source: trunk/MagicSoft/Cosy/main/MCosy.cc@ 7633

Last change on this file since 7633 was 7614, checked in by tbretz, 19 years ago
*** empty log message ***
File size: 39.8 KB
Line 
1#include "MCosy.h"
2
3#include <iomanip.h>
4#include <fstream.h>
5#include <iostream.h>
6
7#include <TROOT.h>
8#include <TEnv.h>
9#include <TSystem.h>
10#include <TApplication.h>
11#include <TTimer.h>
12
13#include <TH2.h>
14#include <TH3.h>
15#include <TProfile.h>
16#include <TCanvas.h>
17
18#include "MGCosy.h"
19#include "MTime.h"
20#include "MDriveCom.h"
21#include "MStarguider.h"
22#include "SlaStars.h"
23#include "MPointing.h"
24#include "MTracking.h"
25
26#include "slalib/slalib.h" // FIXME: REMOVE
27
28#include "macs.h"
29#include "shaftencoder.h"
30
31ClassImp(MCosy);
32
33typedef struct tm tm_t;
34
35/* +===================================+
36 FIXME: What if fMac3 (Sync) died?
37 +===================================+
38*/
39
40//#define EXPERT
41#undef EXPERT
42
43/*
44ZdAz MCosy::CorrectTarget(const ZdAz &src, const ZdAz &dst)
45{
46 // CorrectTarget [se]
47
48 // src [se]
49 // dst [rad]
50
51 // fAltMax = 70
52 // fAltMin = -105/110
53 // fAzMin = -355
54 // fAzMax = 355
55
56 ZdAz source = src * 360.0/16384.0;
57 ZdAz dest = dst * kRad2Deg;
58
59 if (dest.Zd()>-3 && dest.Zd()<3)
60 dest.Zd(dest.Zd()<0?-3:3);
61
62 if (dest.Zd()>-1e-6 && dest.Zd()<1e-6)
63 return dst*(16384.0/k2Pi);
64
65 const float fZdMin = -67;
66 const float fZdMax = 67;
67 const float fAzMin = -29;
68 const float fAzMax = 423;
69
70 //
71 // This corrects to target for the shortest distance, not for the fastest move!
72 //
73 ZdAz s = source-dest;
74
75 float min = s.Sqr();
76
77 //
78 // Is it enought to search inside one revolution?
79 //
80 ZdAz ret = dest;
81
82 for (int i=-5; i<5+1; i++)
83 {
84 const ZdAz p(i%2 ? -dest.Zd() : dest.Zd(), dest.Az() - i*180);
85
86 //
87 // Range Check
88 //
89 if (p.Zd()<fZdMin || p.Zd()>fZdMax)
90 continue;
91
92 if (p.Az()<fAzMin || p.Az()>fAzMax)
93 continue;
94
95 //
96 // Calculate distance
97 //
98 s = source-p;
99
100 const float dist = s.Sqr();
101
102 if (dist > min)
103 continue;
104
105 //
106 // New shortest distance
107 //
108 ret = p;
109 min = dist;
110 }
111 return ret*(16384.0/360.0);
112}
113*/
114
115// --------------------------------------------------------------------------
116//
117// GetSePos, reads the Shaftencoder positions from the Can-drivers
118// for the shaftencoders. The two shaft encoders at the elevation axis
119// are avaraged. The values are returned as a ZdAz object.
120//
121// If one of the two shaftencoders on the elevation axis is missing
122// the other one's position is returned.
123//
124// The positions are alway up-to-date because the shaftencoders are
125// sending all changes immediatly.
126//
127ZdAz MCosy::GetSePos() const
128{
129 const int pa = fAz->GetPos();
130 if (fZd1->IsZombieNode() && fZd2->IsZombieNode())
131 return ZdAz(0, pa);
132
133 //
134 // Get the values
135 //
136 int p1 = (fZd1->GetPos()+8192)%16384;
137 int p2 = -(fZd2->GetPos()+8192)%16384;
138
139 if (fZd1->IsZombieNode())
140 return ZdAz(p2, pa);
141 if (fZd2->IsZombieNode())
142 return ZdAz(p1, pa);
143
144 //
145 // interpolate shaft encoder positions
146 //
147 float p = (float)(p1+p2)/2;
148
149 return ZdAz(p, pa);
150}
151
152// --------------------------------------------------------------------------
153//
154// reads the Rotary encoder positions from the last request of the Macs.
155//
156// The positions are returned as a ZdAz object. Use RequestRePos to request
157// the current positions first.
158//
159ZdAz MCosy::GetRePos()
160{
161 return ZdAz(fMac2->GetPos(), fMac1->GetPos());
162}
163
164// --------------------------------------------------------------------------
165//
166// reads the Rotary encoder positions from the Macs.
167//
168// The positions are returned as a ZdAz object. The positions are the ones
169// which are send as PDOs to the computer. This is done at a given
170// frequency. Which means, that this positions are not ought to be
171// up-to-date.
172//
173ZdAz MCosy::GetRePosPdo()
174{
175 return ZdAz(fMac2->GetPdoPos(), fMac1->GetPdoPos());
176}
177
178// --------------------------------------------------------------------------
179//
180// check for a break-signal (from the msgqueue) and errors.
181//
182int MCosy::StopWaitingForSDO() const
183{
184 return 0/*Break() || HasError()*/;
185}
186
187// --------------------------------------------------------------------------
188//
189// Waits for a movement to become finished.
190//
191// First waits for all peding Sdos, then waits until both motors are stopped
192// or waiting for SDOs was stopped (either by an error or by Break)
193//
194void MCosy::WaitForEndMovement()
195{
196 // FIXME, what when waiting times out (Zombie)
197 if (!fMac1 || !fMac2)
198 return;
199
200 while ((fMac1->IsPositioning() || fMac2->IsPositioning()) &&
201 !(Break() || HasError() || HasZombie()))
202 usleep(1);
203
204 if (!Break() && !HasError() && !HasZombie())
205 return;
206
207 MTime t(-1);
208 lout << t << " - MCosy::WaitForEndMovement aborted...";
209 if (Break())
210 lout << " Break signal...";
211 if (HasError())
212 lout << " Network has error...";
213 if (HasZombie())
214 lout << " Network has zombie...";
215 lout << endl;
216}
217
218// --------------------------------------------------------------------------
219//
220// Check for an error...
221//
222// This is ment for usage after the Action: All Motors Stop.
223//
224void MCosy::CheckForError()
225{
226 //
227 // Check all Can-Nodes for an Error. If there is no error the motor
228 // status is set to stopped.
229 //
230 if (HasError() || HasZombie())
231 {
232 SetStatus(MDriveCom::kError);
233 return;
234 }
235
236 if (fMac1->IsPositioning() || fMac2->IsPositioning())
237 SetStatus(MDriveCom::kMoving);
238 else
239 SetStatus(MDriveCom::kStopped);
240
241 //
242 // If there is an error, the error status is set to Error.
