source: branches/FACT++_lidctrl_new_eth/src/EventBuilderWrapper.h@ 20095

Last change on this file since 20095 was 18630, checked in by tbretz, 8 years ago
Distribute run and event number with the EVENT_DATA service
File size: 49.9 KB
Line 
1#ifndef FACT_EventBuilderWrapper
2#define FACT_EventBuilderWrapper
3
4#include <sstream>
5
6#if BOOST_VERSION < 104400
7#if (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ > 4))
8#undef BOOST_HAS_RVALUE_REFS
9#endif
10#endif
11#include <boost/thread.hpp>
12#include <boost/filesystem.hpp>
13#include <boost/date_time/posix_time/posix_time_types.hpp>
14
15#include "DimWriteStatistics.h"
16
17#include "DataCalib.h"
18#include "DataWriteRaw.h"
19
20#ifdef HAVE_FITS
21#include "DataWriteFits.h"
22#else
23#define DataWriteFits DataWriteFits2
24#endif
25
26#include "DataWriteFits2.h"
27
28namespace ba = boost::asio;
29namespace bs = boost::system;
30namespace fs = boost::filesystem;
31
32using ba::ip::tcp;
33
34using namespace std;
35
36// ========================================================================
37
38#include "EventBuilder.h"
39
40void StartEvtBuild();
41void CloseRunFile();
42
43// ========================================================================
44
45class EventBuilderWrapper
46{
47public:
48 // FIXME
49 static EventBuilderWrapper *This;
50
51 MessageImp &fMsg;
52
53private:
54 boost::thread fThreadMain;
55
56 enum
57 {
58 kCurrent = 0,
59 kTotal = 1,
60 kEventId = 2,
61 kTriggerId = 3,
62 };
63
64 FAD::FileFormat_t fFileFormat;
65
66 //uint32_t fMaxRun;
67 uint32_t fLastOpened;
68 uint32_t fLastClosed;
69 array<uint32_t,4> fNumEvts;
70
71 DimWriteStatistics fDimWriteStats;
72 DimDescribedService fDimRuns;
73 DimDescribedService fDimEvents;
74 DimDescribedService fDimTrigger;
75 DimDescribedService fDimRawData;
76 DimDescribedService fDimEventData;
77 DimDescribedService fDimFeedbackData;
78 DimDescribedService fDimFwVersion;
79 DimDescribedService fDimRunNumber;
80 DimDescribedService fDimStatus;
81 DimDescribedService fDimDNA;
82 DimDescribedService fDimTemperature;
83 DimDescribedService fDimPrescaler;
84 DimDescribedService fDimRefClock;
85 DimDescribedService fDimRoi;
86 DimDescribedService fDimDac;
87 DimDescribedService fDimDrsRuns;
88 DimDescribedService fDimDrsCalibration;
89 DimDescribedService fDimStatistics1;
90 //DimDescribedService fDimStatistics2;
91 DimDescribedService fDimFileFormat;
92 DimDescribedService fDimIncomplete;
93
94 struct EventData
95 {
96 uint32_t runNum;
97 uint32_t evNum;
98 float data[4*1440];
99 } __attribute__((__packed__));
100
101 Queue<pair<Time,GUI_STAT>> fQueueStatistics1;
102 Queue<tuple<Time,bool,FAD::EventHeader>> fQueueProcHeader;
103 Queue<pair<Time,array<uint32_t,4>>> fQueueEvents;
104 Queue<tuple<Time,char,array<uint32_t,8>>> fQueueTrigger;
105 Queue<pair<Time,array<uint16_t,2>>> fQueueRoi;
106 Queue<vector<char>> fQueueRawData;
107 Queue<tuple<Time,uint32_t,EventData/*array<float,1440*4>*/>> fQueueEventData;
108 Queue<tuple<Time, array<uint32_t,40>, array<int16_t,160>>> fQueueTempRefClk;
109
110 string fPath;
111 uint32_t fNightAsInt;
112 uint32_t fRunNumber;
113 int64_t fRunInProgress;
114
115 array<uint16_t,2> fVecRoi;
116 pair<float,EventData/*array<float, 1440*4>*/> fMaxEvent; // Maximum event from applyCalib
117
118protected:
119 bool InitRunNumber(const string &path="")
120 {
121 if (!path.empty())
122 {
123 if (!DimWriteStatistics::DoesPathExist(path, fMsg))
124 {
125 fMsg.Error("Data path "+path+" does not exist!");
126 return false;
127 }
128
129 fPath = path;
130 fDimWriteStats.SetCurrentFolder(fPath);
131
132 fMsg.Info("Data path set to "+path+".");
133 }
134
135 // Get current night
136 const Time now;
137
138 const uint32_t night = now.NightAsInt();
139 if (night==fNightAsInt)
140 return true;
141
142 const string crosscheck = now.GetPrevSunRise().GetAsStr("%Y%m%d");
143 if (crosscheck!=to_string(night))
144 {
145 fMsg.Warn("The crosscheck for the night failed. "+crosscheck+" is not equal to "+to_string(night)+"... keeping old one.");
146 fMsg.Warn("This is a severe error. Please restart fadctrl.");
147 return true;
148 }
149
150 // In some circumstances, I do not understand yet (but I guess it can happen
151 // when the shared objects are re-compiled while the program is not
152 // re-started), it can happen that the returned value is wrong by one day.
153 // So this is just another check to avoid problems.
154 const uint32_t night_test = Time(now-boost::posix_time::seconds(1)).NightAsInt();
155 if (night_test != night)
156 return true;
157
158 // And another check. Let's read the clock again.
159 // In both cases a false condition is no error and can happen. But if it happens,
160 // the bahaviour will change a fraction of a second later and the conditon
161 // will be true. No run should be taken just around that moment and if one
162 // is taken, then the date doesn't matter.
