source: trunk/MagicSoft/Mars/mraw/MRawEvtHeader.cc@ 4308

Last change on this file since 4308 was 4052, checked in by tbretz, 21 years ago
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1/* ======================================================================== *\
2!
3! *
4! * This file is part of MARS, the MAGIC Analysis and Reconstruction
5! * Software. It is distributed to you in the hope that it can be a useful
6! * and timesaving tool in analysing Data of imaging Cerenkov telescopes.
7! * It is distributed WITHOUT ANY WARRANTY.
8! *
9! * Permission to use, copy, modify and distribute this software and its
10! * documentation for any purpose is hereby granted without fee,
11! * provided that the above copyright notice appear in all copies and
12! * that both that copyright notice and this permission notice appear
13! * in supporting documentation. It is provided "as is" without express
14! * or implied warranty.
15! *
16!
17!
18! Author(s): Thomas Bretz 12/2000 <mailto:tbretz@astro.uni-wuerzburg.de>
19!
20! Copyright: MAGIC Software Development, 2000-2004
21!
22!
23\* ======================================================================== */
24
25/////////////////////////////////////////////////////////////////////////////
26//
27// MRawEvtHeader
28//
29// One Event is a sample of FADC measurements of different Pixels
30// (Photomultipliers) from the Camera of MAGIC. So all data (FADC) of the
31// interesting pixels are the modules of an event. To describe pixels the
32// class MRawPixel is used and the class MRawCrate to describe Crates.
33// To define a single events some other data members are needed
34// (Time of the events, tirgger pattern of event..)
35//
36// To describe one event on the level of FADC values the Class MRawEvtHeader is
37// created. It has the following data members:
38//
39// UInt_t fDAQEvtNumber
40// -----------------------
41// This it the number of the Event in one
42// data run. The first event in this run get
43// the number zero. The next one is one bigger.
44//
45// Assuming that one run takes 1 hour and a
46// triggerrate of 1kHz the number must be able
47// to reach 3.6e6 Events. To reach this number
48// you need at least 22 bits. This is the reason
49// why we use an integer (of root type UInt_t)
50// with a range to 4.2e9.
51//
52// MTime fRawEvtTime
53// -------------------
54// Time of the event.
55// The start point of the time determination can be
56// the millenium. From that start point the time is
57// measured in 200ns-count. One day for example
58// contains 432.e9 counts. An array of two unsigned Int is able to
59// contain 1.8e19 200ns-counts. This corresponds to 41.e6
60// days. This should be more than the livetime of MAGIC.
61// Private member of MTime.h
62//
63// UInt_t fNumTrigLvl1
64// --------------------
65//
66// Number of first level trigger
67// This member counts the number of First Level Trigger
68// between the last and this event. May be that due to
69// dead time of the DAQ this number is different from 1.
70// If the DAQ is fast enough, this value should be 1.
71// This may be usefull in GammaRayBursts and if we
72// apply a data reduction in the DAQ-chain, which selects
73// only good events.
74//
75// UInt_t fNumTrigLvl2
76// ------------------ -
77//
78// Number of second level trigger
79// This member counts the number of Second Level Trigger
80// between the last and this event.
81//
82// UInt_t fTrigPattern[2]
83// -----------------------
84// Trigger Pattern used for this event
85// Each event triggers for a particular configuration and each
86// configuration should have an ID (which is not fixed yet).
87//
88// UShort_t fAllLowGainOn
89// ----------------------
90// Type of Trigger.
91// This is a Byte (8 bit) to indicated if any of the pixels
92// have a non-negligible low gain (1) or not (0)
93//
94/////////////////////////////////////////////////////////////////////////////
95#include "MRawEvtHeader.h"
96
97#include <iomanip>
98#include <fstream>
99
100#include "MLog.h"
101#include "MLogManip.h"
102
103#include "MTime.h"
104#include "MArrayB.h"
105#include "MRawRunHeader.h"
106
107ClassImp(MRawEvtHeader);
108
109using namespace std;
110
111// --------------------------------------------------------------------------
112//
113// Default constructor. Create the array to store the data.
