/[PAMELA software]/YodaProfiler/src/GLTables.cpp
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Revision 1.6 - (show annotations) (download)
Wed Sep 6 12:47:18 2006 UTC (18 years, 2 months ago) by mocchiut
Branch: MAIN
CVS Tags: v1r02
Changes since 1.5: +48 -0 lines 
First release of the new YodaProfiler
1 /**
2 * \file GLTables.cpp
3 * \author Elena Vannuccini
4 *
5 * The file contains implementation of the methods to query the DB.
6 */
7 //
8 #include <sstream>
9 //
10 #include <TFile.h>
11 #include <TTree.h>
12 #include <EventHeader.h>
13 #include <PscuHeader.h>
14 //
15 #include <GLTables.h>
16 //
17 ClassImp(GL_TRK_CALIB);
18 ClassImp(GL_RUN);
19 ClassImp(GL_ROOT);
20 ClassImp(GL_PARAM);
21 ClassImp(GL_S4_CALIB);
22 ClassImp(GL_CALO_CALIB);
23 ClassImp(GL_TIMESYNC);
24 //
25 using namespace std;
26
27 GL_RUN::GL_RUN() {
28 ID = 0;
29 ID_RUN_FRAG = 0;
30 ID_ROOT_L0 = 0;
31 ID_ROOT_L2 = 0;
32 RUNHEADER_TIME = 0;
33 RUNTRAILER_TIME = 0;
34 EV_FROM = 0;
35 EV_TO = 0;
36 TRK_CALIB_USED = 0;
37 EFF_WRK_SCHEDULE = 0;
38 PRH_VAR_TRG_MODE_A = 0;
39 PRH_VAR_TRG_MODE_B = 0;
40 ACQ_BUILD_INFO = 0;
41 ACQ_VAR_INFO = 0;
42 RUNHEADER_OBT = 0;
43 RUNTRAILER_OBT = 0;
44 RUNHEADER_PKT = 0;
45 RUNTRAILER_PKT = 0;
46 NEVENTS = 0;
47 LAST_TIMESYNC = 0;
48 OBT_TIMESYNC = 0;
49 COMPILATIONTIMESTAMP = 0;
50 FAV_WRK_SCHEDULE = 0;
51 RM_ACQ_AFTER_CALIB = 0;
52 RM_ACQ_SETTING_MODE = 0;
53 PKT_COUNTER = 0;
54 PKT_READY_COUNTER = 0;
55 TRK_CALIB_USED = 0;
56 CAL_DSP_MASK = 0;
57 BOOT_NUMBER = 0;
58 VALIDATION = 0;
59 }
60
61 void GL_RUN::Clear() {
62 ID = 0;
63 ID_RUN_FRAG = 0;
64 ID_ROOT_L0 = 0;
65 ID_ROOT_L2 = 0;
66 RUNHEADER_TIME = 0;
67 RUNTRAILER_TIME = 0;
68 EV_FROM = 0;
69 EV_TO = 0;
70 TRK_CALIB_USED = 0;
71 EFF_WRK_SCHEDULE = 0;
72 PRH_VAR_TRG_MODE_A = 0;
73 PRH_VAR_TRG_MODE_B = 0;
74 ACQ_BUILD_INFO = 0;
75 ACQ_VAR_INFO = 0;
76 RUNHEADER_OBT = 0;
77 RUNTRAILER_OBT = 0;
78 RUNHEADER_PKT = 0;
79 RUNTRAILER_PKT = 0;
80 NEVENTS = 0;
81 LAST_TIMESYNC = 0;
82 OBT_TIMESYNC = 0;
83 COMPILATIONTIMESTAMP = 0;
84 FAV_WRK_SCHEDULE = 0;
85 RM_ACQ_AFTER_CALIB = 0;
86 RM_ACQ_SETTING_MODE = 0;
87 PKT_COUNTER = 0;
88 PKT_READY_COUNTER = 0;
89 TRK_CALIB_USED = 0;
90 CAL_DSP_MASK = 0;
91 BOOT_NUMBER = 0;
92 VALIDATION = 0;
93 }
94
95 GL_ROOT::GL_ROOT(){
96 ID = 0;
97 ID_RAW = 0;
98 ID_TIMESYNC = 0;
99 PATH = "";
100 NAME = "";
101 }
102
103 GL_PARAM::GL_PARAM(){
104 ID = 0;
105 PATH = "";
106 NAME = "";
107 DESCR = "";
108 FROM_TIME = 0;
109 TO_TIME = 0;
110 TYPE = 0;
111 }
112
113
114 GL_TRK_CALIB::GL_TRK_CALIB(){
115 ID = 0;
116 ID_ROOT_L0 = 0;
117 EV_ROOT_CALIBTRK1 = 0;
118 EV_ROOT_CALIBTRK2 = 0;
119 FROM_TIME = 0;
120 TO_TIME = 0;
121 OBT1 = 0;
122 OBT2 = 0;
123 PKT1 = 0;
124 PKT2 = 0;
125 }
126
127 GL_CALO_CALIB::GL_CALO_CALIB(){
128 ID = 0;
129 ID_ROOT_L0 = 0;
130 EV_ROOT = 0;
131 FROM_TIME = 0;
132 TO_TIME = 0;
133 SECTION = 0;
134 }
135
136 GL_S4_CALIB::GL_S4_CALIB(){
137 ID = 0;
138 ID_ROOT_L0 = 0;
139 EV_ROOT = 0;
140 FROM_TIME = 0;
141 TO_TIME = 0;
142 PARAM_FIT0 = 0.;
143 PARAM_FIT1 = 0.;
144 }
145
146 GL_TIMESYNC::GL_TIMESYNC(){
147 obtfirst = 0;
148 pktfirst = 0;
149 toffset = 0;
150 ID = 0;
151 ID_RAW = 0;
152 OBT0 = 0;
153 TIMESYNC = 0;
154 TYPE = 0;
155 }// ****************************************************
156
157
158 void GL_RUN::SetEV_FROM(UInt_t evfrom){
159 EV_FROM = evfrom;
160 };
161
162 void GL_RUN::SetEV_TO(UInt_t evto){
163 EV_TO = evto;
164 };
165
166 void GL_RUN::SetNEVENTS(UInt_t nev){
167 NEVENTS = nev;
168 };
169
170 void GL_RUN::SetBOOTNUMBER(UInt_t boot){
171 BOOT_NUMBER = boot;
172 };
173
174 void GL_RUN::SetRUNHEADER_TIME(UInt_t absth){
175 RUNHEADER_TIME = absth;
176 };
177
178 void GL_RUN::SetRUNTRAILER_TIME(UInt_t abstt){
179 RUNTRAILER_TIME = abstt;
180 };
181
182 void GL_RUN::SetRUNHEADER_PKT(UInt_t absth){