243 //
244
245 /*
246 FIXME: HANDLINGE ERROR
247
248 //
249 // Now try to handle the error.
250 //
251 fMac1->HandleError();
252 fMac2->HandleError();
253
254 //
255 // If the error couldn't get solved return
256 //
257 if (HasError())
258 return;
259
260 //
261 // Set motor status to stopped
262 //
263 SetStatus(MDriveCom::kStopped);
264 */
265}
266
267Bool_t MCosy::CheckRange(const ZdAz &d) const
268{
269 // d [rad]
270
271 if (d.Zd()<fMin.Zd())
272 {
273 lout << "ERROR: Requested Zenith Angle below negative endswitch." << endl;
274 return kFALSE;
275 }
276
277 if (d.Zd()>fMax.Zd())
278 {
279 lout << "ERROR: Requested Zenith Angle behind positive endswitch." << endl;
280 return kFALSE;
281 }
282
283 if (d.Az()<fMin.Az())
284 {
285 lout << "ERROR: Requested Azimuth Angle below negative endswitch." << endl;
286 return kFALSE;
287 }
288
289 if (d.Az()>fMax.Az())
290 {
291 lout << "ERROR: Requested Azimuth Angle behind positive endswitch." << endl;
292 return kFALSE;
293 }
294
295
296 return kTRUE;
297}
298
299ZdAz MCosy::AlignTrackingPos(ZdAz pointing) const
300{
301 // pointing [rad]
302 // AlignTrackingPos [deg]
303
304 pointing *= kRad2Deg;
305
306 if (pointing.Zd()<0)
307 {
308 pointing.Zd(-pointing.Zd());
309 pointing.Az(pointing.Az()+180);
310 //lout << "ZD=-ZD Az+=180" << endl;
311 }
312
313 const ZdAz se = GetSePos()*TMath::TwoPi()/kResSE; // [rad]
314 const ZdAz unbendedse = fBending.CorrectBack(se)*kRad2Deg; // ist pointing
315
316 //lout << "Unbended: " << unbendedse.Zd() << " " << unbendedse.Az() << endl;
317
318 do
319 {
320 const Double_t d = unbendedse.Az() - pointing.Az();
321 if (d>-180 && d<=180)
322 break;
323
324 //lout << "AZ += " << TMath::Sign(360., d) << endl;
325
326 pointing.Az(pointing.Az()+TMath::Sign(360., d));
327 } while (1);
328
329 return pointing/kRad2Deg;
330/*
331 const Bool_t rc = CheckRange(pointing);
332 za = pointing/kRad2Deg; // [rad]
333
334 if (!rc)
335 lout << "Error: Aligned position out of Range." << endl;
336
337 return rc;*/
338}
339
340Double_t MCosy::Starguider(Double_t mjd, ZdAz &dest) const
341{
342 ifstream fin("pointingpos.txt");
343 if (!fin)
344 return -1;
345
346 Double_t mjd0, zd, az;
347 fin >> mjd0 >> zd >> az;
348
349 mjd0 += 52000;
350
351 if (mjd0+1./24/60 <mjd)
352 return -1;
353
354 ZdAz point=AlignTrackingPos(ZdAz(zd, az)/kRad2Deg);
355 /*
356 if (!AlignTrackingPos(ZdAz(zd, az), point))
357 {
358 cout << "Starguider position couldn't be aligned..." << endl;
359 return -1;
360 }*/
361
362 // FIXME: Check Range missing!
363
364 const ZdAz diff = (dest-point)*kRad2Deg;
365
366 if (diff.Zd()>5 || diff.Az()>5)
367 {
368 cout << "Starguider deviation too large... dZd=" << diff.Zd() <<" dAz="<<diff.Az() << endl;
369 return -1;
370 }
371
372 dest -= point;
373 dest *= -kGearTot/TMath::TwoPi(); // [re]
374
375 cout << "Using Starguider... dZd=" << dest.Zd() << " dAz=" << dest.Az() << endl;
376
377 return (mjd-mjd0) * (24*60*60); // [s]
378}
379
380// --------------------------------------------------------------------------
381//
382// Move the telescope to the given position. The position must be given in
383// a ZdAz object in rad.
384//
385// The first positioning is done absolutely. If we didn't reach the
386// correct psotion we try to correct for this by 10 relative position
387// maneuvers. If this doesn't help positioning failed.
388//
389// As a reference the shaftencoder values are used.
390//
391int MCosy::SetPosition(const ZdAz &dst, Bool_t track) // [rad]
392{
393 MPointing point(this, lout);
394
395//#ifdef EXPERT
396// point.SetAccDec(0.4, 0.4);
397// point.SetVelocity(0.2); // fast: 0.6, slow: 0.2
398//#else
399
400// original settings
401//
402 point.SetPointAccDec(0.2, 0.1);
403 point.SetPointVelocity(0.1);
404
405
406//#endif
407
408// point.SetPointAccDec(0.4, 0.4);
409// point.SetPointVelocity(0.4);
410
411
412// original
413 return point.SetPosition(dst, track);
414
415// test
416// return point.SetPosition(dst, kTRUE);
417
418
419
420}
421
422void MCosy::SetTrackingPosRE(ZdAz za)
423{
424 za /= kGearTot; // [U_tel]
425 za *= TMath::TwoPi(); // [rad]
426 //cout << "RE1: " << za.Zd()*180/3.1415 << " " << za.Az()*180/3.1415 << endl;
427 fTrackingPosRaw = za*TMath::RadToDeg();
428 fTrackingPos = fBending.CorrectBack(za)*TMath::RadToDeg();
429 //cout << "RE2: " << fTrackingPos.Zd() << " " << fTrackingPos.Az() << endl;
430}
431
432void MCosy::TrackPosition(const RaDec &dst) // ra, dec [rad]
433{
434 MTracking track(this, lout);
435 track.SetOut(fOutRep);
436//#ifdef EXPERT
437// track.SetPointAccDec(0.4, 0.4);
438// track.SetPointVelocity(0.2); // fast: 0.6, slow: 0.2
439//#else
440
441
442
443 track.SetPointAccDec(0.2, 0.1);
444 track.SetPointVelocity(0.1);
445
446 // track.SetPointAccDec(0.4, 0.4);
447 // track.SetPointVelocity(0.4);
448
449
450
451//#endif
452 track.SetTrackAccDec(0.1, 0.1);
453
454 track.TrackPosition(dst);
455}
456
457void MCosy::TrackPositionGRB(const RaDec &dst) // ra, dec [rad]
458{
459 MTracking track(this, lout);
460 track.SetOut(fOutRep);
461//#ifdef EXPERT
462// track.SetPointAccDec(0.4, 0.4);
463// track.SetPointVelocity(0.2); // fast: 0.6, slow: 0.2
464//#else
465 track.SetPointAccDec(0.4, 0.4);
466 track.SetPointVelocity(0.3);
467//#endif
468 track.SetTrackAccDec(0.1, 0.1);
469
470 track.TrackPosition(dst);
471}
472
473// --------------------------------------------------------------------------
474//
475// Stops the movement of both motors.
