3 This program reads the DAQ data files passed as argument using the monitoring library.
5 The program reports about its processing progress.
7 Messages on stdout are exported to DAQ log system.
9 DA for ZDC standalone pedestal runs
11 Contact: Chiara.Oppedisano@to.infn.it
13 Run Type: STANDALONE_LASER_RUN
15 Number of events needed: no constraint (tipically ~10^3)
16 Input Files: ZDCPedestal.dat
17 Output Files: ZDCLaser.dat
18 Trigger Types Used: Standalone Trigger
21 #define PEDDATA_FILE "ZDCPedestal.dat"
22 #define MAPDATA_FILE "ZDCChMapping.dat"
23 #define LASHISTO_FILE "ZDCLaserHisto.root"
24 #define LASDATA_FILE "ZDCLaserCalib.dat"
28 #include <Riostream.h>
37 #include <TPluginManager.h>
42 #include "TMinuitMinimizer.h"
45 #include <AliRawReaderDate.h>
46 #include <AliRawEventHeaderBase.h>
47 #include <AliZDCRawStream.h>
51 Arguments: list of DATE raw data files
53 int main(int argc, char **argv) {
55 gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo",
62 gROOT->GetPluginManager()->AddHandler("ROOT::Math::Minimizer", "Minuit","TMinuitMinimizer",
63 "Minuit", "TMinuitMinimizer(const char *)");
64 TVirtualFitter::SetDefaultFitter("Minuit");
67 int const kNChannels = 24;
68 int const kNScChannels = 32;
69 Int_t kFirstADCGeo=0, kLastADCGeo=3;
72 Int_t adcMod[2*kNChannels], adcCh[2*kNChannels], sigCode[2*kNChannels];
73 Int_t det[2*kNChannels], sec[2*kNChannels];
74 for(Int_t y=0; y<2*kNChannels; y++){
75 adcMod[y]=adcCh[y]=sigCode[y]=det[y]=sec[y]=0;
78 /* log start of process */
79 printf("\n ZDC LASER program started\n");
81 /* check that we got some arguments = list of files */
83 printf("Wrong number of arguments\n");
87 // --- Histograms for LASER runs
88 // 20 signal channels + 2 reference PTMs
90 TH1F::AddDirectory(0);
91 // --- Histos for reference PMTs (high gain chains)
92 TH1F *hPMRefChg = new TH1F("hPMRefChg","hPMRefChg", 100,0.,1000.);
93 TH1F *hPMRefAhg = new TH1F("hPMRefAhg","hPMRefAhg", 100,0.,1000.);
94 TH1F *hPMRefClg = new TH1F("hPMRefClg","hPMRefClg", 100,0.,4000.);
95 TH1F *hPMRefAlg = new TH1F("hPMRefAlg","hPMRefAlg", 100,0.,4000.);
97 // --- Histos for detector PMTs
98 TH1F *hZNChg[5], *hZPChg[5], *hZNAhg[5], *hZPAhg[5], *hZEMhg[2];
99 TH1F *hZNClg[5], *hZPClg[5], *hZNAlg[5], *hZPAlg[5], *hZEMlg[2];
100 char hnamZNChg[20], hnamZPChg[20], hnamZNAhg[20], hnamZPAhg[20];
101 char hnamZNClg[20], hnamZPClg[20], hnamZNAlg[20], hnamZPAlg[20];
102 char hnamZEMhg[20], hnamZEMlg[20];
103 for(Int_t j=0; j<5; j++){
104 sprintf(hnamZNChg,"ZNChg-tow%d",j);
105 sprintf(hnamZPChg,"ZPChg-tow%d",j);
106 sprintf(hnamZNAhg,"ZNAhg-tow%d",j);
107 sprintf(hnamZPAhg,"ZPAhg-tow%d",j);
109 hZNChg[j] = new TH1F(hnamZNChg, hnamZNChg, 100, 0., 1000.);
110 hZPChg[j] = new TH1F(hnamZPChg, hnamZPChg, 100, 0., 1000.);
111 hZNAhg[j] = new TH1F(hnamZNAhg, hnamZNAhg, 100, 0., 1000.);
112 hZPAhg[j] = new TH1F(hnamZPAhg, hnamZPAhg, 100, 0., 1000.);
114 sprintf(hnamZNClg,"ZNClg-tow%d",j);
115 sprintf(hnamZPClg,"ZPClg-tow%d",j);
116 sprintf(hnamZNAlg,"ZNAlg-tow%d",j);
117 sprintf(hnamZPAlg,"ZPAlg-tow%d",j);
119 hZNClg[j] = new TH1F(hnamZNClg, hnamZNClg, 100, 0., 4000.);
120 hZPClg[j] = new TH1F(hnamZPClg, hnamZPClg, 100, 0., 4000.);
121 hZNAlg[j] = new TH1F(hnamZNAlg, hnamZNAlg, 100, 0., 4000.);
122 hZPAlg[j] = new TH1F(hnamZPAlg, hnamZPAlg, 100, 0., 4000.);
125 sprintf(hnamZEMhg,"ZEM%dhg",j);
126 sprintf(hnamZEMlg,"ZEM%dlg",j);
128 hZEMhg[j] = new TH1F(hnamZEMhg, hnamZEMhg, 100, 0., 1000.);
129 hZEMlg[j] = new TH1F(hnamZEMlg, hnamZEMlg, 100, 0., 4000.);
133 /* open result file */
135 fp=fopen("./result.txt","a");
137 printf("Failed to open file\n");
140 /* report progress */
141 daqDA_progressReport(10);
143 // *** To analyze LASER events you MUST have a pedestal data file!!!
