source: trunk/MagicSoft/Mars/mgui/MCamDisplay.cc@ 1775

Last change on this file since 1775 was 1740, checked in by moralejo, 22 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 05/2002 <mailto:tbretz@astro.uni-wuerzburg.de>
19! Author(s): Harald Kornmayer 1/2001
20!
21! Copyright: MAGIC Software Development, 2000-2002
22!
23!
24\* ======================================================================== */
25
26/////////////////////////////////////////////////////////////////////////////
27//
28// MCamDisplay
29//
30// Camera Display. The Pixels are displayed in
31// contents/area [somthing/mm^2]
32//
33////////////////////////////////////////////////////////////////////////////
34#include "MCamDisplay.h"
35
36#include <fstream.h>
37#include <iostream.h>
38
39#include <TBox.h>
40#include <TText.h>
41#include <TArrow.h>
42#include <TStyle.h>
43#include <TCanvas.h>
44//#include <TButton.h>
45#include <TClonesArray.h>
46
47#include "MHexagon.h"
48
49#include "MGeomCam.h"
50
51#include "MCerPhotPix.h"
52#include "MCerPhotEvt.h"
53
54#include "MPedestalPix.h"
55#include "MPedestalCam.h"
56
57#include "MImgCleanStd.h"
58
59#define kItemsLegend 50 // see SetPalette(1,0)
60
61ClassImp(MCamDisplay);
62
63// ------------------------------------------------------------------------
64//
65// default constructor
66//
67MCamDisplay::MCamDisplay(MGeomCam *geom)
68 : fAutoScale(kTRUE), fW(0), fH(0), fDrawingPad(NULL), fIsAllocated(kFALSE)
69{
70 fGeomCam = (MGeomCam*)geom; // FIXME: Clone doesn't work! (MGeomCam*)geom->Clone();
71
72 //
73 // create the hexagons of the display
74 //
75 fNumPixels = geom->GetNumPixels();
76 fRange = geom->GetMaxRadius();
77
78 //
79 // Construct all hexagons. Use new-operator with placement
80 //
81
82 // root 3.02
83 // * base/inc/TObject.h:
84 // register BIT(8) as kNoContextMenu. If an object has this bit set it will
85 // not get an automatic context menu when clicked with the right mouse button.
86
87 fPixels = new TClonesArray("MHexagon", fNumPixels);
88 for (UInt_t i=0; i<fNumPixels; i++)
89 new ((*fPixels)[i]) MHexagon((*geom)[i]);
90
91 //
92 // set the color palette for the TBox elements
93 //
94#if ROOT_VERSION_CODE < ROOT_VERSION(3,01,06)
95 SetPalette(1, 0);
96#else
97 SetPalette(51, 0);
98#endif
99
100 //
101 // set up the Legend
102 //
103 fLegend = new TClonesArray("TBox", kItemsLegend);
104 fLegText = new TClonesArray("TText", kItemsLegend);
105
106 for (Int_t i = 0; i<kItemsLegend; i++)
107 {
108 TBox *newbox = new ((*fLegend)[i]) TBox;
109 TText *newtxt = new ((*fLegText)[i]) TText;
110
111 newbox->SetFillColor(fColors[i]);
112
113 newtxt->SetTextSize(0.025);
114 newtxt->SetTextAlign(12);
115 }
116
117 fArrowX = new TArrow(-fRange*.9, -fRange*.9, -fRange*.6, -fRange*.9, 0.025);
118 fArrowY = new TArrow(-fRange*.9, -fRange*.9, -fRange*.9, -fRange*.6, 0.025);
119
120 TString text;
121 text += (int)(fRange*.3);
122 text += "mm";
123
124 fLegRadius = new TText(-fRange*.85, -fRange*.85, text);
125 text = "";
126 text += (float)((int)(fRange*.3*geom->GetConvMm2Deg()*10))/10;
127 text += "°";
128 text = text.Strip(TString::kLeading);
129 fLegDegree = new TText(-fRange*.85, -fRange*.75, text);
130 fLegRadius->SetTextSize(0.04);
131 fLegDegree->SetTextSize(0.04);
132}
133
134// ------------------------------------------------------------------------
135//
136// Destructor. Deletes TClonesArrays for hexagons and legend elements.