114//
115MRawEvtHeader::MRawEvtHeader(const char *name, const char *title)
116{
117 fName = name ? name : "MRawEvtHeader";
118 fTitle = title ? title : "Raw Event Header Information";
119
120 //
121 // set all member to zero, init the pointer to ClonesArray,
122 //
123 fPixLoGainOn = new MArrayB;
124
125 Clear();
126}
127
128// --------------------------------------------------------------------------
129//
130// Destructor. Deletes the array to store pixlogainon
131//
132MRawEvtHeader::~MRawEvtHeader()
133{
134 delete fPixLoGainOn;
135}
136
137// --------------------------------------------------------------------------
138//
139// you have to init the conatainer before you can read from
140// a raw binary file
141//
142void MRawEvtHeader::Init(MRawRunHeader *rh, MTime *t)
143{
144 //
145 // this is the number of entries in the array like specification
146 //
147 UInt_t fN = (rh->GetNumCrates() * rh->GetNumPixInCrate() + 7) / 8;
148
149 //
150 // initialize the array
151 //
152 fPixLoGainOn->Set(fN);
153
154 //
155 // this is the conatiner where we have to store the time of the event we
156 // read from the input stream
157 //
158 fTime = t;
159}
160
161// --------------------------------------------------------------------------
162//
163// Implementation of the Clear function
164//
165// Resets all members to zero, clear the list of Pixels
166//
167void MRawEvtHeader::Clear(Option_t *)
168{
169 fDAQEvtNumber = 0;
170 fNumTrigLvl1 = 0;
171 fNumTrigLvl2 = 0;
172 fTrigPattern[0] = 0;
173 fTrigPattern[1] = 0;
174 fTrigType = 0;
175 fNumLoGainOn = 0;
176}
177
178// --------------------------------------------------------------------------
179//
180// This member function prints all Data of one Event to *fLog.
181//
182void MRawEvtHeader::Print(Option_t *o) const
183{
184 *fLog << all;
185 *fLog << "DAQEvtNr: " << dec << fDAQEvtNumber << " (";
186 *fLog << "Trigger: ";
187 *fLog << "NumLvl1=" << fNumTrigLvl1 << " ";
188 *fLog << "NumLvl2=" << fNumTrigLvl2 << " ";
189 *fLog << "Pattern=" << hex << setfill('0');
190 *fLog << setw(2) << fTrigPattern[0];
191 *fLog << setw(2) << fTrigPattern[1] << " " << dec;
192
193 *fLog << "Type=";
194 switch (fTrigType)
195 {
196 case 0:
197 *fLog << "Trigger";
198 break;
199 case 1:
200 *fLog << "Pedestal";
201 break;
202 case 2:
203 *fLog << "Calibration";
204 break;
205 }
206 *fLog << ")" << endl;
207 *fLog << "Number of Lo Gains On: " << fNumLoGainOn << endl;
208
209 TString str(o);
210 str.ToLower();
211
212 if (str.Contains("nogains"))
213 return;
214
215 for (unsigned int i=0; i<fPixLoGainOn->GetSize(); i++)
216 {
217 for (int j=0; j<8; j++)
218 {
219 const UInt_t on = (*fPixLoGainOn)[i]&(1<<j) ? 1 : 0;
220 *fLog << on;
221 }
222 }
223 if (fPixLoGainOn->GetSize())
224 *fLog << endl;
225}
226
227// --------------------------------------------------------------------------
228//
229// Return the size in bytes of the event header.
230//
231Int_t MRawEvtHeader::GetNumBytes() const
232{
233 return 36+fPixLoGainOn->GetSize();
234}
235
236// --------------------------------------------------------------------------
237//
238// Used to set the header information. This is for MC only. NEVER, NEVER
239// use this somewhere else!
240//
241void MRawEvtHeader::FillHeader(UInt_t uiN, Float_t ulTP)
242{
243 fDAQEvtNumber = uiN;
244 fTrigPattern[0] = (UInt_t)(ulTP/4294967296.0) ;
245 fTrigPattern[1] = (UInt_t)(ulTP-fTrigPattern[0]*4294967296.0);
246}
247
248// --------------------------------------------------------------------------
249//
250// Decode the binary Time Stamp. For more detailed information see the
251// source code.
252//
253Bool_t MRawEvtHeader::DecodeTime(UInt_t abstime[2]) const
254{
255 //
256 // SuperSecond (20 bits giving hh:mm:ss)
257 // ------------
258 //
259 // Reading the hours:
260 // Swap bits: 23->16, 22->17, 21->16, 20->19
261 //
262 abstime[0] =
263 abstime[0]>>7 & 0x00010000 |
264 abstime[0]>>5 & 0x00020000 |
265 abstime[0]>>3 & 0x00040000 |
266 abstime[0]>>1 & 0x00080000 |
267 abstime[0] & 0xff00ffff;
268
269 //
270 // SubSecond (24 bits giving number of clock ticks of a 5Mhz signal since
271 // the beginning of last second, i.e., number of ns with a precision of to
272 // 200 ns)
273 // ----------
274 //
275 // Due to a problem with one Digital Module, three of the less significant
276 // eight bits of the subsecond are corrupted. So, until new DM's arrive to
277 // La Palma, we won't use the eight first bits of the subsecond.
