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source: trunk/FACT++/src/EventBuilderWrapper.h@ 16542

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Last change on this file since 16542 was 16541, checked in by tbretz, 11 years ago
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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
28	#include "queue.h"
29
30	namespace ba = boost::asio;
31	namespace bs = boost::system;
32	namespace fs = boost::filesystem;
33
34	using ba::ip::tcp;
35
36	using namespace std;
37
38	// ========================================================================
39
40	#include "EventBuilder.h"
41
42	void StartEvtBuild();
43	void CloseRunFile();
44
45	// ========================================================================
46
47	class EventBuilderWrapper
48	{
49	public:
50	// FIXME
51	static EventBuilderWrapper *This;
52
53	MessageImp &fMsg;
54
55	private:
56	boost::thread fThreadMain;
57
58	enum
59	{
60	kCurrent = 0,
61	kTotal = 1,
62	kEventId = 2,
63	kTriggerId = 3,
64	};
65
66	FAD::FileFormat_t fFileFormat;
67
68	//uint32_t fMaxRun;
69	uint32_t fLastOpened;
70	uint32_t fLastClosed;
71	array<uint32_t,4> fNumEvts;
72
73	DimWriteStatistics fDimWriteStats;
74	DimDescribedService fDimRuns;
75	DimDescribedService fDimEvents;
76	DimDescribedService fDimRawData;
77	DimDescribedService fDimEventData;
78	DimDescribedService fDimFeedbackData;
79	DimDescribedService fDimFwVersion;
80	DimDescribedService fDimRunNumber;
81	DimDescribedService fDimStatus;
82	DimDescribedService fDimDNA;
83	DimDescribedService fDimTemperature;
84	DimDescribedService fDimPrescaler;
85	DimDescribedService fDimRefClock;
86	DimDescribedService fDimRoi;
87	DimDescribedService fDimDac;
88	DimDescribedService fDimDrsRuns;
89	DimDescribedService fDimDrsCalibration;
90	DimDescribedService fDimStatistics1;
91	//DimDescribedService fDimStatistics2;
92	DimDescribedService fDimFileFormat;
93	DimDescribedService fDimIncomplete;
94
95	Queue<pair<Time,GUI_STAT>> fQueueStatistics1;
96	Queue<tuple<Time,bool,FAD::EventHeader>> fQueueProcHeader;
97	Queue<pair<Time,array<uint32_t,4>>> fQueueEvents;
98	Queue<pair<Time,array<uint16_t,2>>> fQueueRoi;
99	Queue<vector<char>> fQueueRawData;
100	Queue<tuple<Time,uint32_t,array<float,1440*4>>> fQueueEventData;
101
102	string fPath;
103	uint32_t fNightAsInt;
104	uint32_t fRunNumber;
105	int64_t fRunInProgress;
106
107	array<uint16_t,2> fVecRoi;
108	pair<float,array<float, 1440*4>> fMaxEvent; // Maximum event from applyCalib
109
110	protected:
111	bool InitRunNumber(const string &path="")
112	{
113	if (!path.empty())
114	{
115	if (!DimWriteStatistics::DoesPathExist(path, fMsg))
116	{
117	fMsg.Error("Data path "+path+" does not exist!");
118	return false;
119	}
120
121	fPath = path;
122	fDimWriteStats.SetCurrentFolder(fPath);
123
124	fMsg.Info("Data path set to "+path+".");
125	}
126
127	// Get current night
128	const uint32_t night = Time().NightAsInt();
129	if (night==fNightAsInt)
130	return true;
131
132	// Check for run numbers
133	fRunNumber = 1000;
134
135	while (--fRunNumber>0)
136	{
137	const string name = DataProcessorImp::FormFileName(fPath, night, fRunNumber, "");
138
139	if (access((name+"bin").c_str(), F_OK) == 0)
140	break;
141	if (access((name+"fits").c_str(), F_OK) == 0)
142	break;
143	if (access((name+"drs.fits").c_str(), F_OK) == 0)
144	break;
145	}
146
147	// This is now the first file which does not exist
148	fRunNumber++;
149	fLastOpened = 0;
150
151	// Check if we have exceeded the maximum
152	if (fRunNumber==1000)
153	{
154	fMsg.Error("You have a file with run-number 1000 in "+fPath+" ["+to_string(night)+"]");
155	return false;
156	}
157
158	ostringstream str;
159	if (fNightAsInt==0)
160	str << "First night...";
161	else
162	str << "Night has changd from " << fNightAsInt << "... new";
163	str << " run-number is " << night << "-" << setfill('0') << setw(3) << fRunNumber << " [" << (fPath.empty()?".":fPath) << "]";
164	fMsg.Message(str);
165
166	fNightAsInt = night;
167
168	return true;
169	}
170
171	public:
172	EventBuilderWrapper(MessageImp &imp) : fMsg(imp),
173	fFileFormat(FAD::kNone), /fMaxRun(0),/ fLastOpened(0), fLastClosed(0),
174	fDimWriteStats ("FAD_CONTROL", imp),
175	fDimRuns ("FAD_CONTROL/RUNS", "I:5;C",
176	"Run files statistics"
177	"\|stats[int]:num of open files, min/max run no, last opened or closed run"
178	"\|file[string]:filename of last opened file"),
179	fDimEvents ("FAD_CONTROL/EVENTS", "I:4",
180	"Event counts"