476//
477// Sets the status to stopping. Sets the deceleration to 50% of the maximum.
478// stops. Quits the revolution mode and wait for the end of the movement.
479//
480void MCosy::StopMovement()
481{
482 //
483 // Set status to Stopping
484 //
485 SetStatus(MDriveCom::kStopping);
486
487 //
488 // set deceleration to 50%
489 //
490 cout << "Stopping movement (dec=30%)..." << endl;
491 if (fMac1 && fMac2)
492 {
493#ifdef EXPERT
494 fMac1->SetDeceleration(0.5*fMac1->GetVelRes());
495 fMac2->SetDeceleration(0.5*fMac2->GetVelRes());
496#else
497 fMac1->SetDeceleration(0.3*fMac1->GetVelRes());
498 fMac2->SetDeceleration(0.3*fMac2->GetVelRes());
499#endif
500 fMac1->SetRpmMode(FALSE);
501 fMac2->SetRpmMode(FALSE);
502 }
503
504/*
505 fMac1->SetDeceleration(0.3*fMac1->GetVelRes());
506 fMac2->SetDeceleration(0.3*fMac2->GetVelRes());
507
508 fMac2->SendSDO(0x3000, Macs::string('s','t','o','p'));
509 fMac1->SendSDO(0x3000, Macs::string('s','t','o','p'));
510 fMac2->WaitForSdo(0x3000, 0);
511 fMac1->WaitForSdo(0x3000, 0);
512 fMac1->SetRpmMode(FALSE);
513 fMac2->SetRpmMode(FALSE);
514 */
515
516 //
517 // Wait for the movement to really be finished.
518 //
519#ifdef EXPERT
520 cout << "Waiting for end of movement..." << endl;
521#endif
522 WaitForEndMovement();
523
524 //
525 // Check whether everything works fine.
526 //
527 CheckForError();
528#ifdef EXPERT
529 cout << "Movement stopped." << endl;
530#endif
531}
532
533bool MCosy::CheckNetwork()
534{
535 //return kTRUE;
536 //CheckConnections();
537
538 CheckForError();
539
540 if (HasZombie())
541 {
542 lout << "- Found Zombies in Network..." << endl;
543 if (!RebootZombies())
544 return false;
545 }
546
547 /*
548 FIXME HANDLING ERROR
549 */
550 if (HasError())
551 {
552 fMac1->HandleError();
553 fMac2->HandleError();
554 fMac3->HandleError();
555 if (HasError() || HasZombie())
556 return false;
557 }
558
559 CheckForError();
560 return true;
561}
562
563void *MCosy::Proc(int msg, void *mp)
564{
565 switch (msg)
566 {
567 case WM_WAIT:
568 cout << "Wait for execution of Proc(WM_*, ): done." << endl;
569 return NULL;
570
571 case WM_STOP:
572 //cout << "MCosy::Proc: Stop." << endl;
573 if (!CheckNetwork())
574 return (void*)0xebb0;
575 StopMovement();
576 return NULL;
577/*
578 case WM_PRESET:
579 cout << "WM_Preset: start." << endl;
580 if (!CheckNetwork())
581 return (void*)0xebb0;
582 fZd1->SetPreset();
583 fZd2->SetPreset();
584 fAz->SetPreset();
585 cout << "WM_Preset: done. (return 0xaffe)" << endl;
586 return (void*)0xaffe;
587*/
588 /*
589 case WM_CALIB:
590 {
591 cout << "WM_Calib: start." << endl;
592 if (!CheckNetwork())
593 return (void*)0xebb0;
594
595 SlaStars sla(fObservatory);
596 sla.Now();
597
598 RaDec rd = *((RaDec*)mp);
599
600 //RaDec rd(37.94, 89.2644); // POLARIS
601 //RaDec rd(213.915417, 19.1825); // ARCTURUS
602
603 cout << "Calibrating to: " << rd.Ra()*24/360 << "h " << rd.Dec() << "°" << endl;
604
605 ZdAz za=sla.CalcZdAz(rd*kDeg2Rad)*16384.0/k2Pi;
606
607 cout << "Calc Zd: " << za.Zd() << " Az: " << za.Az() << endl;
608
609 ZdAz sepos = GetSePos();
610 cout << "Got Zd: " << sepos.Zd() << " Az: " << sepos.Az() << endl;
611
612 fZd1->SetPreset(za.Zd());
613 fZd2->SetPreset(-za.Zd());
614 fAz->SetPreset(za.Az());
615
616 cout << "WM_Calib: done. (return 0xaffe)" << endl;
617 }
618 return (void*)0xaffe;
619 */
620 case WM_TPOINT:
621 {
622 //cout << "WM_TPoint: start." << endl;
623 SlaStars sla(fObservatory);
624 sla.Now();
625
626 RaDec rd = *((RaDec*)mp);
627 cout << "TPoint Star: " << rd.Ra()/15 << "h " << rd.Dec() << "°" << endl;
628
629 AltAz za=sla.CalcAltAz(rd*kDeg2Rad)*kRad2Deg;
630
631 if (!fOutTp)
632 {
633 //
634 // open tpoint file
635 //
636 const TString name = GetFileName("tpoint/old-tpoint_%s.txt");
637 cout << "TPoint-Cosy File ********* " << name << " ********** " << endl;
638
639 fOutTp = new ofstream(name);
640 *fOutTp << "Magic Model TPOINT data file" << endl;
641 *fOutTp << ": ALTAZ" << endl;
642 *fOutTp << "49 48 0 ";
643 *fOutTp << sla.GetTime().Year() << " " << sla.GetTime().Month() << " " << sla.GetTime().Day() << " ";
644 *fOutTp << /*"20 1013.25 300 0.5 0.55 0.0065" <<*/ endl;
645 // temp(°C) pressure(mB) height(m) humidity(1) wavelength(microm) troplapserate(K/m)
646 }
647
648 cout << " Alt/Az: " << za.Alt() << "° " << za.Az() << "°" << endl;
649 *fOutTp << setprecision(7) << za.Az() << " " << za.Alt() << " ";
650
651 ZdAz sepos = GetSePos()*TMath::TwoPi()/kResSE;
652 za.Set(TMath::Pi()/2-sepos.Zd(), sepos.Az());
653 za *= kRad2Deg;
654
655 cout << " SE-Pos: " << za.Alt() << "° " << za.Az() << "°" << endl;
656 *fOutTp << fmod(za.Az()+360, 360) << " " << za.Alt() << " ";
