source: trunk/Mars/msim/MPhotonEvent.cc@ 9853

Last change on this file since 9853 was 9616, checked in by rohlfs, 14 years ago
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1/* ======================================================================== *\
2!
3! *
4! * This file is part of CheObs, the Modular 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 appears 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! Author(s): Qi Zhe, 06/2007 <mailto:qizhe@astro.uni-wuerzburg.de>
20!
21! Copyright: CheObs Software Development, 2000-2009
22!
23!
24\* ======================================================================== */
25
26/////////////////////////////////////////////////////////////////////////////
27//
28// MPhotonEvent
29//
30// Storage container to store photon collections
31//
32// The class is designed to be extremely fast which is important taking into
33// account the extremely high number of photons. This has some impacts on
34// its handling.
35//
36// The list has to be kept consistent, i.e. without holes.
37//
38// There are two ways to achieve this:
39//
40// a) Use RemoveAt to remove an entry somewhere
41// b) Compress() the TClonesArray afterwards
42//
43// Compress is not the fastes, so there is an easier way.
44//
45// a) When you loop over the list and want to remove an entry copy all
46// following entry backward in the list, so that the hole will
47// be created at its end.
48// b) Call Shrink(n) with n the number of valid entries in your list.
49//
50// To loop over the TClonesArray you can use a TIter which has some
51// unnecessary overhead and therefore is slower than necessary.
52//
53// Since the list is kept consistent you can use a simple loop saving
54// a lot of CPU time taking into account the high number of calls to
55// TObjArrayIter::Next which you would create.
56//
57// Here is an example (how to remove every second entry)
58//
59// ---------------------------------------------------------------------
60//
61// Int_t cnt = 0;
62//
63// const Int_t num = event->GetNumPhotons();
64// for (Int_t idx=0; idx<num; idx++)
65// {
66// if (idx%2==0)
67// continue;
68//
69// MPhotonData *dat = (*event)[idx];
70//
71// (*event)[cnt++] = *dat;
72// }
73//
74// event->Shrink(cnt);
75//
76// ---------------------------------- or -------------------------------
77//
78// TClonesArray &arr = MPhotonEvent->GetArray();
79//
80// Int_t cnt = 0;
81//
82// const Int_t num = arr.GetEntriesFast();
83// for (Int_t idx=0; idx<num; idx++)
84// {
85// if (idx%2==0)
86// continue;
87//
88// MPhotonData *dat = static_cast<MPhotonData*>(arr.UncheckedAt(idx));
89//
90// *static_cast<MPhotonData*>(arr.UncheckedAt(cnt++)) = *dat;
91// }
92//
93// MPhotonEvent->Shrink(cnt);
94//
95// ---------------------------------------------------------------------
96//
97// The flag for a sorted array is for speed reasons not in all conditions
98// maintained automatically. Especially Add() doesn't reset it.
99//
100// So be sure that if you want to sort your array it is really sorted.
101//
102//
103// Version 1:
104// ----------
105// - First implementation
106//
107/////////////////////////////////////////////////////////////////////////////
108#include "MPhotonEvent.h"
109
110#include <fstream>
111#include <iostream>
112
113#include <TMarker.h>
114
115#include <MMath.h>
116
117#include "MArrayF.h"
118
119#include "MLog.h"
120#include "MLogManip.h"
121
122#include "MPhotonData.h"
123#include "MCorsikaFormat.h"
124
125ClassImp(MPhotonEvent);
126
127using namespace std;
128
129// ==========================================================================
130
131class MyClonesArray : public TClonesArray
132{
133public:
134 TObject **FirstRef() { return fCont; }
135
136 // --------------------------------------------------------------------------
137 //
138 // This is an extremly optimized version of ExpandCreateFast. It only resets
139 // the marker for the last element (fLast) to n-1 and doen't change anything
140 // else. This implicitly assumes that the stored objects don't allocate
141 // memory. It does not necessarily mean that the slots after fLast
142 // are empty (set to 0). This is what is assumed in the TClonesArray.
143 // We also don't call Changed() because it would reset Sorted. If the
144 // array was sorted before it is also sorted now. You MUST make sure
145 // that you only set n in a range for which valid entries have been
146 // created before (e.g. by ExpandCreateFast).