137//
138MCamDisplay::~MCamDisplay()
139{
140 fPixels->Delete();
141 fLegend->Delete();
142 fLegText->Delete();
143
144 delete fPixels;
145 delete fLegend;
146 delete fLegText;
147
148 delete fArrowX;
149 delete fArrowY;
150
151 delete fLegRadius;
152 delete fLegDegree;
153
154 // delete fGeomCam;
155
156 // Not allocated by MCamDisplay or already deleted by the user
157 if (!fIsAllocated || !gROOT->GetListOfCanvases()->FindObject(fDrawingPad))
158 return;
159
160 // If it is not already removed make sure that nothing of this object
161 // maybe be deleted automatically by the canvas destructor
162 if (!fDrawingPad->GetListOfPrimitives()->FindObject(this))
163 return;
164
165 fDrawingPad->RecursiveRemove(this);
166 delete fDrawingPad;
167}
168
169inline void MCamDisplay::SetPixColor(const MCerPhotPix &pix, const UInt_t i, Float_t min, Float_t max)
170{
171 if (i>=fNumPixels)
172 return;
173
174 //
175 // Fixme: Use absolute value per mm^2. Needs another scaling algorithm.
176 //
177 const Float_t ratio = fGeomCam->GetPixRatio(i);
178 const Float_t pnum = ratio*pix.GetNumPhotons();
179
180 (*this)[pix.GetPixId()].SetFillColor(GetColor(pnum, min, max));
181}
182
183inline void MCamDisplay::SetPixColorPedestal(const MPedestalPix &pix, const UInt_t i, Float_t min, Float_t max)
184{
185 if (i>=fNumPixels)
186 return;
187
188 //
189 // Fixme: Use absolute value per mm^2. Needs another scaling algorithm.
190 //
191 const Float_t ratio = fGeomCam->GetPixRatio(i);
192 const Float_t pnum = ratio*pix.GetMean();
193
194 (*this)[i].SetFillColor(GetColor(pnum, min, max));
195}
196
197inline void MCamDisplay::SetPixColorError(const MCerPhotPix &pix, const UInt_t i, Float_t min, Float_t max)
198{
199 if (i>=fNumPixels)
200 return;
201
202 //
203 // Fixme: Use absolute value per mm^2. Needs another scaling algorithm.
204 //
205 const Float_t ratio = fGeomCam->GetPixRatio(i);
206 const Float_t pnum = sqrt(ratio)*pix.GetErrorPhot();
207
208 (*this)[pix.GetPixId()].SetFillColor(GetColor(pnum, min, max));
209}
210
211inline void MCamDisplay::SetPixColorRatio(const MCerPhotPix &pix, Float_t min, Float_t max)
212{
213 //
214 // Fixme: Use absolute value per mm^2. Needs another scaling algorithm.
215 //
216 const Float_t pnum = pix.GetNumPhotons()/pix.GetErrorPhot();
217 (*this)[pix.GetPixId()].SetFillColor(GetColor(pnum, min, max));
218}
219
220inline void MCamDisplay::SetPixColorLevel(const MCerPhotPix &pix, Float_t lvl1, Float_t lvl2)
221{
222 const Int_t maxcolidx = kItemsLegend-1;
223
224 MHexagon &hex = (*this)[pix.GetPixId()];
225
226 const Float_t r = pix.GetNumPhotons()/pix.GetErrorPhot();
227
228 if (r>lvl1)
229 hex.SetFillColor(fColors[4*maxcolidx/5]);
230 else
231 if (r>lvl2)
232 hex.SetFillColor(fColors[maxcolidx/2]);
233 else
234 hex.SetFillColor(fColors[maxcolidx/5]);
235}
236
237// ------------------------------------------------------------------------
238//
239// This is called at any time the canvas should get repainted.
240// Here we maintain an aspect ratio of 5/4=1.15. This makes sure,
241// that the camera image doesn't get distorted by resizing the canvas.
242//
243void MCamDisplay::Paint(Option_t *opt)
244{
245 const UInt_t w = (UInt_t)(gPad->GetWw()*gPad->GetAbsWNDC());
246 const UInt_t h = (UInt_t)(gPad->GetWh()*gPad->GetAbsHNDC());
247
248 //
249 // Check for a change in width or height, and make sure, that the
250 // first call also sets the range
251 //
252 if (w*fH == h*fW && fW && fH)
253 return;
254
255 //
256 // Calculate aspect ratio (5/4=1.25 recommended)
257 //
258 const Double_t ratio = (Double_t)w/h;
259
260 Float_t x;
261 Float_t y;
262
263 if (ratio>1.25)
264 {
265 x = (ratio*2-1)*fRange;
266 y = fRange;
267 }
268 else
269 {
270 x = fRange*1.5;
271 y = fRange*1.25/ratio;
272 }
273
274 fH = h;
275 fW = w;
276
277 //
278 // Set new range
279 //
280 gPad->Range(-fRange, -y, x, y);
281
282 //
283 // Make sure, that the correct aspect is always displayed also
284 // if - by chance - there is not update for the pad after the
285 // Paint function was called.