183 RUNHEADER_PKT = absth;
184 };
185
186 void GL_RUN::SetRUNTRAILER_PKT(UInt_t abstt){
187 RUNTRAILER_PKT = abstt;
188 };
189
190 void GL_RUN::SetRUNHEADER_OBT(UInt_t absth){
191 RUNHEADER_OBT = absth;
192 };
193
194 void GL_RUN::SetRUNTRAILER_OBT(UInt_t abstt){
195 RUNTRAILER_OBT = abstt;
196 };
197
198 void GL_RUN::SetID_ROOT_L2(UInt_t idl2){
199 ID_ROOT_L2 = idl2;
200 };
201
202 void GL_RUN::SetID_ROOT_L0(UInt_t idroot){
203 ID_ROOT_L0 = idroot;
204 };
205
206 void GL_RUN::SetID_RUN_FRAG(UInt_t idfrag){
207 ID_RUN_FRAG = idfrag;
208 };
209
210 void GL_RUN::SetVALIDATION(UInt_t valid){
211 VALIDATION = valid;
212 };
213
214 void GL_RUN::SetLAST_TIMESYNC(UInt_t ts){
215 LAST_TIMESYNC = ts;
216 };
217
218 void GL_RUN::SetOBT_TIMESYNC(UInt_t ts){
219 OBT_TIMESYNC = ts;
220 };
221
222 void GL_RUN:: SetPKT_COUNTER(UInt_t value){
223 PKT_COUNTER = value;
224 };
225
226 void GL_RUN:: SetPKT_READY_COUNTER(UInt_t value){
227 PKT_READY_COUNTER = value;
228 };
229
230 void GL_RUN:: SetCOMPILATIONTIMESTAMP(UInt_t value){
231 COMPILATIONTIMESTAMP = value;
232 };
233
234 void GL_RUN:: SetFAV_WRK_SCHEDULE(UInt_t value){
235 FAV_WRK_SCHEDULE = value;
236 };
237
238 void GL_RUN:: SetEFF_WRK_SCHEDULE(UInt_t value){
239 EFF_WRK_SCHEDULE = value;
240 };
241
242 void GL_RUN:: SetPRH_VAR_TRG_MODE_A(UInt_t value){
243 PRH_VAR_TRG_MODE_A = value;
244 };
245
246 void GL_RUN:: SetPRH_VAR_TRG_MODE_B(UInt_t value){
247 PRH_VAR_TRG_MODE_B = value;
248 };
249
250 void GL_RUN:: SetACQ_BUILD_INFO(UInt_t value){
251 ACQ_BUILD_INFO = value;
252 };
253
254 void GL_RUN:: SetACQ_VAR_INFO(UInt_t value){
255 ACQ_VAR_INFO = value;
256 };
257
258 void GL_RUN:: SetRM_ACQ_AFTER_CALIB(UInt_t value){
259 RM_ACQ_AFTER_CALIB = value;
260 };
261
262 void GL_RUN:: SetRM_ACQ_SETTING_MODE(UInt_t value){
263 RM_ACQ_SETTING_MODE = value;
264 };
265
266 void GL_RUN:: SetTRK_CALIB_USED(UInt_t value){
267 TRK_CALIB_USED = value;
268 };
269
270 void GL_RUN:: SetCAL_DSP_MASK(UInt_t value){
271 CAL_DSP_MASK = value;
272 };
273
274 void GL_RUN:: SetID(UInt_t value){
275 ID = value;
276 };
277
278 void GL_RUN::Set_GL_RUNT(RunTrailerEvent *runt, PscuHeader *pht){
279 PKT_COUNTER = runt->PKT_COUNTER;
280 PKT_READY_COUNTER = runt->PKT_ReadyCounter;
281 RUNTRAILER_OBT = pht->GetOrbitalTime();
282 RUNTRAILER_PKT = pht->GetCounter();
283 };
284
285 void GL_RUN::Set_GL_RUNH(RunHeaderEvent *runh, PscuHeader *phh){
286 TRK_CALIB_USED = runh->TRK_CALIB_USED;
287 PRH_VAR_TRG_MODE_A = runh->PRH_VAR_TRIGGER_MODE_A;
288 PRH_VAR_TRG_MODE_B = runh->PRH_VAR_TRIGGER_MODE_B;
289 ACQ_BUILD_INFO = runh->ACQ_BUILD_INFO;
290 ACQ_VAR_INFO = runh->ACQ_VAR_INFO;
291 RUNHEADER_OBT = phh->GetOrbitalTime();
292 RUNHEADER_PKT = phh->GetCounter();
293 LAST_TIMESYNC = runh->LAST_TIME_SYNC_INFO;
294 OBT_TIMESYNC = runh->OBT_TIME_SYNC;
295 COMPILATIONTIMESTAMP = runh->COMPILATIONTIMESTAMP;
296 FAV_WRK_SCHEDULE = runh->FAVOURITE_WORKING_SCHEDULE;
297 EFF_WRK_SCHEDULE = runh->EFFECTIVE_WORKING_SCHEDULE;
298 RM_ACQ_AFTER_CALIB = runh->RM_ACQ_AFTER_CALIB;
299 RM_ACQ_SETTING_MODE = runh->RM_ACQ_SETTING_MODE;
300 TRK_CALIB_USED = runh->TRK_CALIB_USED;
301 CAL_DSP_MASK = runh->CAL_DSP_MASK;
302 };
303
304 void GL_RUN::Set_GL_RUNT0(){
305 PKT_COUNTER = 0;
306 PKT_READY_COUNTER = 0;
307 RUNTRAILER_OBT = 0;
308 RUNTRAILER_PKT = 0;
309 };
310
311 void GL_RUN::Set_GL_RUNH0(){
312 TRK_CALIB_USED = 0;
313 PRH_VAR_TRG_MODE_A = 0;
314 PRH_VAR_TRG_MODE_B = 0;
315 ACQ_BUILD_INFO = 0;
316 ACQ_VAR_INFO = 0;
317 RUNHEADER_OBT = 0;
318 RUNHEADER_PKT = 0;
319 LAST_TIMESYNC = 0;
320 OBT_TIMESYNC = 0;
321 COMPILATIONTIMESTAMP = 0;
322 FAV_WRK_SCHEDULE = 0;
323 EFF_WRK_SCHEDULE = 0;
324 RM_ACQ_AFTER_CALIB = 0;
325 RM_ACQ_SETTING_MODE = 0;
326 TRK_CALIB_USED = 0;
327 CAL_DSP_MASK = 0;
328 };
329
330
331 /**
332 * Function to fill the GL_RUN table of the DB.
