/[PAMELA software]/YodaProfiler/src/PamelaDBOperations.cpp
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Contents of /YodaProfiler/src/PamelaDBOperations.cpp

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Revision 1.1.1.1 - (show annotations) (download) (vendor branch)
Wed Aug 30 11:18:13 2006 UTC (18 years, 3 months ago) by mocchiut
Branch: YodaProfiler
CVS Tags: v0r00, start
Changes since 1.1: +0 -0 lines 
Imported sources
1 //
2 #include <iomanip>
3 #include <sstream>
4 //
5 #include <iostream>
6 #include <string>
7 #include <fstream>
8 #include <list>
9 #include <errno.h>
10 //
11 #include <TSQLResult.h>
12 #include <TRFIOFile.h>
13 #include <TSQLRow.h>
14 #include <TTree.h>
15 #include <TGraph.h>
16 #include <TDatime.h>
17 #include <TF1.h>
18 //
19 #include <EventHeader.h>
20 #include <PscuHeader.h>
21 #include <mcmd/McmdEvent.h>
22 #include <mcmd/McmdRecord.h>
23 #include <RunHeaderEvent.h>
24 #include <RunTrailerEvent.h>
25 #include <CalibCalPedEvent.h>
26 #include <CalibS4Event.h>
27 #include <CalibTrk1Event.h>
28 #include <CalibTrk2Event.h>
29 #include <varDump/VarDumpEvent.h>
30 #include <varDump/VarDumpRecord.h>
31 #include <physics/S4/S4Event.h>
32
33 //
34 #include <PamelaDBOperations.h>
35 //
36 using namespace std;
37 using namespace pamela;
38 //using namespace yngn::util;
39
40 /**
41 * Constructor.
42 * @param host hostname for the SQL connection.
43 * @param user username for the SQL connection.
44 * @param password password for the SQL connection.
45 * @param filerawname The path and name to the raw file.
46 * @param filerootname The path and name of the raw file.
47 * @param boot file BOOT number.
48 * @param obt0 file obt0.
49 * @param tsync file timesync.
50 * @param debug debug flag.
51 */
52 PamelaDBOperations::PamelaDBOperations(TString host, TString user, TString password, TString filerawname, TString filerootname, UInt_t boot, UInt_t tsync, UInt_t obt0, Bool_t debug){
53 //
54 //
55 SetConnection(host,user,password);
56 //
57 SetDebugFlag(debug);
58 //
59 glrun = new GL_RUN();
60 //
61 if ( !boot ) SetNOBOOT(false);
62 SetBOOTnumber(boot);
63 SetTsync(tsync);
64 SetObt0(obt0);
65 //
66 //
67 SetRootName(filerootname);
68 SetRawName(filerawname);
69 //
70 this->OpenFile();
71 //
72 this->SetID_RAW(0);
73 this->SetID_ROOT(0);
74 //
75 };
76
77 /**
78 * Destructor
79 */
80 void PamelaDBOperations::Close(){
81 if( conn && conn->IsConnected() ) conn->Close();
82 delete glrun;
83 delete this;
84 };
85
86 //
87 // SETTERS
88 //
89
90 /**
91 * Open the DB connection
92 * @param host hostname for the SQL connection.
93 * @param user username for the SQL connection.
94 * @param password password for the SQL connection.
95 */
96 void PamelaDBOperations::SetConnection(TString host, TString user, TString password){
97 conn = TSQLServer::Connect(host.Data(),user.Data(),password.Data());
98 };
99
100 /**
101 * Store the ID of the ROOT file.
102 * @param idr ID of the ROOT file
103 */
104 void PamelaDBOperations::SetID_ROOT(UInt_t idr){
105 idroot=idr;
106 };
107
108 /**
109 * Store the ID of the RAW file.
110 * @param idr ID of the RAW file
111 */
112 void PamelaDBOperations::SetID_RAW(UInt_t idr){
113 id=idr;
114 };
115
116 /**
117 * Set the debug flag
118 *
119 */
120 void PamelaDBOperations::SetDebugFlag(Bool_t dbg){
121 debug = dbg;
122 };
123
124 /**
125 * Store the BOOT number of the RAW file.
126 * @param boot BOOT number of the RAW file
127 */
128 void PamelaDBOperations::SetBOOTnumber(UInt_t boot){
129 BOOTNO=boot;
130 };
131
132 /**
133 * Store the time sync of the RAW file.
134 * @param boot time sync
135 */
136 void PamelaDBOperations::SetTsync(UInt_t ts){
137 tsync=ts;
138 };
139
140 /**
141 * Store the time sync of the RAW file.
142 * @param boot time sync
143 */
144 void PamelaDBOperations::SetObt0(UInt_t ts){
145 obt0=ts;
146 };
147
148 /**
149 * Store the RAW filename.
150 * @param str the RAW filename.
151 */
152 void PamelaDBOperations::SetRawName(TString str){
153 filerawname=str;
154 };
155
156 /**
157 * Store the ROOT filename.
158 * @param str the ROOT filename.
159 */
160 void PamelaDBOperations::SetRootName(TString str){
161 filerootname=str;
162 };
163
164 /**
165 * Store the NOBOOT flag.
166 * @param noboot true/false.
167 */
168 void PamelaDBOperations::SetNOBOOT(Bool_t noboot){
169 NOBOOT = noboot;
170 };
171
172 /**
173 * Retrieve the ID_RAW, if exists, returns NULL if does not exist.
174 */
175 Bool_t PamelaDBOperations::SetID_RAW(){
176 stringstream oss;
177 TSQLResult *result = 0;
178 TSQLRow *row = 0;
179 oss.str("");
180 oss << "SELECT ID FROM GL_RAW WHERE "
181 << " PATH = '" << this->GetRawPath().Data() << "' AND "
182 << " NAME = '" << this->GetRawFile().Data() << "' ";
183 result = conn->Query(oss.str().c_str());
184 if (result == NULL) throw -4;
185 row = result->Next();
186 if (row == NULL) return false;
187 delete result;
188 id = (UInt_t)atoll(row->GetField(0));
189 return(true);
190 }
191
192 /**
193 *
194 * Set the variables which have to be stored in the GL_RUN table and that do not depend on the RUN
195 *
196 */
197 void PamelaDBOperations::SetCommonGLRUN(UInt_t absth, UInt_t abstt){
198 glrun->SetBOOTNUMBER(BOOTNO);
199 glrun->SetRUNHEADER_TIME(absth);
200 glrun->SetRUNTRAILER_TIME(abstt);
201 glrun->SetID_ROOT_L2(0);
202 glrun->SetID_ROOT_L0(idroot);
203 glrun->SetVALIDATION(0);
204 };
205
206 /**
207 * Patch, look for upper limits to avoid processing retransmitted data
208 */
209 Int_t PamelaDBOperations::SetUpperLimits(){
210 UInt_t nevent = 0;
211 UInt_t pktlast = 0;
212 UInt_t obtlast = 0;
213 UInt_t t_pktlast = 0;
214 UInt_t t_obtlast = 0;
215 UInt_t upperpkt2 = 0;
216 ULong64_t upperobt2 = 0;
217 UInt_t zomp = 0;
218 UInt_t jump = 50000; // was 5000
219 //
220 pktfirst = 0;
221 obtfirst = 0;
222 //
223 TTree *T = 0;
224 T = (TTree*)file->Get("Physics");
225 if ( !T || T->IsZombie() ) throw -16;
226 EventHeader *eh = 0;
227 PscuHeader *ph = 0;
228 T->SetBranchAddress("Header", &eh);
229 nevent = T->GetEntries();
230 //
231 T->GetEntry(0);
232 ph = eh->GetPscuHeader();
233 pktfirst = ph->GetCounter();
234 obtfirst = ph->GetOrbitalTime();
235 //
236 T->GetEntry(nevent-1);
237 ph = eh->GetPscuHeader();
238 pktlast = ph->GetCounter();
239 obtlast = ph->GetOrbitalTime();
240 //
241 upperpkt = PKT(pktlast);
242 upperobt = OBT(obtlast);
243 upperentry = nevent-1;
244 //
245 if ( IsDebug() ) printf(" First entries are: OBT %llu pkt_num %i \n",obtfirst,pktfirst);
246 //
247 if ( IsDebug() ) printf(" Last entries are: OBT %llu pkt_num %i entry %i\n",upperobt,upperpkt,upperentry);
248 //
249 if ( (PKT(pktlast) < PKT(pktfirst) && OBT(obtlast) > OBT(obtfirst)) || (PKT(pktlast) > PKT(pktfirst) && OBT(obtlast) < OBT(obtfirst)) ) return(1);
250 //
251 if ( !nevent ) return(2);
252 //
253 if ( nevent < 2 ) return(4);
254 //
255 if ( PKT(pktlast) < PKT(pktfirst) && OBT(obtlast) < OBT(obtfirst) ){
256 // go back
257 zomp = nevent - 2;
258 //
259 while ( jump > 0 ){
260 //
261 t_pktlast = PKT(pktlast);
262 t_obtlast = OBT(obtlast);
263 //
264 for (UInt_t i = zomp; i>1; i-=jump){
265 //
266 if ( i >= 0 ) T->GetEntry(i);
267 ph = eh->GetPscuHeader();
268 upperpkt = PKT(ph->GetCounter());
269 upperobt = OBT(ph->GetOrbitalTime());
270 upperentry = i;
271 //
272 if ( (i-1) >= 0 ) T->GetEntry(i-1);
273 ph = eh->GetPscuHeader();
274 upperpkt2 = PKT(ph->GetCounter());
275 upperobt2 = OBT(ph->GetOrbitalTime());
276 //
277 if ( (t_pktlast < upperpkt && t_obtlast > upperobt) || (t_pktlast < upperpkt2 && t_obtlast > upperobt2) ) throw -13;
278 //
279 if ( t_pktlast < upperpkt && t_obtlast < upperobt && t_pktlast < upperpkt2 && t_obtlast < upperobt2 ){
280 zomp = i + jump + 1;
281 if ( zomp > nevent-2 ) zomp = nevent - 2;
282 if ( IsDebug() ) printf(" .-. jump %i zomp %i upperpkt %i pktlast %i upperobt %llu obtlast %u last entry is %i \n",jump,zomp,upperpkt,pktlast,upperobt,obtlast,i);
283 break;
284 };
285 //
286 t_pktlast = upperpkt;
287 t_obtlast = upperobt;
288 };
289 //
290 if ( jump == 1 ) jump = 0;
291 if ( jump == 10 ) jump = 1;
292 if ( jump == 100 ) jump = 10;
293 if ( jump == 1000 ) jump = 100;
294 if ( jump == 5000 ) jump = 1000;
295 if ( jump == 50000 ) jump = 5000;
296 //
297 };
298 //
299 };
300 //
301 // check if last runtrailer is within limits, if not extend limits (one should check for all packets but we need only runtrailer)
302 //
303 PacketType *pctp=0;
304 EventCounter *code=0;
305 T->GetEntry(upperentry);
306 code = eh->GetCounter();
307 Int_t lasttrail = code->Get(pctp->RunTrailer);
308 Int_t lasthead = code->Get(pctp->RunHeader);
309 TTree *rh=(TTree*)file->Get("RunHeader");
310 if ( !rh || rh->IsZombie() ) throw -17;
311 TTree *rt=(TTree*)file->Get("RunTrailer");
312 if ( !rt || rt->IsZombie() ) throw -18;
313 //
314 rh->SetBranchAddress("RunHeader", &runh);
315 rh->SetBranchAddress("Header", &ehh);
316 //
317 rt->SetBranchAddress("RunTrailer", &runt);
318 rt->SetBranchAddress("Header", &eht);
319 //
320 rhev = rh->GetEntries();
321 rtev = rt->GetEntries();
322 UInt_t pktt = 0;
323 ULong64_t obtt = 0;
324 UInt_t pkth = 0;
325 ULong64_t obth = 0;
326 //
327 if ( lasttrail < rtev ){
328 rt->GetEntry(lasttrail);
329 pht = eht->GetPscuHeader();
330 pktt = PKT(pht->GetCounter());
331 obtt = OBT(pht->GetOrbitalTime());
332 };
333 //
334 if ( IsDebug() ) printf(" rtev beforev %i pt %i upperp %i ot %llu uppero %llu \n",rtev,pktt,upperpkt,obtt,upperobt);
335 if ( pktt > upperpkt && obtt > upperobt ){
336 if ( IsDebug() ) printf(" Upper limits extended to include last trailer: pt %i upperp %i ot %llu uppero %llu \n",pktt,upperpkt,obtt,upperobt);
337 upperpkt = pktt;
338 upperobt = obtt;
339 rtev = lasttrail+1;
340 } else {
341 rtev = lasttrail;
342 };
343 if ( IsDebug() ) printf(" rtev after %i pt %i upperp %i ot %llu uppero %llu \n",rtev,pktt,upperpkt,obtt,upperobt);
344 //
345 if ( lasthead < rhev ){
346 rh->GetEntry(lasthead);
347 phh = ehh->GetPscuHeader();
348 pkth = PKT(pht->GetCounter());
349 obth = OBT(pht->GetOrbitalTime());
350 };
351 //
352 if ( IsDebug() ) printf(" rhev before %i ph %i upperp %i oh %llu uppero %llu \n",rhev,pkth,upperpkt,obth,upperobt);
353 if ( pkth > upperpkt && obth > upperobt ){
354 if ( IsDebug() ) printf(" Upper limits extended to include last header: ph %i upperp %i oh %llu uppero %llu \n",pkth,upperpkt,obth,upperobt);
355 upperpkt = pkth;
356 upperobt = obth;
357 rhev = lasthead+1;
358 } else {
359 rhev = lasthead;
360 };
361 if ( IsDebug() ) printf(" rhev after %i ph %i upperp %i oh %llu uppero %llu \n",rhev,pkth,upperpkt,obth,upperobt);
362 //
363 if ( IsDebug() ) printf(" Upper limits are: OBT %llu pkt_num %i upper entry %i \n",upperobt,upperpkt,upperentry);
364 //
365 return(0);
366 }
367
368 //
369 // GETTERS
370 //
371
372 /**
373 *
374 * Returns the DB absolute time needed to associate calibrations to data
375 *
376 */
377 UInt_t PamelaDBOperations::GetAbsTime(UInt_t obt){
378 //
379 return(((UInt_t)(OBT(obt)/1000)+toffset));
380 //
381 };
382
383 /**
384 *
385 * List of packet types (just to make easily the loops)
386 *
387 */
388 const PacketType* PamelaDBOperations::GetPacketType(const char* type){
389 if ( !strcmp(type,"Pscu") ) return(PacketType::Pscu);
390 if ( !strcmp(type,"PhysEndRun") ) return(PacketType::PhysEndRun);
391 if ( !strcmp(type,"CalibCalPulse1") ) return(PacketType::CalibCalPulse1);
392 if ( !strcmp(type,"CalibCalPulse2") ) return(PacketType::CalibCalPulse2);
393 if ( !strcmp(type,"Physics") ) return(PacketType::Physics);
394 if ( !strcmp(type,"CalibTrkBoth") ) return(PacketType::CalibTrkBoth);
395 if ( !strcmp(type,"CalibTrk1") ) return(PacketType::CalibTrk1);
396 if ( !strcmp(type,"CalibTrk2") ) return(PacketType::CalibTrk2);
397 if ( !strcmp(type,"CalibTof") ) return(PacketType::CalibTof);
398 if ( !strcmp(type,"CalibS4") ) return(PacketType::CalibS4);
399 if ( !strcmp(type,"CalibCalPed") ) return(PacketType::CalibCalPed);
400 if ( !strcmp(type,"Calib1_Ac1") ) return(PacketType::Calib1_Ac1);
401 if ( !strcmp(type,"Calib2_Ac1") ) return(PacketType::Calib2_Ac1);
402 if ( !strcmp(type,"Calib1_Ac2") ) return(PacketType::Calib1_Ac2);
403 if ( !strcmp(type,"Calib2_Ac2") ) return(PacketType::Calib2_Ac2);
404 if ( !strcmp(type,"CalibCal") ) return(PacketType::CalibCal);
405 if ( !strcmp(type,"RunHeader") ) return(PacketType::RunHeader);
406 if ( !strcmp(type,"RunTrailer") ) return(PacketType::RunTrailer);
407 if ( !strcmp(type,"CalibHeader") ) return(PacketType::CalibHeader);