181	"\|evtsCount[int]:Num evts cur. run, total (all run), evt ID, trig. Num"),
182	fDimRawData ("FAD_CONTROL/RAW_DATA", "S:1;S:1;I:1;I:1;S:1;I:1;C:4;I:1;I:2;I:40;S:1440;S:160;F",
183	"\|roi[uint16]:number of samples per pixel"
184	"\|roi_tm[uint16]:number of samples per time-marker channel"
185	"\|num_fad[uint32]:event number from FADs"
186	"\|num_ftm[uint32]:trigger number from FTM"
187	"\|type[uint16]:trigger type from FTM"
188	"\|num_boards[uint32]:number of active boards"
189	"\|error[uint8]:event builder error counters"
190	"\|dummy[]:"
191	"\|time[uint32]:PC time as unix time stamp"
192	"\|time_board[uint32]:Time stamp of FAD boards"
193	"\|start_pix[int16]:start sample of pixels"
194	"\|start_tm[int16]:start sample of time marker channels"
195	"\|adc[int16]:adc data"),
196	fDimEventData ("FAD_CONTROL/EVENT_DATA", "F:1440;F:1440;F:1440;F:1440", "\|avg:\|rms:\|max:\|pos"),
197	fDimFeedbackData("FAD_CONTROL/FEEDBACK_DATA", "F:1440", ""),
198	fDimFwVersion ("FAD_CONTROL/FIRMWARE_VERSION", "F:42",
199	"Firmware version number of fad boards"
200	"\|firmware[float]:Version number of firmware, for each board. 40=min, 41=max"),
201	fDimRunNumber ("FAD_CONTROL/RUN_NUMBER", "I:42",
202	"Run numbers coming from FAD boards"
203	"\|runNumbers[int]:current run number of each FAD board. 40=min, 41=max"),
204	fDimStatus ("FAD_CONTROL/STATUS", "S:42",
205	"Status of FAD boards"
206	"\|status[bitpattern]:Status of each FAD board. Maybe buggy"),
207	fDimDNA ("FAD_CONTROL/DNA", "X:40",
208	"DNA of FAD boards"
209	"\|DNA[hex]:Hex identifier of each FAD board"),
210	fDimTemperature ("FAD_CONTROL/TEMPERATURE", "F:82",
211	"FADs temperatures"
212	"\|temp[deg. C]:0 global min, 1-40 min, 41 global max, 42-81 max"),
213	fDimPrescaler ("FAD_CONTROL/PRESCALER", "S:42",
214	"Trigger generator prescaler of fad boards"
215	"\|prescaler[int]:Trigger generator prescaler value, for each board"),
216	fDimRefClock ("FAD_CONTROL/REFERENCE_CLOCK", "I:42",
217	"Reference clock of FAD boards"
218	"\|refClocks[t]:ref clocks of FAD boards. 40=min, 41=max"),
219	fDimRoi ("FAD_CONTROL/REGION_OF_INTEREST", "S:2", "roi:\|roi_rm:"),
220	fDimDac ("FAD_CONTROL/DAC", "S:336",
221	"DAC settings of each FAD board"
222	"\|DAC[int]:DAC counts, sequentially DAC 0 board 0, 0/1, 0/2... (plus min max)"),
223	fDimDrsRuns ("FAD_CONTROL/DRS_RUNS", "I:1;I:3",
224	"\|roi:Region of interest of secondary baseline"
225	"\|run:Run numbers of DRS runs (0=none)"),
226	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",
227	"\|roi:Region of interest of secondary baseline"
228	"\|run:Run numbers of DRS runs (0=none)"),
229	fDimStatistics1 ("FAD_CONTROL/STATISTICS1", "I:5;X:3;I:1;I:2;C:40;I:40;X:40",
230	"Event Builder status for GUI display"
231	"\|bufferInfo[int]:Events in buffer, incomp., comp., write, proc., tot."
232	"\|memInfo[int]:total mem allocated, used mem, max memory"
233	"\|deltaT[ms]:Time in ms for rates"
234	"\|rateNew[int]:Number of new start events received"
235	"\|numConn[int]:Number of connections per board"
236	"\|rateBytes[int]:Bytes read this cycle"
237	"\|totBytes[int]:Bytes read (counter)"),
238	fDimFileFormat("FAD_CONTROL/FILE_FORMAT", "S:1", "\|format[int]:Current file format"),
239	fDimIncomplete("FAD_CONTROL/INCOMPLETE", "X:1", "\|incomplete[bits]:One bit per board"),
240	// It is important to instantiate them after the DimServices
241	fQueueStatistics1(std::bind(&EventBuilderWrapper::UpdateDimStatistics1, this, placeholders::_1)),
242	fQueueProcHeader( std::bind(&EventBuilderWrapper::procHeader, this, placeholders::_1)),
243	fQueueEvents( std::bind(&EventBuilderWrapper::UpdateDimEvents, this, placeholders::_1)),
244	fQueueRoi( std::bind(&EventBuilderWrapper::UpdateDimRoi, this, placeholders::_1)),
245	fQueueRawData( std::bind(&EventBuilderWrapper::UpdateDimRawData, this, placeholders::_1)),
246	fQueueEventData( std::bind(&EventBuilderWrapper::UpdateDimEventData, this, placeholders::_1)),
247	fNightAsInt(0), fRunInProgress(-1),
248	fMaxEvent(make_pair(-FLT_MAX, array<float,1440*4>()))
249	{
250	if (This)
251	throw logic_error("EventBuilderWrapper cannot be instantiated twice.");
252
253	This = this;
254
255	fVecRoi.fill(0);
256
257	memset(fNumEvts.data(), 0, sizeof(fNumEvts));
258	fDimEvents.Update(fNumEvts);
259
260	for (size_t i=0; i<40; i++)
261	ConnectSlot(i, tcp::endpoint());
262	}
263
264	virtual ~EventBuilderWrapper()
265	{
266	Abort();
267
268	// FIXME: Used timed_join and abort afterwards
269	// What's the maximum time the eb need to abort?