163 if (Time().NightAsInt() != night)
164 return true;
165
166 if (night<fNightAsInt)
167 {
168 fMsg.Warn("New night "+to_string(night)+" ["+now.GetAsStr()+"] before current night "+to_string(night)+"... keeping old one.");
169 fMsg.Warn("Please check the system clock.");
170 return true;
171 }
172
173 // Check for run numbers
174 fRunNumber = 1000;
175
176 while (--fRunNumber>0)
177 {
178 const string name = DataProcessorImp::FormFileName(fPath, night, fRunNumber, "");
179
180 if (access((name+"bin").c_str(), F_OK) == 0)
181 break;
182 if (access((name+"fits").c_str(), F_OK) == 0)
183 break;
184 if (access((name+"fits.fz").c_str(), F_OK) == 0)
185 break;
186 if (access((name+"fits.gz").c_str(), F_OK) == 0)
187 break;
188 if (access((name+"drs.fits").c_str(), F_OK) == 0)
189 break;
190 }
191
192 // This is now the first file which does not exist
193 fRunNumber++;
194 fLastOpened = 0;
195
196 // Check if we have exceeded the maximum
197 if (fRunNumber==1000)
198 {
199 fMsg.Error("You have a file with run-number 1000 in "+fPath+" ["+to_string(night)+"]");
200 return false;
201 }
202
203 ostringstream str;
204 if (fNightAsInt==0)
205 str << "First night...";
206 else
207 str << "Night has changed from " << fNightAsInt << " [" << now << "]... ";
208 str << " next run-number is " << night << "-" << setfill('0') << setw(3) << fRunNumber << " [" << (fPath.empty()?".":fPath) << "]";
209 fMsg.Message(str);
210
211 fNightAsInt = night;
212
213 return true;
214 }
215
216public:
217 EventBuilderWrapper(MessageImp &imp) : fMsg(imp),
218 fFileFormat(FAD::kNone), /*fMaxRun(0),*/ fLastOpened(0), fLastClosed(0),
219 fDimWriteStats ("FAD_CONTROL", imp),
220 fDimRuns ("FAD_CONTROL/RUNS", "I:2;C",
221 "Run files statistics"
222 "|stats[int]:last opened or closed run"
223 "|file[string]:filename of last opened file"),
224 fDimEvents ("FAD_CONTROL/EVENTS", "I:4",
225 "Event counts"
226 "|evtsCount[int]:Num evts cur. run, total (all run), evt ID, trig. Num"),
227 fDimTrigger ("FAD_CONTROL/TRIGGER_COUNTER", "I:1;I:1;I:1;I:1;I:1;I:1;I:1;I:1",
228 "Trigger counter"
229 "|N_trg[uint32]:Number of physics triggers"
230 "|N_ped[uint32]:Number of pure pedestal triggers"
231 "|N_lpe[uint32]:Number of external light pulser triggers"
232 "|N_tim[uint32]:Number of time calibration triggers"
233 "|N_lpi[uint32]:Number of internal light pulser triggers"
234 "|N_ext1[uint32]:Number of external triggers at input ext1"
235 "|N_ext2[uint32]:Number of external triggers at input ext2"
236 "|N_misc[uint32]:Number of all other triggers"),
237 fDimRawData ("FAD_CONTROL/RAW_DATA", "S:1;S:1;I:1;I:1;S:1;I:1;I:2;I:40;S:1440;S:160;F",
238 "|roi[uint16]:number of samples per pixel"
239 "|roi_tm[uint16]:number of samples per time-marker channel"
240 "|num_fad[uint32]:event number from FADs"
241 "|num_ftm[uint32]:trigger number from FTM"
242 "|type[uint16]:trigger type from FTM"
243 "|num_boards[uint32]:number of active boards"
244 "|time[uint32]:PC time as unix time stamp"
245 "|time_board[uint32]:Time stamp of FAD boards"
246 "|start_pix[int16]:start sample of pixels"
247 "|start_tm[int16]:start sample of time marker channels"
248 "|adc[int16]:adc data"),
249 fDimEventData ("FAD_CONTROL/EVENT_DATA", "I:1;I:1;F:1440;F:1440;F:1440;F:1440", "|run:|evt:|avg:|rms:|max:|pos"),
250 fDimFeedbackData("FAD_CONTROL/FEEDBACK_DATA", "F:1440", ""),
251 fDimFwVersion ("FAD_CONTROL/FIRMWARE_VERSION", "F:42",
252 "Firmware version number of fad boards"
253 "|firmware[float]:Version number of firmware, for each board. 40=min, 41=max"),
254 fDimRunNumber ("FAD_CONTROL/RUN_NUMBER", "I:42",
255 "Run numbers coming from FAD boards"
256 "|runNumbers[int]:current run number of each FAD board. 40=min, 41=max"),
257 fDimStatus ("FAD_CONTROL/STATUS", "S:42",
258 "Status of FAD boards"
259 "|status[bitpattern]:Status of each FAD board. Maybe buggy"),
260 fDimDNA ("FAD_CONTROL/DNA", "X:40",
261 "DNA of FAD boards"
262 "|DNA[hex]:Hex identifier of each FAD board"),
263 fDimTemperature ("FAD_CONTROL/TEMPERATURE", "S:1;F:160",
264 "DRS temperatures"
265 "|cnt[uint16]:Counter of averaged values"
266 "|temp[deg C]:average temp of all DRS chips"),
267 fDimPrescaler ("FAD_CONTROL/PRESCALER", "S:42",
268 "Trigger generator prescaler of fad boards"
269 "|prescaler[int]:Trigger generator prescaler value, for each board"),
270 fDimRefClock ("FAD_CONTROL/REFERENCE_CLOCK", "S:1;F:40",
271 "Reference clock of FAD boards"
272 "|cnt[uint16]:Counter of averaged values"
273 "|clk[Hz]:Averaged clock of ref clocks of FAD boards"),
274 fDimRoi ("FAD_CONTROL/REGION_OF_INTEREST", "S:2", "roi:|roi_rm:"),
275 fDimDac ("FAD_CONTROL/DAC", "S:336",
276 "DAC settings of each FAD board"
277 "|DAC[int]:DAC counts, sequentially DAC 0 board 0, 0/1, 0/2... (plus min max)"),
278 fDimDrsRuns ("FAD_CONTROL/DRS_RUNS", "I:1;I:3;I:1",
279 "|roi:Region of interest of secondary baseline"
280 "|run:Run numbers of DRS runs (0=none)"
281 "|night:Night as int of the first run (0 if none)"),
282 fDimDrsCalibration("FAD_CONTROL/DRS_CALIBRATION", "I:1;I:3;F:1474560;F:1474560;F:1474560;F:1474560;F:1474560;F:1474560;F:163840;F:163840",
283 "|roi:Region of interest of secondary baseline"
284 "|run:Run numbers of DRS runs (0=none)"),
285 fDimStatistics1 ("FAD_CONTROL/STATISTICS1", "I:5;X:3;I:1;I:2;C:40;I:40;I:40",
286 "Event Builder status for GUI display"
287 "|bufferInfo[int]:Events in buffer, incomp., comp., write, proc., tot."