144 // *** -> check if a pedestal run has been analyzed
146 read = daqDA_DB_getFile(PEDDATA_FILE, PEDDATA_FILE);
148 printf("\t ERROR!!! ZDCPedestal.dat file NOT FOUND in DAQ db!!!\n");
151 else printf("\t ZDCPedestal.dat file retrieved from DAQ db\n");
153 FILE *filePed = fopen(PEDDATA_FILE,"r");
155 printf("\t ERROR!!! Can't open ZDCPedestal.dat file!!!\n");
159 // 144 = 48 in-time + 48 out-of-time + 48 correlations
160 Float_t readValues[2][6*kNChannels];
161 Float_t MeanPedhg[kNChannels], MeanPedlg[kNChannels];
162 Float_t CorrCoeff0[2*kNChannels], CorrCoeff1[2*kNChannels];
163 // ***************************************************
164 // Unless we have a narrow correlation to fit we
165 // don't fit and store in-time vs. out-of-time
166 // histograms -> mean pedstal subtracted!!!!!!
167 // ***************************************************
169 for(int jj=0; jj<6*kNChannels; jj++){
170 for(int ii=0; ii<2; ii++){
171 fscanf(filePed,"%f",&readValues[ii][jj]);
174 MeanPedhg[jj] = readValues[0][jj];
175 //printf("\t MeanPedhg[%d] = %1.1f\n",jj, MeanPedhg[jj]);
177 else if(jj>=kNChannels && jj<2*kNChannels){
178 MeanPedlg[jj-kNChannels] = readValues[0][jj];
179 //printf("\t MeanPedlg[%d] = %1.1f\n",jj-kNChannels, MeanPedlg[jj-kNChannels]);
181 else if(jj>4*kNChannels){
182 CorrCoeff0[jj-4*kNChannels] = readValues[0][jj];
183 CorrCoeff1[jj-4*kNChannels] = readValues[1][jj];;
187 FILE *mapFile4Shuttle;
189 /* report progress */
190 daqDA_progressReport(20);
193 /* init some counters */
194 int nevents_physics=0;
197 struct eventHeaderStruct *event;
198 eventTypeType eventT;
200 /* read the data files */
202 for(n=1;n<argc;n++) {
204 status=monitorSetDataSource( argv[n] );
206 printf("monitorSetDataSource() failed : %s\n",monitorDecodeError(status));
210 /* report progress */
211 /* in this example, indexed on the number of files */
212 daqDA_progressReport(20+70*n/argc);
218 status=monitorGetEventDynamic((void **)&event);
219 if (status==MON_ERR_EOF) break; /* end of monitoring file has been reached */
221 printf("monitorGetEventDynamic() failed : %s\n",monitorDecodeError(status));
225 /* retry if got no event */
230 // Initalize raw-data reading and decoding
231 AliRawReader *reader = new AliRawReaderDate((void*)event);
232 reader->Select("ZDC");
233 // --- Reading event header
234 //UInt_t evtype = reader->GetType();
235 //printf("\n\t ZDCLASERda -> ev. type %d\n",evtype);
236 //printf("\t ZDCLASERda -> run # %d\n",reader->GetRunNumber());
238 AliZDCRawStream *rawStreamZDC = new AliZDCRawStream(reader);
241 /* use event - here, just write event id to result file */
242 eventT=event->eventType;
245 Int_t scMod[kNScChannels], scCh[kNScChannels], scSigCode[kNScChannels];
246 Int_t scDet[kNScChannels], scSec[kNScChannels];