408 if ( !strcmp(type,"CalibTrailer") ) return(PacketType::CalibTrailer);
409 if ( !strcmp(type,"InitHeader") ) return(PacketType::InitHeader);
410 if ( !strcmp(type,"InitTrailer") ) return(PacketType::InitTrailer);
411 if ( !strcmp(type,"EventTrk") ) return(PacketType::EventTrk);
412 if ( !strcmp(type,"Log") ) return(PacketType::Log);
413 if ( !strcmp(type,"VarDump") ) return(PacketType::VarDump);
414 if ( !strcmp(type,"ArrDump") ) return(PacketType::ArrDump);
415 if ( !strcmp(type,"TabDump") ) return(PacketType::TabDump);
416 if ( !strcmp(type,"Tmtc") ) return(PacketType::Tmtc);
417 if ( !strcmp(type,"Mcmd") ) return(PacketType::Mcmd);
418 if ( !strcmp(type,"ForcedFECmd") ) return(PacketType::ForcedFECmd);
419 if ( !strcmp(type,"Ac1Init") ) return(PacketType::Ac1Init);
420 if ( !strcmp(type,"CalInit") ) return(PacketType::CalInit);
421 if ( !strcmp(type,"TrkInit") ) return(PacketType::TrkInit);
422 if ( !strcmp(type,"TofInit") ) return(PacketType::TofInit);
423 if ( !strcmp(type,"TrgInit") ) return(PacketType::TrgInit);
424 if ( !strcmp(type,"NdInit") ) return(PacketType::NdInit);
425 if ( !strcmp(type,"S4Init") ) return(PacketType::S4Init);
426 if ( !strcmp(type,"Ac2Init") ) return(PacketType::Ac2Init);
427 if ( !strcmp(type,"CalAlarm") ) return(PacketType::CalAlarm);
428 if ( !strcmp(type,"Ac1Alarm") ) return(PacketType::Ac1Alarm);
429 if ( !strcmp(type,"TrkAlarm") ) return(PacketType::TrkAlarm);
430 if ( !strcmp(type,"TrgAlarm") ) return(PacketType::TrgAlarm);
431 if ( !strcmp(type,"TofAlarm") ) return(PacketType::TofAlarm);
432 if ( !strcmp(type,"S4Alarm") ) return(PacketType::S4Alarm);
433 if ( !strcmp(type,"Ac2Alarm") ) return(PacketType::Ac2Alarm);
434 if ( !strcmp(type,"TsbT") ) return(PacketType::TsbT);
435 if ( !strcmp(type,"TsbB") ) return(PacketType::TsbB);
436 return(PacketType::Invalid);
437 };
438
439 //
440 // PRIVATE FUNCTIONS
441 //
442
443 /**
444 * Open the ROOT filename for reading
445 */
446 void PamelaDBOperations::OpenFile(){
447 file = TFile::Open(this->GetRootName().Data());
448 };
449
450
451 /**
452 * Check if LEVEL0 file and DB connection have really be opened
453 */
454 void PamelaDBOperations::CheckFile(){
455 //
456 if ( !file ) throw -12;
457 //
458 // check connection
459 //
460 if( !conn ) throw -1;
461 bool connect = conn->IsConnected();
462 if( !connect ) throw -1;
463 };
464
465 /**
466 * Return the correct packet number if we went back to zero
467 */
468 UInt_t PamelaDBOperations::PKT(UInt_t pkt_num){
469 //
470 // if ( IsDebug() ) printf(" pkt conversion: pkt_num is %u pktfirst is %u (pktfirst - (UInt_t)(16777212/2)) is %u \n",pkt_num,pktfirst,(pktfirst - (UInt_t)(16777212/2)));
471 //
472 if ( pkt_num < (pktfirst/2) && pktfirst > (16777214/2) ) return((pkt_num+16777215));
473 //
474 if ( pkt_num > pktfirst*2 && pkt_num > (16777214/2) ){
475 if ( (pkt_num-16777215) < 0 ){
476 return((16777215-pkt_num));
477 } else {
478 return((pkt_num-16777215));
479 };
480 };
481 //
482 return(pkt_num);
483 //
484 };
485
486 /**
487 * Return the correct On Board Time if we went back to zero
488 */
489 ULong64_t PamelaDBOperations::OBT(UInt_t obt){
490 //
491 if ( obt < (obtfirst/2) && obtfirst > (numeric_limits<UInt_t>::max()/2) ) return((ULong64_t)(obt+numeric_limits<UInt_t>::max()));
492 //
493 if ( obt > (obtfirst*2) && obt > (numeric_limits<UInt_t>::max()/2) ){
494 if ( (obt-numeric_limits<UInt_t>::max()) < 0 ){
495 return((ULong64_t)(numeric_limits<UInt_t>::max()-obt));
496 } else {
497 return((ULong64_t)(obt-numeric_limits<UInt_t>::max()));
498 };
499 };
500 //
501 return((ULong64_t)obt);
502 };
503
504 /**
505 *
506 * Fill the glrun class with infos about the run when we have both runtrailer and runheader
507 *
508 */
509 void PamelaDBOperations::FillClass(){
510 this->FillClass(false,false,0,0);
511 };
512
513 /**
514 *
515 * Fill the glrun class with infos about the run when we have both runtrailer and runheader
516 *
517 */
518 void PamelaDBOperations::FillClass(Bool_t mishead, Bool_t mistrail, UInt_t firstev, UInt_t lastev){
519 //
520 TTree *T = 0;
521 T = (TTree*)file->Get("Physics");
522 if ( !T || T->IsZombie() ) throw -16;
523 //
524 EventHeader *eh = 0;
525 PscuHeader *ph = 0;
526 T->SetBranchAddress("Header", &eh);
527 PacketType *pctp=0;
528 EventCounter *codt=0;
529 EventCounter *codh=0;
530 UInt_t firstObt = 0;
531 UInt_t lastObt = 0;
532 UInt_t firstPkt = 0;
533 UInt_t lastPkt = 0;
534 UInt_t rhtime = 0;
535 UInt_t rttime = 0;
536 if ( !mishead ){
537 codh = ehh->GetCounter();
538 firstev = codh->Get(pctp->Physics);
539 rhtime = this->GetAbsTime(phh->GetOrbitalTime());
540 glrun->Set_GL_RUNH(runh,phh);
541 firstObt = glrun->GetRUNHEADER_OBT();
542 firstPkt = glrun->GetRUNHEADER_PKT();
543 };
544 if ( !mistrail ){
545 codt = eht->GetCounter();
546 lastev = codt->Get(pctp->Physics)-1;
547 rttime = this->GetAbsTime(pht->GetOrbitalTime());
548 glrun->Set_GL_RUNT(runt,pht);
549 lastObt = glrun->GetRUNTRAILER_OBT();
550 lastPkt = glrun->GetRUNTRAILER_PKT();
551 };
552 //
553 if ( mishead && mistrail && lastev+1 == firstev ) throw -14; // run with no events, no runtrailer, no runheader... unsupported
554 //
555 if ( mishead ) {
556 glrun->Set_GL_RUNH0();
557 //
558 if ( lastev+1 == firstev ){
559 firstObt = lastObt;
560 firstPkt = lastPkt;
561 rhtime = rttime;
562 } else {
563 T->GetEntry(firstev);
564 ph = eh->GetPscuHeader();
565 firstObt = ph->GetOrbitalTime();
566 rhtime = this->GetAbsTime(firstObt);
567 firstPkt = ph->GetCounter();
568 };
569 //
570 glrun->SetRUNHEADER_PKT(firstPkt);
571 glrun->SetRUNHEADER_OBT(firstObt);
572 //
573 };
574 if ( mistrail ){
575 glrun->Set_GL_RUNT0();
576 //
577 if ( lastev+1 == firstev ){
578 lastObt = firstObt;
579 lastPkt = firstPkt;
580 rttime = rhtime;
581 } else {
582 T->GetEntry(lastev);
583 ph = eh->GetPscuHeader();
584 lastObt = ph->GetOrbitalTime();
585 rttime = this->GetAbsTime(lastObt);
586 lastPkt = ph->GetCounter();
587 };
588 //
589 glrun->SetRUNTRAILER_OBT(lastObt);
590 glrun->SetRUNTRAILER_PKT(lastPkt);
591 //
592 };
593 glrun->SetEV_FROM(firstev);
594 glrun->SetEV_TO(lastev);
595 glrun->SetNEVENTS(lastev-firstev+1);
596 //
597 this->SetCommonGLRUN(rhtime,rttime);
598 //
599 };
600
601 //
602 // PUBLIC FUNCTIONS
603 //
604
605 /**
606 * Insert a new row into GL_RAW table.
607 */
608 Int_t PamelaDBOperations::insertPamelaRawFile(){
609 //
610 stringstream oss;
611 //
612 Bool_t idr = this->SetID_RAW();
613 if ( idr ) return(1);
614 //
615 oss.str("");
616 oss << "INSERT INTO GL_RAW (PATH, NAME) VALUES ('"
617 << this->GetRawPath().Data() << "', '" << this->GetRawFile().Data() << "')";
618 if ( conn->Query(oss.str().c_str()) == 0 ) throw -4;
619 //
620 idr = this->SetID_RAW();
621 if ( !idr ) throw -11;
622 //
623 return(0);
624 }
625
626
627 /**
628 * Look for one timesync information in the file and
629 * fill the GL_TIMESYNC table. It will look for: 1) TS-MCMD 2) TS info in the RunHeader 3) TS info in the runtrailer, if none exists exit with error
630 */
631 Int_t PamelaDBOperations::insertPamelaGL_TIMESYNC(){
632 //
633 TSQLResult *result = 0;
634 TSQLRow *row = 0;
635 UInt_t t0 = 0;
636 //
637 stringstream oss;
638 //
639 if ( this->GetID_RAW() == 0 ) throw -11;
640 //
641 oss.str("");
642 oss << "SELECT OFFSET_DATE FROM GL_RESURS_OFFSET WHERE FROM_ID_RAW<= "
643 << id << " AND TO_ID_RAW >= "
644 << id << ";";
645 if ( IsDebug() ) printf(" %s \n",oss.str().c_str());
646 result = conn->Query(oss.str().c_str());
647 if ( !result ) throw -10;
648 row = result->Next();
649 if ( !row ) throw -10;
650 //
651 t0 = (UInt_t)TDatime(row->GetField(0)).Convert();
652 /*
653 * Verify that the TIMESYNC have been not already processed
654 */
655 oss.str("");
656 oss << " SELECT COUNT(GL_TIMESYNC.ID),GL_TIMESYNC.OBT0,GL_TIMESYNC.TIMESYNC FROM GL_TIMESYNC "
657 << " LEFT JOIN GL_RAW "
658 << " ON GL_RAW.ID = GL_TIMESYNC.ID_RAW "
659 << " WHERE GL_TIMESYNC.ID_RAW = " << this->GetID_RAW()
660 << " GROUP BY GL_TIMESYNC.OBT0;";
661 if ( IsDebug() ) printf(" check for old timesync: query is \n %s \n",oss.str().c_str());
662 result = conn->Query(oss.str().c_str());
663 if (result == NULL) throw -10;
664 row = result->Next();
665 if ((row != NULL) && ((UInt_t)atoll(row->GetField(0)) > 0)){
666 toffset = (UInt_t)atoll(row->GetField(2)) - (UInt_t)(this->OBT((UInt_t)atoll(row->GetField(1)))/1000) + t0;
667 return(1);
668 };
669 //
670 TTree *T = 0;
671 //
672 UInt_t nevent = 0;
673 UInt_t recEntries = 0;
674 //
675 UInt_t OBT = 0;
676 UInt_t TYPE = 0;
677 //
678 Double_t minimum = 0.;
679 Double_t maximum = 0.;
680 Double_t minimum2 = 0.;
681 Double_t maximum2 = 0.;
682 //
683 UInt_t TSYNC = 0;
684 //
685 pamela::McmdEvent *mc = 0;
686 pamela::McmdRecord *mcrc = 0;
687 TArrayC *mcmddata = 0;
688 //
689 minimum = numeric_limits<Double_t>::max();
690 maximum = numeric_limits<Double_t>::min();
691 minimum2 = numeric_limits<Double_t>::max();
692 maximum2 = numeric_limits<Double_t>::min();
693 //
694 T = (TTree*)file->Get("Mcmd");
695 if ( !T || T->IsZombie() ) throw -19;
696 T->SetBranchAddress("Mcmd",&mc);
697 //
698 nevent = T->GetEntries();
699 //
700 // loop over events
701 //
702 Bool_t existsts = false;
703 //
704 for (UInt_t i=0; i<nevent;i++){
705 //
706 T->GetEntry(i);
707 //
708 recEntries = mc->Records->GetEntries();
709 //
710 for (UInt_t j = 0; j < recEntries; j++){
711 mcrc = (pamela::McmdRecord*)mc->Records->At(j);
712 mcmddata = mcrc->McmdData;
713 //
714 if (mcrc->ID1 == 0xE0){ // mcmd timesync
715 //
716 OBT = (Int_t)(mcrc->MCMD_RECORD_OBT);
717 //
718 TSYNC = (((UInt_t)mcmddata->At(0)<<24)&0xFF000000) + (((UInt_t)mcmddata->At(1)<<16)&0x00FF0000) + (((UInt_t)mcmddata->At(2)<<8)&0x0000FF00) + (((UInt_t)mcmddata->At(3))&0x000000FF);
719 //
720 TYPE = 55;//224;
721 //
722 if ( TSYNC && OBT ){
723 existsts = true;
724 goto out;
725 };
726 //
727 };
728 };
729 };
730 if ( !existsts ) { // try with runheader and runtrailer
731 //
732 TTree *rh=(TTree*)file->Get("RunHeader");
733 if ( !rh || rh->IsZombie() ) throw -17;
734 TTree *rt=(TTree*)file->Get("RunTrailer");
735 if ( !rt || rt->IsZombie() ) throw -18;
736 //
737 rh->SetBranchAddress("RunHeader", &runh);
738 //
739 rt->SetBranchAddress("RunTrailer", &runt);
740 //
741 // Int_t rhev = rh->GetEntries();
742 // Int_t rtev = rt->GetEntries();
743 //
744 if ( rhev > 0 ){
745 rh->GetEntry(0);
746 //
747 TSYNC = runh->LAST_TIME_SYNC_INFO;
748 OBT = runh->OBT_TIME_SYNC * 1000;
749 //
750 TYPE = 20;
751 //
752 if ( TSYNC && OBT ){
753 existsts = true;
754 goto out;
755 };
756 //
757 };
758 if ( rtev > 0 ){
759 rt->GetEntry(0);
760 //
761 TSYNC = runt->LAST_TYME_SYNC_INFO;
762 OBT = runt->OBT_TYME_SYNC * 1000;
763 //
764 TYPE = 21;
765 //
766 if ( TSYNC && OBT ){
767 existsts = true;
768 goto out;
769 };
770 //
771 };
772 };
773 //
774 if ( !existsts ){ // try with inclination mcmd
775 Double_t timesync = 0.;
776 for (UInt_t i=0; i<nevent;i++){
777 //
778 T->GetEntry(i);
779 //
780 recEntries = mc->Records->GetEntries();
781 // //
782 for (UInt_t j = 0; j < recEntries; j++){
783 mcrc = (pamela::McmdRecord*)mc->Records->At(j);
784 mcmddata = mcrc->McmdData;
785 //
786 if (mcrc->ID1 == 0xE2){ // mcmd inclination
787 timesync = 0.;
788 timesync = (Double_t)(((((UInt_t)mcmddata->At(0) << 24) & 0xFF000000) + (((UInt_t)mcmddata->At(1) << 16) & 0x00FF0000) + (((UInt_t)mcmddata->At(2) << 8) & 0x0000FF00) + ((UInt_t)mcmddata->At(3) & 0x000000FF))/128.0);
789 //
790 if ( timesync > maximum2){
791 maximum2 = timesync;
792 OBT = (Int_t)(mcrc->MCMD_RECORD_OBT);
793 };
794 };
795 //
796 };
797 };
798 if ( maximum2 > numeric_limits<Double_t>::min() ){
799 TSYNC = (UInt_t)(maximum2 + 0.5);
800 TYPE = 666;
801 if ( TSYNC && OBT ){
802 existsts = true;
803 goto out;
804 };
805 };
806 };
807 //
808 if ( !existsts && obt0 ){ // insert timesync by hand
809 OBT = obt0;
810 TSYNC = tsync;
811 TYPE = 999;
812 existsts = true;
813 goto out;
814 };
815 //
816 out:
817 //
818 if ( !existsts ) throw -3;
819 //
820 oss.str("");
821 oss << "INSERT INTO GL_TIMESYNC (ID_RAW,TYPE,OBT0,TIMESYNC) VALUES ('"
822 << this->GetID_RAW() << "','"//224'"
823 << dec << (UInt_t)TYPE << "','"
824 << dec << (UInt_t)OBT << "','"
825 << dec << (UInt_t)TSYNC << "');";
826 conn->Query(oss.str().c_str());
827 if ( IsDebug() ) printf(" Query the GL_TIMESYNC table to fill it:\n %s \n",oss.str().c_str());
828 //
829 toffset = (UInt_t)TSYNC - (UInt_t)(this->OBT(OBT)/1000) + t0;
830 //
831 delete result;
832 return(0);
833 }
834
835 /**
836 * Insert all the new rows into GL_ROOT.