333 *
334 * \param
335 *
336 */
337 Int_t GL_RUN::Fill_GL_RUN(TSQLServer *dbc){
338 // MySQL variables
339 stringstream myquery;
340 // ----------------
341 myquery.str("");
342 myquery << " INSERT INTO GL_RUN (";
343 myquery << "ID";
344 myquery << ",ID_RUN_FRAG";
345 myquery << ",ID_ROOT_L0";
346 myquery << ",ID_ROOT_L2";
347 myquery << ",RUNHEADER_TIME";
348 myquery << ",RUNTRAILER_TIME";
349 myquery << ",RUNHEADER_OBT";
350 myquery << ",RUNTRAILER_OBT";
351 myquery << ",RUNHEADER_PKT";
352 myquery << ",RUNTRAILER_PKT";
353 myquery << ",EV_FROM";
354 myquery << ",EV_TO";
355 myquery << ",NEVENTS";
356 myquery << ",LAST_TIMESYNC";
357 myquery << ",OBT_TIMESYNC";
358 myquery << ",COMPILATIONTIMESTAMP";
359 myquery << ",FAV_WRK_SCHEDULE";
360 myquery << ",EFF_WRK_SCHEDULE";
361 myquery << ",PRH_VAR_TRG_MODE_A";
362 myquery << ",PRH_VAR_TRG_MODE_B";
363 myquery << ",ACQ_BUILD_INFO";
364 myquery << ",ACQ_VAR_INFO";
365 myquery << ",RM_ACQ_AFTER_CALIB";
366 myquery << ",RM_ACQ_SETTING_MODE";
367 myquery << ",PKT_COUNTER";
368 myquery << ",PKT_READY_COUNTER";
369 myquery << ",TRK_CALIB_USED";
370 myquery << ",CAL_DSP_MASK";
371 myquery << ",BOOT_NUMBER";
372 myquery << ",VALIDATION";
373 myquery << ") VALUES ('";
374
375 myquery << (UInt_t)ID << "','";
376 myquery << (UInt_t)ID_RUN_FRAG << "','";
377 myquery << (UInt_t)ID_ROOT_L0 << "','";
378 myquery << (UInt_t)ID_ROOT_L2 << "','";
379 myquery << (UInt_t)RUNHEADER_TIME << "','";
380 myquery << (UInt_t)RUNTRAILER_TIME << "','";
381 myquery << (UInt_t)RUNHEADER_OBT << "','";
382 myquery << (UInt_t)RUNTRAILER_OBT << "','";
383 myquery << (UInt_t)RUNHEADER_PKT << "','";
384 myquery << (UInt_t)RUNTRAILER_PKT << "','";
385 myquery << (UInt_t)EV_FROM << "','";
386 myquery << (UInt_t)EV_TO << "','";
387 myquery << (UInt_t)NEVENTS << "','";
388 myquery << (UInt_t)LAST_TIMESYNC << "','";
389 myquery << (UInt_t)OBT_TIMESYNC << "','";
390 myquery << (UInt_t)COMPILATIONTIMESTAMP << "','";
391 myquery << (UInt_t)FAV_WRK_SCHEDULE << "','";
392 myquery << (UInt_t)EFF_WRK_SCHEDULE << "','";
393 myquery << (UInt_t)PRH_VAR_TRG_MODE_A << "','";
394 myquery << (UInt_t)PRH_VAR_TRG_MODE_B << "','";
395 myquery << (UInt_t)ACQ_BUILD_INFO << "','";
396 myquery << (UInt_t)ACQ_VAR_INFO << "','";
397 myquery << (UInt_t)RM_ACQ_AFTER_CALIB << "','";
398 myquery << (UInt_t)RM_ACQ_SETTING_MODE << "','";
399 myquery << (UInt_t)PKT_COUNTER << "','";
400 myquery << (UInt_t)PKT_READY_COUNTER << "','";
401 myquery << (UInt_t)TRK_CALIB_USED << "','";
402 myquery << (UInt_t)CAL_DSP_MASK << "','";
403 myquery << (UInt_t)BOOT_NUMBER << "','";
404 myquery << (UInt_t)VALIDATION << "');";
405 //
406 // printf("myquery is %s \n",myquery.str().c_str());
407 //
408 dbc->Query(myquery.str().c_str());
409 //
410 return 0;
411
412 };// ****************************************************
413
414 /**
415 * Function to fill the GL_RUN table of the DB.
416 *
417 * \param
418 *
419 */
420 Int_t GL_RUN::Fill_GL_RUN_FRAGMENTS(TSQLServer *dbc){
421 // MySQL variables
422 stringstream myquery;
423 // ----------------
424 myquery.str("");
425 myquery << " INSERT INTO GL_RUN_FRAGMENTS (";
426 myquery << "ID";
427 myquery << ",ID_ROOT_L0";
428 myquery << ",RUNHEADER_TIME";
429 myquery << ",RUNTRAILER_TIME";
430 myquery << ",RUNHEADER_OBT";
431 myquery << ",RUNTRAILER_OBT";
432 myquery << ",RUNHEADER_PKT";
433 myquery << ",RUNTRAILER_PKT";
434 myquery << ",EV_FROM";
435 myquery << ",EV_TO";
436 myquery << ",NEVENTS";
437 myquery << ",LAST_TIMESYNC";
438 myquery << ",OBT_TIMESYNC";
439 myquery << ",COMPILATIONTIMESTAMP";
440 myquery << ",FAV_WRK_SCHEDULE";
441 myquery << ",EFF_WRK_SCHEDULE";
442 myquery << ",PRH_VAR_TRG_MODE_A";
443 myquery << ",PRH_VAR_TRG_MODE_B";
444 myquery << ",ACQ_BUILD_INFO";
445 myquery << ",ACQ_VAR_INFO";
446 myquery << ",RM_ACQ_AFTER_CALIB";
447 myquery << ",RM_ACQ_SETTING_MODE";
448 myquery << ",PKT_COUNTER";
449 myquery << ",PKT_READY_COUNTER";
450 myquery << ",TRK_CALIB_USED";
451 myquery << ",CAL_DSP_MASK";
452 myquery << ",BOOT_NUMBER";
453 myquery << ") VALUES ('";
454 myquery << (UInt_t)ID << "','";
455 myquery << (UInt_t)ID_ROOT_L0 << "','";
456 myquery << (UInt_t)RUNHEADER_TIME << "','";
457 myquery << (UInt_t)RUNTRAILER_TIME << "','";
458 myquery << (UInt_t)RUNHEADER_OBT << "','";
459 myquery << (UInt_t)RUNTRAILER_OBT << "','";
460 myquery << (UInt_t)RUNHEADER_PKT << "','";
461 myquery << (UInt_t)RUNTRAILER_PKT << "','";
462 myquery << (UInt_t)EV_FROM << "','";
463 myquery << (UInt_t)EV_TO << "','";
464 myquery << (UInt_t)NEVENTS << "','";
465 myquery << (UInt_t)LAST_TIMESYNC << "','";
466 myquery << (UInt_t)OBT_TIMESYNC << "','";
467 myquery << (UInt_t)COMPILATIONTIMESTAMP << "','";
468 myquery << (UInt_t)FAV_WRK_SCHEDULE << "','";
469 myquery << (UInt_t)EFF_WRK_SCHEDULE << "','";
470 myquery << (UInt_t)PRH_VAR_TRG_MODE_A << "','";
471 myquery << (UInt_t)PRH_VAR_TRG_MODE_B << "','";
472 myquery << (UInt_t)ACQ_BUILD_INFO << "','";
473 myquery << (UInt_t)ACQ_VAR_INFO << "','";
474 myquery << (UInt_t)RM_ACQ_AFTER_CALIB << "','";
475 myquery << (UInt_t)RM_ACQ_SETTING_MODE << "','";
476 myquery << (UInt_t)PKT_COUNTER << "','";
477 myquery << (UInt_t)PKT_READY_COUNTER << "','";
478 myquery << (UInt_t)TRK_CALIB_USED << "','";
479 myquery << (UInt_t)CAL_DSP_MASK << "','";
480 myquery << (UInt_t)BOOT_NUMBER << "');";
481 //
482 // printf("myquery is %s \n",myquery.str().c_str());
483 //
484 dbc->Query(myquery.str().c_str());
485 //
486 return 0;
487
488 };// ****************************************************
489
490
491 /**
492 * Function to query the GL_RUN table of the DB.