657
658 if (fStarguider)
659 {
660 XY tp = fStarguider->GetCoordinates();
661 *fOutTp << 90-tp.X() << " " << tp.Y() << " ";
662 }
663
664 *fOutTp << rd.Ra()/15 << " " << rd.Dec() << " " << setprecision(11) << sla.GetMjd() << endl;
665
666 //cout << "WM_TPoint: done. (return 0xaffe)" << endl;
667 }
668 return (void*)0xca1b;
669
670 case WM_TRACKPOS:
671 //cout << "WM_TrackPosition: start." << endl;
672 {
673 if (!CheckNetwork())
674 return (void*)0xebb0;
675
676 ZdAz dest = *((ZdAz*)mp) * kDeg2Rad;
677 if (!SetPosition(dest))
678 return (void*)0x1234;
679
680 SlaStars sla(fObservatory);
681 sla.Now();
682
683 RaDec rd = sla.CalcRaDec(dest);
684 TrackPosition(rd);
685 }
686 //cout << "WM_TrackPosition: done. (return 0xabcd)" << endl;
687 return (void*)0xabcd;
688
689 case WM_POSITION:
690 //cout << "WM_Position: start." << endl;
691 {
692 if (!CheckNetwork())
693 return (void*)0xebb0;
694
695 ZdAz dest = *((ZdAz*)mp);
696 SetPosition(dest*kDeg2Rad);
697 }
698 //cout << "WM_Position: done. (return 0x7777)" << endl;
699 return (void*)0x7777;
700
701 case WM_POSITION1:
702 //cout << "WM_Position1: start." << endl;
703 {
704 if (!CheckNetwork())
705 return (void*)0xebb0;
706
707 ZdAz dest = *((ZdAz*)mp);
708 SetPosition(dest*kDeg2Rad, kTRUE);
709 }
710 //cout << "WM_Position: done. (return 0x7777)" << endl;
711 return (void*)0x7777;
712
713 case WM_TESTSE:
714 //cout << "WM_TestSe: start." << endl;
715 fBackground = mp ? kBgdSeTest : kBgdNone;
716 //cout << "WM_TestSe: done. (return 0x1e51)" << endl;
717 return (void*)0x1e51;
718
719 case WM_GEAR:
720 //cout << "WM_Gear: start." << endl;
721 fBackground = mp ? kBgdGear : kBgdNone;
722 //cout << "WM_Gear: done. (return 0xfeaf)" << endl;
723 return (void*)0xfeaf;
724
725 case WM_DISPLAY:
726 //cout << "WM_Display: start." << endl;
727 fTriggerDisplay = kTRUE;
728 //cout << "WM_Disply: done. (return 0xd1e1)" << endl;
729 return (void*)0xd1e1;
730
731 case WM_TRACK:
732 //cout << "WM_Track: START" << endl;
733 {
734 RaDec dest = ((RaDec*)mp)[0];
735 if (fStarguider)
736 fStarguider->SetPointingPosition(((RaDec*)mp)[1]);
737 if (!CheckNetwork())
738 return (void*)0xebb0;
739 TrackPosition(dest*kDeg2Rad);
740 }
741 //cout << "WM_Track: done. (return 0x8888)" << endl;
742 return (void*)0x8888;
743
744 case WM_GRB:
745 //cout << "WM_Track: START" << endl;
746 {
747 RaDec dest = ((RaDec*)mp)[0];
748 if (fStarguider)
749 fStarguider->SetPointingPosition(((RaDec*)mp)[1]);
750 if (!CheckNetwork())
751 return (void*)0xebb0;
752 TrackPositionGRB(dest*kDeg2Rad);
753 }
754 //cout << "WM_Track: done. (return 0x8888)" << endl;
755 return (void*)0x8888;
756
757 case WM_NEWTRACK:
758 //cout << "WM_NewTrack: START" << endl;
759 fRaDec = *((RaDec*)mp);
760 //cout << "WM_NewTrack: done. (return 0x9999)" << endl;
761 return (void*)0x9999;
762
763 case WM_LOADBENDING:
764 //cout << "WM_LoadBending: START" << endl;
765 fBending.Load("bending.txt");
766 //cout << "WM_LoadBending: done. (return 0xbe0d)" << endl;
767 return (void*)0xbe0d;
768
769 case WM_RESETBENDING:
770 //cout << "WM_ResetBending: START" << endl;
771 fBending.Reset();
772 //cout << "WM_ResetBending: done. (return 0xbe0e)" << endl;
773 return (void*)0xbe0e;
774
775 case WM_HOME:
776 //cout << "WM_Home: START" << endl;
777 if (!CheckNetwork())
778 return (void*)0xebb0;
779 else
780 {
781 cout << "HOME NOT ALLOWED... for Magic." << endl;
782 /*
783 cout << "Going Home..." << endl;
784 TEnv env(".cosyrc");
785
786 SetStatus(MDriveCom::kMoving);
787
788 fMac1->SetHome(250000, env.GetValue("Az_MaxTime2ReachHome[s]", 100));
789 fMac2->SetHome(250000, env.GetValue("Zd_MaxTime2ReachHome[s]", 100));
790
791 lout << "SETHOME DONE" << endl;
792
793 SetStatus(HasError() ? MDriveCom::kError : MDriveCom::kStopped);
794
795 fAz->SetPreset();
796 fZd1->SetPreset();
797 fZd2->SetPreset();
798
799 fMac1->ReqPos();
800 fMac2->ReqPos();
801 fMac3->StopMotor();
802 */
803 }
804 //cout << "WM_Home: done. (return 0x403e)" << endl;
805 return (void*)0x403e;
806
807 case WM_CALCALTAZ:
808 {
809 cout << endl;
810
811 SlaStars sla(fObservatory);
812 sla.Now();
813
814 XY xy = *((XY*)mp);
815 RaDec rd(xy.X()*15., xy.Y()); // [deg]
816
817 ZdAz a1 = sla.CalcZdAz(rd*kDeg2Rad); // [rad]
818
819 cout << "Ra/Dec source: " << xy.X() << "h " << xy.Y() << "°" << endl;
820 cout << "Zd/Az target: " << a1.Zd()*kRad2Deg << "° " << a1.Az()*kRad2Deg << "°" << endl;
821
822 if (fZd1 && fZd2 && fAz)
823 a1 = AlignTrackingPos(a1);
824
825 a1 = fBending(a1);
826 CheckRange(a1);
827 a1 *= kRad2Deg;
828
829 const ZdAz a2 = a1*kResSE/360;
830
831 cout << "Zd/Az bended: " << a1.Zd() << "° " << a1.Az() << "°" << endl;