247 for(Int_t y=0; y<kNScChannels; y++){
248 scMod[y]=scCh[y]=scSigCode[y]=scDet[y]=scSec[y]=0;
251 Int_t modNum=-1, modType=-1;
253 if(eventT==START_OF_DATA){
255 rawStreamZDC->SetSODReading(kTRUE);
257 // --------------------------------------------------------
258 // --- Writing ascii data file for the Shuttle preprocessor
259 mapFile4Shuttle = fopen(MAPDATA_FILE,"w");
260 if(!rawStreamZDC->Next()) printf(" \t No raw data found!! \n");
262 while((rawStreamZDC->Next())){
263 if(rawStreamZDC->IsHeaderMapping()){ // mapping header
264 modNum = rawStreamZDC->GetADCModule();
265 modType = rawStreamZDC->GetModType();
267 if(rawStreamZDC->IsChMapping()){
268 if(modType==1){ // ADC mapping ----------------------
269 adcMod[ich] = rawStreamZDC->GetADCModFromMap(ich);
270 adcCh[ich] = rawStreamZDC->GetADCChFromMap(ich);
271 sigCode[ich] = rawStreamZDC->GetADCSignFromMap(ich);
272 det[ich] = rawStreamZDC->GetDetectorFromMap(ich);
273 sec[ich] = rawStreamZDC->GetTowerFromMap(ich);
275 fprintf(mapFile4Shuttle,"\t%d\t%d\t%d\t%d\t%d\t%d\n",
276 ich,adcMod[ich],adcCh[ich],sigCode[ich],det[ich],sec[ich]);
278 //printf(" Mapping in DA -> %d ADC: mod %d ch %d, code %d det %d, sec %d\n",
279 // ich,adcMod[ich],adcCh[ich],sigCode[ich],det[ich],sec[ich]);
283 else if(modType==2){ //VME scaler mapping --------------------
284 scMod[iScCh] = rawStreamZDC->GetScalerModFromMap(iScCh);
285 scCh[iScCh] = rawStreamZDC->GetScalerChFromMap(iScCh);
286 scSigCode[iScCh] = rawStreamZDC->GetScalerSignFromMap(iScCh);
287 scDet[iScCh] = rawStreamZDC->GetScDetectorFromMap(iScCh);
288 scSec[iScCh] = rawStreamZDC->GetScTowerFromMap(iScCh);
290 fprintf(mapFile4Shuttle,"\t%d\t%d\t%d\t%d\t%d\t%d\n",
291 iScCh,scMod[iScCh],scCh[iScCh],scSigCode[iScCh],scDet[iScCh],scSec[iScCh]);
293 //printf(" Mapping in DA -> %d Scaler: mod %d ch %d, code %d det %d, sec %d\n",
294 // iScCh,scMod[iScCh],scCh[iScCh],scSigCode[iScCh],scDet[iScCh],scSec[iScCh]);
301 fclose(mapFile4Shuttle);
304 else if(eventT==PHYSICS_EVENT){
305 // --- Reading data header
306 reader->ReadHeader();
307 const AliRawDataHeader* header = reader->GetDataHeader();
309 UChar_t message = header->GetAttributes();
310 if((message & 0x30) == 0x30){ // DEDICATED LASER RUN
311 //printf("\t STANDALONE_LASER_RUN raw data found\n");
314 printf("ZDCLASERda.cxx -> NO STANDALONE_LASER_RUN raw data found\n");
319 printf("\t ATTENTION! No Raw Data Header found!!!\n");
323 rawStreamZDC->SetSODReading(kTRUE);
325 if (!rawStreamZDC->Next()) printf(" \t No raw data found!! \n");
327 // ----- Setting ch. mapping -----
328 for(Int_t jk=0; jk<2*kNChannels; jk++){
329 rawStreamZDC->SetMapADCMod(jk, adcMod[jk]);
330 rawStreamZDC->SetMapADCCh(jk, adcCh[jk]);
331 rawStreamZDC->SetMapADCSig(jk, sigCode[jk]);
332 rawStreamZDC->SetMapDet(jk, det[jk]);