837 * The raw file indicates in the parameters should be already been stored in the database.
838 */
839 Int_t PamelaDBOperations::insertPamelaRootFile(){
840 stringstream oss;
841 TSQLResult *result = 0;
842 TSQLRow *row = 0;
843 UInt_t idtimesync = 0;
844 //
845 oss.str("");
846 oss << " SELECT COUNT(GL_ROOT.ID_RAW),GL_RAW.ID,GL_ROOT.ID FROM GL_RAW "
847 << " LEFT JOIN GL_ROOT "
848 << " ON GL_RAW.ID = GL_ROOT.ID_RAW "
849 << " WHERE GL_RAW.PATH = '" << this->GetRawPath().Data() << "' AND "
850 << " GL_RAW.NAME = '" << this->GetRawFile().Data() << "' GROUP BY GL_RAW.ID ";
851 result = conn->Query(oss.str().c_str());
852 //
853 if ( !result ) throw -12;
854 //
855 row = result->Next();
856 //
857 if ( !row ) throw -10;
858 if ( row != NULL && (UInt_t)atoll(row->GetField(0))>0 ){
859 idroot = (UInt_t)atoll(row->GetField(2));
860 return(1);
861 };
862 //
863 // determine which timesync has to be used
864 //
865 oss.str("");
866 oss << "SELECT GL_TIMESYNC.ID FROM GL_TIMESYNC LEFT JOIN GL_RAW ON GL_RAW.ID = GL_TIMESYNC.ID_RAW ORDER BY GL_TIMESYNC.ID DESC LIMIT 1;";
867 result = conn->Query(oss.str().c_str());
868 //
869 if ( !result ) throw -3;
870 //
871 row = result->Next();
872 //
873 if ( !row ) throw -3;
874 idtimesync = (UInt_t)atoll(row->GetField(0));
875 //
876 oss.str("");
877 oss << "INSERT INTO GL_ROOT (ID_RAW, ID_TIMESYNC,PATH, NAME) VALUES ('"
878 << this->GetID_RAW() << "', '" << idtimesync << "', '" << this->GetRootPath().Data() << "', '" << this->GetRootFile().Data() << "')";
879 //
880 if (conn->Query(oss.str().c_str()) == 0) throw -4;
881 //
882 delete result;
883 //
884 oss.str("");
885 oss << "SELECT ID FROM GL_ROOT WHERE ID_RAW=" << this->GetID_RAW() << ";";
886 //
887 result = conn->Query(oss.str().c_str());
888 if ( !result ) throw -12;
889 row = result->Next();
890 this->SetID_ROOT((UInt_t)atoll(row->GetField(0)));
891 //
892 delete result;
893 //
894 return(0);
895 }
896
897 /**
898 * Assign the BOOT_NUMBER to the raw file.
899 */
900 Int_t PamelaDBOperations::assignBOOT_NUMBER(){
901 stringstream oss;
902 TSQLResult *result = 0;
903 TSQLRow *row = 0;
904 oss.str("");
905 oss << "SELECT ID, BOOT_NUMBER FROM GL_RAW WHERE "
906 << " PATH = '" << this->GetRawPath().Data() << "' AND "
907 << " NAME = '" << this->GetRawFile().Data() << "' ";
908 result = conn->Query(oss.str().c_str());
909 //
910 if ( !result ) return(8);
911 row = result->Next();
912 if ( !row ) return(16);
913 if ( row->GetField(1) ){
914 this->SetBOOTnumber((UInt_t)atoll(row->GetField(1)));
915 return(1);
916 };
917 if ( !row->GetField(0) ) return(8);
918 //
919 UInt_t idRaw = (UInt_t)atoll(row->GetField(0));
920 //
921 //
922 //
923 TTree *trDumpEv = 0;
924 trDumpEv = (TTree*)file->Get("VarDump");
925 if ( !trDumpEv || trDumpEv->IsZombie() ) throw -20;
926 //
927 if (trDumpEv == NULL) return(2);
928 //
929 VarDumpEvent *vde = 0;
930 VarDumpRecord *vdr = 0;
931 //
932 trDumpEv->SetBranchAddress("VarDump", &vde);
933 if (trDumpEv->GetEntries() > 0){
934 trDumpEv->GetEntry(0);
935 vde->Records->GetEntries();
936 if ( !vde->Records->GetEntries() ){
937 if ( !this->GetBOOTnumber() ) return(4);
938 } else {
939 vdr = (VarDumpRecord*)vde->Records->At(6);
940 this->SetBOOTnumber((Int_t)vdr->VAR_VALUE);
941 };
942 } else {
943 if ( !this->GetBOOTnumber() ) return(2);
944 };
945 //
946 oss.str("");
947 oss << " UPDATE GL_RAW "
948 << " SET GL_RAW.BOOT_NUMBER = '" << dec << this->GetBOOTnumber() << "'"
949 << " WHERE GL_RAW.ID = '" << idRaw << "'";
950 conn->Query(oss.str().c_str());
951 //
952 delete result;
953 return(0);
954 };
955
956 /**
957 * Scan runtrailer packet, fill the GL_RUN table and
958 * check for missing and truncated runs
959 */
960 Int_t PamelaDBOperations::insertPamelaRUN(){
961 Int_t signal = 0;
962 //
963 stringstream oss;
964 oss.str("");
965 //
966 signal = this->SetUpperLimits();
967 //
968 // loop on runheader and runtrailer events
969 //
970 TTree *rh=(TTree*)file->Get("RunHeader");
971 if ( !rh || rh->IsZombie() ) throw -17;
972 TTree *rt=(TTree*)file->Get("RunTrailer");
973 if ( !rt || rt->IsZombie() ) throw -18;
974 //
975 PacketType *pctp=0;
976 EventCounter *cod=0;
977 //
978 rh->SetBranchAddress("RunHeader", &runh);
979 rh->SetBranchAddress("Header", &ehh);
980 //
981 rt->SetBranchAddress("RunTrailer", &runt);
982 rt->SetBranchAddress("Header", &eht);
983 //
984 UInt_t obtt = 0;
985 UInt_t obth = 0;
986 UInt_t pktt = 0;
987 UInt_t pkth = 0;
988 Int_t pth = -1;
989 Int_t ptht = -1;
990 Int_t evbeft = 0;
991 Int_t evbefh = 0;
992 //
993 // no runtrailers in the file!
994 //
995 if ( !rtev ){
996 if ( !upperentry ){
997 if ( IsDebug() ) printf(" No physics events nor runs in the file \n");
998 throw -8;
999 } else {
1000 this->HandleRunFragments(true,true,0,upperentry);
1001 };
1002 } else {
1003 //
1004 for (Int_t ptt=0; ptt<rtev; ptt++){
1005 //
1006 rt->GetEntry(ptt);
1007 pht = eht->GetPscuHeader();
1008 pktt = pht->GetCounter();
1009 obtt = pht->GetOrbitalTime();
1010 //
1011 cod = eht->GetCounter();
1012 ptht = cod->Get(pctp->RunHeader) - 1;
1013 evbeft = cod->Get(pctp->Physics);
1014 //
1015 if ( !ptt && !(ptht+1) ){
1016 //
1017 if ( IsDebug() ) printf(" Piece of run at the beginning of the file %i %i %i \n",ptht,pth,ptt);
1018 //
1019 this->HandleRunFragments(true,false,0,(evbeft-1));
1020 //
1021 //
1022 } else if ( pth == ptht ){
1023 //
1024 if ( IsDebug() ) printf(" Missing header %i %i %i\n",ptht,pth,ptt);
1025 //
1026 if ( (ptt-1) < 0 ) throw -15;
1027 rt->GetEntry(ptt-1);
1028 cod = eht->GetCounter();
1029 evbefh = cod->Get(pctp->Physics);
1030 rt->GetEntry(ptt);
1031 pht = eht->GetPscuHeader();
1032 //
1033 if ( IsDebug() ) printf(" Try to find the beginning of a run which has only the runtrailer %i %i %i \n",ptht,pth,ptt);
1034 if ( IsDebug() ) printf(" ''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''' %i %i %i \n",pkth,obth,obtt);
1035 //
1036 this->HandleMissingHoT(true,false,evbefh,evbeft-1);
1037 //
1038 } else {
1039 //
1040 if ( IsDebug() ) printf(" Could be a good run, we have a runheader followed by a runtrailer %i %i %i\n",ptht,pth,ptt);
1041 //
1042 rh->GetEntry(ptht);
1043 phh = ehh->GetPscuHeader();
1044 pkth = phh->GetCounter();
1045 obth = phh->GetOrbitalTime();
1046 cod = ehh->GetCounter();
1047 evbefh = cod->Get(pctp->Physics);
1048 if ( IsDebug() ) printf(" ''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''' %i %i %i \n",pkth,obth,obtt);
1049 //
1050 // handle this run
1051 //
1052 this->HandleRun();
1053 //
1054 //
1055 //
1056 if ( PKT(pkth)>PKT(pktfirst) && OBT(obth)>OBT(obtfirst) && !ptt ){
1057 //
1058 if ( IsDebug() ) printf(" Piece of run at the beginning of the file WITH NO RUNTRAILER \n");
1059 //
1060 this->HandleRunFragments(true,true,0,(evbefh-1));
1061 //
1062 };
1063 //
1064 //
1065 if ( (ptht - pth) > 1 ){
1066 //
1067 if ( IsDebug() ) printf(" Missing runtrailers! \n");
1068 if ( IsDebug() ) printf(" Attention there is a jump in the runheader counter %i %i %i \n",ptht,pth,ptt);
1069 // is not the consecutive header
1070 while ( pth != ptht ){
1071 //
1072 // treat the header(s) in the middle and then go to the next header, repeat until you reach the correct header.
1073 //
1074 pth++;
1075 //
1076 rh->GetEntry(pth+1);
1077 phh = ehh->GetPscuHeader();
1078 pktt = phh->GetCounter();
1079 obtt = phh->GetOrbitalTime();
1080 cod = ehh->GetCounter();
1081 evbeft = cod->Get(pctp->Physics);
1082 rh->GetEntry(pth);
1083 phh = ehh->GetPscuHeader();
1084 cod = ehh->GetCounter();
1085 pkth = phh->GetCounter();
1086 obth = phh->GetOrbitalTime();
1087 evbefh = cod->Get(pctp->Physics);
1088 //
1089 if ( IsDebug() ) printf(" Try to find the end of a run which has only the runheader %i %i %i \n",ptht,pth,ptt);
1090 if ( IsDebug() ) printf(" ''''''''''''''''''''''''''''''''''''''''''''''''''''''''''' %i %i %i \n",pkth,obth,obtt);
1091 //
1092 this->HandleMissingHoT(false,true,evbefh,evbeft-1);
1093 //
1094 };
1095 //
1096 } else if ( !(ptht - pth) ){
1097 //
1098 if ( IsDebug() ) printf(" Missing runheader! \n");
1099 if ( IsDebug() ) printf(" Attention! the runheader counter did not changed %i %i %i \n",ptht,pth,ptt);
1100 if ( IsDebug() ) printf(" The run should have already been handled by HandleRun() \n");
1101 //
1102 } else {
1103 //
1104 // go on with next header
1105 //
1106 pth = ptht;
1107 };
1108 //
1109 };
1110 //
1111 if ( ptt+1 == rtev){
1112 ptht++;
1113 if ( ptht < rhev ){
1114 rh->GetEntry(ptht);
1115 phh = ehh->GetPscuHeader();
1116 pkth = phh->GetCounter();
1117 obth = phh->GetOrbitalTime();
1118 cod = ehh->GetCounter();
1119 evbefh = cod->Get(pctp->Physics);
1120 if ( IsDebug() ) printf(" Piece of run at the end of file %i %i %i \n",pkth,obth,obtt);
1121 if ( IsDebug() ) printf(" ''''''''''''''''''''''''''''''' %i %i %i \n",ptht,pth,ptt);
1122 if ( IsDebug() ) printf(" ''''''''''''''''''''''''''''''' %i \n",rhev);
1123 //
1124 this->HandleRunFragments(false,true,evbefh,upperentry);
1125 } else {
1126 //
1127 // check if we have a fragment with no header
1128 //
1129 if ( (UInt_t)evbeft < upperentry-1 ){
1130 if ( IsDebug() ) printf(" Piece of run at the end of the file with NO RUNHEADER!\n");
1131 //
1132 if ( (ptt-1) < 0 ) throw -15;
1133 rt->GetEntry(ptt-1);
1134 cod = eht->GetCounter();
1135 evbefh = cod->Get(pctp->Physics);
1136 rt->GetEntry(ptt);
1137 pht = eht->GetPscuHeader();
1138 this->HandleRunFragments(true,true,evbefh,upperentry);
1139 };
1140 };
1141 };
1142 //
1143 };
1144 };
1145 //
1146 return(signal);
1147 };
1148
1149 /**
1150 *
1151 * Check if the run has already been inserted
1152 *
1153 */
1154 Bool_t PamelaDBOperations::IsRunAlreadyInserted(){
1155 //
1156 TSQLResult *result = 0;
1157 TSQLRow *row = 0;
1158 //
1159 stringstream oss;
1160 oss.str("");
1161 //
1162 // the where clause is of the type: boot_number = _our_boot && (
1163 // ( runhead_time >= (_our_runhead_time-10) && runtrail_time <= (_our_runtrail_time+10) &&
1164 // ( runhead_obt >= _our_runheadobt || runhead_pkt >= _our_runheadpkt ) &&
1165 // ( runtrail_obt >= _our_runtrailobt || runtrail_pkt >= _our_runtrailpkt ) )
1166 // ||
1167 // ( runhead_time <= _our_runhead_time && runtrail_time >= _our_runtrail_time) &&
1168 // ( runhead_obt <= _our_runheadobt || runhead_pkt <= _our_runheadpkt ) &&
1169 // ( runtrail_obt <= _our_runtrailobt || runtrail_pkt <= _our_runtrailpkt ) )
1170 // )
1171 //
1172 oss << " SELECT ID,NEVENTS,TRK_CALIB_USED,PKT_COUNTER FROM GL_RUN WHERE "
1173 << " BOOT_NUMBER=" << this->GetBOOTnumber() << " AND ("
1174 << " (RUNHEADER_TIME>=" << (UInt_t)(glrun->GetRUNHEADER_TIME()-10) << " AND "
1175 << " RUNTRAILER_TIME<=" << (UInt_t)(glrun->GetRUNTRAILER_TIME()+10) << " AND ("
1176 << " RUNHEADER_OBT>=" << glrun->GetRUNHEADER_OBT() << " OR "
1177 << " RUNHEADER_PKT>=" << glrun->GetRUNHEADER_PKT() << ") AND ("
1178 << " RUNTRAILER_OBT<=" << glrun->GetRUNTRAILER_OBT() << " OR "
1179 << " RUNTRAILER_PKT<=" << glrun->GetRUNTRAILER_PKT() << ") ) OR "
1180 << " (RUNHEADER_TIME<=" << (UInt_t)glrun->GetRUNHEADER_TIME() << " AND "
1181 << " RUNTRAILER_TIME>=" << (UInt_t)glrun->GetRUNTRAILER_TIME() <<" AND ("
1182 << " RUNHEADER_OBT<=" << glrun->GetRUNHEADER_OBT() << " OR "
1183 << " RUNHEADER_PKT<=" << glrun->GetRUNHEADER_PKT() << ") AND ("
1184 << " RUNTRAILER_OBT>=" << glrun->GetRUNTRAILER_OBT() << " OR "
1185 << " RUNTRAILER_PKT>=" << glrun->GetRUNTRAILER_PKT() << ") ));";
1186 //
1187 if ( IsDebug() ) printf(" check if run has been inserted: query is \n %s \n",oss.str().c_str());
1188 result = conn->Query(oss.str().c_str());
1189 //
1190 if ( !result ) throw -4;
1191 //
1192 row = result->Next();
1193 //
1194 if ( !row ){
1195 if ( IsDebug() ) printf(" The run is new \n");
1196 if ( IsDebug() ) printf(" -> fill the DB \n");
1197 return(false); // the file has not been inserted in the DB, go on.