147 //
148 void FastShrink(Int_t n)
149 {
150 fLast = n - 1;
151 }
152
153 // --------------------------------------------------------------------------
154 //
155 // This is a optimized (faster) version of Delete which deletes consequtive
156 // entries from index idx1 to idx2 (both included) and calls their
157 // destructor. Note that there is no range checking done!
158 //
159 void FastRemove(Int_t idx1, Int_t idx2)
160 {
161 // Remove object at index idx.
162
163 //if (!BoundsOk("RemoveAt", idx1)) return 0;
164 //if (!BoundsOk("RemoveAt", idx2)) return 0;
165
166 Long_t dtoronly = TObject::GetDtorOnly();
167
168 idx1 -= fLowerBound;
169 idx2 -= fLowerBound;
170
171 for (TObject **obj=fCont+idx1; obj<=fCont+idx2; obj++)
172 {
173 if (!*obj)
174 continue;
175
176 if ((*obj)->TestBit(kNotDeleted)) {
177 // Tell custom operator delete() not to delete space when
178 // object fCont[i] is deleted. Only destructors are called
179 // for this object.
180 TObject::SetDtorOnly(*obj);
181 delete *obj;
182 }
183
184 *obj = 0;
185 // recalculate array size
186 }
187 TObject::SetDtorOnly((void*)dtoronly);
188
189 if (idx1<=fLast && fLast<=idx2)
190 {
191 do {
192 fLast--;
193 } while (fLast >= 0 && fCont[fLast] == 0);
194 }
195
196 Changed();
197 }
198
199
200 //void SetSorted() { fSorted = kTRUE; }
201
202 // --------------------------------------------------------------------------
203 //
204 // This is an optimized version of Sort which doesn't check the
205 // IsSortable flag before. It only sorts the entries from 0
206 // to GetEntriesFast().
207 //
208 void UncheckedSort()
209 {
210 if (fSorted)
211 return;
212
213 const Int_t nentries = GetEntriesFast();
214 if (nentries <= 0)
215 return;
216
217 QSort(GetObjectRef(First()), fKeep->GetObjectRef(fKeep->First()),
218 0, TMath::Min(nentries, kMaxInt-fLowerBound));
219
220 fSorted = kTRUE;
221 }
222};
223
224// ==========================================================================
225
226// --------------------------------------------------------------------------
227//
228// Default constructor. It initializes all arrays with zero size.
229//
230MPhotonEvent::MPhotonEvent(const char *name, const char *title)
231 : fData("MPhotonData", 1)
232{
233 fName = name ? name : "MPhotonEvent";
234 fTitle = title ? title : "Corsika Event Data Information";
235
236 fData.SetBit(TClonesArray::kForgetBits);
237 fData.BypassStreamer(kFALSE);
238}
239
240// --------------------------------------------------------------------------
241//
242// This is an extremly optimized version of ExpandCreateFast. It only resets
243// the marker for the last element (fLast) to n-1 and doen't change anything
244// else. This has the advantage that the allocated memory is kept but only
245// valid entries are written to a file.
246//
247// If the array was sorted before it is also sorted now. You MUST make sure
248// that you only set n in a range for which valid entries have been
249// created before (e.g. by ExpandCreateFast).
250//
251Int_t MPhotonEvent::Shrink(Int_t n)
252{
253 /*
254 // The number of object written by the streamer is defined by
255 // GetEntriesFast(), i.e. this number must be shrinked to
256 // the real array size. We use RemoveAt instead of ExpandCreate
257 // because RemoveAt doesn't free memory. Thus in the next
258 // iteration it can be reused and doesn't need to be reallocated.
259 // Do not change this. It is optimized for execution speed
260 // for (int i=fData.GetSize()-1; i>=n; i--)
261 // fData.RemoveAt(i);
262 const Bool_t sorted = fData.IsSorted();
263
264 MyClonesArray &loc = static_cast<MyClonesArray&>(fData);
265
266 loc.FastRemove(n, fData.GetSize()-1);
267
268 // If it was sorted before it is also sorted now.