493 *
494 * \param RUN id
495 * \return struct of type GL_RUN _data, which stores the query result
496 *
497 */
498 Int_t GL_RUN::Query_GL_RUN(UInt_t run, TSQLServer *dbc){
499 // MySQL variables
500 TSQLResult *pResult;
501 TSQLRow *Row;
502 int t;
503 int r;
504 stringstream myquery;
505 // ----------------
506 myquery.str("");
507 myquery << " select ";
508 myquery << "ID";
509 myquery << ",ID_RUN_FRAG";
510 myquery << ",ID_ROOT_L0";
511 myquery << ",ID_ROOT_L2";
512 myquery << ",RUNHEADER_TIME";
513 myquery << ",RUNTRAILER_TIME";
514 myquery << ",RUNHEADER_OBT";
515 myquery << ",RUNTRAILER_OBT";
516 myquery << ",RUNHEADER_PKT";
517 myquery << ",RUNTRAILER_PKT";
518 myquery << ",EV_FROM";
519 myquery << ",EV_TO";
520 myquery << ",NEVENTS";
521 myquery << ",LAST_TIMESYNC";
522 myquery << ",OBT_TIMESYNC";
523 myquery << ",COMPILATIONTIMESTAMP";
524 myquery << ",FAV_WRK_SCHEDULE";
525 myquery << ",EFF_WRK_SCHEDULE";
526 myquery << ",PRH_VAR_TRG_MODE_A";
527 myquery << ",PRH_VAR_TRG_MODE_B";
528 myquery << ",ACQ_BUILD_INFO";
529 myquery << ",ACQ_VAR_INFO";
530 myquery << ",RM_ACQ_AFTER_CALIB";
531 myquery << ",RM_ACQ_SETTING_MODE";
532 myquery << ",PKT_COUNTER";
533 myquery << ",PKT_READY_COUNTER";
534 myquery << ",TRK_CALIB_USED";
535 myquery << ",CAL_DSP_MASK";
536 myquery << ",BOOT_NUMBER";
537 myquery << ",VALIDATION";
538 myquery << " from GL_RUN where ID=" << run << ";";
539 //
540 // printf(" myquery is %s \n",myquery.str().c_str());
541 pResult = dbc->Query(myquery.str().c_str());
542 //
543 // printf(" getrowcount %i \n",pResult->GetRowCount());
544 //
545 if( !pResult->GetRowCount() ) return(-50);
546 //
547 for( r=0; r < 1000; r++){
548 Row = pResult->Next();
549 if( Row == NULL ) break;
550 for( t = 0; t < pResult->GetFieldCount(); t++){
551 if (t== 0) ID = (UInt_t)atoll(Row->GetField(t));
552 if (t== 1) ID_RUN_FRAG = (UInt_t)atoll(Row->GetField(t));
553 if (t== 2) ID_ROOT_L0 = (UInt_t)atoll(Row->GetField(t));
554 if (t== 3) ID_ROOT_L2 = (UInt_t)atoll(Row->GetField(t));
555 if (t== 4) RUNHEADER_TIME = (UInt_t)atoll(Row->GetField(t));
556 if (t== 5) RUNTRAILER_TIME = (UInt_t)atoll(Row->GetField(t));
557 if (t== 6) RUNHEADER_OBT = (UInt_t)atoll(Row->GetField(t));
558 if (t== 7) RUNTRAILER_OBT = (UInt_t)atoll(Row->GetField(t));
559 if (t== 8) RUNHEADER_PKT = (UInt_t)atoll(Row->GetField(t));
560 if (t== 9) RUNTRAILER_PKT = (UInt_t)atoll(Row->GetField(t));
561 if (t==10) EV_FROM = (UInt_t)atoll(Row->GetField(t));
562 if (t==11) EV_TO = (UInt_t)atoll(Row->GetField(t));
563 if (t==12) NEVENTS = (UInt_t)atoll(Row->GetField(t));
564 if (t==13) LAST_TIMESYNC = (UInt_t)atoll(Row->GetField(t));
565 if (t==14) OBT_TIMESYNC = (UInt_t)atoll(Row->GetField(t));
566 if (t==15) COMPILATIONTIMESTAMP = (UInt_t)atoll(Row->GetField(t));
567 if (t==16) FAV_WRK_SCHEDULE = (UInt_t)atoll(Row->GetField(t));
568 if (t==17) EFF_WRK_SCHEDULE = (UInt_t)atoll(Row->GetField(t));
569 if (t==18) PRH_VAR_TRG_MODE_A= (UInt_t)atoll(Row->GetField(t));
570 if (t==19) PRH_VAR_TRG_MODE_B= (UInt_t)atoll(Row->GetField(t));
571 if (t==20) ACQ_BUILD_INFO = (UInt_t)atoll(Row->GetField(t));
572 if (t==21) ACQ_VAR_INFO = (UInt_t)atoll(Row->GetField(t));
573 if (t==22) RM_ACQ_AFTER_CALIB= (UInt_t)atoll(Row->GetField(t));
574 if (t==23) RM_ACQ_SETTING_MODE = (UInt_t)atoll(Row->GetField(t));
575 if (t==24) PKT_COUNTER = (UInt_t)atoll(Row->GetField(t));
576 if (t==25) PKT_READY_COUNTER = (UInt_t)atoll(Row->GetField(t));
577 if (t==26) TRK_CALIB_USED = (UInt_t)atoll(Row->GetField(t));
578 if (t==27) CAL_DSP_MASK = (UInt_t)atoll(Row->GetField(t));
579 if (t==28) BOOT_NUMBER = (UInt_t)atoll(Row->GetField(t));
580 if (t==29) VALIDATION = (UInt_t)atoll(Row->GetField(t));
581 };
582 };
583 // delete pResult;
584 return(0);
585 };
586
587 /**
588 * Function to query the GL_RUN table of the DB.