1198 };
1199 //
1200 Bool_t signal = true;
1201 //
1202 while ( row != NULL ){
1203 if ( IsDebug() ) printf(" A run exists with runheader and runtrailer time and packets compatible with this one \n");
1204 //
1205 // the run has already been inserted
1206 //
1207 // return(true); //<<<<<<<<<<<<<<<<<<<<<<<< patch follows, uncomment here
1208 //
1209 // PATCH!
1210 // we keep the processing run if (in order of growing importance) 1) we have the runtrailer while the old run doesn't have it 2) we have the runheader
1211 // while the old run doesn't have it 3) we have more events than the old run
1212 //
1213 if ( glrun->GetNEVENTS() > (UInt_t)atoll(row->GetField(1)) ){
1214 //
1215 if ( IsDebug() ) printf(" The new run has more events than the old one \n");
1216 oss.str("");
1217 oss << "DELETE FROM GL_RUN WHERE ID=" << row->GetField(0) <<";";
1218 if ( IsDebug() ) printf(" delete the run entry: query is \n %s \n",oss.str().c_str());
1219 conn->Query(oss.str().c_str());
1220 if ( signal ) signal = false;
1221 goto gonext;
1222 //
1223 } else if ( glrun->GetNEVENTS() < (UInt_t)atoll(row->GetField(1)) ){
1224 if ( IsDebug() ) printf(" The new run has less events than the old one \n");
1225 if ( IsDebug() ) printf(" The run is already inserted \n");
1226 goto gonext;
1227 };
1228 //
1229 if ( glrun->GetTRK_CALIB() && !(UInt_t)atoll(row->GetField(2)) ){
1230 //
1231 if ( IsDebug() ) printf(" The new run has the same number of events and the runheader the old one miss the runheader \n");
1232 //
1233 oss.str("");
1234 oss << "DELETE FROM GL_RUN WHERE ID=" << row->GetField(0) <<";";
1235 if ( IsDebug() ) printf(" delete the run entry: query is \n %s \n",oss.str().c_str());
1236 conn->Query(oss.str().c_str());
1237 //
1238 if ( signal ) signal = false;
1239 goto gonext;
1240 } else if ( !glrun->GetTRK_CALIB() && (UInt_t)atoll(row->GetField(2)) ){
1241 if ( IsDebug() ) printf(" The new run has the same number of events but miss the runheader the old has the runheader \n");
1242 if ( IsDebug() ) printf(" The run is already inserted \n");
1243 goto gonext;
1244 };
1245 //
1246 if ( glrun->GetPKT_COUNTER() && !(UInt_t)atoll(row->GetField(3)) ){
1247 //
1248 if ( IsDebug() ) printf(" The new run has the same number of events, the runheader and the runtrailer the old one miss the runtrailer \n");
1249 //
1250 oss.str("");
1251 oss << "DELETE FROM GL_RUN WHERE ID=" << row->GetField(0) <<";";
1252 if ( IsDebug() ) printf(" delete the run entry: query is \n %s \n",oss.str().c_str());
1253 conn->Query(oss.str().c_str());
1254 if ( signal ) signal = false;
1255 //
1256 };
1257 //
1258 gonext:
1259 // END PATCH!
1260 //
1261 row = result->Next();
1262 //
1263 };
1264 //
1265 delete result;
1266 //
1267 if ( signal && IsDebug() ) printf(" The run has already been inserted \n");
1268 return(signal);
1269 };
1270
1271 /**
1272 * Handle runs which seems to be good ones.
1273 **/
1274 void PamelaDBOperations::HandleRun(){
1275 ULong64_t chkpkt = 0;
1276 ULong64_t pktt = (ULong64_t)PKT(pht->GetCounter());
1277 ULong64_t pkth = (ULong64_t)PKT(phh->GetCounter());
1278 //
1279 chkpkt = pkth + (ULong64_t)runt->PKT_COUNTER + 1ULL + 1ULL;
1280 //
1281 if ( labs(chkpkt-pktt)<2 ){
1282 //
1283 if ( IsDebug() ) printf(" check %llu pktt %llu \n",chkpkt,pktt);
1284 //
1285 // it must be a good run, fill the db
1286 //
1287 this->FillClass();
1288 //
1289 if ( !IsRunAlreadyInserted() ) glrun->Fill_GL_RUN(conn);
1290 } else {
1291 //
1292 if ( IsDebug() ) printf(" oh no! the distance between runheader and runtrailer seems wrong: check %llu pktt %llu \n",chkpkt,pktt);
1293 if ( IsDebug() ) printf(" try to recover run(s) without runheader and runtrailer between runheader and runtrailer\n");
1294 //
1295 this->HandleSuspiciousRun();
1296 //
1297 };
1298 //
1299 //
1300 return;
1301 };
1302
1303
1304 /**
1305 * Handle run fragments at the beginning or at the end of the file
1306 **/
1307 void PamelaDBOperations::HandleRunFragments(Bool_t mishead, Bool_t mistrail, UInt_t firstev, UInt_t lastev){
1308 //
1309 UInt_t rhfirstev = firstev;
1310 UInt_t rtlastev = lastev;
1311 Bool_t found = false;
1312 //
1313 TSQLResult *result = 0;
1314 TSQLRow *row = 0;
1315 //
1316 stringstream oss;
1317 oss.str("");
1318 //
1319 // is the piece of run good (no other packets inside)?
1320 //
1321 if ( !this->IsRunConsistent(mishead,mistrail,firstev,lastev)){
1322 //
1323 // if not, handle other pieces and continue with the first one
1324 //
1325 if ( IsDebug() ) printf("The run is not consistent, it contains non-physics packets! The run has been handled \n");
1326 //
1327 };
1328 //
1329 // we have now the good first piece of a run, fill the glrun object
1330 //
1331 if ( rhfirstev != firstev && !mishead ) mishead = true;
1332 if ( rtlastev != lastev && !mistrail ) mistrail = true;
1333 //
1334 this->FillClass(mishead,mistrail,firstev,lastev);
1335 //
1336 if ( IsDebug() ) printf("The run is good, is it the other piece in the GL_RUN_FRAGMENTS table?\n");
1337 //
1338 // can we find the other piece of the run in the GL_RUN_FRAGMENTS table?
1339 //
1340 if ( mishead && rhfirstev == firstev ) { // look for runheader (only when at the beginning of the file, if at the end and the runh is
1341 // missing it no way we can found a piece in the frag table
1342 //
1343 oss.str("");
1344 oss << " SELECT ID,TRK_CALIB_USED,RUNTRAILER_TIME,RUNTRAILER_OBT,RUNHEADER_PKT,RUNTRAILER_PKT FROM GL_RUN_FRAGMENTS WHERE "
1345 << " BOOT_NUMBER=" << this->GetBOOTnumber() << " AND "
1346 << " RUNHEADER_TIME <= " << (UInt_t)glrun->GetRUNHEADER_TIME()
1347 << " ORDER BY RUNHEADER_TIME DESC LIMIT 1;"; // DESC NOT ASC!!
1348 //
1349 if ( IsDebug() ) printf(" look for runheader in the fragments table: query is \n %s \n",oss.str().c_str());
1350 result = conn->Query(oss.str().c_str());
1351 //
1352 if ( !result ) throw -4;
1353 //
1354 row = result->Next();
1355 //
1356 if ( !row ){
1357 if ( IsDebug() ) printf(" the corresponding piece has NOT been found \n");
1358 found = false;
1359 } else {
1360 //
1361 found = false; // default value
1362 //
1363 if ( IsDebug() ) printf(" Found a possible candidate, checking if it is the good one... \n");
1364 //
1365 // if we have both runheader and runtrailer we can check with pkt_counter:
1366 //
1367 if ( !mistrail && (UInt_t)atoll(row->GetField(1)) != 0 ){
1368 ULong64_t chkpkt = 0;
1369 ULong64_t pktt = (ULong64_t)PKT(glrun->GetRUNTRAILER_PKT());
1370 ULong64_t pkth = (ULong64_t)PKT((UInt_t)atoll(row->GetField(4)));
1371 //
1372 chkpkt = pkth + (ULong64_t)glrun->GetPKT_COUNTER() + 1ULL + 1ULL;
1373 //
1374 if ( labs(chkpkt-pktt)<2 ){
1375 //
1376 if ( IsDebug() ) printf(" FOUND!!! check %llu pktt %llu \n",chkpkt,pktt);
1377 //
1378 found = true;
1379 //
1380 } else {
1381 //
1382 if ( IsDebug() ) printf(" The check with pkt counter failed: check %llu pktt %llu \n",chkpkt,pktt);
1383 //
1384 found = false;
1385 //
1386 };
1387 };
1388 if ( !found ){
1389 //
1390 // if we arrive here we were not able to decide if the two pieces matches using only the pkt counter information, we must check times and obts
1391 //
1392 ULong64_t chkpkt1 = 0;
1393 ULong64_t orunh1 = (ULong64_t)PKT(glrun->GetRUNHEADER_PKT());
1394 ULong64_t dbrunt1 = (ULong64_t)PKT((UInt_t)atoll(row->GetField(5)));
1395 chkpkt1 = labs(orunh1-dbrunt1);
1396 //
1397 ULong64_t chkpkt2 = 0;
1398 ULong64_t orunh2 = (ULong64_t)OBT(glrun->GetRUNHEADER_OBT());
1399 ULong64_t dbrunt2 = (ULong64_t)OBT((UInt_t)atoll(row->GetField(3)));
1400 chkpkt2 = labs(orunh2-dbrunt2);
1401 //
1402 ULong64_t chkpkt3 = 0;
1403 ULong64_t orunh3 = (ULong64_t)(glrun->GetRUNHEADER_TIME());
1404 ULong64_t dbrunt3 = (ULong64_t)((UInt_t)atoll(row->GetField(2)));
1405 chkpkt3 = labs(orunh3-dbrunt3);
1406 //
1407 if ( (chkpkt1 < 200 || chkpkt2 < 20000) && chkpkt3 < 20 ){
1408 // if ( chkpkt1 < 100 && chkpkt2 < 30000 && chkpkt3 < 30 ){
1409 //
1410 if ( IsDebug() ) printf(" FOUND!!! check1 %llu<200 cechk2 %llu<20000 check3 %llu<20 \n",chkpkt1,chkpkt2,chkpkt3);
1411 //
1412 found = true;
1413 //
1414 } else {
1415 //
1416 if ( IsDebug() ) printf(" Check failed: check1 %llu<200? cechk2 %llu<20000? check3 %llu<20? \n",chkpkt1,chkpkt2,chkpkt3);
1417 //
1418 found = false;
1419 //
1420 };
1421 };
1422 };
1423 //
1424 if ( found ){
1425 //
1426 // we have found the missing piece, glue the two together, merge the informations, fill the gl_run table (check first runs do not exists), delete entry in frag table
1427 //
1428 if ( IsDebug() ) printf(" now you can handle the piece of the run \n ");
1429 //
1430 GL_RUN *glrun1 = new GL_RUN();
1431 //
1432 UInt_t idfrag = (UInt_t)atoll(row->GetField(0));
1433 //
1434 oss.str("");
1435 oss << " ID="<<row->GetField(0)<<";";
1436 //
1437 glrun1->Query_GL_RUN_FRAGMENTS(oss.str().c_str(),conn); // here we have runheader infos
1438 //
1439 // merge infos
1440 //
1441 UInt_t apkt = PKT(glrun1->GetRUNTRAILER_PKT());
1442 ULong64_t aobt = OBT(glrun1->GetRUNTRAILER_OBT());
1443 UInt_t bpkt = PKT(glrun->GetRUNHEADER_PKT());
1444 ULong64_t bobt = OBT(glrun->GetRUNHEADER_OBT());
1445 if ( IsDebug() ) printf(" Check overlapping events: %i %i %llu %llu firstev is %i\n",apkt,bpkt,aobt,bobt,firstev);
1446 TTree *T= 0;
1447 T = (TTree*)file->Get("Physics");
1448 if ( !T || T->IsZombie() ) throw -16;
1449 EventHeader *eh = 0;
1450 PscuHeader *ph = 0;
1451 T->SetBranchAddress("Header", &eh);
1452 while ( apkt > bpkt && aobt > bobt && firstev < lastev ){
1453 T->GetEntry(firstev);
1454 ph = eh->GetPscuHeader();
1455 bpkt = PKT(ph->GetCounter());
1456 bobt = OBT(ph->GetOrbitalTime());
1457 firstev++;
1458 };
1459 if ( IsDebug() ) printf(" Check overlapping events done: %i %i %llu %llu firstev is %i\n",apkt,bpkt,aobt,bobt,firstev);
1460 //
1461 glrun1->SetID(0);
1462 glrun1->SetPKT_COUNTER(glrun->GetPKT_COUNTER());
1463 glrun1->SetPKT_READY_COUNTER(glrun->GetPKT_READY_COUNTER());
1464 glrun1->SetRUNTRAILER_TIME(glrun->GetRUNTRAILER_TIME());
1465 glrun1->SetRUNTRAILER_OBT(glrun->GetRUNTRAILER_OBT());
1466 glrun1->SetRUNTRAILER_PKT(glrun->GetRUNTRAILER_PKT());
1467 //
1468 glrun->SetEV_FROM(firstev);
1469 glrun->SetNEVENTS(lastev-firstev+1);
1470 glrun->SetRUNHEADER_TIME(glrun1->GetRUNHEADER_TIME());
1471 glrun->SetRUNHEADER_OBT(glrun1->GetRUNHEADER_OBT());
1472 glrun->SetRUNHEADER_PKT(glrun1->GetRUNHEADER_PKT());
1473 glrun->SetCOMPILATIONTIMESTAMP(glrun1->GetCOMPILATIONTIMESTAMP());
1474 glrun->SetFAV_WRK_SCHEDULE(glrun1->GetFAV_WRK_SCHEDULE());
1475 glrun->SetEFF_WRK_SCHEDULE(glrun1->GetEFF_WRK_SCHEDULE());
1476 glrun->SetPRH_VAR_TRG_MODE_A(glrun1->GetPRH_VAR_TRG_MODE_A());
1477 glrun->SetPRH_VAR_TRG_MODE_B(glrun1->GetPRH_VAR_TRG_MODE_B());
1478 glrun->SetACQ_BUILD_INFO(glrun1->GetACQ_BUILD_INFO());
1479 glrun->SetACQ_VAR_INFO(glrun1->GetACQ_VAR_INFO());
1480 glrun->SetRM_ACQ_AFTER_CALIB(glrun1->GetRM_ACQ_AFTER_CALIB());
1481 glrun->SetRM_ACQ_SETTING_MODE(glrun1->GetRM_ACQ_SETTING_MODE());
1482 glrun->SetTRK_CALIB_USED(glrun1->GetTRK_CALIB_USED());
1483 glrun->SetCAL_DSP_MASK(glrun1->GetCAL_DSP_MASK());
1484 glrun->SetLAST_TIMESYNC(glrun1->GetLAST_TIMESYNC());
1485 glrun->SetOBT_TIMESYNC(glrun1->GetOBT_TIMESYNC());
1486 //
1487 if ( !IsRunAlreadyInserted() ){
1488 //
1489 glrun->Fill_GL_RUN(conn);
1490 //
1491 // get id number
1492 //
1493 oss.str("");
1494 oss << " SELECT ID FROM GL_RUN WHERE BOOT_NUMBER="<<this->GetBOOTnumber()<<" AND "
1495 << " RUNHEADER_OBT="<<glrun->GetRUNHEADER_OBT()<<" AND "
1496 << " RUNTRAILER_OBT="<<glrun->GetRUNTRAILER_OBT()<<";";
1497 //
1498 if ( IsDebug() ) printf(" search for idrun0 , query is : \n%s\n",oss.str().c_str());
1499 //
1500 result = conn->Query(oss.str().c_str());
1501 if ( !result ) throw -4;
1502 row = result->Next();
1503 //
1504 UInt_t idrun0 = 0;
1505 if ( !row ){
1506 throw -10;
1507 } else {
1508 idrun0 = (UInt_t)atoll(row->GetField(0));
1509 };
1510 //