269 if (sorted)
270 loc.SetSorted();
271 */
272
273 // fData.ExpandCreateFast(n); // Just set fLast = n -1
274
275 // Just set fLast = n -1
276 static_cast<MyClonesArray&>(fData).FastShrink(n);
277 return fData.GetEntriesFast();
278}
279
280// --------------------------------------------------------------------------
281//
282// The resized the array. If it has to be increased in size it is done
283// with ExpandCreateFast. If it should be shrinked it is done with
284// ExpandCreateFast if n>fData.GetSize()/100 or n==0. This keeps the allocated
285// memory and just sets the marker for the last element in the array (fLast).
286//
287// If the allocated memory grew to huge we reset the allocated memory
288// by calling ExpandCreate(n) (frees the allocated storage for the
289// objects) and Expand(n) (frees the allocated memory for the list
290// of pointers to the objects)
291//
292// 100 hundred is an arbitrary number taking into account that todays
293// computers have a lot of memory and we don't want to free and allocate
294// new memory too often.
295//
296// In priciple there might be more clever methods to handle the memory.
297//
298void MPhotonEvent::Resize(Int_t n)
299{
300 if (n==0 || n*100>fData.GetSize())
301 fData.ExpandCreateFast(n); // Just set fLast = n -1
302 else
303 {
304 fData.ExpandCreate(n); // Free memory of allocated MPhotonData
305 fData.Expand(n); // Free memory of allocated pointers
306 }
307}
308
309// --------------------------------------------------------------------------
310//
311// If n is smaller than the current allocated array size a reference to
312// the n-th entry is returned, otherwise an entry at n is created
313// calling the default constructor. Note, that there is no range check
314// but it is not recommended to call this function with
315// n>fData.GetSize()
316//
317MPhotonData &MPhotonEvent::Add(Int_t n)
318{
319 // Do not modify this. It is optimized for execution
320 // speed and flexibility!
321 TObject *o = 0;
322 if (n<fData.GetSize() && fData.UncheckedAt(n))
323 {
324 o=fData.UncheckedAt(n);
325 static_cast<MyClonesArray&>(fData).FastShrink(n+1);
326 }
327 else
328 {
329 o=fData.New(n);
330 }
331 return static_cast<MPhotonData&>(*o);
332}
333
334// --------------------------------------------------------------------------
335//
336// Add a new photon (MPhtonData) at the end of the array.
337// In this case the default constructor of MPhotonData is called.
338//
339// A reference to the new object is returned.
340//
341MPhotonData &MPhotonEvent::Add()
342{
343 return Add(GetNumPhotons());
344}
345
346void MPhotonEvent::Sort(Bool_t force)
347{
348 if (force)
349 fData.UnSort();
350
351 static_cast<MyClonesArray&>(fData).UncheckedSort(); /*Sort(GetEntriesFast())*/
352}
353
354// --------------------------------------------------------------------------
355//
356// Get the i-th photon from the array. Not, for speed reasons there is no
357// range check so you are responsible that you do not excess the number
358// of photons (GetNumPhotons)
359//
360MPhotonData &MPhotonEvent::operator[](UInt_t idx)
361{
362 return *static_cast<MPhotonData*>(fData.UncheckedAt(idx));
363}
364
365// --------------------------------------------------------------------------
366//
367// Get the i-th photon from the array. Not, for speed reasons there is no
368// range check so you are responsible that you do not excess the number
369// of photons (GetNumPhotons)
370//
371const MPhotonData &MPhotonEvent::operator[](UInt_t idx) const
372{
373 return *static_cast<MPhotonData*>(fData.UncheckedAt(idx));
374}
375
376// --------------------------------------------------------------------------
377//
378// Return a pointer to the first photon if available.
379//
380MPhotonData *MPhotonEvent::GetFirst() const
381{
382 return fData.GetEntriesFast()==0 ? 0 : static_cast<MPhotonData*>(fData.First());
383}
384
385// --------------------------------------------------------------------------
386//
387// Return a pointer to the last photon if available.