589 *
590 * \param where = condition string
591 * \return struct of type GL_RUN _data, which stores the query result
592 *
593 */
594 Int_t GL_RUN::Query_GL_RUN_FRAGMENTS(TString where, TSQLServer *dbc){
595 // MySQL variables
596 TSQLResult *pResult;
597 TSQLRow *Row;
598 int t;
599 int r;
600 stringstream myquery;
601 // ----------------
602 myquery.str("");
603 myquery << " select ";
604 myquery << "ID";
605 myquery << ",ID_RUN_FRAG";
606 myquery << ",ID_ROOT_L0";
607 myquery << ",ID_ROOT_L2";
608 myquery << ",RUNHEADER_TIME";
609 myquery << ",RUNTRAILER_TIME";
610 myquery << ",RUNHEADER_OBT";
611 myquery << ",RUNTRAILER_OBT";
612 myquery << ",RUNHEADER_PKT";
613 myquery << ",RUNTRAILER_PKT";
614 myquery << ",EV_FROM";
615 myquery << ",EV_TO";
616 myquery << ",NEVENTS";
617 myquery << ",LAST_TIMESYNC";
618 myquery << ",OBT_TIMESYNC";
619 myquery << ",COMPILATIONTIMESTAMP";
620 myquery << ",FAV_WRK_SCHEDULE";
621 myquery << ",EFF_WRK_SCHEDULE";
622 myquery << ",PRH_VAR_TRG_MODE_A";
623 myquery << ",PRH_VAR_TRG_MODE_B";
624 myquery << ",ACQ_BUILD_INFO";
625 myquery << ",ACQ_VAR_INFO";
626 myquery << ",RM_ACQ_AFTER_CALIB";
627 myquery << ",RM_ACQ_SETTING_MODE";
628 myquery << ",PKT_COUNTER";
629 myquery << ",PKT_READY_COUNTER";
630 myquery << ",TRK_CALIB_USED";
631 myquery << ",CAL_DSP_MASK";
632 myquery << ",BOOT_NUMBER";
633 myquery << ",VALIDATION";
634 myquery << " from GL_RUN_FRAGMENTS where " << where.Data() << ";";
635 //
636 // printf(" query is %s \n",myquery.str().c_str());
637 //
638 pResult = dbc->Query(myquery.str().c_str());
639 if(!pResult->GetRowCount())return(-50);
640 for( r=0; r < 1000; r++){
641 Row = pResult->Next();
642 if( Row == NULL ) break;
643 for( t = 0; t < pResult->GetFieldCount(); t++){
644 if (t== 0) ID = (UInt_t)atoll(Row->GetField(t));
645 if (t== 1) ID_RUN_FRAG = (UInt_t)atoll(Row->GetField(t));
646 if (t== 2) ID_ROOT_L0 = (UInt_t)atoll(Row->GetField(t));
647 if (t== 3) ID_ROOT_L2 = (UInt_t)atoll(Row->GetField(t));
648 if (t== 4) RUNHEADER_TIME = (UInt_t)atoll(Row->GetField(t));
649 if (t== 5) RUNTRAILER_TIME = (UInt_t)atoll(Row->GetField(t));
650 if (t== 6) RUNHEADER_OBT = (UInt_t)atoll(Row->GetField(t));
651 if (t== 7) RUNTRAILER_OBT = (UInt_t)atoll(Row->GetField(t));
652 if (t== 8) RUNHEADER_PKT = (UInt_t)atoll(Row->GetField(t));
653 if (t== 9) RUNTRAILER_PKT = (UInt_t)atoll(Row->GetField(t));
654 if (t==10) EV_FROM = (UInt_t)atoll(Row->GetField(t));
655 if (t==11) EV_TO = (UInt_t)atoll(Row->GetField(t));
656 if (t==12) NEVENTS = (UInt_t)atoll(Row->GetField(t));
657 if (t==13) LAST_TIMESYNC = (UInt_t)atoll(Row->GetField(t));
658 if (t==14) OBT_TIMESYNC = (UInt_t)atoll(Row->GetField(t));
659 if (t==15) COMPILATIONTIMESTAMP = (UInt_t)atoll(Row->GetField(t));
660 if (t==16) FAV_WRK_SCHEDULE = (UInt_t)atoll(Row->GetField(t));
661 if (t==17) EFF_WRK_SCHEDULE = (UInt_t)atoll(Row->GetField(t));
662 if (t==18) PRH_VAR_TRG_MODE_A= (UInt_t)atoll(Row->GetField(t));
663 if (t==19) PRH_VAR_TRG_MODE_B= (UInt_t)atoll(Row->GetField(t));
664 if (t==20) ACQ_BUILD_INFO = (UInt_t)atoll(Row->GetField(t));
665 if (t==21) ACQ_VAR_INFO = (UInt_t)atoll(Row->GetField(t));
666 if (t==22) RM_ACQ_AFTER_CALIB= (UInt_t)atoll(Row->GetField(t));
667 if (t==23) RM_ACQ_SETTING_MODE = (UInt_t)atoll(Row->GetField(t));
668 if (t==24) PKT_COUNTER = (UInt_t)atoll(Row->GetField(t));
669 if (t==25) PKT_READY_COUNTER = (UInt_t)atoll(Row->GetField(t));
670 if (t==26) TRK_CALIB_USED = (UInt_t)atoll(Row->GetField(t));
671 if (t==27) CAL_DSP_MASK = (UInt_t)atoll(Row->GetField(t));
672 if (t==28) BOOT_NUMBER = (UInt_t)atoll(Row->GetField(t));
673 if (t==29) VALIDATION = (UInt_t)atoll(Row->GetField(t));
674 };
675 };
676 // delete pResult;
677 return(0);
678 };// ****************************************************
679
680 /**
681 * Function to query the GL_ROOT table of the DB.