270	fThreadMain.join();
271	}
272
273	map<uint32_t, FAD::RunDescription> fExpectedRuns;
274
275	mutex mtx_newrun;
276
277	uint32_t StartNewRun(int64_t maxtime, int64_t maxevt, const pair<string, FAD::Configuration> &ref)
278	{
279	if (maxtime<=0 \|\| maxtime>246060)
280	maxtime = 246060;
281	if (maxevt<=0 \|\| maxevt>INT32_MAX)
282	maxevt = INT32_MAX;
283
284	if (!InitRunNumber())
285	return 0;
286
287	const FAD::RunDescription descr =
288	{
289	uint32_t(maxtime),
290	uint32_t(maxevt),
291	fNightAsInt,
292	ref.first,
293	ref.second,
294	};
295
296	const lock_guard<mutex> lock(mtx_newrun);
297	fExpectedRuns[fRunNumber] = descr;
298	return fRunNumber++;
299	}
300
301	bool IsThreadRunning()
302	{
303	if (fThreadMain.get_id()==boost::this_thread::get_id())
304	return true;
305	return !fThreadMain.timed_join(boost::posix_time::microseconds(0));
306	}
307
308	void SetMaxMemory(unsigned int mb) const
309	{
310	g_maxMem = size_t(mb)*1000000;
311	}
312
313	void StartThread(const vector<tcp::endpoint> &addr)
314	{
315	if (IsThreadRunning())
316	{
317	fMsg.Warn("Start - EventBuilder still running");
318	return;
319	}
320
321	//fLastMessage.clear();
322
323	for (size_t i=0; i<40; i++)
324	ConnectSlot(i, addr[i]);
325
326	fMsg.Message("Starting EventBuilder thread");
327
328	fThreadMain = boost::thread(StartEvtBuild);
329	}
330
331	void ConnectSlot(unsigned int i, const tcp::endpoint &addr)
332	{
333	if (i>39)
334	return;
335
336	fRunInProgress = -1;
337
338	if (addr==tcp::endpoint())
339	{
340	// In this order
341	g_port[i].sockDef = 0;
342
343	fDimIncomplete.setQuality(0);
344	fDimIncomplete.Update(uint64_t(0));
345	return;
346	}
347
348	struct sockaddr_in sockaddr; //IP for each socket
349	sockaddr.sin_family = AF_INET;
350	sockaddr.sin_addr.s_addr = htonl(addr.address().to_v4().to_ulong());
351	sockaddr.sin_port = htons(addr.port());
352	memcpy(&g_port[i].sockAddr, &sockaddr, sizeof(struct sockaddr_in));
353
354	// In this order
355	g_port[i].sockDef = 1;
356
357	fDimIncomplete.setQuality(0);
358	fDimIncomplete.Update(uint64_t(0));
359	}
360
361	void IgnoreSlot(unsigned int i)
362	{
363	if (i>39)
364	return;
365
366	if (g_port[i].sockAddr.sin_port==0)
367	return;
368
369	g_port[i].sockDef = -1;
370	}
371
372
373	void Abort()
374	{
375	fMsg.Message("Signal abort to EventBuilder thread...");
376	g_reset = 2;
377	}
378
379	void ResetThread(bool soft)
380	{
381	fMsg.Message("Signal reset to EventBuilder thread...");
382	g_reset = soft ? 101 : 102;
383	}
384
385	void Exit()
386	{
387	fMsg.Message("Signal exit to EventBuilder thread...");
388	g_reset = 1;
389	}
390
391	bool IsConnected(int i) const { return gi_NumConnect[i]==1; }
392	bool IsConnecting(int i) const { return gi_NumConnect[i]==0 && g_port[i].sockDef!=0; }
393	bool IsDisconnected(int i) const { return gi_NumConnect[i]==0 && g_port[i].sockDef==0; }
394	bool IsRunInProgress() const { return fRunInProgress>=0; }
395
396	void SetIgnore(int i, bool b) const { if (g_port[i].sockDef!=0) g_port[i].sockDef=b?-1:1; }
397	bool IsIgnored(int i) const { return g_port[i].sockDef==-1; }
398
399	void SetOutputFormat(FAD::FileFormat_t f)
400	{
401	const bool changed = f!=fFileFormat;
402
403	fFileFormat = f;
404	fDimFileFormat.Update(uint16_t(f));
405
406	string msg = "File format set to: ";
407	switch (f)
408	{
409	case FAD::kNone: msg += "kNone."; break;
410	case FAD::kDebug: msg += "kDebug."; break;
411	case FAD::kFits: msg += "kFits."; break;
412	case FAD::kCfitsio: msg += "kCfitsio"; break;
413	case FAD::kRaw: msg += "kRaw"; break;
414	case FAD::kCalib:
415	DataCalib::Restart();
416	DataCalib::Update(fDimDrsCalibration, fDimDrsRuns);
417	fMsg.Message("Resetted DRS calibration.");
418	return;
419	}
420
421	if (changed)
422	fMsg.Message(msg);
423	}
424
425	virtual int ResetSecondaryDrsBaseline()
426	{
427	if (DataCalib::ResetTrgOff(fDimDrsCalibration, fDimDrsRuns))
428	{
429	fFileFormat = FAD::kCalib;
430	fDimFileFormat.Update(uint16_t(fFileFormat));
431	fMsg.Message("Resetted DRS calibration for secondary baseline.");
432	}
433	else
434	fMsg.Warn("Could not reset DRS calibration of secondary baseline.");
435
436	return 0;
437	}
438
439	void LoadDrsCalibration(const char *fname)
440	{
441	if (!DataCalib::ReadFits(fname, fMsg))
442	return;
443	fMsg.Info("Successfully loaded DRS calibration from "+string(fname));
444	DataCalib::Update(fDimDrsCalibration, fDimDrsRuns);
445	}
446
447	virtual int CloseOpenFiles() { CloseRunFile(); fRunInProgress = -1; return 0; }
448
449
450	// -------------- Mapped event builder callbacks ------------------
451
452	void UpdateRuns(const string &fname="")
453	{
454	uint32_t values[5] =
455	{
456	!fFile ? 0 : 1,
457	fFile ? fFile->GetRunId() : 0,
458	fFile ? fFile->GetRunId() : 0,
459	fLastOpened,
460	fLastClosed
461	};
462
463	vector<char> data(sizeof(values)+fname.size()+1);
464	memcpy(data.data(), values, sizeof(values));
465	strcpy(data.data()+sizeof(values), fname.c_str());
466	fDimRuns.Update(data);
467
468	if (!fname.empty())
469	fDimWriteStats.FileOpened(fname);
470	}
471
472	shared_ptr<DataProcessorImp> fFile;
473
474	void UpdateDimEvents(const pair<Time,array<uint32_t,4>> &stat)
475	{
476	fDimEvents.setData(stat.second.data(), sizeof(uint32_t)*4);
477	fDimEvents.Update(stat.first);
478	}
479
480	bool runOpen(const EVT_CTRL2 &evt)
481	{
482	const uint32_t night = evt.runCtrl->night;
483	const uint32_t runid = evt.runNum>0 ? evt.runNum : time(NULL);
484
485	// If there is still an open file: close it
486	if (fFile)
487	runClose();
488
489	// Keep a copy of the currently valid drs calibration
490	// and associate it to the run control structure
491	evt.runCtrl->calib = shared_ptr<DrsCalibration>(new DrsCalibration(DataCalib::GetCalibration()));
492
493	/*
494	evt.runCtrl->calibInt.resize(1024*1440);
495
496	const int16_t *off = evt.runCtrl->zcalib.data();
497	int32_t *ptr = evt.runCtrl->calib.data();
498
499	const uint64_t num = evt.runCtrl->calib.fNumOffset;
500	for (int i=0; i<1024*1440)
501	ptr[i] = off[i]/num;
502	*/
503
504	// FIMXE: Check if file already exists...