388//
389MPhotonData *MPhotonEvent::GetLast() const
390{
391 return fData.GetEntriesFast()==0 ? 0 : static_cast<MPhotonData*>(fData.Last());
392}
393
394// --------------------------------------------------------------------------
395//
396// Return the number of "external" photons, i.e. which are not NightSky
397//
398Int_t MPhotonEvent::GetNumExternal() const
399{
400 Int_t n=0;
401
402 for (int i=0; i<GetNumPhotons(); i++)
403 if ((*this)[i].GetPrimary()!=MMcEvtBasic::kNightSky)
404 n++;
405
406 return n;
407}
408
409// --------------------------------------------------------------------------
410//
411// Return time of first photon, 0 if none in array.
412// Note: If you want this to be the earliest make sure that the array
413// is properly sorted.
414//
415Float_t MPhotonEvent::GetTimeFirst() const
416{
417 const MPhotonData *dat=GetFirst();
418 return dat ? dat->GetTime() : 0;
419}
420
421// --------------------------------------------------------------------------
422//
423// Return time of first photon, 0 if none in array.
424// Note: If you want this to be the latest make sure that the array
425// is properly sorted.
426//
427Float_t MPhotonEvent::GetTimeLast() const
428{
429 const MPhotonData *dat=GetLast();
430 return dat ? dat->GetTime() : 0;
431}
432
433// --------------------------------------------------------------------------
434//
435// Return the median devian from the median of all arrival times.
436// The median deviation is calculated using MMath::MedianDev.
437// It is the half width in which one sigma (~68%) of all times are
438// contained around the median.
439//
440Double_t MPhotonEvent::GetTimeMedianDev() const
441{
442 const UInt_t n = GetNumPhotons();
443
444 MArrayF arr(n);
445 for (UInt_t i=0; i<n; i++)
446 arr[i] = operator[](i).GetTime();
447
448 return MMath::MedianDev(n, arr.GetArray()/*, Double_t &med*/);
449}
450
451// --------------------------------------------------------------------------
452//
453// Read the Event section from the file
454//
455Int_t MPhotonEvent::ReadCorsikaEvt(MCorsikaFormat * fInFormat)
456{
457 Int_t n = 0;
458
459 // --- old I/O ---
460 // Read only + Reflector (no absorption)
461 // Muons: 1.06GB/115s = 9.2MB/s (100kEvs)
462 // Gammas: 1.57GB/275s = 5.7MB/s ( 1kEvs)
463
464 // Read only:
465 // Gammas: 1.57GB/158s = 9.9MB/s ( 1kEvs)
466 // Muons: 1.06GB/ 77s = 13.8MB/s (100kEvs)
467
468 // --- new I/O ---
469 // Read only (don't allocate storage space):
470 // Gammas: 1.57GB/143s = 11.0MB/s ( 1kEvs)
471 // Muons: 1.06GB/ 77s = 13.8MB/s (100kEvs)
472
473 // Read only in blocks (with storage allocation):
474 // Gammas: 1.57GB/28s = 56MB/s ( 1kEvs)
475 // Muons: 1.06GB/5.2s = 204MB/s (100kEvs)
476
477 // Read only in blocks (without storage allocation):
478 // similar to just copy
479
480 // Copy with cp
481 // 1.57GB/ 5s CPU
482 // 1.57GB/28s REAL
483 // 1.06GB/ 3s CPU
484 // 1.06GB/22s REAL
485 Bool_t readError = kFALSE;
486 Float_t * buffer;
487
488 if ( fInFormat->IsEventioFormat() )
489 {
490 while (fInFormat->GetNextEvent(&buffer, readError))
491 {
492
493 const Int_t rc = Add(n).FillEventIO(buffer);
494 switch (rc)
495 {
496 case kCONTINUE: continue; // No data in this bunch... skip it.
497 case kERROR: return kERROR; // Error occured
498 //case kFALSE: return kFALSE; // End of stream
499 }
500
501 // This is a photon we would like to keep later.
502 // Increase the counter by one
503 n++;
504 }
505 }
506 else
507 {
508 while (fInFormat->GetNextEvent(&buffer, readError))
509 {
510
511 const Int_t rc = Add(n).FillCorsika(buffer);
512 switch (rc)
513 {
514 case kCONTINUE: continue; // No data in this bunch... skip it.