333 rawStreamZDC->SetMapTow(jk, sec[jk]);
336 while(rawStreamZDC->Next()){
338 Int_t detector = rawStreamZDC->GetSector(0);
339 Int_t sector = rawStreamZDC->GetSector(1);
341 if(rawStreamZDC->IsADCDataWord() && !(rawStreamZDC->IsUnderflow()) &&
342 !(rawStreamZDC->IsOverflow()) && detector!=-1 &&
343 rawStreamZDC->GetADCModule()>=kFirstADCGeo && rawStreamZDC->GetADCModule()<=kLastADCGeo){
345 if(sector!=5){ // Physics signals
346 if(detector==1) index = sector; // *** ZNC
347 else if(detector==2) index = sector+5; // *** ZPC
348 else if(detector==3) index = sector+9; // *** ZEM
349 else if(detector==4) index = sector+12;// *** ZNA
350 else if(detector==5) index = sector+17;// *** ZPA
352 else{ // Reference PMs
353 index = (detector-1)/3+22;
356 if(index==-1) printf("ERROR in ZDCLASERda.cxx -> det %d quad %d res %d index %d ADC %d\n",
357 detector, sector, rawStreamZDC->GetADCGain(), index, rawStreamZDC->GetADCValue());
360 if(rawStreamZDC->GetADCGain()==0) Pedestal = MeanPedhg[index];
361 else if(rawStreamZDC->GetADCGain()==1) Pedestal = MeanPedlg[index];
363 Float_t CorrADC = rawStreamZDC->GetADCValue() - Pedestal;
365 //printf("\tdet %d sec %d res %d index %d ped %1.0f ADCcorr %1.0f\n",
366 // detector, sector, rawStreamZDC->GetADCGain(), index, Pedestal,CorrADC);
370 if(rawStreamZDC->GetADCGain()==0){ // --- High gain chain ---
372 if(detector==1) hZNChg[sector]->Fill(CorrADC);
373 else if(detector==2) hZPChg[sector]->Fill(CorrADC);
375 else if(detector==4) hZNAhg[sector]->Fill(CorrADC);
376 else if(detector==5) hZPAhg[sector]->Fill(CorrADC);
378 else if(detector==3){
379 hZEMhg[sector-1]->Fill(CorrADC);
382 else if(rawStreamZDC->GetADCGain()==1){ // --- Low gain chain ---
384 if(detector==1) hZNClg[sector]->Fill(CorrADC);
385 else if(detector==2) hZPClg[sector]->Fill(CorrADC);
387 else if(detector==4) hZNAlg[sector]->Fill(CorrADC);
388 else if(detector==5) hZPAlg[sector]->Fill(CorrADC);
390 else if(detector==3) hZEMlg[sector-1]->Fill(CorrADC);
393 // **** Reference PMs
395 if(rawStreamZDC->GetADCGain()==0){ // --- High gain chain ---
396 // ---- PMRef chain side C
397 if(detector==1) hPMRefChg->Fill(CorrADC);
399 else if(detector==4) hPMRefAhg->Fill(CorrADC);
401 else if(rawStreamZDC->GetADCGain()==1){ // --- Low gain chain ---
402 // ---- PMRef chain side C
403 if(detector==1) hPMRefClg->Fill(CorrADC);
405 else if(detector==4) hPMRefAlg->Fill(CorrADC);
408 }//IsADCDataWord()+NOunderflow+NOoverflow
417 }//(if PHYSICS_EVENT)
419 /* exit when last event received, no need to wait for TERM signal */
420 else if(eventT==END_OF_RUN) {
421 printf(" -> EOR event detected\n");
434 /* Analysis of the histograms */
436 Int_t detector[2*kNChannels], quad[2*kNChannels];
437 Int_t maxBin[2*kNChannels], nBin[2*kNChannels];
