30];
1311
1312
1313 //--------------------- flight ---------------------------
1314
1315 if (strcmp(param,"simu") != 0){
1316 cout<<"Flight calibrations "<<endl;
1317
1318 sprintf(filename,"%stime_intervals_atten_10th.txt",pardir);
1319
1320 cout<<"read Time Interval File for Attenuation : "<<filename<<endl;
1321
1322 FILE *ftimein = fopen( filename , "r" );
1323
1324 for (int ii=0; ii<100; ii++) {
1325 UInt_t tp[2];
1326 if(fscanf(ftimein,"%s %u %u",
1327 &str1[0], &tp[0], &tp[1])!=3) break;
1328 cout<<str1<<" "<<tp[0]<<" "<<tp[1]<<endl;
1329 T_int_min[ii] = tp[0];
1330 T_int_max[ii] = tp[1];
1331
1332
1333 sprintf(name,"%s",str1);
1334 // cout<<"test name "<<name<<endl;
1335 sprintf(filename1,"%s%s",pardir,name);
1336
1337 cout<<"read Attenuation file "<<filename1<<endl;
1338 FILE *fattin = fopen( filename1, "r" );
1339
1340 Float_t A0help[48];
1341 Float_t A1help[48];
1342 Float_t A2help[48];
1343 Float_t A3help[48];
1344 Float_t A4help[48];
1345 Float_t A5help[48];
1346
1347
1348 for (int i=0; i<48; i++) {
1349 int id=0;
1350 float par[6];
1351 if(fscanf(fattin,"%d %f %f %f %f %f %f",
1352 &id, &par[0], &par[1], &par[2], &par[3], &par[4], &par[5] )!=7) break;
1353 A0help[i] = par[0];
1354 A1help[i] = par[1];
1355 A2help[i] = par[2];
1356 A3help[i] = par[3];
1357 A4help[i] = par[4];
1358 A5help[i] = par[5];
1359 }
1360
1361 A0_array[ii].Set(48,A0help);
1362 A1_array[ii].Set(48,A1help);
1363 A2_array[ii].Set(48,A2help);
1364 A3_array[ii].Set(48,A3help);
1365 A4_array[ii].Set(48,A4help);
1366 A5_array[ii].Set(48,A5help);
1367
1368
1369 fclose(fattin);
1370
1371
1372 // if (T_int_max[ii] == 2000000000) break; // end of file
1373 if (T_int_max[ii] > 2000000000) break; // end of file
1374
1375 }
1376 fclose(ftimein);
1377
1378 } // flight
1379
1380 //--------------------- simu ---------------------------
1381
1382 if ( strcmp(param,"simu") == 0){
1383
1384 //cout<<"Simulation calibrations "<<endl;
1385 sprintf(name,"tofdedx_gp_atten.dat");
1386 sprintf(filename1,"%s%s",pardir,name);
1387
1388 cout<<"read Attenuation file "<<filename1<<endl;
1389 FILE *fattin = fopen( filename1, "r" );
1390
1391 Float_t A0help[48];
1392 Float_t A1help[48];
1393 Float_t A2help[48];
1394 Float_t A3help[48];
1395 Float_t A4help[48];
1396 Float_t A5help[48];
1397
1398
1399 for (int i=0; i<48; i++) {
1400 int id=0;
1401 float par[6];
1402 if(fscanf(fattin,"%d %f %f %f %f %f %f",
1403 &id, &par[0], &par[1], &par[2], &par[3], &par[4], &par[5] )!=7) break;
1404 A0help[i] = par[0];
1405 A1help[i] = par[1];
1406 A2help[i] = par[2];
1407 A3help[i] = par[3];
1408 A4help[i] = par[4];
1409 A5help[i] = par[5];
1410 }
1411
1412 A0_array[0].Set(48,A0help);
1413 A1_array[0].Set(48,A1help);
1414 A2_array[0].Set(48,A2help);
1415 A3_array[0].Set(48,A3help);
1416 A4_array[0].Set(48,A4help);
1417 A5_array[0].Set(48,A5help);
1418
1419
1420 fclose(fattin);
1421
1422 T_int_min[0] = 1000000000;
1423 T_int_max[0] = 2000000000;
1424
1425
1426 } // simu
1427
1428
1429
1430
1431 // set first time interval
1432 ical_atten = 0;
1433 tmin_atten = T_int_min[0];
1434 tmax_atten = T_int_max[0];
1435
1436 // set first time interval attenuation
1437
1438 TArrayF &Apar0 = A0_array[0];
1439 TArrayF &Apar1 = A1_array[0];
1440 TArrayF &Apar2 = A2_array[0];
1441 TArrayF &Apar3 = A3_array[0];