832 cout << "SE bended: " << a2.Zd() << " " << a2.Az() << endl;
833 }
834 return (void*)0xa17a;
835
836 case WM_ENDSWITCH:
837 {
838 ZdAz pos = GetSePos()*TMath::TwoPi()/kResSE;
839 pos = fBending.SubtractOffsets(pos)*kRad2Deg;
840
841 cout << "Endswitch Position: Zd=" << pos.Zd() << "° Az=";
842 cout << pos.Az() << "°" << endl;
843 }
844
845 return (void*)0x1010;
846
847 case WM_QUIT:
848 cout << "WM_Quit: now." << endl;
849 if (!CheckNetwork())
850 {
851 lout << "ERROR: Cannot shutdown CANbus network." << endl;
852 return (void*)0xebb0;
853 }
854 TerminateApp();
855 cout << "WM_Quit: done." << endl;
856 return (void*)0xaaaa;
857 }
858 cout << "MCosy::Proc: Unknown message 0x" << msg << endl;
859 return (void*)0xffffffff;
860}
861
862void *MTTalk::Thread()
863{
864 fCosy->TalkThread();
865 return NULL;
866}
867
868void MCosy::ReadConfig()
869{
870 cout << "Reading configuration file..." << flush;
871 TEnv env(".cosyrc");
872 cout << "done." << endl;
873
874 cout << "Reading telescope range..." << flush;
875 const Double_t amin = env.GetValue("Az_Min[deg]", -95.0);
876 const Double_t zmin = env.GetValue("Zd_Min[deg]", -75.0);
877 fMin.Set(zmin, amin);
878
879 const Double_t amax = env.GetValue("Az_Max[deg]", 305.0);
880 const Double_t zmax = env.GetValue("Zd_Max[deg]", 98.25);
881 fMax.Set(zmax, amax);
882 cout << "done." << endl;
883
884 cout << " * Min: " << zmin << "deg " << amin << "deg" << endl;
885 cout << " * Max: " << zmax << "deg " << amax << "deg" << endl;
886
887 fMin = fBending.AddOffsets(fMin/kRad2Deg);
888 fMax = fBending.AddOffsets(fMax/kRad2Deg);
889
890 cout << " * Min': " << fMin.Zd()*kRad2Deg << "deg " << fMin.Az()*kRad2Deg << "deg" << endl;
891 cout << " * Max': " << fMax.Zd()*kRad2Deg << "deg " << fMax.Az()*kRad2Deg << "deg" << endl;
892
893 cout << "Reading gear ratios..." << flush;
894 kGear.X(env.GetValue("Zd_GearRatio[U_mot/U_tel]", 1000.0));
895 kGear.Y(env.GetValue("Az_GearRatio[U_mot/U_tel]", 1000.0));
896
897 kResRE.Y(0);
898 if (fMac1 && !fMac1->IsZombieNode())
899 kResRE.Y(fMac1->GetRes());
900 else
901 if (fMac3 && !fMac3->IsZombieNode())
902 kResRE.Y(fMac3->GetRes());
903 else
904 kResRE.Y(env.GetValue("Az_ResRE[re/U_mot]", 1500));
905
906 kResRE.X(0);
907 if (fMac2 && !fMac2->IsZombieNode())
908 kResRE.X(fMac2->GetRes());
909 else
910 kResRE.X(env.GetValue("Zd_ResRE[re/U_mot]", 1500));
911
912 kResSE.X(0);
913 if (fZd1 && !fZd1->IsZombieNode())
914 kResSE.X(fZd1->GetPhysRes());
915 else
916 if (fZd2 && !fZd2->IsZombieNode())
917 kResSE.X(fZd2->GetPhysRes());
918 else
919 kResSE.X(env.GetValue("Zd_ResSE[se/U_mot]", 16384));
920
921 kResSE.Y(0);
922 if (fAz && !fAz->IsZombieNode())
923 kResSE.Y(fAz->GetPhysRes());
924 else
925 kResSE.Y(env.GetValue("Az_ResSE[se/U_mot]", 16384));
926
927 // believing the Macs manual '*4' shouldn't be necessary, but it is.
928 // Because the a RE is 4 quad counts.
929 // Calculating speeds we have to convert back to qc
930 kResRE *= 4;
931 kGearTot = kResRE*kGear;
932
933 cout << "done." << endl;
934
935 cout << " * Setting Gear Ratios:" << endl;
936 cout << " --------------------" << endl;
937 cout << " * X: " << kGear.X() << "*" << kResRE.X()/4 << "/" << kResSE.X() << "=4*" << kGearTot.X() << "/" << kResSE.X() << endl;
938 cout << " * Y: " << kGear.Y() << "*" << kResRE.Y()/4 << "/" << kResSE.Y() << "=4*" << kGearTot.Y() << "/" << kResSE.Y() << endl;
939}
940/*
941void MCosy::InitSync()
942{
943 if (!fMac3)
944 {
945 lout << "Unable to Init Sync! Mac3 not available." << endl;
946 return;
947 }
948
949 const int res = fMac3->GetVelRes();
950
951 fMac3->SetVelocity(0.3*res);
952 fMac3->SetAcceleration(0.2*res);
953 fMac3->SetDeceleration(0.2*res);
954 fMac3->StartPosSync();
955}
956*/
957void MCosy::TalkThreadSeTest()
958{
959// if (fZd1->IsZombieNode() || fZd2->IsZombieNode())
960 // return;
961
962 if (fHist)
963 {
964 lout << "You are much too fast... try again." << endl;
965 return;
966 }
967
968 fHist = new TH2F("Diff", "Difference of SE values",
969 201, fMin.Zd(), fMax.Zd(), 41, -10.5, 10.5);
970 fHist->SetXTitle("ZA [\\circ]");
971 fHist->SetYTitle("\\Delta SE");
972
973 Double_t offset = 0;
974
975 int cnt = 0;
976
977 lout << "Starting Shaftencoder Test..." << endl;
978
979 while (fBackground==kBgdSeTest)
980 {
981 fZd1->ResetPosHasChanged();
982 fZd2->ResetPosHasChanged();
983
984 while (!fZd1->PosHasChanged() && !fZd2->PosHasChanged() &&
985 fBackground==kBgdSeTest)
986 usleep(1);
987
988 const Double_t pos[3] = {
989 (fZd1->GetPos()+8192)%16384,
990 (fZd2->GetPos()+8192)%16384,
991 fAz->GetPos() };
992
993 //
994 // Estimate Offset from the first ten positions
995 //
996 if (cnt++<10)
997 {