438 Float_t xMax[2*kNChannels], maxXval[2*kNChannels], xlow[2*kNChannels];
439 Float_t mean[2*kNChannels], sigma[2*kNChannels];
440 for(Int_t t=0; t<2*kNChannels; t++){
441 detector[t] = quad[t] = 0;
442 maxBin[t] = nBin[t] = 0;
443 xMax[t] = maxXval[t] = xlow[t] = 0.;
444 mean[t] = sigma[t] = 0.;
446 TF1 *fun[2*kNChannels];
447 Int_t atLeastOneHisto=0;
449 // ******** High gain chain ********
450 for(Int_t k=0; k<5; k++){
454 maxBin[k] = hZNChg[k]->GetMaximumBin();
455 nBin[k] = (hZNChg[k]->GetXaxis())->GetNbins();
456 xMax[k] = (hZNChg[k]->GetXaxis())->GetXmax();
457 if(nBin[k]!=0) maxXval[k] = maxBin[k]*xMax[k]/nBin[k];
458 if(maxXval[k]-150.<0.) xlow[k]=0.;
459 else xlow[k] = maxXval[k]-150.;
460 // checking if at least one histo is fitted
461 if(hZNChg[k]->GetEntries()!=0 && hZNChg[k]->GetMean()>0){
464 hZNChg[k]->Fit("gaus","Q","",xlow[k],maxXval[k]+150.);
465 fun[k] = hZNChg[k]->GetFunction("gaus");
466 mean[k] = (Float_t) (fun[k]->GetParameter(1));
467 sigma[k] = (Float_t) (fun[k]->GetParameter(2));
472 maxBin[k+5] = hZPChg[k]->GetMaximumBin();
473 nBin[k+5] = (hZPChg[k]->GetXaxis())->GetNbins();
474 xMax[k+5] = (hZPChg[k]->GetXaxis())->GetXmax();
475 if(nBin[k+5]!=0) maxXval[k+5] = maxBin[k+5]*xMax[k+5]/nBin[k+5];
476 if(maxXval[k+5]-150.<0.) xlow[k+5]=0.;
477 else xlow[k+5] = maxXval[k+5]-150.;
478 if(hZPChg[k]->GetEntries()!=0 && hZPChg[k]->GetMean()>0){
481 hZPChg[k]->Fit("gaus","Q","",xlow[k+5],maxXval[k+5]+150.);
482 fun[k+5] = hZPChg[k]->GetFunction("gaus");
483 mean[k+5] = (Float_t) (fun[k+5]->GetParameter(1));
484 sigma[k+5] = (Float_t) (fun[k+5]->GetParameter(2));
490 maxBin[k+10] = hZEMhg[k]->GetMaximumBin();
491 nBin[k+10] = (hZEMhg[k]->GetXaxis())->GetNbins();
492 xMax[k+10] = (hZEMhg[k]->GetXaxis())->GetXmax();
493 if(nBin[k+10]!=0) maxXval[k+10] = maxBin[k+10]*xMax[k+10]/nBin[k+10];
494 if(maxXval[k+10]-150.<0.) xlow[k+10]=0.;
495 else xlow[k+10] = maxXval[k+10]-150.;
496 if(hZEMhg[k]->GetEntries()!=0 && hZEMhg[k]->GetMean()>0){
499 hZEMhg[k]->Fit("gaus","Q","",xlow[k+10],maxXval[k+10]+150.);
500 fun[k+10] = hZEMhg[k]->GetFunction("gaus");
501 mean[k+10] = (Float_t) (fun[k+10]->GetParameter(1));
502 sigma[k+10] = (Float_t) (fun[k+10]->GetParameter(2));
508 maxBin[k+12] = hZNAhg[k]->GetMaximumBin();
509 nBin[k+12] = (hZNAhg[k]->GetXaxis())->GetNbins();
510 xMax[k+12] = (hZNAhg[k]->GetXaxis())->GetXmax();
511 if(nBin[k+12]!=0) maxXval[k+12] = maxBin[k+12]*xMax[k+12]/nBin[k+12];
512 if(maxXval[k+12]-150.<0.) xlow[k+12]=0.;
513 else xlow[k+12] = maxXval[k+12]-150.;
514 if(hZNAhg[k]->GetEntries()!=0 && hZNAhg[k]->GetMean()>0){
517 hZNAhg[k]->Fit("gaus","Q","",xlow[k+12],maxXval[k+12]+150.);
518 fun[k+12] = hZNAhg[k]->GetFunction("gaus");
519 mean[k+12] = (Float_t) (fun[k+12]->GetParameter(1));
