source: trunk/MagicSoft/Mars/msignal/MSignalCam.cc@ 8887

Last change on this file since 8887 was 8528, checked in by tbretz, 18 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, 03/2005 <mailto:tbretz@astro.uni-wuerzburg.de>
19!
20! Copyright: MAGIC Software Development, 2000-2007
21!
22!
23\* ======================================================================== */
24
25/////////////////////////////////////////////////////////////////////////////
26//
27// MSignalCam
28//
29// Class Version 1:
30// ----------------
31// - first version
32//
33/////////////////////////////////////////////////////////////////////////////
34#include "MSignalCam.h"
35
36#include <math.h>
37#include <limits.h>
38#include <fstream>
39
40#include <TArrayI.h>
41#include <TArrayD.h>
42
43#include "MLog.h"
44#include "MLogManip.h"
45
46#include "MGeomCam.h"
47#include "MGeomPix.h"
48
49ClassImp(MSignalCam);
50ClassImp(MSignalCamIter);
51
52using namespace std;
53
54// --------------------------------------------------------------------------
55//
56// Creates a MSignalPix object for each pixel in the event
57//
58MSignalCam::MSignalCam(const char *name, const char *title) /*: fNumPixels(0)*/
59{
60 fName = name ? name : "MSignalCam";
61 fTitle = title ? title : "(Number of Photon)-Event Information";
62
63 fPixels = new TClonesArray("MSignalPix", 0);
64
65 Reset();
66}
67
68// --------------------------------------------------------------------------
69//
70// Copy contants of obj into this instance.
71//
72void MSignalCam::Copy(TObject &obj) const
73{
74 MSignalCam &cam = static_cast<MSignalCam&>(obj);
75
76 cam.fNumIslands = fNumIslands;
77 cam.fNumSinglePixels = fNumSinglePixels;
78 cam.fSizeSinglePixels = fSizeSinglePixels;
79 cam.fSizeSubIslands = fSizeSubIslands;
80 cam.fSizeMainIsland = fSizeMainIsland;
81
82 cam.fNumPixelsSaturatedHiGain = fNumPixelsSaturatedHiGain;
83 cam.fNumPixelsSaturatedLoGain = fNumPixelsSaturatedLoGain;
84
85 cam.fPixels->Delete();
86
87 const UInt_t n = GetNumPixels();
88
89 cam.InitSize(n);
90
91 for (UInt_t i=0; i<n; i++)
92 new ((*cam.fPixels)[i]) MSignalPix((*this)[i]);
93}
94
95// --------------------------------------------------------------------------
96//
97// reset counter and delete netries in list.
98//
99void MSignalCam::Reset()
100{
101 fNumSinglePixels = 0;
102 fSizeSinglePixels = 0;
103 fSizeSubIslands = 0;
104 fSizeMainIsland = 0;
105 fNumIslands = -1;
106
107 fNumPixelsSaturatedHiGain = -1;
108 fNumPixelsSaturatedLoGain = -1;
109
110 fPixels->R__FOR_EACH(TObject, Clear)();
111}
112
113// --------------------------------------------------------------------------
114//
115// Dump the cerenkov photon event to *fLog
116//
117void MSignalCam::Print(Option_t *) const
118{
119 const Int_t entries = fPixels->GetEntries();
120
121 *fLog << GetDescriptor() << dec << endl;
122 *fLog << " Number of Pixels: " << GetNumPixels() << "(" << entries << ")" << endl;
123
124 for (Int_t i=0; i<entries; i++ )
125 (*this)[i].Print();
126}
127
128// --------------------------------------------------------------------------
129//
130// Count and return the number of unmapped pixels
131//
132Int_t MSignalCam::GetNumPixelsUnmapped() const
133{
134 const UInt_t n = GetNumPixels();
135
136 if (n <= 0)
137 return -1;
138
139 Int_t cnt=0;
140 for (UInt_t i=0; i<n; i++)
141 {
142 if ((*this)[i].IsPixelUnmapped())
143 cnt++;
144 }
145
146 return cnt;
147}
148
149// --------------------------------------------------------------------------