288 "|memInfo[int]:total mem allocated, used mem, max memory"
289 "|deltaT[ms]:Time in ms for rates"
290 "|rateNew[int]:Number of new start events received"
291 "|numConn[int]:Number of connections per board"
292 "|rateBytes[int]:Bytes read during last cylce"
293 "|relBytes[int]:Relative number of total bytes received (received - released)"),
294 fDimFileFormat("FAD_CONTROL/FILE_FORMAT", "S:1", "|format[int]:Current file format"),
295 fDimIncomplete("FAD_CONTROL/INCOMPLETE", "X:1", "|incomplete[bits]:bit_index=c*10+b. board b(0..3) in crate c(0..9)"),
296 // It is important to instantiate them after the DimServices
297 fQueueStatistics1(std::bind(&EventBuilderWrapper::UpdateDimStatistics1, this, placeholders::_1)),
298 fQueueProcHeader( std::bind(&EventBuilderWrapper::procHeader, this, placeholders::_1)),
299 fQueueEvents( std::bind(&EventBuilderWrapper::UpdateDimEvents, this, placeholders::_1)),
300 fQueueTrigger( std::bind(&EventBuilderWrapper::UpdateDimTrigger, this, placeholders::_1)),
301 fQueueRoi( std::bind(&EventBuilderWrapper::UpdateDimRoi, this, placeholders::_1)),
302 fQueueRawData( std::bind(&EventBuilderWrapper::UpdateDimRawData, this, placeholders::_1)),
303 fQueueEventData( std::bind(&EventBuilderWrapper::UpdateDimEventData, this, placeholders::_1)),
304 fQueueTempRefClk( std::bind(&EventBuilderWrapper::UpdateDimTempRefClk, this, placeholders::_1)),
305 fNightAsInt(0), fRunInProgress(-1),
306 fMaxEvent(make_pair(-FLT_MAX, EventData()/*array<float,1440*4>()*/))
307 {
308 if (This)
309 throw logic_error("EventBuilderWrapper cannot be instantiated twice.");
310
311 This = this;
312
313 fVecRoi.fill(0);
314
315 memset(fNumEvts.data(), 0, sizeof(fNumEvts));
316 fDimEvents.Update(fNumEvts);
317
318 for (size_t i=0; i<40; i++)
319 ConnectSlot(i, tcp::endpoint());
320 }
321
322 virtual ~EventBuilderWrapper()
323 {
324 Abort();
325
326 // FIXME: Used timed_join and abort afterwards
327 // What's the maximum time the eb need to abort?
328 fThreadMain.join();
329 }
330
331 map<uint32_t, FAD::RunDescription> fExpectedRuns;
332
333 mutex mtx_newrun;
334
335 uint32_t StartNewRun(int64_t maxtime, int64_t maxevt, const pair<string, FAD::Configuration> &ref)
336 {
337 if (maxtime<=0 || maxtime>24*60*60)
338 maxtime = 24*60*60;
339 if (maxevt<=0 || maxevt>INT32_MAX)
340 maxevt = INT32_MAX;
341
342 if (!InitRunNumber())
343 return 0;
344
345 const FAD::RunDescription descr =
346 {
347 uint32_t(maxtime),
348 uint32_t(maxevt),
349 fNightAsInt,
350 ref.first,
351 ref.second,
352 };
353
354 const lock_guard<mutex> lock(mtx_newrun);
355 fExpectedRuns[fRunNumber] = descr;
356 return fRunNumber++;
357 }
358
359 bool IsThreadRunning()
360 {
361 return fThreadMain.joinable();
362 }
363
364 void SetMaxMemory(unsigned int mb) const
365 {
366 g_maxMem = size_t(mb)*1000000;
367 }
368 void SetEventTimeout(uint16_t to) const
369 {
370 g_evtTimeout = to;
371 }
372
373 void StartThread(const vector<tcp::endpoint> &addr)
374 {
375 if (IsThreadRunning())
376 {
377 fMsg.Warn("Start - EventBuilder still running");
378 return;
379 }
380
381 //fLastMessage.clear();
382
383 for (size_t i=0; i<40; i++)
384 ConnectSlot(i, addr[i]);
385
386 fMsg.Message("Starting EventBuilder thread");
387
388 fThreadMain = boost::thread(StartEvtBuild);
389
390 // Run a detached thread which ensures that our thread
391 // is joined so that it is not joinable anymore once
392 // it is finished (I think this is similar to
393 // boost::thread_guard, but I could not figure out
394 // how it works)
395 std::thread([this] { this->fThreadMain.join(); }).detach();
396 }
397
398 void ConnectSlot(unsigned int i, const tcp::endpoint &addr)
399 {
400 if (i>39)
401 return;
402
403 fRunInProgress = -1;
404
405 if (addr==tcp::endpoint())
406 {
407 // In this order
408 g_port[i].sockDef = 0;
409
410 fDimIncomplete.setQuality(0);
411 fDimIncomplete.Update(uint64_t(0));
412 return;
413 }
414
415 struct sockaddr_in sockaddr; //IP for each socket
416 sockaddr.sin_family = AF_INET;
417 sockaddr.sin_addr.s_addr = htonl(addr.address().to_v4().to_ulong());
418 sockaddr.sin_port = htons(addr.port());
419 memcpy(&g_port[i].sockAddr, &sockaddr, sizeof(struct sockaddr_in));
420
421 // In this order
422 g_port[i].sockDef = 1;
423
424 fDimIncomplete.setQuality(0);
425 fDimIncomplete.Update(uint64_t(0));
426 }
427
428 void IgnoreSlot(unsigned int i)
429 {
430 if (i>39)
431 return;
432
433 if (g_port[i].sockAddr.sin_port==0)
434 return;
435
436 g_port[i].sockDef = -1;
437 }
438
439
440 void Abort()
441 {
442 fMsg.Message("Signal abort to EventBuilder thread...");
443 g_reset = 2;
444 }
445
446 void ResetThread(bool soft)
447 {
448 fMsg.Message("Signal reset to EventBuilder thread...");
449 g_reset = soft ? 101 : 102;
450 }
451
452 void Exit()
453 {
454 fMsg.Message("Signal exit to EventBuilder thread...");
455 g_reset = 1;
456 }
457
458 bool IsConnected(int i) const { return gi_NumConnect[i]==1; }
459 bool IsConnecting(int i) const { return gi_NumConnect[i]==0 && g_port[i].sockDef!=0; }
460 bool IsDisconnected(int i) const { return gi_NumConnect[i]==0 && g_port[i].sockDef==0; }
461 bool IsRunInProgress() const { return fRunInProgress>=0; }
462
463 void SetIgnore(int i, bool b) const { if (g_port[i].sockDef!=0) g_port[i].sockDef=b?-1:1; }
464 bool IsIgnored(int i) const { return g_port[i].sockDef==-1; }
465
466 void SetOutputFormat(FAD::FileFormat_t f)
467 {
468 const bool changed = f!=fFileFormat;
469
470 fFileFormat = f;
471 fDimFileFormat.Update(uint16_t(f));
472
473 string msg = "File format set to: ";
474 switch (f)
475 {
476 case FAD::kNone: msg += "kNone."; break;
477 case FAD::kDebug: msg += "kDebug."; break;
478 case FAD::kFits: msg += "kFits."; break;
479 case FAD::kZFits: msg += "kZFits."; break;
480 case FAD::kCfitsio: msg += "kCfitsio"; break;
481 case FAD::kRaw: msg += "kRaw"; break;
482 case FAD::kCalib:
483 DataCalib::Restart();
484 DataCalib::Update(fDimDrsCalibration, fDimDrsRuns);
485 fMsg.Message("Resetted DRS calibration.");
486 return;
487 }
488
489 if (changed)
490 fMsg.Message(msg);
491 }
492
493 virtual int ResetSecondaryDrsBaseline()