520 sigma[k+12] = (Float_t) (fun[k+12]->GetParameter(2));
525 maxBin[k+17] = hZPAhg[k]->GetMaximumBin();
526 nBin[k+17] = (hZPAhg[k]->GetXaxis())->GetNbins();
527 xMax[k+17] = (hZPAhg[k]->GetXaxis())->GetXmax();
528 if(nBin[k+17]!=0) maxXval[k+17] = maxBin[k+17]*xMax[k+17]/nBin[k+17];
529 if(maxXval[k+17]-150.<0.) xlow[k+17]=0.;
530 else xlow[k+17] = maxXval[k+17]-150.;
531 if(hZPAhg[k]->GetEntries()!=0 && hZPAhg[k]->GetMean()>0){
534 hZPAhg[k]->Fit("gaus","Q","",xlow[k+17],maxXval[k+17]+150.);
535 fun[k+17] = hZPAhg[k]->GetFunction("gaus");
536 mean[k+17] = (Float_t) (fun[k+17]->GetParameter(1));
537 sigma[k+17] = (Float_t) (fun[k+17]->GetParameter(2));
540 // ~~~~~~~~ PM Ref side C ~~~~~~~~
543 maxBin[22] = hPMRefChg->GetMaximumBin();
544 nBin[22] = (hPMRefChg->GetXaxis())->GetNbins();
545 xMax[22] = (hPMRefChg->GetXaxis())->GetXmax();
546 if(nBin[22]!=0) maxXval[22] = maxBin[22]*xMax[22]/nBin[22];
547 if(maxXval[22]-150.<0.) xlow[22]=0.;
548 else xlow[22] = maxXval[22]-150.;
549 if(hPMRefChg->GetEntries()!=0 && hPMRefChg->GetMean()>0){
552 hPMRefChg->Fit("gaus","Q","",xlow[22],maxXval[22]+150.);
553 fun[22] = hPMRefChg->GetFunction("gaus");
554 mean[22] = (Float_t) (fun[22]->GetParameter(1));
555 sigma[22] = (Float_t) (fun[22]->GetParameter(2));
557 // ~~~~~~~~ PM Ref side A ~~~~~~~~
560 maxBin[23] = hPMRefAhg->GetMaximumBin();
561 nBin[23] = (hPMRefAhg->GetXaxis())->GetNbins();
562 xMax[23] = (hPMRefAhg->GetXaxis())->GetXmax();
563 if(nBin[23]!=0) maxXval[23] = maxBin[23]*xMax[23]/nBin[23];
564 if(maxXval[23]-100.<0.) xlow[23]=0.;
565 else xlow[23] = maxXval[23]-150.;
566 if(hPMRefAhg->GetEntries()!=0 && hPMRefAhg->GetMean()>0){
569 hPMRefAhg->Fit("gaus","Q","",xlow[23],maxXval[23]+100.);
570 fun[23] = hPMRefAhg->GetFunction("gaus");
571 mean[23] = (Float_t) (fun[23]->GetParameter(1));
572 sigma[23] = (Float_t) (fun[23]->GetParameter(2));
575 // ******** Low gain chain ********
577 for(Int_t k=0; k<5; k++){
579 detector[k+kOffset] = 1;
581 maxBin[k+kOffset] = hZNClg[k]->GetMaximumBin();
582 nBin[k+kOffset] = (hZNClg[k]->GetXaxis())->GetNbins();
583 xMax[k+kOffset] = (hZNClg[k]->GetXaxis())->GetXmax();
584 if(nBin[k+kOffset]!=0) maxXval[k+kOffset] = maxBin[k+kOffset]*xMax[k+kOffset]/nBin[k+kOffset];
585 if(maxXval[k+kOffset]-150.<0.) xlow[k+kOffset]=0.;
586 else xlow[k+kOffset] = maxXval[k+kOffset]-150.;
587 if(hZNClg[k]->GetEntries()!=0 && hZNClg[k]->GetMean()>0){
590 hZNClg[k]->Fit("gaus","Q","",xlow[k+kOffset],maxXval[k+kOffset]+150.);
591 fun[k+kOffset] = hZNClg[k]->GetFunction("gaus");
592 mean[k+kOffset] = (Float_t) (fun[k+kOffset]->GetParameter(1));
593 sigma[k+kOffset] = (Float_t) (fun[k+kOffset]->GetParameter(2));
596 detector[k+kOffset+5] = 2;
597 quad[k+kOffset+5] = k;
598 maxBin[k+kOffset+5] = hZPClg[k]->GetMaximumBin();