515 case kERROR: return kERROR; // Error occured
516 //case kFALSE: return kFALSE; // End of stream
517 }
518
519 // This is a photon we would like to keep later.
520 // Increase the counter by one
521 n++;
522 }
523 }
524 if (readError) return kFALSE;
525
526/*
527
528 while (1)
529 {
530 Float_t buffer[273];
531 Float_t * ptr = buffer;
532
533
534 if (!fInFormat->ReadData(273, buffer))
535 return kFALSE;
536
537 if (!memcmp(ptr, "EVTE", 4))
538 {
539
540 fInFormat->UnreadLastData();
541 break;
542 }
543
544 Float_t *end = ptr + 273;
545
546 // Loop over all sub-blocks (photons) in the block and if
547 // they contain valid data add them to the array
548 while (ptr<end)
549 {
550 // Get/Add the n-th entry from the array and
551 // fill it with the current 7 floats
552 const Int_t rc = Add(n).FillCorsika(ptr);
553 ptr += 7;
554
555 switch (rc)
556 {
557 case kCONTINUE: continue; // No data in this bunch... skip it.
558 case kERROR: return kERROR; // Error occured
559 //case kFALSE: return kFALSE; // End of stream
560 }
561
562 // This is a photon we would like to keep later.
563 // Increase the counter by one
564 n++;
565 }
566 }
567
568*/
569 Resize(n);
570 fData.UnSort();
571
572 SetReadyToSave();
573
574 //*fLog << all << "Number of photon bunches: " << fData.GetEntriesFast() << endl;
575 return kTRUE;
576
577}
578
579Int_t MPhotonEvent::ReadCorsikaEvt(istream &fin)
580{
581 Int_t n = 0;
582
583 // --- old I/O ---
584 // Read only + Reflector (no absorption)
585 // Muons: 1.06GB/115s = 9.2MB/s (100kEvs)
586 // Gammas: 1.57GB/275s = 5.7MB/s ( 1kEvs)
587
588 // Read only:
589 // Gammas: 1.57GB/158s = 9.9MB/s ( 1kEvs)
590 // Muons: 1.06GB/ 77s = 13.8MB/s (100kEvs)
591
592 // --- new I/O ---
593 // Read only (don't allocate storage space):
594 // Gammas: 1.57GB/143s = 11.0MB/s ( 1kEvs)
595 // Muons: 1.06GB/ 77s = 13.8MB/s (100kEvs)
596
597 // Read only in blocks (with storage allocation):
598 // Gammas: 1.57GB/28s = 56MB/s ( 1kEvs)
599 // Muons: 1.06GB/5.2s = 204MB/s (100kEvs)
600
601 // Read only in blocks (without storage allocation):
602 // similar to just copy
603
604 // Copy with cp
605 // 1.57GB/ 5s CPU
606 // 1.57GB/28s REAL
607 // 1.06GB/ 3s CPU
608 // 1.06GB/22s REAL
609
610 while (1)
611 {
612 // Stprage for one block
613 char c[273*4];
614
615 // Read the first four byte to check whether the next block
616 // doen't belong to the event anymore
617 fin.read(c, 4);
618 if (!fin)
619 return kFALSE;
620
621 // Check if the event is finished
622 if (!memcmp(c, "EVTE", 4))
623 break;
624
625 // Now read the rest of the data
626 fin.read(c+4, 272*4);
627
628 Float_t *ptr = reinterpret_cast<Float_t*>(c);
629 Float_t *end = ptr + 273;
630
631 // Loop over all sub-blocks (photons) in the block and if
632 // they contain valid data add them to the array
633 while (ptr<end)
634 {
635 // Get/Add the n-th entry from the array and
636 // fill it with the current 7 floats
637 const Int_t rc = Add(n).FillCorsika(ptr);
638 ptr += 7;
639
640 switch (rc)
641 {
642 case kCONTINUE: continue; // No data in this bunch... skip it.
643 case kERROR: return kERROR; // Error occured
644 //case kFALSE: return kFALSE; // End of stream
645 }
646
647 // This is a photon we would like to keep later.