150//
151// get the minimum number of photons of all valid pixels in the list
152// If you specify a geometry the number of photons is weighted with the
153// area of the pixel
154//
155Float_t MSignalCam::GetNumPhotonsMin(const MGeomCam *geom) const
156{
157 const UInt_t n = GetNumPixels();
158
159 if (n <= 0)
160 return -5.;
161
162 Float_t minval = FLT_MAX;
163
164 for (UInt_t i=0; i<n; i++)
165 {
166 const MSignalPix &pix = (*this)[i];
167 if (!pix.IsPixelUsed())
168 continue;
169
170 Float_t testval = pix.GetNumPhotons();
171
172 if (geom)
173 testval *= geom->GetPixRatio(i);
174
175 if (testval < minval)
176 minval = testval;
177 }
178
179 return minval;
180}
181
182// --------------------------------------------------------------------------
183//
184// get the maximum number of photons of all valid pixels in the list
185// If you specify a geometry the number of photons is weighted with the
186// area of the pixel
187//
188Float_t MSignalCam::GetNumPhotonsMax(const MGeomCam *geom) const
189{
190 const UInt_t n = GetNumPixels();
191
192 if (n <= 0)
193 return 50.;
194
195 Float_t maxval = -FLT_MAX;
196
197 for (UInt_t i=0; i<n; i++)
198 {
199 const MSignalPix &pix = (*this)[i];
200 if (!pix.IsPixelUsed())
201 continue;
202
203 Float_t testval = pix.GetNumPhotons();
204 if (geom)
205 testval *= geom->GetPixRatio(i);
206
207 if (testval > maxval)
208 maxval = testval;
209 }
210 return maxval;
211}
212
213// --------------------------------------------------------------------------
214//
215// get the minimum ratio of photons/error
216//
217Float_t MSignalCam::GetRatioMin(const MGeomCam *geom) const
218{
219 const UInt_t n = GetNumPixels();
220
221 if (n <= 0)
222 return -5.;
223
224 Float_t minval = FLT_MAX;
225
226 for (UInt_t i=0; i<n; i++)
227 {
228 const MSignalPix &pix = (*this)[i];
229 if (!pix.IsPixelUsed())
230 continue;
231
232 Float_t testval = pix.GetNumPhotons()/pix.GetErrorPhot();
233 if (geom)
234 testval *= geom->GetPixRatioSqrt(i);
235
236 if (testval < minval)
237 minval = testval;
238 }
239
240 return minval;
241}
242
243// --------------------------------------------------------------------------
244//
245// get the maximum ratio of photons/error
246//
247Float_t MSignalCam::GetRatioMax(const MGeomCam *geom) const
248{
249 const UInt_t n = GetNumPixels();
250
251 if (n <= 0)
252 return -5.;
253
254 Float_t maxval = -FLT_MAX;
255
256 for (UInt_t i=0; i<n; i++)
257 {
258 const MSignalPix &pix = (*this)[i];
259 if (!pix.IsPixelUsed())
260 continue;
261
262 Float_t testval = pix.GetNumPhotons()/pix.GetErrorPhot();
263 if (geom)
264 testval *= geom->GetPixRatioSqrt(i);
265
266 if (testval > maxval)
267 maxval = testval;
268 }
269
270 return maxval;
271}
272
273// --------------------------------------------------------------------------
274//
275// get the minimum of error
276// If you specify a geometry the number of photons is weighted with the
277// area of the pixel
278//
279Float_t MSignalCam::GetErrorPhotMin(const MGeomCam *geom) const
280{
281 const UInt_t n = GetNumPixels();
282
283 if (n <= 0)
284 return 50.;
285
286 Float_t minval = FLT_MAX;
287
288 for (UInt_t i=0; i<n; i++)
289 {
290 const MSignalPix &pix = (*this)[i];
291 if (!pix.IsPixelUsed())
292 continue;
293
294 Float_t testval = pix.GetErrorPhot();
295
296 if (geom)
297 testval *= geom->GetPixRatio(i);
298
299 if (testval < minval)
300 minval = testval;
301 }
302 return minval;