599 nBin[k+kOffset+5] = (hZPClg[k]->GetXaxis())->GetNbins();
600 xMax[k+kOffset+5] = (hZPClg[k]->GetXaxis())->GetXmax();
601 if(nBin[k+kOffset+5]!=0) maxXval[k+kOffset+5] = maxBin[k+kOffset+5]*xMax[k+kOffset+5]/nBin[k+kOffset+5];
602 if(maxXval[k+kOffset+5]-150.<0.) xlow[k+kOffset+5]=0.;
603 else xlow[k+kOffset+5] = maxXval[k+kOffset+5]-150.;
604 if(hZPClg[k]->GetEntries()!=0 && hZPClg[k]->GetMean()>0){
607 hZPClg[k]->Fit("gaus","Q","",xlow[k+kOffset+5],maxXval[k+kOffset+5]+150.);
608 fun[k+kOffset+5] = hZPClg[k]->GetFunction("gaus");
609 mean[k+kOffset+5] = (Float_t) (fun[k+kOffset+5]->GetParameter(1));
610 sigma[k+kOffset+5] = (Float_t) (fun[k+kOffset+5]->GetParameter(2));
614 detector[k+kOffset+10] = 3;
615 quad[k+kOffset+10] = k+1;
616 maxBin[k+kOffset+10] = hZEMlg[k]->GetMaximumBin();
617 nBin[k+kOffset+10] = (hZEMlg[k]->GetXaxis())->GetNbins();
618 xMax[k+kOffset+10] = (hZEMlg[k]->GetXaxis())->GetXmax();
619 if(nBin[k+kOffset+10]!=0) maxXval[k+kOffset+10] = maxBin[k+kOffset+10]*xMax[k+kOffset+10]/nBin[k+kOffset+10];
620 if(maxXval[k+kOffset+10]-150.<0.) xlow[k+kOffset+10]=0.;
621 else xlow[k+kOffset+10] = maxXval[k+kOffset+10]-150.;
622 if(hZEMlg[k]->GetEntries()!=0 && hZEMlg[k]->GetMean()>0){
625 hZEMlg[k]->Fit("gaus","Q","",xlow[k+kOffset+10],maxXval[k+kOffset+10]+150.);
626 fun[k+kOffset+10] = hZEMlg[k]->GetFunction("gaus");
627 mean[k+kOffset+10] = (Float_t) (fun[k+kOffset+10]->GetParameter(1));
628 sigma[k+kOffset+10] = (Float_t) (fun[k+kOffset+10]->GetParameter(2));
632 detector[k+kOffset+12] = 4;
633 quad[k+kOffset+12] = k;
634 maxBin[k+kOffset+12] = hZNAlg[k]->GetMaximumBin();
635 nBin[k+kOffset+12] = (hZNAlg[k]->GetXaxis())->GetNbins();
636 xMax[k+kOffset+12] = (hZNAlg[k]->GetXaxis())->GetXmax();
637 if(nBin[k+kOffset+12]!=0) maxXval[k+kOffset+12] = maxBin[k+kOffset+12]*xMax[k+kOffset+12]/nBin[k+kOffset+12];
638 if(maxXval[k+kOffset+12]-150.<0.) xlow[k+kOffset+12]=0.;
639 else xlow[k+kOffset+12] = maxXval[k+kOffset+12]-150.;
640 if(hZNAlg[k]->GetEntries()!=0 && hZNAlg[k]->GetMean()>0){
643 hZNAlg[k]->Fit("gaus","Q","",xlow[k+kOffset+12],maxXval[k+kOffset+12]+150.);
644 fun[k+kOffset+12] = hZNAlg[k]->GetFunction("gaus");
645 mean[k+kOffset+12] = (Float_t) (fun[k+kOffset+12]->GetParameter(1));
646 sigma[k+kOffset+12] = (Float_t) (fun[k+kOffset+12]->GetParameter(2));
649 detector[k+kOffset+17] = 5;
650 quad[k+kOffset+17] = k;
651 maxBin[k+kOffset+17] = hZPAlg[k]->GetMaximumBin();
652 nBin[k+kOffset+17] = (hZPAlg[k]->GetXaxis())->GetNbins();
653 xMax[k+kOffset+17] = (hZPAlg[k]->GetXaxis())->GetXmax();
654 if(nBin[k+kOffset+17]!=0) maxXval[k+kOffset+17] = maxBin[k+kOffset+17]*xMax[k+kOffset+17]/nBin[k+kOffset+17];
655 if(maxXval[k+kOffset+17]-150.<0.) xlow[k+kOffset+17]=0.;
656 else xlow[k+kOffset+17] = maxXval[k+kOffset+17]-150.;