998 offset += pos[0]+pos[1];
999 continue;
1000 }
1001 if (cnt==11)
1002 {
1003 offset /= 10;
1004 cnt++;
1005 }
1006
1007 Double_t apos = (pos[0]-pos[1])/2 * TMath::TwoPi() / kResSE.X();
1008
1009 ZdAz bend = fBending.CorrectBack(ZdAz(apos, pos[2]))*kRad2Deg;
1010 fHist->Fill(bend.Zd(), pos[0]+pos[1]-offset);
1011 }
1012
1013 lout << "Shaftencoder Test Stopped... displaying Histogram." << endl;
1014
1015 fBackground=kBgdSeTestDispl;
1016}
1017
1018void MCosy::TalkThreadGear()
1019{
1020// if (fZd1->IsZombieNode() || fZd2->IsZombieNode())
1021 // return;
1022
1023 if (fHist)
1024 {
1025 lout << "You are much too fast... try again." << endl;
1026 return;
1027 }
1028
1029 fHist = new TH3F("Gear", "Gear Ratio Re/Se",
1030 (int)((fMax.Zd()-fMin.Zd())/2.5+1), fMin.Zd(), fMax.Zd(),
1031 (int)((fMax.Az()-fMin.Az())/2.5+1), fMin.Az(), fMax.Az(),
1032 61, 349.5, 500.5);
1033
1034 fHist->SetXTitle("Zd [\\circ]");
1035 fHist->SetYTitle("Az [\\circ]");
1036 fHist->SetZTitle("Re/Se");
1037
1038 lout << "Starting Gear determination..." << endl;
1039
1040 ZdAz se0 = GetSePos();
1041 ZdAz re0 = GetRePosPdo();
1042
1043 while (fBackground==kBgdGear)
1044 {
1045 fZd1->ResetPosHasChanged();
1046 fZd2->ResetPosHasChanged();
1047 fAz->ResetPosHasChanged();
1048
1049 while (!fZd1->PosHasChanged() && !fZd2->PosHasChanged() &&
1050 !fAz->PosHasChanged() && fBackground==kBgdGear)
1051 usleep(1);
1052
1053 ZdAz se = GetSePos();
1054 ZdAz re = GetRePosPdo();
1055
1056 ZdAz dse = se-se0;
1057 ZdAz dre = re-re0;
1058
1059 if (fabs(dse.Zd())*144>kResSE.X()) // Each 2.5deg (144)
1060 {
1061 se0.Zd(se.Zd());
1062 re0.Zd(re.Zd());
1063
1064 se -= dse/2;
1065
1066 ZdAz bend = fBending.CorrectBack(se*TMath::TwoPi()/kResSE)*kRad2Deg;
1067 ((TH3*)fHist)->Fill(bend.Zd(), bend.Az(), dre.Zd()/dse.Zd());
1068 }
1069
1070 if (fabs(dse.Az())*144>kResSE.Y()) // Each 2.5deg (144)
1071 {
1072 se0.Az(se.Az());
1073 re0.Az(re.Az());
1074
1075 se -= dse/2;
1076
1077 ZdAz bend = fBending.CorrectBack(se*TMath::TwoPi()/kResSE)*kRad2Deg;
1078 ((TH3*)fHist)->Fill(bend.Az(), bend.Az(), dre.Az()/dse.Az());
1079 }
1080 }
1081 lout << "Gear Test Stopped... displaying Histogram." << endl;
1082
1083 fBackground=kBgdGearDispl;
1084}
1085
1086void MCosy::TalkThread()
1087{
1088 /* ========== FIXME? =============
1089 if (fMac1->IsZombieNode() || fMac2->IsZombieNode())
1090 return;
1091 */
1092
1093 if (fMac1 && fMac2)
1094 {
1095 fMac1->ReqPos();
1096 fMac2->ReqPos();
1097 }
1098
1099 //InitSync();
1100
1101 /*** FOR DEMO MODE ***/
1102 if (!fZd1 || !fZd2 || !fAz)
1103 return;
1104 /*** FOR DEMO MODE ***/
1105
1106 //
1107 // Start the Network
1108 //
1109 while (1)
1110 {
1111 //
1112 // wait until a tracking session is started
1113 //
1114 while (fBackground==kBgdNone)
1115 usleep(1);
1116
1117 switch (fBackground)
1118 {
1119 case kBgdNone:
1120 continue;
1121/*#ifndef NEWALGO
1122 case kBgdTracking:
1123 TalkThreadTracking();
1124 continue;
1125#endif*/
1126 case kBgdSeTest:
1127 TalkThreadSeTest();
1128 continue;
1129
1130 case kBgdGear:
1131 TalkThreadGear();
1132 continue;
1133
1134 default:
1135 continue;
1136 }
1137 }
1138}
1139
1140ZdAz MCosy::GetPointingPos() const
1141{
1142 if (fZd1->IsZombieNode() || fZd2->IsZombieNode() || fAz->IsZombieNode())
1143 return ZdAz(0, 0);
1144
1145 // GetPointingPos [deg]
1146 const ZdAz seist = GetSePos()*TMath::TwoPi()/kResSE; // [rad]
1147 return fBending.CorrectBack(seist)*TMath::RadToDeg();
1148}
1149
1150Bool_t MCosy::HandleTimer(TTimer *t)
1151{
1152 const Int_t rc = fMutexGui.TryLock();
1153 if (rc==13)
1154 cout << "MCosy::HandleTimer - mutex is already locked by this thread" << endl;
1155
1156 if (rc)
1157 {
1158 lout << "* GUI update skipped due to locked mutex." << endl;
1159 return kTRUE;
1160 }
1161
1162 //
1163 // Update Gui, foremer MTGui.
1164 //
1165 if (fZd1)
1166 fZd1->DisplayVal();
1167 if (fZd2)
1168 fZd2->DisplayVal();
1169 if (fAz)
1170 fAz->DisplayVal();
1171
1172 Byte_t avail = 0;
1173
1174 avail |= (fMac1 && !fMac1->IsZombieNode()) ? 0x01 : 0;
1175 avail |= (fMac2 && !fMac2->IsZombieNode()) ? 0x02 : 0;
1176 avail |= (fMac3 && !fMac3->IsZombieNode()) ? 0x04 : 0;
1177 avail |= (fZd1 && !fZd1->IsZombieNode()) ? 0x08 : 0;
1178 avail |= (fZd2 && !fZd2->IsZombieNode()) ? 0x10 : 0;
1179 avail |= (fAz && !fAz->IsZombieNode()) ? 0x20 : 0;
1180
1181 if (HasError())
1182 SetStatus(MDriveCom::kError);
1183
1184
1185 ZdAz bendist = fStatus&MDriveCom::kTracking ? fTrackingPos : GetPointingPos();
1186
1187 //cout << (fStatus&MDriveCom::kTracking?"TRA: ":"POS: ") << bendist.Zd() << " " << bendist.Az() << endl;
1188
1189 fCom->SendReport(fStatus, fRaDec, fZdAzSoll, bendist, fTrackingError);