505
506	// Crate the file
507	DataProcessorImp *file = 0;
508	switch (fFileFormat)
509	{
510	case FAD::kNone: file = new DataDump(fPath, night, runid, fMsg); break;
511	case FAD::kDebug: file = new DataDebug(fPath, night, runid, fMsg); break;
512	case FAD::kCfitsio: file = new DataWriteFits(fPath, night, runid, fMsg); break;
513	case FAD::kFits: file = new DataWriteFits2(fPath, night, runid, fMsg); break;
514	case FAD::kRaw: file = new DataWriteRaw(fPath, night, runid, fMsg); break;
515	case FAD::kCalib: file = new DataCalib(fPath, night, runid, fDimDrsCalibration, fDimDrsRuns, fMsg); break;
516	}
517
518	try
519	{
520	// Try to open the file
521	FAD::RunDescription desc;
522	desc.name = evt.runCtrl->runType;
523
524	if (!file->Open(evt, desc))
525	return false;
526	}
527	catch (const exception &e)
528	{
529	fMsg.Error("Exception trying to open file: "+string(e.what()));
530	return false;
531	}
532
533	fLastOpened = runid;
534
535	// Signal that a file is open
536	fFile = shared_ptr<DataProcessorImp>(file);
537
538	// Now do all the calls which potentially block (dim)
539
540	// Time for update runs before time for update events
541	UpdateRuns(file->GetFileName());
542	fNumEvts[kEventId] = 0;
543	fNumEvts[kTriggerId] = 0;
544	fNumEvts[kCurrent] = 0;
545	fQueueEvents.emplace(Time(), fNumEvts);
546
547	ostringstream str;
548	str << "Opened: " << file->GetFileName() << " (" << file->GetRunId() << ")";
549	fMsg.Info(str);
550
551	return true;
552	}
553
554	bool runWrite(const EVT_CTRL2 &e)
555	{
556	/*
557	const size_t size = sizeof(EVENT)+1440(evt.Roi+evt.RoiTM)2;
558	vector evt(e.fEvent, e.fEvent+size);
559
560	const EVENT &evt = reinterpret_cast<EVENT>(evt.data());
561
562	int16_t *val = evt.Adc_Data;
563	const int16_t *off = e.runCtrl->zcalib.data();
564	for (const int16_t *start=evt.StartPix; start<evt.StartPix+1440; val+=1024, off+=1024, start++)
565	{
566	if (*start<0)
567	continue;
568
569	for (size_t i=0; i<roi; i++)
570	val[i] -= offset[(*start+i)%1024];
571	}*/
572
573	const EVENT &evt = *e.fEvent;
574	if (!fFile->WriteEvt(evt))
575	return false;
576
577	fNumEvts[kCurrent]++;
578	fNumEvts[kEventId] = evt.EventNum;
579	fNumEvts[kTriggerId] = evt.TriggerNum;
580	fNumEvts[kTotal]++;
581
582	static Time oldt(boost::date_time::neg_infin);
583	Time newt;
584	if (newt>oldt+boost::posix_time::seconds(1))
585	{
586	fQueueEvents.emplace(newt, fNumEvts);
587	oldt = newt;
588	}
589
590	return true;
591	}
592
593	void runClose()
594	{
595	if (!fFile)
596	return;
597
598	// It can happen that runFinished was never called
599	// (e.g. runWrite failed)
600	if (fRunInProgress==fFile->GetRunId())
601	fRunInProgress = -1;
602
603	// Close the file
604	const bool rc = fFile->Close(NULL);
605
606	fLastClosed = fFile->GetRunId();
607
608	ostringstream str;
609	str << "Closed: " << fFile->GetFileName() << " (" << fFile->GetRunId() << ")";
610	if (!rc)
611	str << "... failed!";
612
613	// Signal that the file is closed
614
615	fFile.reset();
616
617	// Now do all the calls which can potentially block (dim)
618
619	CloseRun(fLastClosed);
620
621	// Time for update events before time for update runs
622	fQueueEvents.emplace(Time(), fNumEvts);
623	UpdateRuns();
624
625	// Do the potentially blocking call after all others
626	rc ? fMsg.Info(str) : fMsg.Error(str);
627	}
628
629	virtual void CloseRun(uint32_t /runid/) { }
630
631	void UpdateDimRoi(const pair<Time, array<uint16_t,2>> &roi)
632	{
633	fDimRoi.setData(roi.second.data(), sizeof(uint16_t)*2);
634	fDimRoi.Update(roi.first);
635	}
636
637	bool eventCheck(const EVT_CTRL2 &evt)
638	{
639	const EVENT *event = evt.fEvent;
640
641	const array<uint16_t,2> roi = {{ event->Roi, event->RoiTM }};
642
643	if (roi!=fVecRoi)
644	{
645	fQueueRoi.emplace(Time(), roi);
646	fVecRoi = roi;
647	}
648
649	const FAD::EventHeader beg = reinterpret_cast<const FAD::EventHeader>(evt.FADhead);
650	const FAD::EventHeader end = reinterpret_cast<const FAD::EventHeader>(evt.FADhead)+40;
651
652	// FIMXE: Compare with target configuration
653
654	for (const FAD::EventHeader *ptr=beg; ptr!=end; ptr++)
655	{
656	// FIXME: Compare with expectations!!!