657 if(hZPAlg[k]->GetEntries()!=0 && hZPAlg[k]->GetMean()>0){
660 hZPAlg[k]->Fit("gaus","Q","",xlow[k+kOffset+17],maxXval[k+kOffset+17]+150.);
661 fun[k+kOffset+17] = hZPAlg[k]->GetFunction("gaus");
662 mean[k+kOffset+17] = (Float_t) (fun[k+kOffset+17]->GetParameter(1));
663 sigma[k+kOffset+17] = (Float_t) (fun[k+kOffset+17]->GetParameter(2));
666 // ~~~~~~~~ PM Ref side C ~~~~~~~~
669 maxBin[46] = hPMRefClg->GetMaximumBin();
670 nBin[46] = (hPMRefClg->GetXaxis())->GetNbins();
671 xMax[46] = (hPMRefClg->GetXaxis())->GetXmax();
672 if(nBin[46]!=0) maxXval[46] = maxBin[46]*xMax[46]/nBin[46];
673 if(maxXval[46]-150.<0.) xlow[46]=0.;
674 else xlow[46] = maxXval[46]-150.;
675 if(hPMRefClg->GetEntries()!=0 && hPMRefClg->GetMean()>0){
678 hPMRefClg->Fit("gaus","Q","",xlow[46],maxXval[46]+150.);
679 fun[46] = hPMRefClg->GetFunction("gaus");
680 mean[46] = (Float_t) (fun[46]->GetParameter(1));
681 sigma[46] = (Float_t) (fun[46]->GetParameter(2));
683 // ~~~~~~~~ PM Ref side A ~~~~~~~~
686 maxBin[47] = hPMRefAlg->GetMaximumBin();
687 nBin[47] = (hPMRefAlg->GetXaxis())->GetNbins();
688 xMax[47] = (hPMRefAlg->GetXaxis())->GetXmax();
689 if(nBin[47]!=0) maxXval[47] = maxBin[47]*xMax[47]/nBin[47];
690 if(maxXval[47]-100.<0.) xlow[47]=0.;
691 else xlow[47] = maxXval[47]-150.;
692 if(hPMRefAlg->GetEntries()!=0 && hPMRefAlg->GetMean()>0){
695 hPMRefAlg->Fit("gaus","Q","",xlow[47],maxXval[47]+100.);
696 fun[47] = hPMRefAlg->GetFunction("gaus");
697 mean[47] = (Float_t) (fun[47]->GetParameter(1));
698 sigma[47] = (Float_t) (fun[47]->GetParameter(2));
701 if(atLeastOneHisto==0){
702 printf("\n WARNING! Empty LASER histos -> ending DA WITHOUT writing output\n\n");
707 fileShuttle = fopen(LASDATA_FILE,"w");
708 for(Int_t i=0; i<2*kNChannels; i++){
709 fprintf(fileShuttle,"\t%d\t%d\t%f\t%f\n",detector[i],quad[i],mean[i], sigma[i]);
713 /* report progress */
714 daqDA_progressReport(80);
716 TFile *histofile = new TFile(LASHISTO_FILE,"RECREATE");
718 for(int j=0; j<5; j++){
739 for(Int_t j=0; j<5; j++){
759 fprintf(fp,"Run #%s, received %d physics events out of %d\n",getenv("DATE_RUN_NUMBER"),nevents_physics,nevents_total);
761 /* close result file */
764 /* report progress */
765 daqDA_progressReport(90);
767 /* store the result file on FES */
768 // [1] File with mapping
769 status = daqDA_FES_storeFile(MAPDATA_FILE, "MAPPING");
771 printf("Failed to export file : %d\n",status);
775 // [2] File with laser data
776 status = daqDA_FES_storeFile(LASDATA_FILE, "LASERDATA");
778 printf("Failed to export file : %d\n",status);
781 // [3] File with laser histos
782 status = daqDA_FES_storeFile(LASHISTO_FILE, "LASERHISTOS");
784 printf("Failed to export pedestal histos file to DAQ FES\n");
788 /* report progress */
789 daqDA_progressReport(100);