494 {
495 if (DataCalib::ResetTrgOff(fDimDrsCalibration, fDimDrsRuns))
496 {
497 fFileFormat = FAD::kCalib;
498 fDimFileFormat.Update(uint16_t(fFileFormat));
499 fMsg.Message("Resetted DRS calibration for secondary baseline.");
500 }
501 else
502 fMsg.Warn("Could not reset DRS calibration of secondary baseline.");
503
504 return 0;
505 }
506
507 void LoadDrsCalibration(const char *fname)
508 {
509 if (!DataCalib::ReadFits(fname, fMsg))
510 return;
511
512 fMsg.Info("Successfully loaded DRS calibration from "+string(fname));
513 DataCalib::Update(fDimDrsCalibration, fDimDrsRuns);
514 }
515
516 virtual int CloseOpenFiles() { CloseRunFile(); fRunInProgress = -1; return 0; }
517
518
519 // -------------- Mapped event builder callbacks ------------------
520
521 void UpdateRuns(const string &fname="")
522 {
523 uint32_t values[2] =
524 {
525 fLastOpened,
526 fLastClosed
527 };
528
529 vector<char> data(sizeof(values)+fname.size()+1);
530 memcpy(data.data(), values, sizeof(values));
531 strcpy(data.data()+sizeof(values), fname.c_str());
532 fDimRuns.setQuality((bool)fFile);
533 fDimRuns.Update(data);
534
535 if (!fname.empty())
536 fDimWriteStats.FileOpened(fname);
537 }
538
539 shared_ptr<DataProcessorImp> fFile;
540
541 bool UpdateDimEvents(const pair<Time,array<uint32_t,4>> &stat)
542 {
543 fDimEvents.setData(stat.second.data(), sizeof(uint32_t)*4);
544 fDimEvents.Update(stat.first);
545 return true;
546 }
547
548 bool UpdateDimTrigger(const tuple<Time,char,array<uint32_t,8>> &stat)
549 {
550 fDimTrigger.setQuality(get<1>(stat));
551 fDimTrigger.setData(get<2>(stat).data(), sizeof(uint32_t)*8);
552 fDimTrigger.Update(get<0>(stat));
553 return true;
554 }
555
556 bool runOpen(const EVT_CTRL2 &evt)
557 {
558 const uint32_t night = evt.runCtrl->night;
559 const uint32_t runid = evt.runNum>0 ? evt.runNum : time(NULL);
560
561 // If there is still an open file: close it
562 if (fFile)
563 runClose(evt);
564
565 // Keep a copy of the currently valid drs calibration
566 // and associate it to the run control structure
567 evt.runCtrl->calib = make_shared<DrsCalibration>(DataCalib::GetCalibration());
568
569 // Crate the file
570 DataProcessorImp *file = 0;
571 switch (fFileFormat)
572 {
573 case FAD::kNone: file = new DataDump(fPath, night, runid, fMsg); break;
574 case FAD::kDebug: file = new DataDebug(fPath, night, runid, fMsg); break;
575 case FAD::kCfitsio: file = new DataWriteFits(fPath, night, runid, fMsg); break;
576 case FAD::kFits: file = new DataWriteFits2(fPath, night, runid, fMsg); break;
577 case FAD::kZFits: file = new DataWriteFits2(fPath, night, runid, *evt.runCtrl->calib, fMsg); break;
578 case FAD::kRaw: file = new DataWriteRaw(fPath, night, runid, fMsg); break;
579 case FAD::kCalib: file = new DataCalib(fPath, night, runid, *evt.runCtrl->calib, fDimDrsCalibration, fDimDrsRuns, fMsg); break;
580 }
581
582 try
583 {
584 // Try to open the file
585 FAD::RunDescription desc;
586 desc.maxevt = evt.runCtrl->maxEvt;
587 desc.maxtime = evt.runCtrl->closeTime - evt.runCtrl->openTime;
588 desc.name = evt.runCtrl->runType;
589
590 if (!file->Open(evt, desc))
591 return false;
592 }
593 catch (const exception &e)
594 {
595 fMsg.Error("Exception trying to open file: "+string(e.what()));
596 return false;
597 }
598
599 fLastOpened = runid;
600
601 // Signal that a file is open
602 fFile = shared_ptr<DataProcessorImp>(file);
603
604 // Now do all the calls which potentially block (dim)
605
606 // Time for update runs before time for update events
607 UpdateRuns(file->GetFileName());
608 fNumEvts[kEventId] = 0;
609 fNumEvts[kTriggerId] = 0;
610 fNumEvts[kCurrent] = 0;
611
612 const Time time;
613
614 fQueueEvents.emplace(time, fNumEvts);
615 fQueueTrigger.emplace(time, 'o', evt.triggerCounter);
616
617 ostringstream str;
618 str << "Opened: " << file->GetFileName() << " (" << file->GetRunId() << ")";
619 fMsg.Info(str);
620
621 return true;
622 }
623
624 bool runWrite(const EVT_CTRL2 &e)
625 {
626 /*
627 const size_t size = sizeof(EVENT)+1440*(evt.Roi+evt.RoiTM)*2;
628 vector evt(e.fEvent, e.fEvent+size);
629
630 const EVENT &evt = *reinterpret_cast<EVENT*>(evt.data());
631
632 int16_t *val = evt.Adc_Data;
633 const int16_t *off = e.runCtrl->zcalib.data();
634 for (const int16_t *start=evt.StartPix; start<evt.StartPix+1440; val+=1024, off+=1024, start++)
635 {
636 if (*start<0)
637 continue;
638
639 for (size_t i=0; i<roi; i++)
640 val[i] -= offset[(*start+i)%1024];
641 }*/
642
643 if (!fFile->WriteEvt(e))
644 return false;
645
646 //const EVENT &evt = *e.fEvent;
647
648 fNumEvts[kCurrent]++;
649 fNumEvts[kEventId] = e.evNum;//evt.EventNum;
650 fNumEvts[kTriggerId] = e.trgNum;//evt.TriggerNum;
651 fNumEvts[kTotal]++;
652
653 static Time oldt(boost::date_time::neg_infin);
654 Time newt;
655 if (newt>oldt+boost::posix_time::seconds(1))
656 {
657 fQueueEvents.emplace(newt, fNumEvts);
658 fQueueTrigger.emplace(newt, 'w', e.triggerCounter);
659 oldt = newt;
660 }
661
662 return true;
663 }
664
665 void runClose(const EVT_CTRL2 &evt)
666 {
667 if (!fFile)
668 return;
669
670 // It can happen that runFinished was never called
671 // (e.g. runWrite failed)
672 if (fRunInProgress==fFile->GetRunId())
673 fRunInProgress = -1;
674
675 // Close the file
676 const bool rc = fFile->Close(evt);
677
678 fLastClosed = fFile->GetRunId();
679
680 ostringstream str;
681 str << "Closed: " << fFile->GetFileName() << " (" << fFile->GetRunId() << ")";
682 if (!rc)
683 str << "... failed!";
684
685 // Signal that the file is closed
686
687 fFile.reset();
688
689 // Now do all the calls which can potentially block (dim)
690
691 CloseRun(fLastClosed);
692
693 // Time for update events before time for update runs
694 const Time time;
695
696 fQueueEvents.emplace(time, fNumEvts);
697 fQueueTrigger.emplace(time, 'c', evt.triggerCounter);
698
699 UpdateRuns();
700
701 // Do the potentially blocking call after all others
702 rc ? fMsg.Info(str) : fMsg.Error(str);
703
704 // If a Drs Calibration has just been finished, all following events
705 // should also be processed with this calibration.