657	if (ptr->fStartDelimiter==0)
658	{
659	if (ptr==beg)
660	beg++;
661	continue;
662	}
663
664	if (beg->fStatus != ptr->fStatus)
665	{
666	fMsg.Error("Inconsistency in FAD status detected.... closing run.");
667	return false;
668	}
669
670	if (beg->fRunNumber != ptr->fRunNumber)
671	{
672	fMsg.Error("Inconsistent run number detected.... closing run.");
673	return false;
674	}
675
676	/*
677	if (beg->fVersion != ptr->fVersion)
678	{
679	Error("Inconsist firmware version detected.... closing run.");
680	CloseRunFile(runNr, 0, 0);
681	break;
682	}
683	*/
684	if (beg->fEventCounter != ptr->fEventCounter)
685	{
686	fMsg.Error("Inconsistent FAD event number detected.... closing run.");
687	return false;
688	}
689
690	if (beg->fTriggerCounter != ptr->fTriggerCounter)
691	{
692	fMsg.Error("Inconsistent FTM trigger number detected.... closing run.");
693	return false;
694	}
695
696	if (beg->fAdcClockPhaseShift != ptr->fAdcClockPhaseShift)
697	{
698	fMsg.Error("Inconsistent phase shift detected.... closing run.");
699	return false;
700	}
701
702	if (memcmp(beg->fDac, ptr->fDac, sizeof(beg->fDac)))
703	{
704	fMsg.Error("Inconsistent DAC values detected.... closing run.");
705	return false;
706	}
707
708	if (beg->fTriggerType != ptr->fTriggerType)
709	{
710	fMsg.Error("Inconsistent trigger type detected.... closing run.");
711	return false;
712	}
713	}
714
715	// check REFCLK_frequency
716	// check consistency with command configuration
717	// how to log errors?
718	// need gotNewRun/closedRun to know it is finished
719
720	return true;
721	}
722
723	Time fLastDimRawData;
724	Time fLastDimEventData;
725
726	void UpdateDimRawData(const vector<char> &v)
727	{
728	const EVENT evt = reinterpret_cast<const EVENT>(v.data());
729
730	fDimRawData.setData(v.data());
731	fDimRawData.setQuality(evt->TriggerType);
732	fDimRawData.Update(Time(evt->PCTime, evt->PCUsec));
733	}
734	void UpdateDimEventData(const tuple<Time,uint32_t,array<float, 1440*4>> &tup)
735	{
736	fDimEventData.setQuality(get<1>(tup));
737	fDimEventData.setData(get<2>(tup));
738	fDimEventData.Update(get<0>(tup));
739	}
740
741	void applyCalib(const EVT_CTRL2 &evt, const size_t &size)
742	{
743	const EVENT *event = evt.fEvent;
744	const int16_t *start = event->StartPix;
745
746	// Get the reference to the run associated information
747	RUN_CTRL2 &run = *evt.runCtrl;
748
749	if (size==1) // If there is more than one event waiting (including this one), throw them away
750	{
751	Time now;
752
753	// ------------------- Copy event data to new memory --------------------
754	// (to make it thread safe; a static buffer might improve memory handling)
755	const uint16_t roi = event->Roi;
756
757	// ------------------- Apply full DRS calibration ------------------------
758	// (Is that necessray, or would a simple offset correct do well already?)
759
760	// There seems to be a problem using std::array... maybe the size is too big?