303}
304
305// --------------------------------------------------------------------------
306//
307// get the maximum ratio of photons/error
308// If you specify a geometry the number of photons is weighted with the
309// area of the pixel
310//
311Float_t MSignalCam::GetErrorPhotMax(const MGeomCam *geom) const
312{
313 const UInt_t n = GetNumPixels();
314
315 if (n <= 0)
316 return 50.;
317
318 Float_t maxval = -FLT_MAX;
319
320 for (UInt_t i=0; i<n; i++)
321 {
322 const MSignalPix &pix = (*this)[i];
323 if (!pix.IsPixelUsed())
324 continue;
325
326 Float_t testval = pix.GetErrorPhot();
327
328 if (geom)
329 testval *= geom->GetPixRatio(i);
330
331 if (testval > maxval)
332 maxval = testval;
333 }
334 return maxval;
335}
336
337MSignalPix *MSignalCam::AddPixel(Int_t idx, Float_t nph, Float_t er)
338{
339 MSignalPix *pix = static_cast<MSignalPix*>((*fPixels)[idx]);
340 pix->Set(nph, er);
341 return pix;
342}
343
344// --------------------------------------------------------------------------
345//
346// This function recursively finds all pixels of one island and assigns
347// the number num as island number to the pixel.
348//
349// 1) Check whether a pixel with the index idx exists, is unused
350// and has not yet a island number assigned.
351// 2) Assign the island number num to the pixel
352// 3) Loop over all its neighbors taken from the geometry geom. For all
353// neighbors recursively call this function (CalcIsland)
354// 4) Sum the size of the pixel and all neighbors newly assigned
355// (by CalcIsland) to this island
356//
357// Returns the sum of the pixel size.
358//
359Double_t MSignalCam::CalcIsland(const MGeomCam &geom, Int_t idx, Int_t num)
360{
361 // Get the pixel information of a pixel with this index
362 MSignalPix &pix = (*this)[idx];
363
364 // If an island number was already assigned to this pixel... do nothing.
365 if (pix.GetIdxIsland()>=0)
366 return 0;
367
368 // If the pixel is an unused pixel... do nothing.
369 if (!pix.IsPixelUsed())
370 return 0;
371
372 // Assign the new island number num to this used pixel
373 pix.SetIdxIsland(num);
374
375 // Get the geometry information (neighbors) of this pixel
376 const MGeomPix &gpix = geom[idx];
377
378 // Get the size of this pixel
379 Double_t size = pix.GetNumPhotons();
380
381 // Now do the same with all its neighbors and sum the
382 // sizes which they correspond to
383 const Int_t n = gpix.GetNumNeighbors();
384 for (int i=0; i<n; i++)
385 size += CalcIsland(geom, gpix.GetNeighbor(i), num);
386
387 // return size of this (sub)cluster
388 return size;
389}
390
391// --------------------------------------------------------------------------
392//
393// Each pixel which is maked as used is assigned an island number
394// (starting from 0). A pixel without an island number assigned
395// has island number -1.
396//
397// The index 0 corresponds to the island with the highest size (sum
398// of GetNumPhotons() in island). The size is decreasing with
399// increasing indices.
400//
401// The information about pixel neighbory is taken from the geometry
402// MGeomCam geom;
403//
404// You can access this island number of a pixel with a call to
405// MSignalPix->GetIdxIsland. The total number of islands available
406// can be accessed with MSignalCam->GetNumIslands.
407//
408// CalcIslands returns the number of islands found. If an error occurs,
409// eg the geometry has less pixels than the highest index stored, -1 is
410// returned.