1511 glrun1->SetID_RUN_FRAG(idrun0);
1512 //
1513 glrun1->Fill_GL_RUN(conn);
1514 //
1515 oss.str("");
1516 oss << " SELECT ID FROM GL_RUN WHERE ID_RUN_FRAG="<<idrun0<<" ;";
1517 //
1518 if ( IsDebug() ) printf(" search for idrun1 , query is : \n%s\n",oss.str().c_str());
1519 //
1520 result = conn->Query(oss.str().c_str());
1521 if ( !result ) throw -4;
1522 row = result->Next();
1523 //
1524 UInt_t idrun1 = 0;
1525 if ( !row ){
1526 throw -10;
1527 } else {
1528 idrun1 = (UInt_t)atoll(row->GetField(0));
1529 };
1530 //
1531 oss.str("");
1532 oss << " UPDATE GL_RUN SET ID_RUN_FRAG="<<idrun1<<" WHERE ID="<<idrun0<<" ;";
1533 //
1534 result = conn->Query(oss.str().c_str());
1535 if ( !result ) throw -4;
1536 //
1537 };
1538 //
1539 delete glrun1;
1540 //
1541 // delete old entry in fragment table
1542 //
1543 oss.str("");
1544 //
1545 oss << " DELETE FROM GL_RUN_FRAGMENTS WHERE ID = " << idfrag << ";";
1546 //
1547 if ( IsDebug() ) printf(" Delete from frag table the old run :\n query is \n %s \n",oss.str().c_str());
1548 result = conn->Query(oss.str().c_str());
1549 if ( !result ) throw -4;
1550 //
1551 return;
1552 //
1553 };
1554 //
1555 };
1556 //
1557 if ( mistrail && rtlastev == lastev ) { // look for runtrailer (only when at the end of the file, if at the beginning and the runh is
1558 // missing it no way we can found a piece in the frag table
1559 //
1560 oss.str("");
1561 oss << " SELECT ID,PKT_COUNTER,RUNHEADER_TIME,RUNHEADER_OBT,RUNTRAILER_PKT,RUNHEADER_PKT FROM GL_RUN_FRAGMENTS WHERE "
1562 << " BOOT_NUMBER=" << this->GetBOOTnumber() << " AND "
1563 << " RUNTRAILER_TIME >= " << (UInt_t)glrun->GetRUNTRAILER_TIME()
1564 << " ORDER BY RUNTRAILER_TIME ASC LIMIT 1;";
1565 //
1566 if ( IsDebug() ) printf(" look for runtrailer in the fragments table: query is \n %s \n",oss.str().c_str());
1567 result = conn->Query(oss.str().c_str());
1568 //
1569 if ( !result ) throw -4;
1570 //
1571 row = result->Next();
1572 //
1573 if ( !row ){
1574 if ( IsDebug() ) printf(" the corresponding piece has NOT been found \n");
1575 found = false;
1576 } else {
1577 //
1578 found = false; // default value
1579 //
1580 if ( IsDebug() ) printf(" Found a possible candidate, checking if it is the good one... \n");
1581 //
1582 // if we have both runheader and runtrailer we can check with pkt_counter:
1583 //
1584 if ( !mishead && (UInt_t)atoll(row->GetField(1)) != 0 ){
1585 ULong64_t chkpkt = 0;
1586 ULong64_t pktt = (ULong64_t)PKT((UInt_t)atoll(row->GetField(4)));
1587 ULong64_t pkth = (ULong64_t)PKT(glrun->GetRUNHEADER_PKT());
1588 //
1589 chkpkt = pkth + (ULong64_t)((UInt_t)atoll(row->GetField(1))) + 1ULL + 1ULL;
1590 //
1591 if ( labs(chkpkt-pktt)<2 ){
1592 //
1593 if ( IsDebug() ) printf(" FOUND!!! check %llu pktt %llu \n",chkpkt,pktt);
1594 //
1595 found = true;
1596 //
1597 } else {
1598 //
1599 if ( IsDebug() ) printf(" The check with pkt counter failed: check %llu pktt %llu \n",chkpkt,pktt);
1600 //
1601 found = false;
1602 //
1603 };
1604 };
1605 if ( !found ){
1606 //
1607 // if we arrive here we were not able to decide if the two pieces matches using only the pkt counter information, we must check times and obts
1608 //
1609 ULong64_t chkpkt1 = 0;
1610 ULong64_t orunh1 = (ULong64_t)PKT(glrun->GetRUNTRAILER_PKT());
1611 ULong64_t dbrunt1 = (ULong64_t)PKT((UInt_t)atoll(row->GetField(5)));
1612 chkpkt1 = labs(orunh1-dbrunt1);
1613 //
1614 ULong64_t chkpkt2 = 0;
1615 ULong64_t orunh2 = (ULong64_t)OBT(glrun->GetRUNTRAILER_OBT());
1616 ULong64_t dbrunt2 = (ULong64_t)OBT((UInt_t)atoll(row->GetField(3)));
1617 chkpkt2 = labs(orunh2-dbrunt2);
1618 //
1619 ULong64_t chkpkt3 = 0;
1620 ULong64_t orunh3 = (ULong64_t)(glrun->GetRUNTRAILER_TIME());
1621 ULong64_t dbrunt3 = (ULong64_t)((UInt_t)atoll(row->GetField(2)));
1622 chkpkt3 = labs(orunh3-dbrunt3);
1623 //
1624 if ( (chkpkt1 < 200 || chkpkt2 < 20000) && chkpkt3 < 20 ){
1625 //
1626 if ( IsDebug() ) printf(" FOUND!!! check1 %llu<200 cechk2 %llu<20000 check3 %llu<20 \n",chkpkt1,chkpkt2,chkpkt3);
1627 //
1628 found = true;
1629 //
1630 } else {
1631 //
1632 if ( IsDebug() ) printf(" Check failed: check1 %llu<200? cechk2 %llu<20000? check3 %llu<20? \n",chkpkt1,chkpkt2,chkpkt3);
1633 //
1634 found = false;
1635 //
1636 };
1637 };
1638 };
1639 //
1640 if ( found ){
1641 //
1642 // we have found the missing piece, glue the two together, merge the informations, fill the gl_run table (check first runs do not exists), delete entry in frag table
1643 //
1644 if ( IsDebug() ) printf(" now you can handle the piece of the run \n ");
1645 //
1646 GL_RUN *glrun1 = new GL_RUN();
1647 //
1648 UInt_t idfrag = (UInt_t)atoll(row->GetField(0));
1649 //
1650 oss.str("");
1651 oss << " ID="<<row->GetField(0)<<";";
1652 //
1653 glrun1->Query_GL_RUN_FRAGMENTS(oss.str().c_str(),conn); // here we have runtrailer infos
1654 //
1655 // merge infos
1656 //
1657 UInt_t apkt = PKT(glrun->GetRUNTRAILER_PKT());
1658 ULong64_t aobt = OBT(glrun->GetRUNTRAILER_OBT());
1659 UInt_t bpkt = PKT(glrun1->GetRUNHEADER_PKT());
1660 ULong64_t bobt = OBT(glrun1->GetRUNHEADER_OBT());
1661 if ( IsDebug() ) printf(" Check overlapping events: %i %i %llu %llu lastev is %i\n",apkt,bpkt,aobt,bobt,lastev);
1662 TTree *T= 0;
1663 T = (TTree*)file->Get("Physics");
1664 if ( !T || T->IsZombie() ) throw -16;
1665 EventHeader *eh = 0;
1666 PscuHeader *ph = 0;
1667 T->SetBranchAddress("Header", &eh);
1668 while ( apkt > bpkt && aobt > bobt && lastev > 0 ){
1669 T->GetEntry(lastev);
1670 ph = eh->GetPscuHeader();
1671 apkt = PKT(ph->GetCounter());
1672 aobt = OBT(ph->GetOrbitalTime());
1673 lastev--;
1674 };
1675 if ( IsDebug() ) printf(" Check overlapping events done: %i %i %llu %llu lastev is %i\n",apkt,bpkt,aobt,bobt,lastev);
1676 //
1677 glrun->SetEV_TO(lastev);
1678 glrun->SetNEVENTS(lastev-firstev+1);
1679 glrun->SetPKT_COUNTER(glrun1->GetPKT_COUNTER());
1680 glrun->SetPKT_READY_COUNTER(glrun1->GetPKT_READY_COUNTER());
1681 glrun->SetRUNTRAILER_TIME(glrun1->GetRUNTRAILER_TIME());
1682 glrun->SetRUNTRAILER_OBT(glrun1->GetRUNTRAILER_OBT());
1683 glrun->SetRUNTRAILER_PKT(glrun1->GetRUNTRAILER_PKT());
1684 //
1685 glrun1->SetID(0);
1686 glrun1->SetRUNHEADER_TIME(glrun->GetRUNHEADER_TIME());
1687 glrun1->SetRUNHEADER_OBT(glrun->GetRUNHEADER_OBT());
1688 glrun1->SetRUNHEADER_PKT(glrun->GetRUNHEADER_PKT());
1689 glrun1->SetCOMPILATIONTIMESTAMP(glrun->GetCOMPILATIONTIMESTAMP());
1690 glrun1->SetFAV_WRK_SCHEDULE(glrun->GetFAV_WRK_SCHEDULE());
1691 glrun1->SetEFF_WRK_SCHEDULE(glrun->GetEFF_WRK_SCHEDULE());
1692 glrun1->SetPRH_VAR_TRG_MODE_A(glrun->GetPRH_VAR_TRG_MODE_A());
1693 glrun1->SetPRH_VAR_TRG_MODE_B(glrun->GetPRH_VAR_TRG_MODE_B());
1694 glrun1->SetACQ_BUILD_INFO(glrun->GetACQ_BUILD_INFO());
1695 glrun1->SetACQ_VAR_INFO(glrun->GetACQ_VAR_INFO());
1696 glrun1->SetRM_ACQ_AFTER_CALIB(glrun->GetRM_ACQ_AFTER_CALIB());
1697 glrun1->SetRM_ACQ_SETTING_MODE(glrun->GetRM_ACQ_SETTING_MODE());
1698 glrun1->SetTRK_CALIB_USED(glrun->GetTRK_CALIB_USED());
1699 glrun1->SetCAL_DSP_MASK(glrun->GetCAL_DSP_MASK());
1700 glrun1->SetLAST_TIMESYNC(glrun->GetLAST_TIMESYNC());
1701 glrun1->SetOBT_TIMESYNC(glrun->GetOBT_TIMESYNC());
1702 //
1703 if ( !IsRunAlreadyInserted() ){
1704 //
1705 glrun->Fill_GL_RUN(conn);
1706 //
1707 // get id number
1708 //
1709 oss.str("");
1710 oss << " SELECT ID FROM GL_RUN WHERE BOOT_NUMBER="<<this->GetBOOTnumber()<<" AND "
1711 << " RUNHEADER_OBT="<<glrun->GetRUNHEADER_OBT()<<" AND "
1712 << " RUNTRAILER_OBT="<<glrun->GetRUNTRAILER_OBT()<<";";
1713 //
1714 if ( IsDebug() ) printf(" search for idrun0 , query is : \n%s\n",oss.str().c_str());
1715 //
1716 result = conn->Query(oss.str().c_str());
1717 if ( !result ) throw -4;
1718 row = result->Next();
1719 //
1720 UInt_t idrun0 = 0;
1721 if ( !row ){
1722 throw -10;
1723 } else {
1724 idrun0 = (UInt_t)atoll(row->GetField(0));
1725 };
1726 //
1727 glrun1->SetID_RUN_FRAG(idrun0);
1728 //
1729 glrun1->Fill_GL_RUN(conn);
1730 //
1731 oss.str("");
1732 oss << " SELECT ID FROM GL_RUN WHERE ID_RUN_FRAG="<<idrun0<<" ;";
1733 //
1734 if ( IsDebug() ) printf(" search for idrun1 , query is : \n%s\n",oss.str().c_str());
1735 //
1736 result = conn->Query(oss.str().c_str());
1737 if ( !result ) throw -4;
1738 row = result->Next();
1739 //
1740 UInt_t idrun1 = 0;
1741 if ( !row ){
1742 throw -10;
1743 } else {
1744 idrun1 = (UInt_t)atoll(row->GetField(0));
1745 };
1746 //
1747 oss.str("");
1748 oss << " UPDATE GL_RUN SET ID_RUN_FRAG="<<idrun1<<" WHERE ID="<<idrun0<<" ;";
1749 //
1750 result = conn->Query(oss.str().c_str());
1751 if ( !result ) throw -4;
1752 //
1753 };
1754 //
1755 delete glrun1;
1756 //
1757 // delete old entry in fragment table
1758 //
1759 oss.str("");
1760 //
1761 oss << " DELETE FROM GL_RUN_FRAGMENTS WHERE ID = " << idfrag << ";";
1762 //
1763 if ( IsDebug() ) printf(" Delete from frag table the old run :\n query is \n %s \n",oss.str().c_str());
1764 result = conn->Query(oss.str().c_str());
1765 if ( !result ) throw -4;
1766 //
1767 //
1768 return;
1769 //
1770 };
1771 //
1772 };
1773 //
1774 if ( !found ){
1775 //
1776 if ( IsDebug() ) printf(" not found, check if we have already processed the file \n ");
1777 //
1778 // not found, has this run already inserted in the GL_RUN or in the GL_RUN_FRAGMENTS table?
1779 //
1780 oss.str("");
1781 oss << " SELECT ID FROM GL_RUN WHERE "
1782 << " BOOT_NUMBER=" << this->GetBOOTnumber() << " AND ("
1783 << " (RUNHEADER_TIME>=" << (UInt_t)(glrun->GetRUNHEADER_TIME()-10) << " AND "
1784 << " RUNTRAILER_TIME<=" << (UInt_t)(glrun->GetRUNTRAILER_TIME()+10) << " AND ("
1785 << " RUNHEADER_OBT>=" << glrun->GetRUNHEADER_OBT() << " OR "
1786 << " RUNHEADER_PKT>=" << glrun->GetRUNHEADER_PKT() << ") AND ("
1787 << " RUNTRAILER_OBT<=" << glrun->GetRUNTRAILER_OBT() << " OR "
1788 << " RUNTRAILER_PKT<=" << glrun->GetRUNTRAILER_PKT() << ") ) OR "
1789 << " (RUNHEADER_TIME<=" << (UInt_t)glrun->GetRUNHEADER_TIME() << " AND "
1790 << " RUNTRAILER_TIME>=" << (UInt_t)glrun->GetRUNTRAILER_TIME() <<" AND ("
1791 << " RUNHEADER_OBT<=" << glrun->GetRUNHEADER_OBT() << " OR "
1792 << " RUNHEADER_PKT<=" << glrun->GetRUNHEADER_PKT() << ") AND ("
1793 << " RUNTRAILER_OBT>=" << glrun->GetRUNTRAILER_OBT() << " OR "
1794 << " RUNTRAILER_PKT>=" << glrun->GetRUNTRAILER_PKT() << ") ));";
1795 //
1796 if ( IsDebug() ) printf(" check if run has been inserted: query is \n %s \n",oss.str().c_str());
1797 result = conn->Query(oss.str().c_str());
1798 //
1799 if ( !result ) throw -4;
1800 //
1801 row = result->Next();
1802 //
1803 if ( !row ){
1804 //
1805 oss.str("");
1806 oss << " SELECT ID FROM GL_RUN_FRAGMENTS WHERE "
1807 << " BOOT_NUMBER=" << this->GetBOOTnumber() << " AND ("
1808 << " (RUNHEADER_TIME>=" << (UInt_t)(glrun->GetRUNHEADER_TIME()-10) << " AND "
1809 << " RUNTRAILER_TIME<=" << (UInt_t)(glrun->GetRUNTRAILER_TIME()+10) << " AND ("
1810 << " RUNHEADER_OBT>=" << glrun->GetRUNHEADER_OBT() << " OR "
1811 << " RUNHEADER_PKT>=" << glrun->GetRUNHEADER_PKT() << ") AND ("
1812 << " RUNTRAILER_OBT<=" << glrun->GetRUNTRAILER_OBT() << " OR "
1813 << " RUNTRAILER_PKT<=" << glrun->GetRUNTRAILER_PKT() << ") ) OR "
1814 << " (RUNHEADER_TIME<=" << (UInt_t)glrun->GetRUNHEADER_TIME() << " AND "
1815 << " RUNTRAILER_TIME>=" << (UInt_t)glrun->GetRUNTRAILER_TIME() <<" AND ("
1816 << " RUNHEADER_OBT<=" << glrun->GetRUNHEADER_OBT() << " OR "
1817 << " RUNHEADER_PKT<=" << glrun->GetRUNHEADER_PKT() << ") AND ("
1818 << " RUNTRAILER_OBT>=" << glrun->GetRUNTRAILER_OBT() << " OR "
1819 << " RUNTRAILER_PKT>=" << glrun->GetRUNTRAILER_PKT() << ") ));";
1820 //
1821 if ( IsDebug() ) printf(" check if run has been inserted: query is \n %s \n",oss.str().c_str());
1822 result = conn->Query(oss.str().c_str());
1823 //
1824 if ( !result ) throw -4;
1825 //
1826 row = result->Next();
1827 //
1828 if ( !row ){
1829 //
1830 // no, insert this run in the GL_RUN_FRAGMENTS table (check if exist before!)