761	// array<float, (1440+160)*1024> vec2;
762	vector<float> vec((1440+160)*roi);
763	run.calib->Apply(vec.data(), event->Adc_Data, start, roi);
764
765	// ------------------- Appy DRS-step correction --------------------------
766	for (auto it=run.prevStart.begin(); it!=run.prevStart.end(); it++)
767	{
768	DrsCalibrate::CorrectStep(vec.data(), 1440, roi, it->data(), start, roi+10);
769	DrsCalibrate::CorrectStep(vec.data(), 1440, roi, it->data(), start, 3);
770	}
771
772	// ------------------------- Remove spikes --------------------------------
773	DrsCalibrate::RemoveSpikes3(vec.data(), roi);
774
775	// -------------- Update raw data dim sevice (VERY SLOW) -----------------
776	if (fQueueRawData.empty() && now>fLastDimRawData+boost::posix_time::seconds(5))
777	{
778	vector<char> data1(sizeof(EVENT)+vec.size()*sizeof(float));
779	memcpy(data1.data(), event, sizeof(EVENT));
780	memcpy(data1.data()+sizeof(EVENT), vec.data(), vec.size()*sizeof(float));
781	fQueueRawData.emplace(data1);
782
783	fLastDimRawData = now;
784	}
785
786	// ------------------------- Basic statistics -----------------------------
787	DrsCalibrate::SlidingAverage(vec.data(), roi, 10);
788
789	// If this is a cosmic event
790	array<float, 1440*4> stats; // Mean, RMS, Max, Pos
791	const float max = DrsCalibrate::GetPixelStats(stats.data(), vec.data(), roi);
792	if (evt.trgTyp==0 && max>fMaxEvent.first)
793	fMaxEvent = make_pair(max, stats);
794
795	// ------------------ Update dim service (statistics) ---------------------
796
797	if (fQueueEventData.empty() && now>fLastDimEventData+boost::posix_time::seconds(3))
798	{
799	fQueueEventData.emplace(evt.time, evt.trgTyp, evt.trgTyp==0 ? fMaxEvent.second : stats);
800	if (evt.trgTyp==0)
801	fMaxEvent.first = -FLT_MAX;
802
803	fLastDimEventData = now;
804	}
805
806	// === SendFeedbackData(PEVNT_HEADER fadhd, EVENT event)
807	//
808	// if (!ptr->HasTriggerLPext() && !ptr->HasTriggerLPint())
809	// return;
810	//
811	// vector<float> data2(1440); // Mean, RMS, Max, Pos, first, last
812	// DrsCalibrate::GetPixelMax(data2.data(), data.data(), event->Roi, 0, event->Roi-1);
813	//
814	// fDimFeedbackData.Update(data2);
815	}
816
817	// Keep the start cells of the last five events for further corrections
818	// As a performance improvement we could also just store the
819	// pointers to the last five events...
820	// What if a new run is started? Do we mind?
821	auto &l = run.prevStart; // History for start cells of previous events (for step calibration)
822
823	if (l.size()<5)
824	l.emplace_front();
825	else
826	{
827	auto it = l.end();
828	l.splice(l.begin(), l, --it);
829	}
830
831	memcpy(l.front().data(), start, 1440*sizeof(int16_t));
832	}
833
834	bool IsRunWaiting()
835	{
836	const lock_guard<mutex> lock(mtx_newrun);
837	return fExpectedRuns.find(fRunNumber-1)!=fExpectedRuns.end();
838	}
839
840	uint32_t GetRunNumber() const
841	{
842	return fRunNumber;
843	}
844
845	bool IncreaseRunNumber(uint32_t run)
846	{
847	if (!InitRunNumber())
848	return false;
849
850	if (run<fRunNumber)
851	{
852	ostringstream msg;
853	msg <<
854	"Run number " << run << " smaller than next available "
855	"run number " << fRunNumber << " in " << fPath << " [" << fNightAsInt << "]";
856	fMsg.Error(msg);
857	return false;
858	}
859
860	fRunNumber = run;
861
862	return true;
863	}
864
865	void gotNewRun(RUN_CTRL2 &run)
866	{
867	// This is to secure iteration over fExpectedRuns
868	const lock_guard<mutex> lock(mtx_newrun);
869
870	map<uint32_t,FAD::RunDescription>::iterator it = fExpectedRuns.begin();
871	while (it!=fExpectedRuns.end())
872	{
873	if (it->first<run.runId)
874	{
875	ostringstream str;
876	str << "runOpen - Missed run " << it->first << ".";
877	fMsg.Info(str);
878
879	// Increase the iterator first, it becomes invalid with the next call
880	const auto is = it++;
881	fExpectedRuns.erase(is);
882	continue;
883	}
884
885	if (it->first==run.runId)
886	break;
887
888	it++;
889	}
890
891	if (it==fExpectedRuns.end())
892	{
893	ostringstream str;
894	str << "runOpen - Run " << run.runId << " wasn't expected (maybe manual triggers)";
895	fMsg.Warn(str);
896
897	// This is not ideal, but the best we can do
898	run.night = fNightAsInt;
899
900	return;
901	}
902
903	const FAD::RunDescription &conf = it->second;
904
905	run.runType = conf.name;
906	run.maxEvt = conf.maxevt;
907	run.closeTime = conf.maxtime + run.openTime;
908	run.night = conf.night;
909
910	fExpectedRuns.erase(it);
911
912	// Now signal the fadctrl (configuration process that a run is in progress)
913	// Maybe this could be done earlier, but we are talking about a
914	// negligible time scale here.
915	fRunInProgress = run.runId;
916	}
917
918	void runFinished()
919	{
920	// This is called when the last event of a run (run time exceeded or
921	// max number of events exceeded) has been received.
922	fRunInProgress = -1;
923	}
924
925	//map<boost::thread::id, string> fLastMessage;
926
927	void factOut(int severity, const char *message)
928	{
929	ostringstream str;
930	str << "EventBuilder: " << message;
931
932	/*
933	string &old = fLastMessage[boost::this_thread::get_id()];
934
935	if (str.str()==old)
936	return;
937	old = str.str();
938	*/
939
940	fMsg.Update(str, severity);
941	}
942
943	/*
944	void factStat(int64_t *stat, int len)
945	{
946	if (len!=7)
947	{
948	fMsg.Warn("factStat received unknown number of values.");
949	return;
950	}
951
952	vector<int64_t> data(1, g_maxMem);
953	data.insert(data.end(), stat, stat+len);
954
955	static vector<int64_t> last(8);
956	if (data==last)
957	return;
958	last = data;
959
960	fDimStatistics.Update(data);
961
962	// len ist die Laenge des arrays.
963	// array[4] enthaelt wieviele bytes im Buffer aktuell belegt sind; daran
964	// kannst Du pruefen, ob die 100MB voll sind ....