706 // Note that this is a generally dangerous operation. Here, the previous
707 // DRS calibration shared_ptr gets freed and if it is the last in use,
708 // the memory will vanish. If another thread accesses that pointer,
709 // it _must_ make a copy of the shared_ptr first to ensure that
710 // the memory will stay in scope until the end of its operation.
711 const DrsCalibration &cal = DataCalib::GetCalibration();
712
713 RUN_CTRL2 &run = *evt.runCtrl;
714 if (!run.calib || run.calib->fStep != cal.fStep || run.calib->fRoi!=cal.fRoi)
715 run.calib = make_shared<DrsCalibration>(cal);
716 }
717
718 virtual void CloseRun(uint32_t /*runid*/) { }
719
720 bool UpdateDimRoi(const pair<Time, array<uint16_t,2>> &roi)
721 {
722 fDimRoi.setData(roi.second.data(), sizeof(uint16_t)*2);
723 fDimRoi.Update(roi.first);
724 return true;
725 }
726
727 bool UpdateDimTempRefClk(const tuple<Time, array<uint32_t,40>, array<int16_t,160>> &dat)
728 {
729 const auto delay = boost::posix_time::seconds(5);
730
731 const Time &tm = get<0>(dat);
732
733 const array<uint32_t,40> &clk = get<1>(dat);
734 const array<int16_t,160> &tmp = get<2>(dat);
735
736 // --------------- RefClock ---------------
737
738 // history, add current data to history
739 static list<pair<Time,array<uint32_t,40>>> listclk;
740 listclk.emplace_back(tm, clk);
741
742 // --------------- Temperatures ---------------
743
744 // history, add current data to history
745 static list<pair<Time,array<int16_t,160>>> listtmp;
746 listtmp.emplace_back(tm, tmp);
747
748 // ========== Update dim services once a second =========
749
750 static Time oldt(boost::date_time::neg_infin);
751 Time newt;
752
753 if (newt<oldt+delay)
754 return true;
755
756 oldt = newt;
757
758 // --------------- RefClock ---------------
759
760 // remove expired data from history
761 while (1)
762 {
763 auto it=listclk.begin();
764 if (it==listclk.end() || it->first+delay>tm)
765 break;
766 listclk.pop_front();
767 }
768
769 // Structure for dim service
770 struct Clock
771 {
772 uint16_t num;
773 float val[40];
774 Clock() { memset(this, 0, sizeof(Clock)); }
775 } __attribute__((__packed__));
776
777 // Calculate average and fll structure
778 vector<uint16_t> clknum(40);
779
780 Clock avgclk;
781 avgclk.num = listclk.size();
782 for (auto it=listclk.begin(); it!=listclk.end(); it++)
783 for (int i=0; i<40; i++)
784 if (it->second[i]!=UINT32_MAX)
785 {
786 avgclk.val[i] += it->second[i];
787 clknum[i]++;
788 }
789 for (int i=0; i<40; i++)
790 avgclk.val[i] *= 2.048/clknum[i];
791
792 // Update dim service
793 fDimRefClock.setData(avgclk);
794 fDimRefClock.Update(tm);
795
796 listclk.clear();
797
798 // --------------- Temperatures ---------------
799
800 // remove expired data from history
801 while (1)
802 {
803 auto it=listtmp.begin();
804 if (it==listtmp.end() || it->first+delay>tm)
805 break;
806 listtmp.pop_front();
807 }
808
809 // Structure for dim service
810 struct Temp
811 {
812 uint16_t num;
813 float val[160];
814 Temp() { memset(this, 0, sizeof(Temp)); }
815 } __attribute__((__packed__));
816
817 // Calculate average and fll structure
818 vector<uint32_t> tmpnum(160);
819
820 Temp avgtmp;
821 avgtmp.num = listtmp.size();
822 for (auto it=listtmp.begin(); it!=listtmp.end(); it++)
823 for (int i=0; i<160; i++)
824 if (it->second[i]!=INT16_MIN)
825 {
826 avgtmp.val[i] += it->second[i];
827 tmpnum[i]++;
828 }
829 for (int i=0; i<160; i++)
830 avgtmp.val[i] /= tmpnum[i]*16;
831
832 // Update dim service
833 fDimTemperature.setData(avgtmp);
834 fDimTemperature.Update(tm);
835
836 listtmp.clear();
837
838 return true;
839 }
840
841 bool eventCheck(const EVT_CTRL2 &evt)
842 {
843 const EVENT *event = evt.fEvent;
844
845 const Time tm(evt.time);
846
847 const array<uint16_t,2> roi = {{ event->Roi, event->RoiTM }};
848
849 if (roi!=fVecRoi)
850 {
851 fQueueRoi.emplace(tm, roi);
852 fVecRoi = roi;
853 }
854
855 const FAD::EventHeader *beg = reinterpret_cast<const FAD::EventHeader*>(evt.FADhead);
856 const FAD::EventHeader *end = reinterpret_cast<const FAD::EventHeader*>(evt.FADhead)+40;
857
858 // FIMXE: Compare with target configuration
859
860 // Copy data to array
861 array<uint32_t,40> clk;
862 array<int16_t,160> tmp;
863
864 for (int i=0; i<40; i++)
865 clk[i] = UINT32_MAX;
866
867 for (int i=0; i<160; i++)
868 tmp[i] = INT16_MIN;
869
870 //fill(clk.data(), clk.data()+ 40, UINT32_MAX);
871 //fill(tmp.data(), tmp.data()+160, INT16_MIN);
872
873 for (const FAD::EventHeader *ptr=beg; ptr!=end; ptr++)
874 {
875 // FIXME: Compare with expectations!!!
876 if (ptr->fStartDelimiter==0)
877 {
878 if (ptr==beg)
879 beg++;
880 continue;
881 }
882
883 clk[ptr->Id()] = ptr->fFreqRefClock;
884 for (int i=0; i<4; i++)
885 tmp[ptr->Id()*4+i] = ptr->fTempDrs[i];
886
887 if (beg->fStatus != ptr->fStatus)
888 {
889 fMsg.Error("Inconsistency in FAD status detected.... closing run.");
890 return false;
891 }
892
893 if (beg->fRunNumber != ptr->fRunNumber)
894 {
895 fMsg.Error("Inconsistent run number detected.... closing run.");
896 return false;
897 }
898
899 /*
900 if (beg->fVersion != ptr->fVersion)
901 {
902 Error("Inconsist firmware version detected.... closing run.");
903 CloseRunFile(runNr, 0, 0);
904 break;
905 }
906 */
907 if (beg->fEventCounter != ptr->fEventCounter)
908 {
909 fMsg.Error("Inconsistent FAD event number detected.... closing run.");
910 return false;
911 }
912
913 if (beg->fTriggerCounter != ptr->fTriggerCounter)
914 {
915 fMsg.Error("Inconsistent FTM trigger number detected.... closing run.");
916 return false;
917 }
918
919 // FIXME: Check with first event!