1831 //
1832 if ( IsDebug() ) printf(" The run is new \n");
1833 if ( IsDebug() ) printf(" -> fill the GL_RUNFRAGMENTS table \n");
1834 //
1835 glrun->Fill_GL_RUN_FRAGMENTS(conn);
1836 //
1837 } else {
1838 if ( IsDebug() ) printf(" The run is already present in the fragment table \n");
1839 };
1840 } else {
1841 if ( IsDebug() ) printf(" The run is already present in the GL_RUN table \n");
1842 };
1843 };
1844 //
1845 return;
1846 };
1847
1848
1849 /**
1850 * Handle run without header or trailer
1851 **/
1852 void PamelaDBOperations::HandleMissingHoT(Bool_t mishead, Bool_t mistrail, UInt_t firstev, UInt_t lastev){
1853 //
1854 //
1855 // is the piece of run good (no other packets inside)?
1856 //
1857 if ( !this->IsRunConsistent(mishead,mistrail,firstev,lastev)){
1858 //
1859 // if not, handle other pieces and continue with the first one
1860 //
1861 if ( IsDebug() ) printf("The run is not consistent, it contains non-physics packets! The run has been handled \n");
1862 //
1863 } else {
1864 //
1865 this->FillClass(mishead,mistrail,firstev,lastev);
1866 //
1867 if ( !IsRunAlreadyInserted() ) glrun->Fill_GL_RUN(conn);
1868 //
1869 };
1870 //
1871 return;
1872 };
1873
1874 /**
1875 *
1876 * check if we have non-physics packets inside the run
1877 *
1878 */
1879 Bool_t PamelaDBOperations::IsRunConsistent(Bool_t mishead, Bool_t mistrail, UInt_t &firstev, UInt_t &lastev){
1880 //
1881 EventCounter *code=0;
1882 //
1883 UInt_t nevent = 0;
1884 UInt_t checkfirst = 0;
1885 UInt_t checklast = 0;
1886 UInt_t firstentry = 0;
1887 UInt_t lastentry = 0;
1888 UInt_t firstTime = 0;
1889 UInt_t lastTime = 0;
1890 UInt_t firstPkt = 0;
1891 UInt_t lastPkt = 0;
1892 UInt_t firstObt = 0;
1893 UInt_t lastObt = 0;
1894 //
1895 pcksList packetsNames;
1896 pcksList::iterator Iter;
1897 getPacketsNames(packetsNames);
1898 //
1899 TTree *T= 0;
1900 T =(TTree*)file->Get("Physics");
1901 if ( !T || T->IsZombie() ) throw -16;
1902 EventHeader *eh = 0;
1903 PscuHeader *ph = 0;
1904 T->SetBranchAddress("Header", &eh);
1905 nevent = T->GetEntries();
1906 //
1907 //
1908 if ( firstev == lastev+1 ) { // no events inside the run!
1909 if ( IsDebug() ) printf(" Checking but no events in the run! \n");
1910 // return true is correct
1911 return(true);
1912 //
1913 } else {
1914 //
1915 T->GetEntry(firstev);
1916 code = eh->GetCounter();
1917 checkfirst = 0;
1918 for(Iter = packetsNames.begin(); Iter != packetsNames.end(); Iter++){
1919 if ( strcmp(*Iter,"Physics") ) checkfirst += code->Get(GetPacketType(*Iter));
1920 };
1921 if ( IsDebug() ) printf(" Check first is %i firstev is %i\n",checkfirst,firstev);
1922 //
1923 T->GetEntry(lastev);
1924 code = eh->GetCounter();
1925 checklast = 0;
1926 for(Iter = packetsNames.begin(); Iter != packetsNames.end(); Iter++){
1927 if ( strcmp(*Iter,"Physics") ) checklast += code->Get(GetPacketType(*Iter));
1928 };
1929 if ( IsDebug() ) printf(" Check last is %i lastev is %i\n",checklast,lastev);
1930 //
1931 if ( checkfirst == checklast ){
1932 //
1933 if ( IsDebug() ) printf(" No packets but physics inside the run, I will consider it as good\n");
1934 //
1935 return(true);
1936 //
1937 } else {
1938 //
1939 if ( IsDebug() ) printf(" There are no-phyics packets inside the run!\n");
1940 //
1941 // HERE WE MUST HANDLE THAT RUNS AND GO BACK
1942 //
1943 if ( IsDebug() ) printf(" Never seen this case, try to handle it anyway, it was throw -95\n");
1944 //
1945 Bool_t emptyruns = false;
1946 UInt_t check = 0;
1947 UInt_t lastevtemp = lastev;
1948 UInt_t firstevno = firstev;
1949 //
1950 for (UInt_t i=firstev; i<=lastev; i++){
1951 //
1952 T->GetEntry(i);
1953 code = eh->GetCounter();
1954 //
1955 check = 0;
1956 //
1957 for(Iter = packetsNames.begin(); Iter != packetsNames.end(); Iter++){
1958 if ( strcmp(*Iter,"Physics") ) check += code->Get(GetPacketType(*Iter));
1959 };
1960 //
1961 if ( checkfirst < check || i == lastev ){
1962 //
1963 firstentry = firstevno;
1964 //
1965 if ( checkfirst < check ){
1966 lastentry = i-1;
1967 } else {
1968 lastentry = i;
1969 };
1970 //
1971 if ( IsDebug() ) printf(" Run between %i and %i entries\n",firstentry,lastentry);
1972 //
1973 glrun->SetEV_FROM(firstentry);
1974 glrun->SetEV_TO(lastentry);
1975 if ( lastentry == (firstentry-1) ){ // no physics packets inside physics run with no runheader no runtrailer
1976 if ( IsDebug() ) printf(" no physics packets inside physics run with no runheader no runtrailer\n");
1977 lastentry--;
1978 };
1979 glrun->SetNEVENTS(lastentry-firstentry+1);
1980 //
1981 glrun->Set_GL_RUNH0();
1982 glrun->Set_GL_RUNT0();
1983 //
1984 glrun->SetLAST_TIMESYNC(0);
1985 glrun->SetOBT_TIMESYNC(0);
1986 //
1987 T->GetEntry(firstentry);
1988 ph = eh->GetPscuHeader();
1989 firstObt = ph->GetOrbitalTime();
1990 firstTime = this->GetAbsTime(firstObt);
1991 firstPkt = ph->GetCounter();
1992 //
1993 T->GetEntry(lastentry);
1994 ph = eh->GetPscuHeader();
1995 lastObt = ph->GetOrbitalTime();
1996 lastTime = this->GetAbsTime(lastObt);
1997 lastPkt = ph->GetCounter();
1998 //
1999 glrun->SetRUNHEADER_PKT(firstPkt);
2000 glrun->SetRUNTRAILER_PKT(lastPkt);
2001 //
2002 glrun->SetRUNHEADER_OBT(firstObt);
2003 glrun->SetRUNTRAILER_OBT(lastObt);
2004 //
2005 if ( firstev == firstentry && !emptyruns && !mishead ){
2006 glrun->Set_GL_RUNH(runh,phh);
2007 firstTime = this->GetAbsTime(phh->GetOrbitalTime());
2008 if ( IsDebug() ) printf(" We have the runheader \n");
2009 };
2010 if ( lastev == i && !mistrail ){
2011 glrun->Set_GL_RUNT(runt,pht);
2012 lastTime = this->GetAbsTime(pht->GetOrbitalTime());
2013 if ( IsDebug() ) printf(" We have the runtrailer \n");
2014 };
2015 //
2016 if ( lastentry == (firstentry-2) ){ // no events in the run
2017 emptyruns = true;
2018 if ( IsDebug() ) printf(" No events in the run \n");
2019 lastTime = firstTime;
2020 if ( (UInt_t)firstTime == this->GetAbsTime(phh->GetOrbitalTime()) ){
2021 lastObt = glrun->RUNHEADER_OBT;
2022 lastPkt = glrun->RUNHEADER_PKT;
2023 } else {
2024 lastObt = firstObt;
2025 lastPkt = firstPkt;
2026 };
2027 glrun->SetRUNTRAILER_PKT(lastPkt);
2028 glrun->SetRUNTRAILER_OBT(lastObt);
2029 lastentry++;
2030 };
2031 //
2032 this->SetCommonGLRUN(firstTime,lastTime);
2033 //
2034 if ( !IsRunAlreadyInserted() ) glrun->Fill_GL_RUN(conn);
2035 //
2036 firstevno = lastentry + 1;
2037 //
2038 checkfirst = check;
2039 //
2040 };
2041 //
2042 if ( check == checklast && i != lastev ){
2043 lastevtemp = i - 1;
2044 i = lastev - 1;
2045 };
2046 //
2047 };
2048 //
2049 lastev = lastevtemp;
2050 //
2051 return(false);
2052 //
2053 };
2054 };
2055 //
2056 return(false); // should never arrive here
2057 };
2058
2059 /**
2060 *
2061 * we end up here when we have a runheader and a runtrailer but they seems not belonging to the same run since the number of events does not coincide with the
2062 * number of event written in the runtrailer. We try to split into different runs scanning the physics events from the runheader to the runtrailer and
2063 * looking for non-physics packets inside.
2064 *
2065 */
2066 void PamelaDBOperations::HandleSuspiciousRun(){
2067 //
2068 PacketType *pctp=0;
2069 EventCounter *codt=0;
2070 EventCounter *codh=0;
2071 EventCounter *code=0;
2072 UInt_t firstev = 0;
2073 UInt_t lastev = 0;
2074 UInt_t nevent = 0;
2075 UInt_t checkfirst = 0;
2076 UInt_t checklast = 0;
2077 UInt_t firstentry = 0;
2078 UInt_t lastentry = 0;
2079 UInt_t firstTime = 0;
2080 UInt_t lastTime = 0;
2081 UInt_t firstPkt = 0;
2082 UInt_t lastPkt = 0;
2083 UInt_t firstObt = 0;
2084 UInt_t lastObt = 0;
2085 //
2086 pcksList packetsNames;
2087 pcksList::iterator Iter;
2088 getPacketsNames(packetsNames);
2089 //
2090 TTree *rh=0;
2091 rh = (TTree*)file->Get("RunHeader");
2092 if ( !rh || rh->IsZombie() ) throw -17;
2093 TTree *T=0;
2094 T =(TTree*)file->Get("Physics");
2095 if ( !T || T->IsZombie() ) throw -16;
2096 EventHeader *eh = 0;
2097 PscuHeader *ph = 0;
2098 T->SetBranchAddress("Header", &eh);
2099 nevent = T->GetEntries();
2100 //
2101 codt = eht->GetCounter();
2102 codh = ehh->GetCounter();
2103 firstev = codh->Get(pctp->Physics);
2104 lastev = codt->Get(pctp->Physics)-1;
2105 //
2106 if ( firstev == lastev+1 ) { // no events inside the run!
2107 if ( IsDebug() ) printf(" Checking but no events in the run! \n");
2108 //
2109 // if ( IsDebug() ) printf(" -> fill the DB \n");
2110 //
2111 this->FillClass();
2112 if ( !IsRunAlreadyInserted() ) glrun->Fill_GL_RUN(conn);
2113 //
2114 } else {
2115 //
2116 UInt_t nrunh = 0;
2117 UInt_t nrunh1 = 0;
2118 T->GetEntry(firstev);
2119 code = eh->GetCounter();
2120 checkfirst = 0;
2121 for(Iter = packetsNames.begin(); Iter != packetsNames.end(); Iter++){
2122 if ( strcmp(*Iter,"Physics") ) checkfirst += code->Get(GetPacketType(*Iter));
2123 if ( !strcmp(*Iter,"RunHeader") ) nrunh1++;
2124 };
2125 if ( IsDebug() ) printf(" Check first is %i \n",checkfirst);
2126 //
2127 T->GetEntry(lastev);
2128 code = eh->GetCounter();
2129 checklast = 0;
2130 for(Iter = packetsNames.begin(); Iter != packetsNames.end(); Iter++){
2131 if ( strcmp(*Iter,"Physics") ) checklast += code->Get(GetPacketType(*Iter));
2132 };
2133 if ( IsDebug() ) printf(" Check last is %i \n",checklast);
2134 //
2135 if ( checkfirst == checklast ){
2136 //
2137 if ( IsDebug() ) printf(" No packets but physics inside the run, I will consider it as good\n");
2138 //
2139 this->FillClass();
2140 if ( !IsRunAlreadyInserted() ) glrun->Fill_GL_RUN(conn);
2141 //
2142 } else {
2143 //
2144 if ( IsDebug() ) printf(" There are no-physics packets inside the run, try to separate runs \n");
2145 //
2146 Bool_t emptyruns = false;
2147 UInt_t check = 0;
2148 UInt_t firstevno = firstev;
2149 //
2150 for (UInt_t i=firstev; i<=lastev; i++){
2151 //
2152 T->GetEntry(i);
2153 code = eh->GetCounter();
2154 //
2155 check = 0;
2156 //
2157 for(Iter = packetsNames.begin(); Iter != packetsNames.end(); Iter++){
2158 if ( strcmp(*Iter,"Physics") ) check += code->Get(GetPacketType(*Iter));
2159 if ( !strcmp(*Iter,"RunHeader") ) nrunh++;
2160 };
2161 //
2162 if ( checkfirst < check || i == lastev ){
2163 //
2164 firstentry = firstevno;
2165 //
2166 if ( checkfirst < check ){
2167 lastentry = i-1;
2168 } else {
2169 lastentry = i;
2170 };
2171 //
2172 if ( IsDebug() ) printf(" Run between %i and %i entries\n",firstentry,lastentry);
2173 //
2174 glrun->SetEV_FROM(firstentry);
2175 glrun->SetEV_TO(lastentry);
2176 if ( lastentry == (firstentry-1) ){ // no physics packets inside physics run with no runheader no runtrailer
2177 if ( IsDebug() ) printf(" no physics packets inside physics run with no runheader no runtrailer\n");
2178 lastentry--;
2179 };
2180 glrun->SetNEVENTS(lastentry-firstentry+1);
2181 //
2182 glrun->Set_GL_RUNH0();
2183 glrun->Set_GL_RUNT0();
2184 //
2185 glrun->SetLAST_TIMESYNC(0);
2186 glrun->SetOBT_TIMESYNC(0);
2187 //
2188 T->GetEntry(firstentry);
2189 ph = eh->GetPscuHeader();
2190 firstObt = ph->GetOrbitalTime();
2191 firstTime = this->GetAbsTime(firstObt);
2192 firstPkt = ph->GetCounter();
2193 //
2194 T->GetEntry(lastentry);
2195 ph = eh->GetPscuHeader();
2196 lastObt = ph->GetOrbitalTime();
2197 lastTime = this->GetAbsTime(lastObt);
2198 lastPkt = ph->GetCounter();
2199 //
2200 glrun->SetRUNHEADER_PKT(firstPkt);
2201 glrun->SetRUNTRAILER_PKT(lastPkt);
2202 //
2203 glrun->SetRUNHEADER_OBT(firstObt);
2204 glrun->SetRUNTRAILER_OBT(lastObt);
2205 //
2206 if ( (firstev == firstentry && !emptyruns) || nrunh == (nrunh1 + 1) ){
2207 rh->GetEntry(nrunh1-1);
2208 phh = ehh->GetPscuHeader();
2209 nrunh1++;
2210 glrun->Set_GL_RUNH(runh,phh);
2211 firstTime = this->GetAbsTime(phh->GetOrbitalTime());
2212 if ( IsDebug() ) printf(" We have the runheader \n");
2213 };
2214 if ( lastev == i && checkfirst == check ){
2215 glrun->Set_GL_RUNT(runt,pht);
2216 lastTime = this->GetAbsTime(pht->GetOrbitalTime());
2217 if ( IsDebug() ) printf(" We have the runtrailer \n");
2218 };
2219 //
2220 if ( lastentry == (firstentry-2) ){ // no events in the run
2221 emptyruns = true;
2222 if ( IsDebug() ) printf(" No events in the run \n");
2223 lastTime = firstTime;
2224 if ( (UInt_t)firstTime == this->GetAbsTime(phh->GetOrbitalTime()) ){
2225 lastObt = glrun->RUNHEADER_OBT;
2226 lastPkt = glrun->RUNHEADER_PKT;
2227 } else {
2228 lastObt = firstObt;
2229 lastPkt = firstPkt;
2230 };
2231 glrun->SetRUNTRAILER_PKT(lastPkt);
2232 glrun->SetRUNTRAILER_OBT(lastObt);
2233 lastentry++;
2234 };
2235 //
2236 this->SetCommonGLRUN(firstTime,lastTime);
2237 //
2238 if ( !IsRunAlreadyInserted() ) glrun->Fill_GL_RUN(conn);
2239 //
2240 if ( i == lastev && checkfirst < check ){ // if the last event gives a wrong check...