682 *
683 * \param entry ID
684 * \return struct of type GL_ROOT_data, which stores the query result
685 */
686 Int_t GL_ROOT::Query_GL_ROOT(UInt_t id, TSQLServer *dbc){
687 // MySQL variables
688 TSQLResult *pResult;
689 TSQLRow *Row;
690 int t;
691 int r;
692 stringstream myquery;
693 // ----------------
694 myquery.str("");
695 myquery << "select ";
696 myquery << " ID";
697 myquery << ",ID_RAW";
698 myquery << ",ID_TIMESYNC";
699 myquery << ",PATH";
700 myquery << ",NAME";
701 myquery << " from GL_ROOT where ID=" << id << ";";
702 //
703 pResult = dbc->Query(myquery.str().c_str());
704 if(!pResult->GetRowCount())return (-51);
705 for( r=0; r < 1000; r++){
706 Row = pResult->Next();
707 if( Row == NULL ) break;
708 for( t = 0; t < pResult->GetFieldCount(); t++){
709 if(t==0) ID = (UInt_t)atoll(Row->GetField(t));
710 if(t==1) ID_RAW = (UInt_t)atoll(Row->GetField(t));
711 if(t==2) ID_TIMESYNC = (UInt_t)atoll(Row->GetField(t));
712 if(t==3) PATH = Row->GetField(t);
713 if(t==4) NAME = Row->GetField(t);
714 };
715 };
716 delete pResult;
717 return 0;
718 };
719 // ****************************************************
720 /**
721 * Function to query the GL_TRK_CALIB table of the DB.
722 *
723 * \param run starting time
724 * \return struct of type GL_TRK_CALIB_data, which stores the query result
725 */
726 Int_t GL_TRK_CALIB::Query_GL_TRK_CALIB(UInt_t time, TSQLServer *dbc){
727 // MySQL variables
728 TSQLResult *pResult;
729 TSQLRow *Row;
730 int t;
731 int r;
732 stringstream myquery;
733 // ----------------
734 myquery.str("");
735 myquery << "select ID,ID_ROOT_L0,EV_ROOT_CALIBTRK1,EV_ROOT_CALIBTRK2,FROM_TIME,TO_TIME,OBT1,OBT2,PKT1,PKT2 from GL_TRK_CALIB where FROM_TIME <= "<< time;
736 myquery << " AND VALIDATION=1 ORDER BY FROM_TIME DESC LIMIT 1;";
737 // myquery << " ORDER BY FROM_TIME DESC LIMIT 1;";
738 pResult = dbc->Query(myquery.str().c_str());
739 if(!pResult->GetRowCount())return (-53);
740 for( r=0; r < 1000; r++){
741 Row = pResult->Next();
742 if( Row == NULL ) break;
743 for( t = 0; t < pResult->GetFieldCount(); t++){
744 stringstream row;
745 row.str("");
746 row << "0" << Row->GetField(t); // add leading 0 since we have two fields that could be "null" and we want to avoid crashes due to atoll
747 if (t==0) ID = (UInt_t)atoll(Row->GetField(t));
748 if (t==1) ID_ROOT_L0 = (UInt_t)atoll(Row->GetField(t));
749 if (t==2) EV_ROOT_CALIBTRK1 = (UInt_t)atoll(row.str().c_str());
750 if (t==3) EV_ROOT_CALIBTRK2 = (UInt_t)atoll(row.str().c_str());
751 if (t==4) FROM_TIME = (UInt_t)atoll(Row->GetField(t));
752 if (t==5) TO_TIME = (UInt_t)atoll(Row->GetField(t));
753 //
754 if (t==6) OBT1 = (UInt_t)atoll(Row->GetField(t));
755 if (t==7) OBT2 = (UInt_t)atoll(Row->GetField(t));
756 if (t==8) PKT1 = (UInt_t)atoll(Row->GetField(t));
757 if (t==9) PKT2 = (UInt_t)atoll(Row->GetField(t));
758 };
759 };
760 delete pResult;
761 //
762 if(TO_TIME < time)return(51);
763 if ( (!OBT1 && !PKT1 ) || (!OBT2 && !PKT2) ) return(52); // ONE CALIBRATION PACKET IS MISSING!
764 //
765 return 0;
766 };
767
768 // ****************************************************
769 /**
770 * Function to query the GL_CALO_CALIB table of the DB.
771 *
772 * \param run starting time
773 * \return struct of type GL_CALO_CALIB_data, which stores the query result
774 */
775 Int_t GL_CALO_CALIB::Query_GL_CALO_CALIB(UInt_t time, UInt_t section, TSQLServer *dbc){
776 // MySQL variables
777 TSQLResult *pResult;
778 TSQLRow *Row;
779 int t;
780 stringstream myquery;
781 //
782 // select the correct calibration
783 //
784 myquery.str("");
785 myquery << "select ID_ROOT_L0, FROM_TIME, TO_TIME, EV_ROOT,VALIDATION from GL_CALO_CALIB where SECTION=" << section;
786 myquery << " and FROM_TIME <= " << time;
787 myquery << " and TO_TIME > " << time;
788 myquery << " and VALIDATION=1;";
789 //
790 pResult = dbc->Query(myquery.str().c_str());
791 //
792 // if it is corrupted validation is 0 and we have no results from the query...
793 //
794 if( !pResult->GetRowCount() ){
795 // pResult->Delete();
796 //
797 // in this case take relax the conditions and take the valid calibration that preceed the correct one
798 //
799 myquery.str("");
800 myquery << "select ID_ROOT_L0, FROM_TIME, TO_TIME, EV_ROOT,VALIDATION from GL_CALO_CALIB where SECTION=" << section;
801 myquery << " and FROM_TIME <= " << time;
802 myquery << " and VALIDATION=1 ORDER BY FROM_TIME DESC LIMIT 1;";
803 pResult = dbc->Query(myquery.str().c_str());
804 //
805 // if no results yet quit with error
806 //
807 if( !pResult->GetRowCount() ) return (-54);
808 };
809 //
810 // store infos and exit
811 //
812 Row = pResult->Next();
813 if( Row == NULL ) return (-54);
814 for( t = 0; t < pResult->GetFieldCount(); t++){
815 if (t==0) ID_ROOT_L0 = (UInt_t)atoll(Row->GetField(t));
816 if (t==1) FROM_TIME = (UInt_t)atoll(Row->GetField(t));
817 if (t==2) TO_TIME = (UInt_t)atoll(Row->GetField(t));
818 if (t==3) EV_ROOT = (UInt_t)atoll(Row->GetField(t));
819 };
820 pResult->Delete();
821 return 0;
822 };
823 // ****************************************************
824 /**
825 * Function to query the GL_S4_CALIB table of the DB.