411//
412Int_t MSignalCam::CalcIslands(const MGeomCam &geom)
413{
414 const UInt_t numpix = GetNumPixels();
415
416 if (/*fMaxIndex<0 ||*/ numpix==0)
417 {
418 *fLog << err << "ERROR - MSignalCam doesn't contain pixels!" << endl;
419 fNumIslands = 0;
420 return -1;
421 }
422/*
423 if ((UInt_t)fMaxIndex>=geom.GetNumPixels())
424 {
425 *fLog << err << "ERROR - MSignalCam::CalcIslands: Size mismatch - geometry too small!" << endl;
426 return -1;
427 }
428 */
429 // Create a list to hold the sizes of the islands (The maximum
430 // number of islands possible is roughly fNumPixels/4)
431 TArrayD size(numpix/3);
432
433 // Calculate Islands
434 Int_t n=0;
435 Float_t totsize = 0;
436
437 for (UInt_t idx=0; idx<numpix; idx++)
438 {
439 const MSignalPix &pix = (*this)[idx];
440 if (!pix.IsPixelUsed())
441 continue;
442
443 // This 'if' is necessary (although it is done in GetIsland, too)
444 // because otherwise the counter (n) would be wrong.
445 // So only 'start' a new island for used pixels (selected by
446 // using the Iterator) which do not yet belong to another island.
447 if (pix.GetIdxIsland()<0)
448 {
449 // Don't put this in one line! n is used twice...
450 const Double_t sz = CalcIsland(geom, idx/*pix->GetPixId()*/, n);
451 size[n++] = sz;
452 totsize += sz;
453 }
454 }
455
456 // Create an array holding the indices
457 TArrayI idxarr(n);
458
459 // Sort the sizes descending
460 TMath::Sort(n, size.GetArray(), idxarr.GetArray(), kTRUE);
461
462 // Replace island numbers by size indices -- After this
463 // islands indices are sorted by the island size
464 for (UInt_t idx=0; idx<numpix; idx++)
465 {
466 MSignalPix &pix = (*this)[idx];
467 if (!pix.IsPixelUsed())
468 continue;
469
470 const Short_t i = pix.GetIdxIsland();
471
472 // Find new index
473 Short_t j;
474 for (j=0; j<n; j++)
475 if (idxarr[j]==i)
476 break;
477
478 pix.SetIdxIsland(j==n ? -1 : j);
479 }
480
481 // Now assign number of islands found
482 fNumIslands = n;
483 fSizeSubIslands = n>0 ? totsize-size[idxarr[0]] : 0;
484 fSizeMainIsland = n>0 ? size[idxarr[0]] : 0;
485
486 // return number of island
487 return fNumIslands;
488}
489
490// --------------------------------------------------------------------------
491//
492// Compares the cleaning (fRing and fIsCore) of this object and the
493// argument. Return the result (kFALSE if different).
494//
495// If differences are found the pixels (the pixel from this object first)
496// is printed.
497//
498Bool_t MSignalCam::CompareCleaning(const MSignalCam &cam) const
499{
500 const UInt_t n = GetNumPixels();
501
502 if (n != cam.GetNumPixels())
503 {
504 *fLog << warn << "MSignalCam::CompareCleaning - Number of pixels mismatch." << endl;
505 return kFALSE;
506 }
507
508 for (UInt_t i=0; i<n; i++)
509 {
510 const MSignalPix &p = (*this)[i];
511 const MSignalPix &q = cam[i];
512
513 if (p.GetRing()==q.GetRing() && p.IsPixelCore()==q.IsPixelCore())
514 continue;
515
516 *fLog << warn << "MSignalCam::CompareCleaning - Pixel #" << i << " mismatch." << endl;
517 p.Print();
518 q.Print();
519 return kFALSE;
520 }
521 return kTRUE;
522}
523
524// --------------------------------------------------------------------------
525//
526// Compares the islands (fIdxIsland) of this object and the
527// argument. Return the result (kFALSE if different).
528//
529// If differences are found the pixels (the pixel from this object first)
530// is printed.