920 if (beg->fAdcClockPhaseShift != ptr->fAdcClockPhaseShift)
921 {
922 fMsg.Error("Inconsistent phase shift detected.... closing run.");
923 return false;
924 }
925
926 // FIXME: Check with first event!
927 if (memcmp(beg->fDac, ptr->fDac, sizeof(beg->fDac)))
928 {
929 fMsg.Error("Inconsistent DAC values detected.... closing run.");
930 return false;
931 }
932
933 if (beg->fTriggerType != ptr->fTriggerType)
934 {
935 fMsg.Error("Inconsistent trigger type detected.... closing run.");
936 return false;
937 }
938 }
939
940 // check REFCLK_frequency
941 // check consistency with command configuration
942 // how to log errors?
943 // need gotNewRun/closedRun to know it is finished
944
945 fQueueTempRefClk.emplace(tm, clk, tmp);
946
947 if (evt.runCtrl->fileStat == kFileClosed)
948 {
949 static Time oldt(boost::date_time::neg_infin);
950 if (tm>oldt+boost::posix_time::seconds(1))
951 {
952 fQueueTrigger.emplace(tm, 0, evt.runCtrl->triggerCounter);
953 oldt = tm;
954 }
955 }
956
957 return true;
958 }
959
960 Time fLastDimRawData;
961 Time fLastDimEventData;
962
963 bool UpdateDimRawData(const vector<char> &v)
964 {
965 const EVENT *evt = reinterpret_cast<const EVENT*>(v.data());
966
967 fDimRawData.setData(v);
968 fDimRawData.setQuality(evt->TriggerType);
969 fDimRawData.Update(Time(evt->PCTime, evt->PCUsec));
970
971 return true;
972 }
973
974 bool UpdateDimEventData(const tuple<Time,uint32_t,EventData/*array<float, 1440*4>*/> &tup)
975 {
976 fDimEventData.setQuality(get<1>(tup));
977 fDimEventData.setData(get<2>(tup));
978 fDimEventData.Update(get<0>(tup));
979
980 return true;
981 }
982
983 void applyCalib(const EVT_CTRL2 &evt, const size_t &size)
984 {
985 const EVENT *event = evt.fEvent;
986 const int16_t *start = event->StartPix;
987
988 // Get the reference to the run associated information
989 RUN_CTRL2 &run = *evt.runCtrl;
990
991 if (size==1) // If there is more than one event waiting (including this one), throw them away
992 {
993 Time now;
994
995 // ------------------- Copy event data to new memory --------------------
996 // (to make it thread safe; a static buffer might improve memory handling)
997 const uint16_t roi = event->Roi;
998
999 // ------------------- Apply full DRS calibration ------------------------
1000 // (Is that necessray, or would a simple offset correct do well already?)
1001
1002 // This is a very important step. Making a copy of the shared pointer ensures
1003 // that another thread (here: runClose) can set a new shared_ptr with new
1004 // data without this thread being affected. If we just did run.calib->Apply
1005 // the shared_pointer in use here might vanash during the processing, the
1006 // memory is freed and we access invalid memory. It is not important
1007 // which memory we acces (the old or the new one) because it is just for
1008 // display purpose anyway.
1009 const shared_ptr<DrsCalibration> cal = run.calib;
1010
1011 // There seems to be a problem using std::array... maybe the size is too big?
1012 // array<float, (1440+160)*1024> vec2;
1013 vector<float> vec((1440+160)*roi);
1014 cal->Apply(vec.data(), event->Adc_Data, start, roi);
1015
1016 // ------------------- Appy DRS-step correction --------------------------
1017 for (auto it=run.prevStart.begin(); it!=run.prevStart.end(); it++)
1018 {
1019 DrsCalibrate::CorrectStep(vec.data(), 1440, roi, it->data(), start, roi+10);
1020 DrsCalibrate::CorrectStep(vec.data(), 1440, roi, it->data(), start, 3);
1021 }
1022
1023 // ------------------------- Remove spikes --------------------------------
1024 DrsCalibrate::RemoveSpikes4(vec.data(), roi);
1025
1026 // -------------- Update raw data dim sevice (VERY SLOW) -----------------
1027 if (fQueueRawData.empty() && now>fLastDimRawData+boost::posix_time::seconds(5))
1028 {
1029 vector<char> data1(sizeof(EVENT)+vec.size()*sizeof(float));
1030 memcpy(data1.data(), event, sizeof(EVENT));
1031 memcpy(data1.data()+sizeof(EVENT), vec.data(), vec.size()*sizeof(float));
1032 fQueueRawData.emplace(data1);
1033
1034 fLastDimRawData = now;
1035 }
1036
1037 // ------------------------- Basic statistics -----------------------------
1038 DrsCalibrate::SlidingAverage(vec.data(), roi, 10);
1039
1040 // If this is a cosmic event
1041 EventData edat;
1042 edat.runNum = evt.runNum;
1043 edat.evNum = evt.evNum;
1044 //array<float, 1440*4> stats; // Mean, RMS, Max, Pos
1045 const float max = DrsCalibrate::GetPixelStats(edat.data, vec.data(), roi, 15, 5);
1046 if (evt.trgTyp==0 && max>fMaxEvent.first)
1047 fMaxEvent = make_pair(max, edat);
1048
1049 // ------------------ Update dim service (statistics) ---------------------
1050
1051 if (fQueueEventData.empty() && now>fLastDimEventData+boost::posix_time::milliseconds(4999))
1052 {
1053 edat.evNum = evt.evNum;
1054 edat.runNum = evt.runNum;
1055
1056 fQueueEventData.emplace(evt.time, evt.trgTyp, evt.trgTyp==0 ? fMaxEvent.second : edat);
1057 if (evt.trgTyp==0)
1058 fMaxEvent.first = -FLT_MAX;
1059
1060 fLastDimEventData = now;
1061 }
1062
1063 // === SendFeedbackData(PEVNT_HEADER *fadhd, EVENT *event)
1064 //
1065 // if (!ptr->HasTriggerLPext() && !ptr->HasTriggerLPint())
1066 // return;
1067 //
1068 // vector<float> data2(1440); // Mean, RMS, Max, Pos, first, last
1069 // DrsCalibrate::GetPixelMax(data2.data(), data.data(), event->Roi, 0, event->Roi-1);
1070 //
1071 // fDimFeedbackData.Update(data2);
1072 }
1073
1074 // Keep the start cells of the last five events for further corrections
1075 // As a performance improvement we could also just store the
1076 // pointers to the last five events...