965
966	ostringstream str;
967	str
968	<< "Wait=" << stat[0] << " "
969	<< "Skip=" << stat[1] << " "
970	<< "Del=" << stat[2] << " "
971	<< "Tot=" << stat[3] << " "
972	<< "Mem=" << stat[4] << "/" << g_maxMem << " "
973	<< "Read=" << stat[5] << " "
974	<< "Conn=" << stat[6];
975
976	fMsg.Info(str);
977	}
978	*/
979
980	void UpdateDimStatistics1(const pair<Time,GUI_STAT> &stat)
981	{
982	fDimStatistics1.setData(&stat.second, sizeof(GUI_STAT));
983	fDimStatistics1.Update(stat.first);
984	}
985
986	void factStat(const GUI_STAT &stat)
987	{
988	fQueueStatistics1.emplace(Time(), stat);
989	}
990
991	void factReportIncomplete(uint64_t rep)
992	{
993	fDimIncomplete.setQuality(1);
994	fDimIncomplete.Update(rep);
995	}
996
997	array<FAD::EventHeader, 40> fVecHeader;
998
999	template<typename T, class S>
1000	array<T, 42> Compare(const S vec, const T t)
1001	{
1002	const int offset = reinterpret_cast<const char >(t) - reinterpret_cast<const char >(vec);
1003
1004	const T *min = NULL;
1005	const T *val = NULL;
1006	const T *max = NULL;
1007
1008	array<T, 42> arr;
1009
1010	// bool rc = true;
1011	for (int i=0; i<40; i++)
1012	{
1013	const char base = reinterpret_cast<const char>(vec+i);
1014	const T ref = reinterpret_cast<const T>(base+offset);
1015
1016	arr[i] = *ref;
1017
1018	if (gi_NumConnect[i]==0)
1019	{
1020	arr[i] = 0;
1021	continue;
1022	}
1023
1024	if (!val)
1025	{
1026	min = ref;
1027	val = ref;
1028	max = ref;
1029	}
1030
1031	if (ref<min)
1032	min = ref;
1033
1034	if (ref>max)
1035	max = ref;
1036
1037	// if (val!=ref)
1038	// rc = false;
1039	}
1040
1041	arr[40] = val ? *min : 1;
1042	arr[41] = val ? *max : 0;
1043
1044	return arr;
1045	}
1046
1047	template<typename T>
1048	array<T, 42> CompareBits(const FAD::EventHeader h, const T t)
1049	{
1050	const int offset = reinterpret_cast<const char >(t) - reinterpret_cast<const char >(h);
1051
1052	T val = 0;
1053	T rc = 0;
1054
1055	array<T, 42> vec;
1056
1057	bool first = true;
1058
1059	for (int i=0; i<40; i++)
1060	{
1061	const char base = reinterpret_cast<const char>(&fVecHeader[i]);
1062	const T ref = reinterpret_cast<const T>(base+offset);
1063
1064	vec[i+2] = *ref;
1065
1066	if (gi_NumConnect[i]==0)
1067	{
1068	vec[i+2] = 0;
1069	continue;
1070	}
1071
1072	if (first)
1073	{
1074	first = false;
1075	val = *ref;
1076	rc = 0;
1077	}
1078
1079	rc \|= val^*ref;
1080	}
1081
1082	vec[0] = rc;
1083	vec[1] = val;
1084
1085	return vec;
1086	}
1087
1088	template<typename T, size_t N>
1089	void Update(DimDescribedService &svc, const array<T, N> &data, const Time &t=Time(), int n=N)
1090	{
1091	svc.setData(const_cast<T>(data.data()), sizeof(T)n);
1092	svc.Update(t);
1093	}
1094
1095	template<typename T>
1096	void Print(const char *name, const pair<bool,array<T, 43>> &data)
1097	{
1098	cout << name << "\|" << data.first << "\|" << data.second[1] << "\|" << data.second[0] << "<x<" << data.second[1] << ":";
1099	for (int i=0; i<40;i++)
1100	cout << " " << data.second[i+3];
1101	cout << endl;
1102	}
1103
1104	vector<uint> fNumConnected;
1105
1106	void procHeader(const tuple<Time,bool,FAD::EventHeader> &dat)
1107	{
1108	const Time &t = get<0>(dat);
1109	const bool changed = get<1>(dat);
1110	const FAD::EventHeader &h = get<2>(dat);
1111
1112	const FAD::EventHeader old = fVecHeader[h.Id()];
1113	fVecHeader[h.Id()] = h;
1114
1115	if (old.fVersion != h.fVersion \|\| changed)
1116	{
1117	const array<uint16_t,42> ver = Compare(&fVecHeader[0], &fVecHeader[0].fVersion);
1118
1119	array<float,42> data;
1120	for (int i=0; i<42; i++)
1121	{
1122	ostringstream str;
1123	str << (ver[i]>>8) << '.' << (ver[i]&0xff);
1124	data[i] = stof(str.str());
1125	}
1126	Update(fDimFwVersion, data, t);
1127	}
1128
1129	if (old.fRunNumber != h.fRunNumber \|\| changed)
1130	{
1131	const array<uint32_t,42> run = Compare(&fVecHeader[0], &fVecHeader[0].fRunNumber);
1132	fDimRunNumber.setData(&run[0], 42*sizeof(uint32_t));
1133	fDimRunNumber.Update(t);
1134	}
1135
1136	if (old.fTriggerGeneratorPrescaler != h.fTriggerGeneratorPrescaler \|\| changed)
1137	{
1138	const array<uint16_t,42> pre = Compare(&fVecHeader[0], &fVecHeader[0].fTriggerGeneratorPrescaler);
1139	fDimPrescaler.setData(&pre[0], 42*sizeof(uint16_t));
1140	fDimPrescaler.Update(t);
1141	}
1142
1143	if (old.fDNA != h.fDNA \|\| changed)
1144	{
1145	const array<uint64_t,42> dna = Compare(&fVecHeader[0], &fVecHeader[0].fDNA);