2241 //
2242 firstentry = i;
2243 //
2244 lastentry = i;
2245 //
2246 if ( IsDebug() ) printf(" Run between %i and %i entries\n",firstentry,lastentry);
2247 //
2248 glrun->SetEV_FROM(firstentry);
2249 glrun->SetEV_TO(lastentry);
2250 glrun->SetNEVENTS(lastentry-firstentry+1);
2251 //
2252 glrun->Set_GL_RUNH0();
2253 //
2254 glrun->SetLAST_TIMESYNC(0);
2255 glrun->SetOBT_TIMESYNC(0);
2256 //
2257 T->GetEntry(firstentry);
2258 ph = eh->GetPscuHeader();
2259 firstObt = ph->GetOrbitalTime();
2260 firstTime = this->GetAbsTime(firstObt);
2261 firstPkt = ph->GetCounter();
2262 //
2263 glrun->SetRUNHEADER_PKT(firstPkt);
2264 //
2265 glrun->SetRUNHEADER_OBT(firstObt);
2266 //
2267 glrun->Set_GL_RUNT(runt,pht);
2268 lastTime = this->GetAbsTime(pht->GetOrbitalTime());
2269 if ( IsDebug() ) printf(" We have the runtrailer \n");
2270 //
2271 this->SetCommonGLRUN(firstTime,lastTime);
2272 //
2273 if ( !IsRunAlreadyInserted() ) glrun->Fill_GL_RUN(conn);
2274 };
2275 //
2276 firstevno = lastentry + 1;
2277 //
2278 checkfirst = check;
2279 //
2280 };
2281 //
2282 if ( check == checklast && i != lastev ) i = lastev - 1; // >>>>>>>>>>>>>>>>>>>>>>
2283 //
2284 };
2285 };
2286 };
2287 //
2288 return;
2289 };
2290
2291
2292 /**
2293 * Scan calorimeter calibrations packets, fill the GL_CALO_CALIB table
2294 */
2295 Int_t PamelaDBOperations::insertCALO_CALIB(){
2296 //
2297 TSQLResult *result = 0;
2298 TSQLRow *row = 0;
2299 //
2300 stringstream oss;
2301 oss.str("");
2302 //
2303 CalibCalPedEvent *calibCalPed = 0;
2304 TTree *tr = 0;
2305 EventHeader *eh = 0;
2306 PscuHeader *ph = 0;
2307 //
2308 UInt_t nevents = 0;
2309 UInt_t fromtime = 0;
2310 UInt_t totime = 0;
2311 UInt_t obt = 0;
2312 UInt_t pkt = 0;
2313 //
2314 tr = (TTree*)file->Get("CalibCalPed");
2315 if ( !tr || tr->IsZombie() ) throw -21;
2316 //
2317 tr->SetBranchAddress("CalibCalPed", &calibCalPed);
2318 tr->SetBranchAddress("Header", &eh);
2319 nevents = tr->GetEntries();
2320 //
2321 if ( !nevents ) return(0);
2322 //
2323 for (UInt_t i=0; i < nevents; i++){
2324 tr->GetEntry(i);
2325 for (UInt_t section = 0; section < 4; section++){
2326 //
2327 if ( calibCalPed->cstwerr[section] ){
2328 valid = 1;
2329 if ( calibCalPed->cperror[section] ) valid = 0;
2330 ph = eh->GetPscuHeader();
2331 obt = ph->GetOrbitalTime();
2332 pkt = ph->GetCounter();
2333 fromtime = this->GetAbsTime(ph->GetOrbitalTime());
2334 if ( this->PKT(pkt) >= this->PKT(pktfirst) && this->OBT(obt) >= this->OBT(obtfirst) ){
2335 //
2336 if ( IsDebug() ) printf(" Calo calibration for section %i at time %i obt %i pkt %i \n",section,fromtime,obt,pkt);
2337 //
2338 // check if the calibration has already been inserted
2339 //
2340 oss.str("");
2341 oss << " SELECT ID FROM GL_CALO_CALIB WHERE "
2342 << " SECTION = "<< section << " AND "
2343 << " BOOT_NUMBER = "<< this->GetBOOTnumber() << " AND "
2344 << " OBT = "<< obt << " AND "
2345 << " PKT = "<< pkt << ";";
2346 //
2347 if ( IsDebug() ) printf(" Check if the calo calibration has already been inserted: query is \n %s \n",oss.str().c_str());
2348 result = conn->Query(oss.str().c_str());
2349 //
2350 if ( !result ) throw -4;
2351 //
2352 row = result->Next();
2353 //
2354 if ( row ){
2355 //
2356 if ( IsDebug() ) printf(" Calo calibration already inserted in the DB\n");
2357 //
2358 } else {
2359 //
2360 // we have to insert a new calibration, check where to place it
2361 //
2362 oss.str("");
2363 oss << " SELECT ID,TO_TIME FROM GL_CALO_CALIB WHERE "
2364 << " SECTION = "<< section << " AND "
2365 << " FROM_TIME < "<< fromtime << " AND "
2366 << " TO_TIME > "<< fromtime << ";";
2367 //
2368 if ( IsDebug() ) printf(" Check where to place the calo calibration: query is \n %s \n",oss.str().c_str());
2369 result = conn->Query(oss.str().c_str());
2370 //
2371 if ( !result ) throw -4;
2372 //
2373 row = result->Next();
2374 //
2375 if ( !row ){
2376 //
2377 // no calibrations in the db contain our calibration
2378 //
2379 if ( IsDebug() ) printf(" Calibration with fromtime lower than others to be inserted in the DB for section %i \n",section);
2380 if ( fromtime < 1150863400 ){
2381 if ( IsDebug() ) printf(" First PAMELA flight calibration at time %i \n",fromtime);
2382 fromtime = 0;// the first flight calibration was taken at about 1156429100 s, this line allow to analyze first runs in raw mode
2383 };
2384 //
2385 oss.str("");
2386 oss << " SELECT FROM_TIME FROM GL_CALO_CALIB WHERE "
2387 << " SECTION = "<< section << " AND "
2388 << " FROM_TIME > "<< fromtime << " ORDER BY FROM_TIME ASC LIMIT 1;";
2389 //
2390 if ( IsDebug() ) printf(" Check the upper limit for calibration: query is \n %s \n",oss.str().c_str());
2391 result = conn->Query(oss.str().c_str());
2392 //
2393 if ( !result ) throw -4;
2394 //
2395 row = result->Next();
2396 if ( !row ){
2397 totime = numeric_limits<UInt_t>::max();
2398 } else {
2399 totime = (UInt_t)atoll(row->GetField(0));
2400 };
2401 //
2402 } else {
2403 //
2404 // determine upper and lower limits and make space for the new calibration
2405 //
2406 totime = (UInt_t)atoll(row->GetField(1));
2407 //
2408 oss.str("");
2409 oss << " UPDATE GL_CALO_CALIB SET "
2410 << " TO_TIME = "<< fromtime << " WHERE " // NOTICE: to_time is equal to from_time of the calibration before, so the interval is: [from_time,to_time[
2411 << " ID = "<< row->GetField(0) << ";";
2412 //
2413 if ( IsDebug() ) printf(" Make space for the new calibration: query is \n %s \n",oss.str().c_str());
2414 result = conn->Query(oss.str().c_str());
2415 //
2416 if ( !result ) throw -4;
2417 //
2418 };
2419 //
2420 oss.str("");
2421 oss << " INSERT INTO GL_CALO_CALIB (ID,ID_ROOT_L0,EV_ROOT,FROM_TIME,TO_TIME,SECTION,OBT,PKT,BOOT_NUMBER,VALIDATION) "
2422 << " VALUES (NULL,' "
2423 << idroot << "','"
2424 << i << "','"
2425 << fromtime << "','"
2426 << totime << "','"
2427 << section << "','"
2428 << obt << "','"
2429 << pkt << "','"
2430 << this->GetBOOTnumber() << "','"
2431 << valid << "');";
2432 //
2433 if ( IsDebug() ) printf(" Insert the new calibration: query is \n %s \n",oss.str().c_str());
2434 //
2435 result = conn->Query(oss.str().c_str());
2436 //
2437 if ( !result ) throw -4;
2438 //
2439 };
2440 //
2441 } else {
2442 //
2443 if ( IsDebug() ) printf(" Repetead calo calibration for section %i at time %i obt %i pkt %i \n",section,fromtime,obt,pkt);
2444 //
2445 };
2446 //
2447 };
2448 };
2449 };
2450 //
2451 return(0);
2452 };
2453
2454 /**
2455 * Fill the GL_TRK_CALIB table
2456 */
2457 void PamelaDBOperations::HandleTRK_CALIB(Bool_t pk1, Bool_t pk2){
2458 //
2459 TSQLResult *result = 0;
2460 TSQLRow *row = 0;
2461 //
2462 stringstream oss;
2463 oss.str("");
2464 //
2465 UInt_t totime = 0;
2466 //
2467 if ( !pk1 && !pk2 ){
2468 if ( IsDebug() ) printf(" Cannot handle trk calibration with both packet missing!\n");
2469 };
2470 //
2471 // check if the calibration has already been inserted
2472 //
2473 oss.str("");
2474 oss << " SELECT ID FROM GL_TRK_CALIB WHERE "
2475 << " BOOT_NUMBER = "<< this->GetBOOTnumber(); //
2476 oss << " AND ( ( ";
2477 if ( pk1 ){
2478 oss << " OBT1 = "<< obt1 << " AND "
2479 << " PKT1 = "<< pkt1
2480 << " ) OR ( ";
2481 } else {
2482 oss << " PKT1 = "<< pkt2-1
2483 << " ) OR ( ";
2484 };
2485 if ( pk2 ){
2486 oss << " OBT2 = "<< obt2 << " AND "
2487 << " PKT2 = "<< pkt2;
2488 } else {
2489 oss << " PKT2 = "<< pkt1+1;
2490 };
2491 oss << " ) );";
2492 //
2493 if ( IsDebug() ) printf(" Check if the trk calibration has already been inserted: query is \n %s \n",oss.str().c_str());
2494 result = conn->Query(oss.str().c_str());
2495 //
2496 if ( !result ) throw -4;
2497 //
2498 row = result->Next();
2499 //
2500 if ( row ){
2501 //
2502 if ( IsDebug() ) printf(" Trk calibration already inserted in the DB\n");
2503 //
2504 } else {
2505 //
2506 // we have to insert a new calibration, check where to place it
2507 //
2508 oss.str("");
2509 oss << " SELECT ID,TO_TIME FROM GL_TRK_CALIB WHERE "
2510 << " FROM_TIME < "<< fromtime << " AND "
2511 << " TO_TIME > "<< fromtime << ";";
2512 //
2513 if ( IsDebug() ) printf(" Check where to place the trk calibration: query is \n %s \n",oss.str().c_str());
2514 result = conn->Query(oss.str().c_str());
2515 //
2516 if ( !result ) throw -4;
2517 //
2518 row = result->Next();
2519 //
2520 if ( !row ){
2521 //
2522 // no calibrations in the db contain our calibration
2523 //
2524 if ( IsDebug() ) printf(" Calibration with fromtime lower than others to be inserted in the DB\n");
2525 if ( fromtime < 1150863400 ) fromtime = 0; // the first flight calibration was taken at about 1150863300 s, this line allows to analyze first runs in raw mode
2526 //
2527 oss.str("");
2528 oss << " SELECT FROM_TIME FROM GL_TRK_CALIB WHERE "
2529 << " FROM_TIME > "<< fromtime << " ORDER BY FROM_TIME ASC LIMIT 1;";
2530 //
2531 if ( IsDebug() ) printf(" Check the upper limit for calibration: query is \n %s \n",oss.str().c_str());
2532 result = conn->Query(oss.str().c_str());
2533 //
2534 if ( !result ) throw -4;
2535 //
2536 row = result->Next();
2537 if ( !row ){
2538 totime = numeric_limits<UInt_t>::max();
2539 } else {
2540 totime = (UInt_t)atoll(row->GetField(0));
2541 };
2542 //
2543 } else {
2544 //
2545 // determine upper and lower limits and make space for the new calibration
2546 //
2547 totime = (UInt_t)atoll(row->GetField(1));
2548 //
2549 oss.str("");
2550 oss << " UPDATE GL_TRK_CALIB SET "
2551 << " TO_TIME = "<< fromtime << " WHERE " // NOTICE: to_time is equal to from_time of the calibration before, so the interval is: [from_time,to_time[
2552 << " ID = "<< row->GetField(0) << ";";
2553 //
2554 if ( IsDebug() ) printf(" Make space for the new trk calibration: query is \n %s \n",oss.str().c_str());
2555 result = conn->Query(oss.str().c_str());
2556 //
2557 if ( !result ) throw -4;
2558 //
2559 };
2560 //
2561 oss.str("");
2562 oss << " INSERT INTO GL_TRK_CALIB (ID,ID_ROOT_L0,EV_ROOT_CALIBTRK1,EV_ROOT_CALIBTRK2,FROM_TIME,TO_TIME,OBT1,PKT1,OBT2,PKT2,BOOT_NUMBER,VALIDATION) "
2563 << " VALUES (NULL,' "
2564 << idroot << "',";
2565 //
2566 if ( !pk1 ){
2567 oss << "NULL,";
2568 } else {
2569 oss << "'"
2570 << t1 << "',";
2571 };
2572 //
2573 if ( !pk2 ){
2574 oss << "NULL,'";
2575 } else {
2576 oss << "'"
2577 << t2 << "','";
2578 };
2579 //
2580 oss << fromtime << "','"
2581 << totime << "','"
2582 << obt1 << "','"
2583 << pkt1 << "','"
2584 << obt2 << "','"
2585 << pkt2 << "','"
2586 << this->GetBOOTnumber() << "','"
2587 << valid << "');";
2588 //
2589 if ( IsDebug() ) printf(" Insert the new trk calibration: query is \n %s \n",oss.str().c_str());
2590 //
2591 result = conn->Query(oss.str().c_str());
2592 //
2593 if ( !result ) throw -4;
2594 //
2595 };
2596 //
2597 };
2598
2599 /**
2600 * Scan tracker calibrations packets, fill the GL_TRK_CALIB table
2601 */
2602 Int_t PamelaDBOperations::insertTRK_CALIB(){
2603 //
2604 CalibTrk1Event *caltrk1 = 0;
2605 CalibTrk2Event *caltrk2 = 0;
2606 TTree *tr1 = 0;
2607 TTree *tr2 = 0;
2608 EventHeader *eh1 = 0;
2609 PscuHeader *ph1 = 0;
2610 EventHeader *eh2 = 0;
2611 PscuHeader *ph2 = 0;
2612 //
2613 PacketType *pctp=0;
2614 EventCounter *codt2=0;
2615 //
2616 Int_t nevents1 = 0;
2617 Int_t nevents2 = 0;
2618 //
2619 fromtime = 0;
2620 //
2621 obt1 = 0;
2622 pkt1 = 0;
2623 obt2 = 0;
2624 pkt2 = 0;
2625 //
2626 tr1 = (TTree*)file->Get("CalibTrk1");
2627 if ( !tr1 || tr1->IsZombie() ) throw -22;
2628 tr2 = (TTree*)file->Get("CalibTrk2");
2629 if ( !tr2 || tr2->IsZombie() ) throw -23;
2630 //
2631 tr1->SetBranchAddress("CalibTrk1", &caltrk1);
2632 tr1->SetBranchAddress("Header", &eh1);
2633 nevents1 = tr1->GetEntries();
2634 tr2->SetBranchAddress("CalibTrk2", &caltrk2);
2635 tr2->SetBranchAddress("Header", &eh2);
2636 nevents2 = tr2->GetEntries();
2637 //
2638 if ( !nevents1 && !nevents2 ) return(0);
2639 //
2640 t2 = -1;
2641 Int_t pret2 = 0;
2642 Int_t t2t1cal = 0;
2643 //
2644 for (t1=0; t1 < nevents1; t1++){
2645 //
2646 pret2 = t2;
2647 tr1->GetEntry(t1);
2648 //
2649 ph1 = eh1->GetPscuHeader();
2650 obt1 = ph1->GetOrbitalTime();
2651 pkt1 = ph1->GetCounter();
2652 fromtime = this->GetAbsTime(ph1->GetOrbitalTime());
2653 //
2654 valid = 1;
2655 //
2656 if ( caltrk1->unpackError != 0 && caltrk1->good0 == 0 ) valid = 0;// CONDITIONS ON THE GOODNESS OF THE CALIBRATION PKT1
2657 //
2658 //
2659 if ( this->PKT(pkt1) >= this->PKT(pktfirst) && this->OBT(obt1) >= this->OBT(obtfirst) ){
2660 //
2661 if ( IsDebug() ) printf(" Trk calibration1 at time %i obt %i pkt %i \n",fromtime,obt1,pkt1);
2662 //
2663 // Do we have the second calibration packet?