826 *
827 * \param run starting time
828 * \return struct of type GL_S4_CALIB_data, which stores the query result
829 */
830 Int_t GL_S4_CALIB::Query_GL_S4_CALIB(UInt_t time, TSQLServer *dbc){
831 // MySQL variables
832 TSQLResult *pResult;
833 TSQLRow *Row;
834 int t;
835 int r;
836 stringstream myquery;
837 // ----------------
838 myquery.str("");
839 myquery << "select * from GL_S4_CALIB where FROM_TIME <= "<< time;
840 myquery << " ORDER BY FROM_TIME DESC LIMIT 1;";
841 // myquery << " ORDER BY FROM_TIME DESC LIMIT 1;";
842 pResult = dbc->Query(myquery.str().c_str());
843 if(!pResult->GetRowCount())return (-55);//throw -55;
844 for( r=0; r < 1000; r++){
845 Row = pResult->Next();
846 if( Row == NULL ) break;
847 for( t = 0; t < pResult->GetFieldCount(); t++){
848 if (t==0) ID = (UInt_t)atoll(Row->GetField(t));
849 if (t==1) ID_ROOT_L0 = (UInt_t)atoll(Row->GetField(t));
850 if (t==2) EV_ROOT = (UInt_t)atoll(Row->GetField(t));
851 if (t==3) FROM_TIME = (UInt_t)atoll(Row->GetField(t));
852 if (t==4) TO_TIME = (UInt_t)atoll(Row->GetField(t));
853 if (t==5) PARAM_FIT0 = atof(Row->GetField(t));
854 if (t==6) PARAM_FIT1 = atof(Row->GetField(t));
855 };
856 };
857 delete pResult;
858 //
859 if(TO_TIME < time)return(51);
860 //
861 return 0;
862 };
863 // ****************************************************
864 /**
865 * Function to query the GL_PARAM table of the DB.
866 *
867 * \param run starting time
868 * \param parameter description (DESCR)
869 * \return struct of type GL_ROOT_data, which stores the query result
870 */
871 Int_t GL_PARAM::Query_GL_PARAM(UInt_t time, UInt_t type, TSQLServer *dbc){
872 // Bool_t debug = 1;
873 // MySQL variables
874 TSQLResult *pResult;
875 TSQLRow *Row;
876 int t;
877 int r;
878 stringstream myquery;
879 // ----------------
880 myquery.str("");
881 myquery << " select ";
882 myquery << " ID, PATH, NAME, DESCR, TYPE, FROM_TIME,TO_TIME ";
883 myquery << " from GL_PARAM ";
884 myquery << " where TYPE = '"<<type<<"' ";
885 myquery << " and FROM_TIME <= " << time;
886 myquery << " ORDER BY TO_TIME DESC LIMIT 1;";
887 //
888 pResult = dbc->Query(myquery.str().c_str());
889 if(!pResult->GetRowCount())return (-52);
890 for( r=0; r < 1000; r++){
891 Row = pResult->Next();
892 if( Row == NULL ) break;
893 for( t = 0; t < pResult->GetFieldCount(); t++){
894 if (t==0) ID = (UInt_t)atoll(Row->GetField(t));
895 if (t==1) PATH = Row->GetField(t);// put in fpath the path to that file
896 if (t==2) NAME = Row->GetField(t);
897 if (t==3) DESCR = Row->GetField(t);
898 if (t==4) FROM_TIME = (UInt_t)atoll(Row->GetField(t));
899 if (t==5) TO_TIME = (UInt_t)atoll(Row->GetField(t));
900 if (t==6) TYPE = (UInt_t)atoll(Row->GetField(t));
901 };
902 };
903 delete pResult;
904 //
905 if(TO_TIME==0) TO_TIME = numeric_limits<UInt_t>::max();
906 //
907 if(TO_TIME < time) return(51);
908 //
909 return 0;
910 };
911
912
913 /**
914 * Fills a struct cGLRun with values from a GLRun object (to put data into a F77 common).
915 */
916
917 void GL_RUN::GetLevel2Struct(cGLRun *l2) const{
918 l2->id = ID;
919 l2->id_reg_run = ID_ROOT_L0;
920 l2->id_reg_run_l2 = ID_ROOT_L2;
921 l2->runheader_time = RUNHEADER_TIME;
922 l2->runtrailer_time = RUNTRAILER_TIME;
923 l2->ev_from = EV_FROM;
924 l2->trk_calib_used = TRK_CALIB_USED;
925 l2->eff_wrk_schedule = EFF_WRK_SCHEDULE;
926 l2->prh_var_trg_mode_a = PRH_VAR_TRG_MODE_A;
927 l2->prh_var_trg_mode_b = PRH_VAR_TRG_MODE_B;
928 l2->acq_build_info = ACQ_BUILD_INFO;
929 l2->acq_var_info = ACQ_VAR_INFO;
930 };
931
932 GL_TIMESYNC::GL_TIMESYNC(UInt_t id, TString type, TSQLServer *dbc){
933 // MySQL variables
934 TFile *file = 0;
935 UInt_t idraw = 0;
936 //
937 TSQLResult *pResult;
938 TSQLRow *Row;
939 stringstream myquery;
940 // ----------------
941 myquery.str("");
942 myquery << "select ";
943 myquery << "PATH";
944 myquery << ",NAME,ID_RAW";
945 myquery << " from GL_ROOT where ";
946 myquery << type.Data();
947 myquery << "=" << id << ";";
948 //
949 pResult = dbc->Query(myquery.str().c_str());
950 if( pResult->GetRowCount() ){
951 Row = pResult->Next();
952 if( Row ){
953 stringstream fname;
954 fname.str("");
955 fname << Row->GetField(0) << "/" << Row->GetField(1);
956 file = new TFile(fname.str().c_str(),"READ");
957 idraw = (UInt_t)atoll(Row->GetField(2));
958 };
959 };
960 //
961 if ( file && file->IsOpen() ){
962 TTree *T=(TTree*)file->Get("Physics");
963 pamela::EventHeader *eh = 0;
964 pamela::PscuHeader *ph = 0;
965 T->SetBranchAddress("Header", &eh);
966 //
967 T->GetEntry(0);
968 ph = eh->GetPscuHeader();
969 pktfirst = ph->GetCounter();
970 obtfirst = ph->GetOrbitalTime();
971 };
972 //
973 // look for Resurs offset
974 //
975 UInt_t t0 = 0;
976 //
977 myquery.str("");
978 myquery << "SELECT OFFSET_DATE FROM GL_RESURS_OFFSET WHERE FROM_ID_RAW<= "