1077 // What if a new run is started? Do we mind?
1078 auto &l = run.prevStart; // History for start cells of previous events (for step calibration)
1079
1080 if (l.size()<5)
1081 l.emplace_front();
1082 else
1083 {
1084 auto it = l.end();
1085 l.splice(l.begin(), l, --it);
1086 }
1087
1088 memcpy(l.front().data(), start, 1440*sizeof(int16_t));
1089 }
1090
1091 bool IsRunWaiting()
1092 {
1093 const lock_guard<mutex> lock(mtx_newrun);
1094 return fExpectedRuns.find(fRunNumber-1)!=fExpectedRuns.end();
1095 }
1096
1097 uint32_t GetRunNumber() const
1098 {
1099 return fRunNumber;
1100 }
1101
1102 bool IncreaseRunNumber(uint32_t run)
1103 {
1104 if (!InitRunNumber())
1105 return false;
1106
1107 if (run<fRunNumber)
1108 {
1109 ostringstream msg;
1110 msg <<
1111 "Run number " << run << " smaller than next available "
1112 "run number " << fRunNumber << " in " << fPath << " [" << fNightAsInt << "]";
1113 fMsg.Error(msg);
1114 return false;
1115 }
1116
1117 fRunNumber = run;
1118
1119 return true;
1120 }
1121
1122 void gotNewRun(RUN_CTRL2 &run)
1123 {
1124 // This is to secure iteration over fExpectedRuns
1125 const lock_guard<mutex> lock(mtx_newrun);
1126
1127 map<uint32_t,FAD::RunDescription>::iterator it = fExpectedRuns.begin();
1128 while (it!=fExpectedRuns.end())
1129 {
1130 if (it->first<run.runId)
1131 {
1132 ostringstream str;
1133 str << "runOpen - Missed run " << it->first << ".";
1134 fMsg.Info(str);
1135
1136 // Increase the iterator first, it becomes invalid with the next call
1137 const auto is = it++;
1138 fExpectedRuns.erase(is);
1139 continue;
1140 }
1141
1142 if (it->first==run.runId)
1143 break;
1144
1145 it++;
1146 }
1147
1148 if (it==fExpectedRuns.end())
1149 {
1150 ostringstream str;
1151 str << "runOpen - Run " << run.runId << " wasn't expected (maybe manual triggers)";
1152 fMsg.Warn(str);
1153
1154 // This is not ideal, but the best we can do
1155 run.night = fNightAsInt;
1156
1157 return;
1158 }
1159
1160 const FAD::RunDescription &conf = it->second;
1161
1162 run.runType = conf.name;
1163 run.maxEvt = conf.maxevt;
1164 run.closeTime = conf.maxtime + run.openTime;
1165 run.night = conf.night;
1166
1167 fExpectedRuns.erase(it);
1168
1169 // Now signal the fadctrl (configuration process that a run is in progress)
1170 // Maybe this could be done earlier, but we are talking about a
1171 // negligible time scale here.
1172 fRunInProgress = run.runId;
1173 }
1174
1175 void runFinished()
1176 {
1177 // This is called when the last event of a run (run time exceeded or
1178 // max number of events exceeded) has been received.
1179 fRunInProgress = -1;
1180 }
1181
1182 //map<boost::thread::id, string> fLastMessage;
1183
1184 void factOut(int severity, const char *message)
1185 {
1186 ostringstream str;
1187 str << "EventBuilder: " << message;
1188
1189 /*
1190 string &old = fLastMessage[boost::this_thread::get_id()];
1191
1192 if (str.str()==old)
1193 return;
1194 old = str.str();
1195 */
1196
1197 fMsg.Update(str, severity);
1198 }
1199
1200/*
1201 void factStat(int64_t *stat, int len)
1202 {
1203 if (len!=7)
1204 {
1205 fMsg.Warn("factStat received unknown number of values.");
1206 return;
1207 }
1208
1209 vector<int64_t> data(1, g_maxMem);
1210 data.insert(data.end(), stat, stat+len);
1211
1212 static vector<int64_t> last(8);
1213 if (data==last)
1214 return;
1215 last = data;
1216
1217 fDimStatistics.Update(data);
1218
1219 // len ist die Laenge des arrays.
1220 // array[4] enthaelt wieviele bytes im Buffer aktuell belegt sind; daran
1221 // kannst Du pruefen, ob die 100MB voll sind ....
1222
1223 ostringstream str;
1224 str
1225 << "Wait=" << stat[0] << " "
1226 << "Skip=" << stat[1] << " "
1227 << "Del=" << stat[2] << " "
1228 << "Tot=" << stat[3] << " "
1229 << "Mem=" << stat[4] << "/" << g_maxMem << " "
1230 << "Read=" << stat[5] << " "
1231 << "Conn=" << stat[6];
1232
1233 fMsg.Info(str);
1234 }
1235 */
1236
1237 bool UpdateDimStatistics1(const pair<Time,GUI_STAT> &stat)
1238 {
1239 fDimStatistics1.setData(&stat.second, sizeof(GUI_STAT));
1240 fDimStatistics1.Update(stat.first);
1241
1242 return true;
1243 }
1244
1245 void factStat(const GUI_STAT &stat)
1246 {
1247 fQueueStatistics1.emplace(Time(), stat);
1248 }
1249
1250 void factReportIncomplete(uint64_t rep)
1251 {
1252 fDimIncomplete.setQuality(1);
1253 fDimIncomplete.Update(rep);
1254 }
1255
1256 array<FAD::EventHeader, 40> fVecHeader;
1257
1258 template<typename T, class S>
1259 array<T, 42> Compare(const S *vec, const T *t)
1260 {
1261 const int offset = reinterpret_cast<const char *>(t) - reinterpret_cast<const char *>(vec);
1262
1263 const T *min = NULL;
1264 const T *val = NULL;
1265 const T *max = NULL;
1266
1267 array<T, 42> arr;
1268
1269 // bool rc = true;
1270 for (int i=0; i<40; i++)
1271 {
1272 const char *base = reinterpret_cast<const char*>(vec+i);
1273 const T *ref = reinterpret_cast<const T*>(base+offset);
1274
1275 arr[i] = *ref;
1276
1277 if (gi_NumConnect[i]==0)
1278 {
1279 arr[i] = 0;
1280 continue;
1281 }
1282
1283 if (!val)
1284 {
1285 min = ref;
1286 val = ref;
1287 max = ref;
1288 }
1289
1290 if (*ref<*min)
1291 min = ref;
1292
1293 if (*ref>*max)
1294 max = ref;
1295
1296 // if (*val!=*ref)
1297 // rc = false;
1298 }
1299
1300 arr[40] = val ? *min : 1;
1301 arr[41] = val ? *max : 0;
1302