1190
1191 fWin->UpdateWeather(*fCom);
1192 fWin->Update(bendist, fTrackingError, fVelocity, /*fOffset,*/
1193 fRaDec, fZdAzSoll, fStatus, avail);
1194
1195 lout.UpdateGui();
1196
1197 const Bool_t trigger = fTriggerDisplay;
1198 fTriggerDisplay = kFALSE;
1199
1200 if (fBackground==kBgdSeTestDispl || (trigger&&fBackground==kBgdSeTest))
1201 DisplayHistTestSe(!trigger);
1202
1203 if (fBackground==kBgdGearDispl || (trigger&&fBackground==kBgdGear))
1204 DisplayHistGear(!trigger);
1205
1206 if (fMutexGui.UnLock()==13)
1207 cout << "MCosy::HandleTimer - tried to unlock mutex locked by other thread." << endl;
1208
1209 return kTRUE;
1210}
1211
1212void MCosy::DisplayHistTestSe(Bool_t del)
1213{
1214 lout << "Displaying histogram..." << endl;
1215
1216 TH2F &hist = *(TH2F*)fHist;
1217
1218 if (del)
1219 {
1220 fHist = NULL;
1221 fBackground = kBgdNone;
1222 }
1223
1224 TCanvas *c=new TCanvas("c1", "", 1000, 1000);
1225 c->Divide(1,2);
1226
1227 c->cd(1);
1228 TH2 *h=(TH2*)hist.DrawCopy();
1229
1230 TProfile *p = h->ProfileX("_pfx", -1, 9999, "s");
1231 p->SetLineColor(kBlue);
1232 p->Draw("same");
1233 p->SetBit(kCanDelete);
1234
1235 c->cd(2);
1236
1237 TH1F p2("spread", "Spread of the differences", hist.GetNbinsX(), hist.GetBinLowEdge(1),
1238 hist.GetBinLowEdge(hist.GetNbinsX()+1));
1239 p2.SetXTitle("Zd [\\circ]");
1240 for (int i=0; i<hist.GetNbinsX(); i++)
1241 p2.SetBinError(i, p->GetBinError(i));
1242 p2.SetLineColor(kRed);
1243 p2.SetStats(0);
1244 p2.DrawCopy();
1245
1246 if (del)
1247 delete &hist;
1248}
1249
1250void MCosy::DisplayHistGear(Bool_t del)
1251{
1252 lout << "Displaying histogram..." << endl;
1253
1254 TH3F &hist = *(TH3F*)fHist;
1255
1256 if (del)
1257 {
1258 fHist = NULL;
1259 fBackground = kBgdNone;
1260 }
1261
1262 TCanvas *c=new TCanvas("c1", "", 1000, 1000);
1263 c->Divide(2,2);
1264
1265 // ----------
1266
1267 c->cd(1);
1268 TH2D &h1=*(TH2D*)hist.Project3D("zx"); // Zd
1269 h1.SetTitle(" Gear Ratio Zenith Distance [re/se] ");
1270 h1.SetXTitle("Zd [\\circ]");
1271 h1.Draw();
1272 h1.SetBit(kCanDelete);
1273
1274 TProfile *p1 = h1.ProfileX("_pfx", -1, 9999, "s");
1275 p1->SetLineColor(kBlue);
1276 p1->Draw("same");
1277 p1->SetBit(kCanDelete);
1278
1279 // ----------
1280
1281 c->cd(2);
1282 TH2D &h2=*(TH2D*)hist.Project3D("zy"); // Az
1283 h2.SetTitle(" Gear Ratio Azimuth [re/se] ");
1284 h2.SetXTitle("Zd [\\circ]");
1285 h2.Draw();
1286 h2.SetBit(kCanDelete);
1287
1288 TProfile *p2 = h2.ProfileX("_pfx", -1, 9999, "s");
1289 p2->SetLineColor(kBlue);
1290 p2->Draw("same");
1291 p2->SetBit(kCanDelete);
1292
1293 // ----------
1294
1295 c->cd(3);
1296
1297 TAxis &axe1 = *h1.GetXaxis();
1298
1299 TH1F f1("spreadzd", " Spread Zenith Distance ",
1300 axe1.GetNbins(), axe1.GetXmin(), axe1.GetXmax());
1301 f1.SetXTitle("Zd [\\circ]");
1302 for (int i=0; i<axe1.GetNbins(); i++)
1303 f1.SetBinError(i, p1->GetBinError(i));
1304 f1.SetLineColor(kRed);
1305 f1.SetStats(0);
1306 f1.DrawCopy();
1307
1308 c->cd(4);
1309
1310 // ----------
1311
1312 TAxis &axe2 = *h2.GetXaxis();
1313
1314 TH1F f2("spreadaz", " Spread Azimuth ",
1315 axe2.GetNbins(), axe2.GetXmin(), axe2.GetXmax());
1316 f2.SetXTitle("Az [\\circ]");
1317 for (int i=0; i<axe2.GetNbins(); i++)
1318 f2.SetBinError(i, p2->GetBinError(i));
1319 f2.SetLineColor(kRed);
1320 f2.SetStats(0);
1321 f2.DrawCopy();
1322
1323 // ----------
1324
1325 if (del)
1326 delete &hist;
1327}
1328
1329// --------------------------------------------------------------------------
1330//
1331// Start the work of the application:
1332//
1333// Start the Can-Network.
1334// Start the MCosy::TalkThread thread.
1335// turn on the gui update
1336//
1337void MCosy::Start()
1338{
1339 // Don't call this function twice!
1340 Network::Start();
1341
1342 CheckForError();
1343
1344 ReadConfig();
1345
1346 lout << "- Starting TX Thread." << endl;
1347 fTTalk = new MTTalk(this);
1348
1349 lout << "- Starting GUI update." << endl;
1350 fUpdateGui->TurnOn();
1351}
1352
1353// --------------------------------------------------------------------------
1354//
1355// Start the work of the application:
1356//
1357// Turn of the gui update
1358// stop the MCosy::TalkThread thread.
1359// Stop the network
1360//
1361void MCosy::Stop()
1362{
1363 lout << "- Stopping GUI update." << endl;
1364 fUpdateGui->TurnOff();
1365 lout << "- GUI Update stopped." << endl;
1366
1367 delete fTTalk;
1368 lout << "- TX Thread stopped." << endl;
1369
1370 Network::Stop();
1371}
1372
1373// --------------------------------------------------------------------------
1374//
1375// Disable the synchronization by using a negative CAN Id for id2.