1442 TArrayF &Apar4 = A4_array[0];
1443 TArrayF &Apar5 = A5_array[0];
1444
1445 for (Int_t ii=0; ii<48;ii++) {
1446 A0[ii]=Apar0[ii];
1447 A1[ii]=Apar1[ii];
1448 A2[ii]=Apar2[ii];
1449 A3[ii]=Apar3[ii];
1450 A4[ii]=Apar4[ii];
1451 A5[ii]=Apar5[ii];
1452 }
1453
1454 cout<<"First time interval attenuation: "<<tmin_atten<<" - "<<tmax_atten<<endl;
1455
1456
1457 //-----------------------------------------------------------
1458 // Here I read the "bi-scale" dEdx_korr parameters 2nd order
1459 //-----------------------------------------------------------
1460
1461 //Double_t t1,t2,tm;
1462 //UInt_t t1,t2,tm;
1463 Double_t t1,t2,tm;
1464
1465 Float_t xm1,xm2,xm3;
1466 Float_t pmthelpp[48];
1467 Float_t pmthelphe[48];
1468 Float_t pmthelpc[48];
1469
1470 //--------------------- flight ---------------------------
1471 if ( strcmp(param,"simu") != 0){
1472
1473 sprintf(filename2,"%striscale_tofdedx_patch.txt",pardir);
1474
1475 cout<<"Filename 2nd order tri-scale "<<filename2<<endl;
1476 ifstream fin(filename2);
1477
1478 Int_t jj=0;
1479 Int_t idummy;
1480 while (! fin.eof()) {
1481 fin>>t1>>tm>>t2;
1482 //cout<<jj<<" "<<tm<<endl;
1483 cout << setiosflags(ios::fixed) << setw(10) << setprecision(3) << tm << endl;
1484 //cout <<t1<<" "<<tm<<" "<<t2<<endl;
1485 mtime[jj]=tm;
1486 for (Int_t ii=0; ii<48;ii++) {
1487 fin>>xm1>>xm2>>xm3; // He-corr, P-corr, C-corr
1488 pmthelphe[ii] = xm1;
1489 pmthelpp[ii] = xm2;
1490 pmthelpc[ii] = xm3;
1491 }
1492 dedx_corr_mp[jj].Set(48,pmthelpp);
1493 dedx_corr_mhe[jj].Set(48,pmthelphe);
1494 dedx_corr_mc[jj].Set(48,pmthelpc);
1495 jj=jj+1;
1496 }
1497
1498 /*
1499 Int_t idummy;
1500 for (Int_t jj=0; jj<2000; jj++) {
1501 fin>>t1>>tm>>t2;
1502 cout<<jj<<" "<<t1<<" "<<tm<<" "<<t2<<endl;
1503 if (t2==2000000000) break;
1504 cout << setiosflags(ios::fixed) << setw(10) << setprecision(3) << tm << endl;
1505 mtime[jj]=tm;
1506 for (Int_t ii=0; ii<48;ii++) {
1507 fin>>idummy>>xmean1>>xwidth1;
1508 dedx_corr_m[jj][ii]=xmean1;
1509 }
1510 }
1511 */
1512
1513 fin.close();
1514
1515 } // flight
1516
1517 //--------------------- simu ---------------------------
1518
1519 if ( strcmp(param,"simu") == 0){
1520
1521 sprintf(filename2,"%striscale_tofdedx_patch_simu.txt",pardir);
1522
1523 cout<<"Filename 2nd order "<<filename2<<endl;
1524 ifstream fin(filename2);
1525
1526 Int_t jj=0;
1527 Int_t idummy;
1528 while (! fin.eof()) {
1529 fin>>t1>>tm>>t2;
1530 //cout<<jj<<" "<<tm<<endl;
1531 //cout << setiosflags(ios::fixed) << setw(10) << setprecision(3) << tm << endl;
1532 cout <<t1<<" "<<tm<<" "<<t2<<endl;
1533 mtime[jj]=tm;
1534 for (Int_t ii=0; ii<48;ii++) {
1535 fin>>xm1>>xm2>>xm3; // He-corr, P-corr, C-corr
1536 pmthelphe[ii] = xm1;
1537 pmthelpp[ii] = xm2;
1538 pmthelpc[ii] = xm3;
1539 }
1540 dedx_corr_mp[jj].Set(48,pmthelpp);
1541 dedx_corr_mhe[jj].Set(48,pmthelphe);
1542 dedx_corr_mc[jj].Set(48,pmthelpc);
1543 jj=jj+1;
1544 }
1545
1546
1547 fin.close();
1548
1549 } // simu
1550
1551
1552 // set first time interval
1553 ical_2nd=0;
1554 tmin_2nd = mtime[0];
1555 tmax_2nd = mtime[1];
1556
1557 cout<<"First time interval 2nd order corr.: "<<tmin_2nd<<" - "<<tmax_2nd<<endl;
1558
1559
1560 }
1561
1562
1563 //----------------------------------------------------------------------------
1564
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