1146	Update(fDimDNA, dna, t, 40);
1147	}
1148
1149	if (old.fStatus != h.fStatus \|\| changed)
1150	{
1151	const array<uint16_t,42> sts = CompareBits(&fVecHeader[0], &fVecHeader[0].fStatus);
1152	Update(fDimStatus, sts, t);
1153	}
1154
1155	if (memcmp(old.fDac, h.fDac, sizeof(h.fDac)) \|\| changed)
1156	{
1157	array<uint16_t, FAD::kNumDac*42> dacs;
1158
1159	for (int i=0; i<FAD::kNumDac; i++)
1160	{
1161	const array<uint16_t, 42> dac = Compare(&fVecHeader[0], &fVecHeader[0].fDac[i]);
1162	memcpy(&dacs[i42], &dac[0], sizeof(uint16_t)42);
1163	}
1164
1165	Update(fDimDac, dacs, t);
1166	}
1167
1168	// -----------
1169
1170	static Time oldt(boost::date_time::neg_infin);
1171	Time newt;
1172
1173	if (newt>oldt+boost::posix_time::seconds(1))
1174	{
1175	oldt = newt;
1176
1177	// --- RefClock
1178
1179	const array<uint32_t,42> clk = Compare(&fVecHeader[0], &fVecHeader[0].fFreqRefClock);
1180	Update(fDimRefClock, clk, t);
1181
1182	// --- Temperatures
1183
1184	const array<int16_t,42> tmp[4] =
1185	{
1186	Compare(&fVecHeader[0], &fVecHeader[0].fTempDrs[0]), // 0-39:val, 40:min, 41:max
1187	Compare(&fVecHeader[0], &fVecHeader[0].fTempDrs[1]), // 0-39:val, 40:min, 41:max
1188	Compare(&fVecHeader[0], &fVecHeader[0].fTempDrs[2]), // 0-39:val, 40:min, 41:max
1189	Compare(&fVecHeader[0], &fVecHeader[0].fTempDrs[3]) // 0-39:val, 40:min, 41:max
1190	};
1191
1192	vector<int16_t> data;
1193	data.reserve(82);
1194	data.push_back(tmp[0][40]); // min: 0
1195	data.insert(data.end(), tmp[0].data(), tmp[0].data()+40); // val: 1-40
1196	data.push_back(tmp[0][41]); // max: 41
1197	data.insert(data.end(), tmp[0].data(), tmp[0].data()+40); // val: 42-81
1198
1199	for (int j=1; j<=3; j++)
1200	{
1201	const array<int16_t,42> &ref = tmp[j];
1202
1203	// Gloabl min
1204	if (ref[40]<data[0]) // 40=min
1205	data[0] = ref[40];
1206
1207	// Global max
1208	if (ref[41]>data[41]) // 41=max
1209	data[41] = ref[41];
1210
1211	for (int i=0; i<40; i++)
1212	{
1213	// min per board
1214	if (ref[i]<data[i+1]) // data: 1-40
1215	data[i+1] = ref[i]; // ref: 0-39
1216
1217	// max per board
1218	if (ref[i]>data[i+42]) // data: 42-81
1219	data[i+42] = ref[i]; // ref: 0-39
1220	}
1221	}
1222
1223	vector<float> deg(82); // 0: global min, 1-40: min
1224	for (int i=0; i<82; i++) // 41: global max, 42-81: max
1225	deg[i] = data[i]/16.;
1226
1227	fDimTemperature.setData(deg.data(), 82*sizeof(float));
1228	fDimTemperature.Update(t);
1229	}
1230	}
1231
1232	void debugHead(const FAD::EventHeader &h)
1233	{
1234	const uint16_t id = h.Id();
1235	if (id>39)
1236	return;
1237
1238	if (fNumConnected.size()!=40)
1239	fNumConnected.resize(40);
1240
1241	const vector<uint> con(gi_NumConnect, gi_NumConnect+40);
1242
1243	const bool changed = con!=fNumConnected \|\| !IsThreadRunning();
1244
1245	fNumConnected = con;
1246
1247	fQueueProcHeader.emplace(Time(), changed, h);
1248	}
1249	};
1250
1251	EventBuilderWrapper *EventBuilderWrapper::This = 0;
1252
1253	// ----------- Event builder callbacks implementation ---------------
1254	bool runOpen(const EVT_CTRL2 &evt)
1255	{
1256	return EventBuilderWrapper::This->runOpen(evt);
1257	}
1258
1259	bool runWrite(const EVT_CTRL2 &evt)
1260	{
1261	return EventBuilderWrapper::This->runWrite(evt);
1262	}
1263
1264	void runClose()
1265	{
1266	EventBuilderWrapper::This->runClose();
1267	}
1268
1269	bool eventCheck(const EVT_CTRL2 &evt)
1270	{
1271	return EventBuilderWrapper::This->eventCheck(evt);
1272	}
1273
1274	void gotNewRun(RUN_CTRL2 &run)
1275	{
1276	EventBuilderWrapper::This->gotNewRun(run);
1277	}
1278
1279	void runFinished()
1280	{
1281	EventBuilderWrapper::This->runFinished();
1282	}
1283
1284	void applyCalib(const EVT_CTRL2 &evt, const size_t &size)
1285	{
1286	EventBuilderWrapper::This->applyCalib(evt, size);
1287	}
1288
1289	void factOut(int severity, const char *message)
1290	{
1291	EventBuilderWrapper::This->factOut(severity, message);
1292	}
1293
1294	void factStat(const GUI_STAT &stat)
1295	{
1296	EventBuilderWrapper::This->factStat(stat);
1297	}
1298
1299	void factReportIncomplete(uint64_t rep)
1300	{
1301	EventBuilderWrapper::This->factReportIncomplete(rep);
1302	}
1303
1304	// ------
1305
1306	void debugHead(void *buf)
1307	{
1308	const FAD::EventHeader &h = reinterpret_cast<FAD::EventHeader>(buf);
1309	EventBuilderWrapper::This->debugHead(h);
1310	}
1311
1312	#endif

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