278 // This reduces the precision from 200 ns to of 51.2 us.
279 //
280 abstime[1] &= 0xffffff00;
281
282 //
283 // Decode Time Stamp
284 //
285 const Byte_t h = (abstime[0]>>18 & 0x3)*10 + (abstime[0]>>14 & 0xf);
286 const Byte_t m = (abstime[0]>>11 & 0x7)*10 + (abstime[0]>> 7 & 0xf);
287 const Byte_t s = (abstime[0]>> 4 & 0x7)*10 + (abstime[0]>> 0 & 0xf);
288 const UInt_t ns = abstime[1]*200;
289
290 //
291 // Update the time stamp with the current event time.
292 // Make sure, that the time stamp was initialized correctly
293 // with the start-date/time of the run (after reading the run header)
294 //
295 if (fTime->UpdMagicTime(h, m, s, ns))
296 return kTRUE;
297
298 *fLog << warn << "WARNING - Time (" << Form("%2d:%02d:%02d,%09d", h, m, s, ns);
299 *fLog << ") in header of event #" << dec << fDAQEvtNumber << " invalid..." << endl;
300
301 return kFALSE;
302}
303
304// --------------------------------------------------------------------------
305//
306// read the EVENT HEADER information from the input stream
307// return FALSE if there is now header anymore, else TRUE
308//
309// For version>2 we expect to have a valid time-stamp in the files.
310//
311// Updates the time stamp with the current event time.
312// Make sure, that the time stamp was initialized correctly
313// with the start-date/time of the run (after reading the run header)
314//
315// Remark: This 'feature' disallows single runs of more than 11h!
316//
317Int_t MRawEvtHeader::ReadEvt(istream &fin, UShort_t ver)
318{
319 Bool_t rc = kTRUE;
320
321 fin.read((char*)&fDAQEvtNumber, 4); // Total=4
322 if (!fin)
323 return kFALSE;
324
325 UInt_t abstime[2];
326 fin.read((char*)abstime, 8); // Total=12
327
328 if (ver>2)
329 if (!DecodeTime(abstime))
330 rc = kCONTINUE;
331
332 Byte_t dummy[4];
333 fin.read((char*)&fNumTrigLvl1, 4); // Total=16
334 fin.read((char*)&fNumTrigLvl2, 4); // Total=20
335 fin.read((char*)fTrigPattern, 8); // Total=28
336 fin.read((char*)&fTrigType, 2); // Total=30
337 fin.read((char*)dummy, 2); // Total=32, was fAllLoGainOn
338 fin.read((char*)fPixLoGainOn->GetArray(), fPixLoGainOn->GetSize());
339
340 fNumLoGainOn = 0;
341 for (unsigned int i=0; i<fPixLoGainOn->GetSize(); i++)
342 for (int j=0; j<8; j++)
343 if ((*fPixLoGainOn)[i] & (1<<j))
344 fNumLoGainOn++;
345
346 fin.read((char*)&dummy, 4);
347
348 return fin.eof() ? kFALSE : rc;
349}
350
351void MRawEvtHeader::SkipEvt(istream &fin, UShort_t ver)
352{
353 fin.seekg(GetNumBytes(), ios::cur);
354}
355
356// --------------------------------------------------------------------------
357//
358// Low level decoding of the trigger pattern.
359// The trigger pattern consists of 16 bits (8+8 bits) generated by the
360// trigger system.
361// The first 8 bits correspond to the trigger configuration before the
362// prescaling, the others after prescaling.
363// The meaning of the configuration depends on the chosen trigger table
364// (that is how the trigger has been programmed) and must be interpreted
365// at higher level by the analysis.
366// Bit structure:
367// not prscd | prscaled
368// xxxx xxxx xxxx xxxx <-- pattern (x=0,1)
369// bit 7654 3210 7654 3210
370// H L
371//
372// e.g. 1000 0000 1000 1000 (hex: 8080) is the pattern when no
373// L2 trigger selection and no prescaling is applied.
374//
375// Up to now only fTrigPattern[0] is used.
376//
377UInt_t MRawEvtHeader::GetTriggerID() const
378{
379 return fTrigPattern[0];
380}
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