979 << idraw << " AND TO_ID_RAW >= "
980 << idraw << ";";
981 pResult = dbc->Query(myquery.str().c_str());
982 if ( pResult ){
983 Row = pResult->Next();
984 if ( Row ){
985 //
986 t0 = (UInt_t)TDatime(Row->GetField(0)).Convert();
987 //
988 };
989 };
990 //
991 //
992 // look for the correct timesync entry
993 //
994 myquery.str("");
995 myquery << " SELECT OBT0,TIMESYNC FROM GL_TIMESYNC "
996 << " WHERE ID_RAW = " << idraw
997 << ";";
998 pResult = dbc->Query(myquery.str().c_str());
999 if ( pResult ){
1000 Row = pResult->Next();
1001 if ( (Row != NULL) && ((UInt_t)atoll(Row->GetField(0)) > 0 ) ){
1002 toffset = (UInt_t)atoll(Row->GetField(1)) - (UInt_t)(this->DBobt((UInt_t)atoll(Row->GetField(0)))/1000) + t0;
1003 };
1004 };
1005 //
1006 file->Close();
1007 delete pResult;
1008 };
1009
1010 /**
1011 *
1012 * Returns the DB absolute time needed to associate calibrations to data
1013 *
1014 */
1015 UInt_t GL_TIMESYNC::DBabsTime(UInt_t OBT){
1016 //
1017 return(((UInt_t)(this->DBobt(OBT)/1000)+toffset));
1018 //
1019 };
1020
1021
1022 ULong64_t GL_TIMESYNC::DBobt(UInt_t obt){
1023 //
1024 if ( obt < (obtfirst/2) && obtfirst > (numeric_limits<UInt_t>::max()/2) ) return((ULong64_t)(obt+numeric_limits<UInt_t>::max()));
1025 //
1026 if ( obt > (obtfirst*2) && obt > (numeric_limits<UInt_t>::max()/2) ){
1027 if ( (obt-numeric_limits<UInt_t>::max()) < 0 ){
1028 return((ULong64_t)(numeric_limits<UInt_t>::max()-obt));
1029 } else {
1030 return((ULong64_t)(obt-numeric_limits<UInt_t>::max()));
1031 };
1032 };
1033 //
1034 return((ULong64_t)obt);
1035 //
1036 };
1037
1038 UInt_t GL_TIMESYNC::DBpkt(UInt_t pkt_num){
1039 //
1040 if ( pkt_num < (pktfirst/2) && pktfirst > (16777214/2) ) return((pkt_num+16777215));
1041 //
1042 if ( pkt_num > pktfirst*2 && pkt_num > (16777214/2) ){
1043 if ( (pkt_num-16777215) < 0 ){
1044 return((16777215-pkt_num));
1045 } else {
1046 return((pkt_num-16777215));
1047 };
1048 };
1049 //
1050 return(pkt_num);
1051 //
1052 };
1053
1054 /*
1055 *
1056 * Convert the time in the DB from UInt_t to a string
1057 *
1058 * @param dbt time in the DB
1059 * @param tzone Time Zone, can be UTC,GMT,CET,CEST,MSD default is MSK
1060 *
1061 */
1062 TString GL_TIMESYNC::ConvertTime(TString tzone, UInt_t dbt){
1063 //
1064 TDatime *time = new TDatime();
1065 TString rtime;
1066 //
1067 time->Set(dbt,false); // MSK = Moscow Winter Time
1068 //
1069 if ( !strcmp(tzone.Data(),"UTC") || !strcmp(tzone.Data(),"GMT") ){
1070 //
1071 UInt_t timeUTC = time->Convert() - 60*60*3; // UTC (Coordinated Universal Time) = Moscow Winter Time - 3 hs
1072 time->Set(timeUTC,false);
1073 //
1074 };
1075 //
1076 if ( !strcmp(tzone.Data(),"CET") ){
1077 //
1078 UInt_t timeCET = time->Convert() - 60*60*2; // CET (Central European Time) = Moscow Winter Time - 2 hs
1079 time->Set(timeCET,false);
1080 //
1081 };
1082 //
1083 if ( !strcmp(tzone.Data(),"CEST") ){
1084 //
1085 UInt_t timeCEST = time->Convert() - 60*60*1; // CEST (Central European Summer Time) = Moscow Winter Time - 1 h
1086 time->Set(timeCEST,false);
1087 //
1088 };
1089 //
1090 if ( !strcmp(tzone.Data(),"MSD") ){
1091 //
1092 UInt_t timeMSD = time->Convert() + 60*60*1; // MSD (Moscow Summer Time) = Moscow Winter Time + 1 h
1093 time->Set(timeMSD,false);
1094 //
1095 };
1096 //
1097 rtime = time->AsSQLString();
1098 //
1099 return(rtime);
1100 }
1101
1102 /*
1103 *
1104 * Convert the time in the DB from UInt_t to a string
1105 *
1106 * @param dbt time in the DB
1107 * @param tzone Time Zone, can be UTC,GMT,CET,CEST,MSD default is MSK
1108 *
1109 */
1110 TString GL_TIMESYNC::UnConvertTime(TString tzone, UInt_t dbt){
1111 //
1112 TDatime *time = new TDatime();
1113 TString rtime;
1114 //
1115 time->Set(dbt,false); // MSK = Moscow Winter Time
1116 //
1117 if ( !strcmp(tzone.Data(),"UTC") || !strcmp(tzone.Data(),"GMT") ){
1118 //
1119 UInt_t timeUTC = time->Convert() + 60*60*3; // UTC (Coordinated Universal Time) +3 hs = Moscow Winter Time
1120 time->Set(timeUTC,false);
1121 //
1122 };
1123 //
1124 if ( !strcmp(tzone.Data(),"CET") ){
1125 //
1126 UInt_t timeCET = time->Convert() + 60*60*2; // CET (Central European Time) + 2 hs = Moscow Winter Time
1127 time->Set(timeCET,false);
1128 //
1129 };
1130 //
1131 if ( !strcmp(tzone.Data(),"CEST") ){
1132 //
1133 UInt_t timeCEST = time->Convert() + 60*60*1; // CEST (Central European Summer Time) + 1 h = Moscow Winter Time
1134 time->Set(timeCEST,false);
1135 //
1136 };
1137 //
1138 if ( !strcmp(tzone.Data(),"MSD") ){
1139 //
1140 UInt_t timeMSD = time->Convert() - 60*60*1; // MSD (Moscow Summer Time) - 1 h = Moscow Winter Time
1141 time->Set(timeMSD,false);
1142 //
1143 };
1144 //
1145 rtime = time->AsSQLString();
1146 //
1147 return(rtime);
1148 }
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