2664 //
2665 while ( t2t1cal < t1+1 ){ // get the calibration packet2 that follows the packet1
2666 //
2667 t2++;
2668 //
2669 if ( t2 < nevents2 ){
2670 tr2->GetEntry(t2);
2671 codt2 = eh2->GetCounter();
2672 t2t1cal = codt2->Get(pctp->CalibTrk1);
2673 //
2674 ph2 = eh2->GetPscuHeader();
2675 obt2 = ph2->GetOrbitalTime();
2676 pkt2 = ph2->GetCounter();
2677 //
2678 if ( caltrk2->unpackError != 0 || caltrk2->good0 == 0 ) valid = 0; // CONDITIONS ON THE GOODNESS OF THE CALIBRATION PKT2
2679 //
2680 } else {
2681 //
2682 // running out of vector without finding the corresponding calibration, sig
2683 //
2684 pret2 = t2;
2685 obt2 = 0;
2686 pkt2 = pkt1+2;
2687 t2t1cal = t1+1;
2688 };
2689 if ( this->PKT(pkt2) < this->PKT(pktfirst) && this->OBT(obt2) < this->OBT(obtfirst) ){
2690 //
2691 // running out of vector without finding the corresponding calibration, sig
2692 //
2693 pret2 = t2;
2694 obt2 = 0;
2695 pkt2 = pkt1+2;
2696 t2t1cal = t1+1;
2697 };
2698 //
2699 };
2700 //
2701 if ( IsDebug() ) printf(" Found trk calibration2 at obt %i pkt %i t2 is %i \n",obt2,pkt2,t2);
2702 //
2703 // The calibration is good
2704 //
2705 if ( this->PKT(pkt2) == this->PKT(pkt1)+1 ){
2706 //
2707 if ( IsDebug() ) printf(" The trk calibration2 at obt %i pkt %i t2 is %i is good \n",obt2,pkt2,t2);
2708 //
2709 // Handle good calib
2710 //
2711 this->HandleTRK_CALIB(true,true);
2712 //
2713 // Check for missing calibtrk1
2714 //
2715 if ( t2 != pret2+1 ){
2716 //
2717 if ( IsDebug() ) printf(" Missing the trk calibration1! Next one at obt %i pkt %i t2 is %i pret2 is %i \n",obt2,pkt2,t2,pret2);
2718 //
2719 while ( t2 > pret2+1 ){
2720 //
2721 // handle missing calib1
2722 //
2723 pret2++;
2724 //
2725 obt1 = 0;
2726 pkt1 = 0;
2727 //
2728 tr2->GetEntry(pret2);
2729 ph2 = eh2->GetPscuHeader();
2730 obt2 = ph2->GetOrbitalTime();
2731 pkt2 = ph2->GetCounter();
2732 //
2733 fromtime = this->GetAbsTime(ph2->GetOrbitalTime());
2734 //
2735 valid = 0;
2736 this->HandleTRK_CALIB(false,true);
2737 //
2738 };
2739 //
2740 };
2741 //
2742 } else if ( this->PKT(pkt2) > this->PKT(pkt1)+1 ){
2743 //
2744 // Check for missing calibtrk2
2745 //
2746 if ( IsDebug() ) printf(" Missing the trk calibration2! Next one at obt %i pkt %i t2 is %i\n",obt2,pkt2,t2);
2747 t2 = pret2;
2748 //
2749 // handle missing calib2
2750 //
2751 obt2 = 0;
2752 pkt2 = 0;
2753 valid = 0;
2754 this->HandleTRK_CALIB(true,false);
2755 //
2756 };
2757 //
2758 } else {
2759 //
2760 if ( IsDebug() ) printf(" Repetead trk calibration1 at time %i obt %i pkt %i \n",fromtime,obt1,pkt1);
2761 //
2762 };
2763 //
2764 };
2765 //
2766 // we have one more calib pkt2 !
2767 //
2768 t2++;
2769 while ( t2 < nevents2 ){
2770 //
2771 // handle missing calib1
2772 //
2773 obt1 = 0;
2774 pkt1 = 0;
2775 //
2776 tr2->GetEntry(t2);
2777 ph2 = eh2->GetPscuHeader();
2778 obt2 = ph2->GetOrbitalTime();
2779 pkt2 = ph2->GetCounter();
2780 //
2781 fromtime = this->GetAbsTime(ph2->GetOrbitalTime());
2782 valid = 0;
2783 if ( this->PKT(pkt2) > this->PKT(pktfirst) || this->OBT(obt2) > this->OBT(obtfirst) ){
2784 //
2785 if ( IsDebug() ) printf(" Missing the trk calibration1! Next one at obt %i pkt %i t2 is %i\n",obt2,pkt2,t2);
2786 //
2787 this->HandleTRK_CALIB(false,true);
2788 //
2789 };
2790 //
2791 t2++;
2792 //
2793 };
2794 //
2795 return(0);
2796 };
2797
2798
2799 /**
2800 * Scan S4 calibrations packets, fill the GL_S4_CALIB table
2801 */
2802 Int_t PamelaDBOperations::insertS4_CALIB(){
2803 //
2804 TSQLResult *result = 0;
2805 TSQLRow *row = 0;
2806 //
2807 stringstream oss;
2808 oss.str("");
2809 //
2810 CalibS4Event *calibS4 = new CalibS4Event();
2811 TTree *tr = 0;
2812 EventHeader *eh = 0;
2813 PscuHeader *ph = 0;
2814 //
2815 UInt_t nevents = 0;
2816 UInt_t fromtime = 0;
2817 UInt_t totime = 0;
2818 UInt_t obt = 0;
2819 UInt_t pkt = 0;
2820 //
2821 tr = (TTree*)file->Get("CalibS4");
2822 if ( !tr || tr->IsZombie() ) throw -24;
2823 //
2824 tr->SetBranchAddress("CalibS4", &calibS4);
2825 tr->SetBranchAddress("Header", &eh);
2826 //
2827 nevents = tr->GetEntries();
2828 //
2829 if ( !nevents ) return(0);
2830 //
2831 for (UInt_t i = 0; i < nevents; i++){
2832 //
2833 tr->GetEntry(i);
2834 TArrayD params = S4_paramfit(calibS4);
2835 //
2836 ph = eh->GetPscuHeader();
2837 obt = ph->GetOrbitalTime();
2838 pkt = ph->GetCounter();
2839 fromtime = this->GetAbsTime(ph->GetOrbitalTime());
2840 if ( this->PKT(pkt) >= this->PKT(pktfirst) && this->OBT(obt) >= this->OBT(obtfirst) ){
2841 //
2842 if ( IsDebug() ) printf(" S4 calibration at time %i obt %i pkt %i \n",fromtime,obt,pkt);
2843 //
2844 // check if the calibration has already been inserted
2845 //
2846 oss.str("");
2847 oss << " SELECT ID FROM GL_S4_CALIB WHERE "
2848 << " BOOT_NUMBER = "<< this->GetBOOTnumber() << " AND "
2849 << " OBT = "<< obt << " AND "
2850 << " PKT = "<< pkt << ";";
2851 //
2852 if ( IsDebug() ) printf(" Check if the S4 calibration has already been inserted: query is \n %s \n",oss.str().c_str());
2853 result = conn->Query(oss.str().c_str());
2854 //
2855 if ( !result ) throw -4;
2856 //
2857 row = result->Next();
2858 //
2859 if ( row ){
2860 //
2861 if ( IsDebug() ) printf(" S4 calibration already inserted in the DB\n");
2862 //
2863 } else {
2864 //
2865 // we have to insert a new calibration, check where to place it
2866 //
2867 oss.str("");
2868 oss << " SELECT ID,TO_TIME FROM GL_S4_CALIB WHERE "
2869 << " FROM_TIME < "<< fromtime << " AND "
2870 << " TO_TIME > "<< fromtime << ";";
2871 //
2872 if ( IsDebug() ) printf(" Check where to place the S4 calibration: query is \n %s \n",oss.str().c_str());
2873 result = conn->Query(oss.str().c_str());
2874 //
2875 if ( !result ) throw -4;
2876 //
2877 row = result->Next();
2878 //
2879 if ( !row ){
2880 //
2881 // no calibrations in the db contain our calibration
2882 //
2883 if ( IsDebug() ) printf(" Calibration with fromtime lower than others to be inserted in the DB \n");
2884 if ( fromtime < 1150863400 ){
2885 if ( IsDebug() ) printf(" First PAMELA flight calibration at time %i \n",fromtime);
2886 fromtime = 0;// the first flight calibration was taken at about 1156429100 s, this line allow to analyze first runs in raw mode
2887 };
2888 //
2889 oss.str("");
2890 oss << " SELECT FROM_TIME FROM GL_S4_CALIB WHERE "
2891 << " FROM_TIME > "<< fromtime << " ORDER BY FROM_TIME ASC LIMIT 1;";
2892 //
2893 if ( IsDebug() ) printf(" Check the upper limit for calibration: query is \n %s \n",oss.str().c_str());
2894 result = conn->Query(oss.str().c_str());
2895 //
2896 if ( !result ) throw -4;
2897 //
2898 row = result->Next();
2899 if ( !row ){
2900 totime = numeric_limits<UInt_t>::max();
2901 } else {
2902 totime = (UInt_t)atoll(row->GetField(0));
2903 };
2904 //
2905 } else {
2906 //
2907 // determine upper and lower limits and make space for the new calibration
2908 //
2909 totime = (UInt_t)atoll(row->GetField(1));
2910 //
2911 oss.str("");
2912 oss << " UPDATE GL_S4_CALIB SET "
2913 << " TO_TIME = "<< fromtime << " WHERE " // NOTICE: to_time is equal to from_time of the calibration before, so the interval is: [from_time,to_time[
2914 << " ID = "<< row->GetField(0) << ";";
2915 //
2916 if ( IsDebug() ) printf(" Make space for the new calibration: query is \n %s \n",oss.str().c_str());
2917 result = conn->Query(oss.str().c_str());
2918 //
2919 if ( !result ) throw -4;
2920 //
2921 };
2922 //
2923 oss.str("");
2924 oss << " INSERT INTO GL_S4_CALIB (ID,ID_ROOT_L0,EV_ROOT,FROM_TIME,TO_TIME,PARAM_FIT0,PARAM_FIT1,OBT,PKT,BOOT_NUMBER,VALIDATION) "
2925 << " VALUES (NULL,' "
2926 << idroot << "','"
2927 << i << "','"
2928 << fromtime << "','"
2929 << totime << "','"
2930 << dec << params.At(0) << "','"
2931 << dec << params.At(1) << "','"
2932 << obt << "','"
2933 << pkt << "','"
2934 << this->GetBOOTnumber() << "','"
2935 << valid << "');";
2936 //
2937 if ( IsDebug() ) printf(" Insert the new calibration: query is \n %s \n",oss.str().c_str());
2938 //
2939 result = conn->Query(oss.str().c_str());
2940 //
2941 if ( !result ) throw -4;
2942 //
2943 };
2944 //
2945 } else {
2946 //
2947 if ( IsDebug() ) printf(" Repetead S4 calibration at time %i obt %i pkt %i \n",fromtime,obt,pkt);
2948 //
2949 };
2950 //
2951 };
2952 //
2953 return(0);
2954 };
2955
2956
2957 /*
2958 * Fit function Received from Valeria Malvezzi 06/02/2006
2959 */
2960 Double_t fitf(Double_t *x, Double_t *par){
2961 Double_t fitval =(par[0]*x[0])+par[1];
2962 return fitval;
2963 }
2964
2965 /*
2966 * Fit the S4 calibration with a straight line - Received from Valeria Malvezzi 06/02/2006
2967 */
2968 TArrayD PamelaDBOperations::S4_paramfit(pamela::CalibS4Event *S4CalibEvent){
2969
2970 //----------- variable initialization -------------------------------------------------
2971
2972 Double_t mip[3]={1, 30, 300};
2973 Double_t adc[3] = {0.,0.,0.};
2974
2975 TArrayD parametri(2);
2976
2977 valid = 1;
2978
2979 //------------ Fit calibrations and find parameters to calibrate data ------------------
2980 pamela::S4::S4Event *s4Record;
2981
2982 for (Int_t j = 0; j < 4; j++){
2983 for (Int_t i = 0; i < 128; i++){
2984 s4Record = (pamela::S4::S4Event*)S4CalibEvent->Records->At((j*128 + i));
2985 switch (j) {
2986 case 0 :{
2987 adc[0]=adc[0]+((s4Record->S4_DATA)-32);
2988 break;
2989 };
2990 case 1 :{
2991 adc[1]=adc[1]+((s4Record->S4_DATA)-32);
2992 break;
2993 };
2994 case 3 :{
2995 adc[2]=adc[2]+((s4Record->S4_DATA)-32);
2996 break;
2997 };
2998 };
2999 };
3000 };
3001
3002 adc[0]=adc[0]/128;
3003 adc[1]=adc[1]/128;
3004 adc[2]=adc[2]/128;
3005
3006 TGraph *fitpar = new TGraph (3, adc, mip);
3007 TF1 *func = new TF1("fitf", fitf, -0., 1000., 2); // definizione della funzione, 2 = num. parametri
3008
3009 func->SetParameters(0.3,1.); //inizializzazione dei parametri a 1
3010 func->SetParNames("m","q"); //definisce il nome dei parametri
3011 fitpar->Fit(func,"qr"); //fitta fitpar con la funzione func nel range definito nella funzione
3012 //fitpar->Fit(func,"r"); //fitta fitpar con la funzione func nel range definito nella funzione
3013
3014 parametri[0] = func -> GetParameter(0);
3015 parametri[1] = func -> GetParameter(1);
3016
3017 if ( parametri[0] < 0. || parametri[0] > 0.5 || parametri[1] < 0.8 || parametri[1] > 1. ) valid = 0;
3018
3019 if ( IsDebug() ) printf(" par1 = %g par2 = %g\n",parametri[0],parametri[1]);
3020
3021 return parametri;
3022 };
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