648 // Increase the counter by one
649 n++;
650 }
651 }
652/*
653 while (1)
654 {
655 // Check the first four bytes
656 char c[4];
657 fin.read(c, 4);
658
659 // End of stream
660 if (!fin)
661 return kFALSE;
662
663 // Check if we found the end of the event
664 if (!memcmp(c, "EVTE", 4))
665 break;
666
667 // The first for byte contained data already --> go back
668 fin.seekg(-4, ios::cur);
669
670 // Do not modify this. It is optimized for execution
671 // speed and flexibility!
672 MPhotonData &ph = Add(n);
673 // It checks how many entries the lookup table has. If it has enough
674 // entries and the entry was already allocated, we can re-use it,
675 // otherwise we have to allocate it.
676
677 // Now we read a single cherenkov bunch. Note that for speed reason we have not
678 // called the constructor if the event was already constructed (virtual table
679 // set), consequently we must make sure that ReadCorsikaEvent does reset
680 // all data mebers no matter whether they are read or not.
681 const Int_t rc = ph.ReadCorsikaEvt(fin);
682
683 // Evaluate result from reading event
684 switch (rc)
685 {
686 case kCONTINUE: continue; // No data in this bunch... skip it.
687 case kFALSE: return kFALSE; // End of stream
688 case kERROR: return kERROR; // Error occured
689 }
690
691 // FIXME: If fNumPhotons!=1 add the photon more than once
692
693 // Now increase the number of entries which are kept,
694 // i.e. keep this photon(s)
695 n++;
696 }
697 */
698
699 Resize(n);
700 fData.UnSort();
701
702 SetReadyToSave();
703
704 //*fLog << all << "Number of photon bunches: " << fData.GetEntriesFast() << endl;
705 return kTRUE;
706}
707
708// --------------------------------------------------------------------------
709//
710Int_t MPhotonEvent::ReadRflEvt(std::istream &fin)
711{
712 Int_t n = 0;
713
714 while (1)
715 {
716 // Check the first four bytes
717 char c[13];
718 fin.read(c, 13);
719
720 // End of stream
721 if (!fin)
722 return kFALSE;
723
724 // Check if we found the end of the event
725 if (!memcmp(c, "\nEND---EVENT\n", 13))
726 break;
727
728 // The first for byte contained data already --> go back
729 fin.seekg(-13, ios::cur);
730
731 // Do not modify this. It is optimized for execution
732 // speed and flexibility!
733 //TObject *o = n<fData.GetSize() && fData.UncheckedAt(n) ? fData.UncheckedAt(n) : fData.New(n);
734
735 // Now we read a single cherenkov bunch
736 //const Int_t rc = static_cast<MPhotonData*>(o)->ReadRflEvt(fin);
737 const Int_t rc = Add(n).ReadRflEvt(fin);
738
739 // Evaluate result from reading event
740 switch (rc)
741 {
742 case kCONTINUE: continue; // No data in this bunch... skip it.
743 case kFALSE: return kFALSE; // End of stream
744 case kERROR: return kERROR; // Error occured
745 }
746
747 // Now increase the number of entries which are kept,
748 // i.e. keep this photon(s)
749 n++;
750 }
751
752 Shrink(n);
753
754 SetReadyToSave();
755
756 //*fLog << all << "Number of photon bunches: " << fData.GetEntriesFast() << endl;
757 return kTRUE;
758}
759
760// --------------------------------------------------------------------------
761//
762// Print the array
763//
764void MPhotonEvent::Print(Option_t *) const
765{
766 fData.Print();
767}
768
769// ------------------------------------------------------------------------
770//
771// You can call Draw() to add the photons to the current pad.
772// The photons are painted each tim ethe pad is updated.
773// Make sure that you use the right (world) coordinate system,
774// like created, eg. by the MHCamera histogram.
775//
776void MPhotonEvent::Paint(Option_t *)
777{
778 MPhotonData *ph=NULL;
779
780 TMarker m;
781 m.SetMarkerStyle(kFullDotMedium); // Gtypes.h
782
783 TIter Next(&fData);
784 while ((ph=(MPhotonData*)Next()))
785 {
786 m.SetX(ph->GetPosY()*10); // north
787 m.SetY(ph->GetPosX()*10); // east
788 m.Paint();
789 }
790}
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