1303 return arr;
1304 }
1305
1306 template<typename T>
1307 array<T, 42> CompareBits(const FAD::EventHeader *h, const T *t)
1308 {
1309 const int offset = reinterpret_cast<const char *>(t) - reinterpret_cast<const char *>(h);
1310
1311 T val = 0;
1312 T rc = 0;
1313
1314 array<T, 42> vec;
1315
1316 bool first = true;
1317
1318 for (int i=0; i<40; i++)
1319 {
1320 const char *base = reinterpret_cast<const char*>(&fVecHeader[i]);
1321 const T *ref = reinterpret_cast<const T*>(base+offset);
1322
1323 vec[i+2] = *ref;
1324
1325 if (gi_NumConnect[i]==0)
1326 {
1327 vec[i+2] = 0;
1328 continue;
1329 }
1330
1331 if (first)
1332 {
1333 first = false;
1334 val = *ref;
1335 rc = 0;
1336 }
1337
1338 rc |= val^*ref;
1339 }
1340
1341 vec[0] = rc;
1342 vec[1] = val;
1343
1344 return vec;
1345 }
1346
1347 template<typename T, size_t N>
1348 void Update(DimDescribedService &svc, const array<T, N> &data, const Time &t=Time(), int n=N)
1349 {
1350 svc.setData(const_cast<T*>(data.data()), sizeof(T)*n);
1351 svc.Update(t);
1352 }
1353
1354 template<typename T>
1355 void Print(const char *name, const pair<bool,array<T, 43>> &data)
1356 {
1357 cout << name << "|" << data.first << "|" << data.second[1] << "|" << data.second[0] << "<x<" << data.second[1] << ":";
1358 for (int i=0; i<40;i++)
1359 cout << " " << data.second[i+3];
1360 cout << endl;
1361 }
1362
1363 vector<uint> fNumConnected;
1364
1365 bool procHeader(const tuple<Time,bool,FAD::EventHeader> &dat)
1366 {
1367 const Time &t = get<0>(dat);
1368 const bool changed = get<1>(dat);
1369 const FAD::EventHeader &h = get<2>(dat);
1370
1371 const FAD::EventHeader old = fVecHeader[h.Id()];
1372 fVecHeader[h.Id()] = h;
1373
1374 if (old.fVersion != h.fVersion || changed)
1375 {
1376 const array<uint16_t,42> ver = Compare(&fVecHeader[0], &fVecHeader[0].fVersion);
1377
1378 array<float,42> data;
1379 for (int i=0; i<42; i++)
1380 {
1381 ostringstream str;
1382 str << (ver[i]>>8) << '.' << (ver[i]&0xff);
1383 data[i] = stof(str.str());
1384 }
1385 Update(fDimFwVersion, data, t);
1386 }
1387
1388 if (old.fRunNumber != h.fRunNumber || changed)
1389 {
1390 const array<uint32_t,42> run = Compare(&fVecHeader[0], &fVecHeader[0].fRunNumber);
1391 fDimRunNumber.setData(&run[0], 42*sizeof(uint32_t));
1392 fDimRunNumber.Update(t);
1393 }
1394
1395 if (old.fTriggerGeneratorPrescaler != h.fTriggerGeneratorPrescaler || changed)
1396 {
1397 const array<uint16_t,42> pre = Compare(&fVecHeader[0], &fVecHeader[0].fTriggerGeneratorPrescaler);
1398 fDimPrescaler.setData(&pre[0], 42*sizeof(uint16_t));
1399 fDimPrescaler.Update(t);
1400 }
1401
1402 if (old.fDNA != h.fDNA || changed)
1403 {
1404 const array<uint64_t,42> dna = Compare(&fVecHeader[0], &fVecHeader[0].fDNA);
1405 Update(fDimDNA, dna, t, 40);
1406 }
1407
1408 if (old.fStatus != h.fStatus || changed)
1409 {
1410 const array<uint16_t,42> sts = CompareBits(&fVecHeader[0], &fVecHeader[0].fStatus);
1411 Update(fDimStatus, sts, t);
1412 }
1413
1414 if (memcmp(old.fDac, h.fDac, sizeof(h.fDac)) || changed)
1415 {
1416 array<uint16_t, FAD::kNumDac*42> dacs;
1417
1418 for (int i=0; i<FAD::kNumDac; i++)
1419 {
1420 const array<uint16_t, 42> dac = Compare(&fVecHeader[0], &fVecHeader[0].fDac[i]);
1421 memcpy(&dacs[i*42], &dac[0], sizeof(uint16_t)*42);
1422 }
1423
1424 Update(fDimDac, dacs, t);
1425 }
1426
1427 return true;
1428 }
1429
1430 void debugHead(const FAD::EventHeader &h)
1431 {
1432 const uint16_t id = h.Id();
1433 if (id>39)
1434 return;
1435
1436 if (fNumConnected.size()!=40)
1437 fNumConnected.resize(40);
1438
1439 const vector<uint> con(gi_NumConnect, gi_NumConnect+40);
1440
1441 const bool changed = con!=fNumConnected || !IsThreadRunning();
1442
1443 fNumConnected = con;
1444
1445 fQueueProcHeader.emplace(Time(), changed, h);
1446 }
1447};
1448
1449EventBuilderWrapper *EventBuilderWrapper::This = 0;
1450
1451// ----------- Event builder callbacks implementation ---------------
1452bool runOpen(const EVT_CTRL2 &evt)
1453{
1454 return EventBuilderWrapper::This->runOpen(evt);
1455}
1456
1457bool runWrite(const EVT_CTRL2 &evt)
1458{
1459 return EventBuilderWrapper::This->runWrite(evt);
1460}
1461
1462void runClose(const EVT_CTRL2 &evt)
1463{
1464 EventBuilderWrapper::This->runClose(evt);
1465}
1466
1467bool eventCheck(const EVT_CTRL2 &evt)
1468{
1469 return EventBuilderWrapper::This->eventCheck(evt);
1470}
1471
1472void gotNewRun(RUN_CTRL2 &run)
1473{
1474 EventBuilderWrapper::This->gotNewRun(run);
1475}
1476
1477void runFinished()
1478{
1479 EventBuilderWrapper::This->runFinished();
1480}
1481
1482void applyCalib(const EVT_CTRL2 &evt, const size_t &size)
1483{
1484 EventBuilderWrapper::This->applyCalib(evt, size);
1485}
1486
1487void factOut(int severity, const char *message)
1488{
1489 EventBuilderWrapper::This->factOut(severity, message);
1490}
1491
1492void factStat(const GUI_STAT &stat)
1493{
1494 EventBuilderWrapper::This->factStat(stat);
1495}
1496
1497void factReportIncomplete(uint64_t rep)
1498{
1499 EventBuilderWrapper::This->factReportIncomplete(rep);
1500}
1501
1502// ------
1503
1504void debugHead(void *buf)
1505{
1506 const FAD::EventHeader &h = *reinterpret_cast<FAD::EventHeader*>(buf);
1507 EventBuilderWrapper::This->debugHead(h);
1508}
1509
1510#endif
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