1376//
1377void MCosy::Constructor(Int_t id1, Int_t id2, Int_t id3,
1378 Int_t id4, Int_t id5, Int_t id6)
1379{
1380 //
1381 // Create Nodes
1382 //
1383 lout << "- Setting up network." << endl;
1384
1385 fMac1=new Macs(id1, "Mac/Az", lout);
1386 fMac2=new Macs(id3, "Mac/Zd", lout);
1387 if (id2>=0)
1388 fMac3=new Macs(id2, "Mac/Az-Sync", lout);
1389
1390 fZd1=new ShaftEncoder(id4, "SE/Zd1", lout);
1391 fZd2=new ShaftEncoder(id5, "SE/Zd2", lout);
1392 fAz =new ShaftEncoder(id6, "SE/Az", lout);
1393
1394 fZd1->SetReport(fOutRep);
1395 fZd2->SetReport(fOutRep);
1396 fAz->SetReport(fOutRep);
1397
1398 fAz->SetMotor(fMac1);
1399 fZd1->SetMotor(fMac2);
1400 fZd2->SetMotor(fMac2);
1401
1402 lout << "- Connecting devices to network." << endl;
1403
1404 //
1405 // Connect the devices to the network
1406 //
1407 SetNode(fMac1);
1408 SetNode(fMac2);
1409 if (id2>=0)
1410 SetNode(fMac3);
1411 SetNode(fZd1);
1412 SetNode(fZd2);
1413 SetNode(fAz);
1414
1415 //
1416 // Create Gui Event timer and Gui
1417 //
1418 lout << "- Initializing GUI Timer." << endl;
1419 fUpdateGui = new TTimer(this, 100); // 100ms
1420
1421 lout << "- Starting GUI." << endl;
1422 fWin=new MGCosy(fObservatory, this, gClient->GetRoot(), 1, 1);
1423}
1424/*
1425void MCosy::ConstructorSE(Int_t id4, Int_t id5, Int_t id6)
1426{
1427 //
1428 // Create Nodes
1429 //
1430 lout << "- Setting up network." << endl;
1431
1432 fZd1=new ShaftEncoder(id4, "SE/Zd1", lout);
1433 fZd2=new ShaftEncoder(id5, "SE/Zd2", lout);
1434 fAz =new ShaftEncoder(id6, "SE/Az", lout);
1435
1436 lout << "- Connecting devices to network." << endl;
1437
1438 //
1439 // Connect the devices to the network
1440 //
1441 SetNode(fZd1);
1442 SetNode(fZd2);
1443 SetNode(fAz);
1444
1445 //
1446 // Create Gui Event timer and Gui
1447 //
1448 lout << "- Initializing GUI Timer." << endl;
1449 fUpdateGui = new TTimer(this, 100); // 100ms
1450
1451 lout << "- Starting GUI." << endl;
1452 fWin=new MGCosy(fObservatory, this, gClient->GetRoot(), 1, 1);
1453}
1454
1455void MCosy::ConstructorDemo()
1456{
1457 //
1458 // Create Nodes
1459 //
1460 lout << "- Setting up network." << endl;
1461
1462 //
1463 // Create Gui Event timer and Gui
1464 //
1465 lout << "- Initializing GUI Timer." << endl;
1466 fUpdateGui = new TTimer(this, 100); // 100ms
1467
1468 lout << "- Starting GUI." << endl;
1469 fWin=new MGCosy(fObservatory, this, gClient->GetRoot(), 1, 1);
1470}
1471*/
1472
1473TString MCosy::GetFileName(const char *fmt)
1474{
1475 // FIXME: Timeout missing
1476 while (1)
1477 {
1478 MTime time(-1);
1479 const TString name = Form(fmt, (const char*)time.GetFileName());
1480 if (gSystem->AccessPathName(name, kFileExists))
1481 return name;
1482 break;
1483
1484 usleep(1000);
1485 }
1486 return "";
1487}
1488
1489MCosy::MCosy(/*int mode,*/ const char *dev, const int baud, MLog &out)
1490: Network(dev, baud, out), fObservatory(MObservatory::kMagic1), fStarguider(NULL), fZd1(0), fZd2(0), fAz(0), fMac1(0), fMac2(0), fMac3(0), fBackground(kBgdNone), fStatus(MDriveCom::kStopped), fOutTp(0), fOutRep(0)
1491{
1492 TEnv env(".cosyrc");
1493 const Int_t id1 = env.GetValue("Az_Id-MAC1", 1); //1
1494 const Int_t id2 = env.GetValue("Az_Id-MAC2", 2); //2
1495 const Int_t id3 = env.GetValue("Zd_Id-MAC", 3); //3
1496 const Int_t id4 = env.GetValue("Zd_Id-SE1", 4); //4
1497 const Int_t id5 = env.GetValue("Zd_Id-SE2", 5); //5
1498 const Int_t id6 = env.GetValue("Az_Id-SE", 6); //6
1499
1500 TString name = GetFileName("rep/cosy_%s.rep");
1501 cout << "Open Repfile: " << name << endl;
1502 fOutRep = new MLog(name, kTRUE);
1503 *fOutRep << "[Drive Report File]" << endl;
1504 *fOutRep << "Version <cvs>" << endl;
1505 *fOutRep << "Date " << MTime(-1) << endl;
1506 *fOutRep << "[Reports]" << endl;
1507
1508/*
1509 lout << "- Program in ";
1510 switch (mode)
1511 {
1512 case 0:
1513 lout << "<<Standard mode>>" << endl;*/
1514 fBending.Load("bending.txt");
1515 Constructor(id1, id2, id3, id4, id5, id6);/*
1516 break;
1517 case 1:
1518 lout << "<<SE mode>>" << endl;
1519 fBending.Load("bending.txt");
1520 ConstructorSE(id4, id5, id6);
1521 break;
1522 default:
1523 lout << "<<Demo mode>>" << endl;
1524 ConstructorDemo();
1525 }
1526*/
1527 lout.SetOutputGui(fWin->GetLog(), kTRUE);
1528
1529 fZd1->SetDisplay(fWin->GetLabel2());
1530 fZd2->SetDisplay(fWin->GetLabel3());
1531 fAz->SetDisplay(fWin->GetLabel1());
1532
1533 fCom = new MDriveCom(this, *fOutRep);
1534 fCom->Start();
1535}
1536
1537void MCosy::TerminateApp()
1538{
1539 cout << "MCosy::TerminateApp()" << endl;
1540/*
1541 Int_t rc;
1542 TGMessageBox msg(this, gClient->GetRoot(),
1543 "Information",
1544 "Cosy is shutting down the system - this may take wa while!",
1545 kMBIconExclamation,
1546 kMBOK, //kMBClose
1547 &rc, 0);
1548*/
1549
1550 lout.DisableOutputDevice(MLog::eGui);
1551 // FIXME: WHY DOES THIS CRASH THE APPLICATIOn WHILE TRAKING?
1552 // lout.SetOutputGui(NULL, kFALSE);
1553
1554 gApplication->Terminate(0);
1555}
1556
1557MCosy::~MCosy()
1558{
1559 if (fOutTp)
1560 {
1561 *fOutTp << "END" << endl;
1562 delete fOutTp;
1563 }
1564 delete fOutRep;
1565
1566 cout << "Deleting GUI timer." << endl;
1567
1568 delete fUpdateGui;
1569 delete fCom;
1570
1571 cout << "Deleting Nodes." << endl;
1572
1573 fZd1->SetReport(0);
1574 fZd2->SetReport(0);
1575 fAz->SetReport(0);
1576
1577 delete fAz;
1578 delete fZd1;
1579 delete fZd2;
1580 delete fMac1;
1581 delete fMac2;
1582 if (fMac3)
1583 delete fMac3;
1584
1585 cout << "Deleting MGCosy." << endl;
1586
1587 lout.DisableOutputDevice(MLog::eGui);
1588
1589 delete fWin;
1590
1591 cout << "MGCosy destructed." << endl;
1592}
Note: See TracBrowser for help on using the repository browser.