531//
532Bool_t MSignalCam::CompareIslands(const MSignalCam &cam) const
533{
534 const UInt_t n = GetNumPixels();
535
536 if (n != cam.GetNumPixels())
537 {
538 *fLog << warn << "MSignalCam::CompareIslands - Number of pixels mismatch." << endl;
539 return kFALSE;
540 }
541
542 for (UInt_t i=0; i<n; i++)
543 {
544 const MSignalPix &p = (*this)[i];
545 const MSignalPix &q = cam[i];
546
547 if (p.GetIdxIsland()==q.GetIdxIsland())
548 continue;
549
550 *fLog << warn << "MSignalCam::CompareIslands - Pixel #" << i << " mismatch." << endl;
551 p.Print();
552 q.Print();
553 return kFALSE;
554 }
555
556 return kTRUE;
557}
558
559// --------------------------------------------------------------------------
560//
561// Returns, depending on the type flag:
562//
563// 0: Number of Photons*PixRatio <default>
564// 1: Error*sqrt(PixRatio)
565// 2: Cleaning level = Num Photons*sqrt(PixRatio)/Error
566// 3: Number of Photons
567// 4: Error
568// 5: Island index
569// 6: arrival time of mapped pixels
570// 7: arrival time if signa avove 20phe
571// 8: arrival time
572// 10: arrival time if extracted from lo-gain
573// 11: arrival time if extracted from hi-gain (and signal above 20phe)
574//
575Bool_t MSignalCam::GetPixelContent(Double_t &val, Int_t idx, const MGeomCam &cam, Int_t type) const
576{
577 if (idx<0 || (UInt_t)idx>GetNumPixels())
578 return kFALSE;
579
580 const MSignalPix &pix = (*this)[idx];
581
582 // Used inlcudes status unampped
583 if (!pix.IsPixelUsed() && (type<6 || type==8))
584 return kFALSE;
585
586 const Double_t ratio = cam.GetPixRatio(idx);
587
588 switch (type)
589 {
590 case 1: // scaled error of phtoons
591 val = pix.GetErrorPhot()*TMath::Sqrt(ratio);
592 return kTRUE;
593
594 case 2: // significance of number of photons
595 if (pix.GetErrorPhot()<=0)
596 return kFALSE;
597 val = pix.GetNumPhotons()*TMath::Sqrt(ratio)/pix.GetErrorPhot();
598 return kTRUE;
599
600 case 3: // number of photo electrons
601 val = pix.GetNumPhotons();
602 break;
603
604 case 4: // error of signal
605 val = pix.GetErrorPhot();
606 break;
607
608 case 5: // index of island
609 val = pix.GetIdxIsland();
610 break;
611
612 case 6: // arrival time of mapped pixels only
613 if (pix.IsPixelUnmapped())
614 return kFALSE;
615 val = pix.GetArrivalTime();
616 break;
617
618 case 7: // pulse position above 50phe
619 // The number of photons is not scaled with the ratio because
620 // otherwise to many large pixels survive (maybe because the
621 // fluctuations scale different than expected)
622 if (pix.IsPixelUnmapped() || pix.GetNumPhotons()<50)
623 return kFALSE;
624 val = pix.GetArrivalTime();
625 break;
626
627 case 8: // arrival time
628 val = pix.GetArrivalTime();
629 break;
630
631 /*
632 case 10: // lo gain time
633 if (pix.IsPixelUnmapped() || !pix.IsLoGainUsed() ||
634 pix.GetNumPhotons()<320)
635 return kFALSE;
636 val = pix.GetArrivalTime();
637 return kTRUE;
638
639 case 11: // hi gain time
640 // The number of photons is not scaled with the ratio because
641 // otherwise to many large pixels survive (maybe because the
642 // fluctuations scale different than expected)
643 if (pix.IsPixelUnmapped() || pix.IsLoGainUsed() ||
644 pix.GetNumPhotons()<50)
645 return kFALSE;
646 val = pix.GetArrivalTime();
647 return kTRUE;
648 */
649
650 default:
651 val = pix.GetNumPhotons()*ratio;
652 return kTRUE;
653 }
654 return kTRUE;
655}
656
657void MSignalCam::DrawPixelContent(Int_t num) const
658{
659 *fLog << warn << "MSignalCam::DrawPixelContent - not available." << endl;
660}
661
662TObject *MSignalCamIter::Next()
663{
664 if (!fUsedOnly)
665 {
666 fIdx++;
667 return TObjArrayIter::Next();
668 }
669
670 MSignalPix *pix;
671 while ((pix = (MSignalPix*)TObjArrayIter::Next()))
672 {
673 fIdx++;
674 if (pix->IsPixelUsed())
675 return pix;
676 }
677 return pix;
678}
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