286 //
287 gPad->Update();
288}
289
290// ------------------------------------------------------------------------
291//
292// With this function you can change the color palette. For more
293// information see TStyle::SetPalette. Only palettes with 50 colors
294// are allowed.
295// In addition you can use SetPalette(52, 0) to create an inverse
296// deep blue sea palette
297//
298void MCamDisplay::SetPalette(Int_t ncolors, Int_t *colors)
299{
300 //
301 // If not enough colors are specified skip this.
302 //
303 if (ncolors>1 && ncolors<50)
304 {
305 cout << "MCamDisplay::SetPalette: Only default palettes with 50 colors are allowed... ignored." << endl;
306 return;
307 }
308
309 //
310 // If ncolors==52 create a reversed deep blue sea palette
311 //
312 if (ncolors==52)
313 {
314 gStyle->SetPalette(51, NULL);
315 Int_t c[50];
316 for (int i=0; i<50; i++)
317 c[49-i] = gStyle->GetColorPalette(i);
318 gStyle->SetPalette(50, c);
319 }
320 else
321 gStyle->SetPalette(ncolors, colors);
322
323 if (fDrawingPad)
324 {
325 //
326 // Set the colors of the legend
327 //
328 for (int i=0; i<kItemsLegend; i++)
329 {
330 Int_t col = GetBox(i)->GetFillColor();
331
332 //
333 // Make sure, that the legend is already colored
334 //
335 if (col==10 || col==22)
336 continue;
337 GetBox(i)->SetFillColor(gStyle->GetColorPalette(i));
338 }
339
340 //
341 // Change the colors of the pixels
342 //
343 for (unsigned int i=0; i<fNumPixels; i++)
344 {
345 //
346 // Get the old color index and check whether it is
347 // background or transparent
348 //
349 Int_t col = (*this)[i].GetFillColor();
350 if (col==10 || col==22)
351 continue;
352
353 //
354 // Search for the color index (level) in the color table
355 //
356 int idx;
357 for (idx=0; idx<kItemsLegend; idx++)
358 if (col==fColors[idx])
359 break;
360 //
361 // Should not happen
362 //
363 if (idx==kItemsLegend)
364 {
365 cout << "MCamDisplay::SetPalette: Strange... FIXME!" << endl;
366 continue;
367 }
368
369 //
370 // Convert the old color index (level) into the new one
371 //
372 (*this)[i].SetFillColor(gStyle->GetColorPalette(idx));
373 }
374
375 //
376 // Update the pad on the screen
377 //
378 fDrawingPad->Modified();
379 fDrawingPad->Update();
380 }
381
382 //
383 // Store the color palette used for a leter reverse lookup
384 //
385 for (int i=0; i<kItemsLegend; i++)
386 fColors[i] = gStyle->GetColorPalette(i);
387}
388
389void MCamDisplay::SetPrettyPalette()
390{
391 SetPalette(1, 0);
392}
393
394void MCamDisplay::SetDeepBlueSeaPalette()
395{
396 SetPalette(51, 0);
397}
398
399void MCamDisplay::SetInvDeepBlueSeaPalette()
400{
401 SetPalette(52, 0);
402}
403
404// ------------------------------------------------------------------------
405//
406// Call this function to draw the camera layout into your canvas.
407// Setup a drawing canvas. Add this object and all child objects
408// (hexagons, etc) to the current pad. If no pad exists a new one is
409// created.
410//
411void MCamDisplay::Draw(Option_t *option)
412{
413 // root 3.02:
414 // gPad->SetFixedAspectRatio()
415
416 if (fDrawingPad)
417 return;
418
419 //
420 // if no canvas is yet existing to draw into, create a new one
421 //
422 if (!gPad)
423 {
424 fDrawingPad = new TCanvas("CamDisplay", "Magic Camera Display", 0, 0, 750, 600);
425 fIsAllocated = kTRUE;
426 }
427 else
428 {
429 fDrawingPad = gPad;
430 fIsAllocated = kFALSE;
431 }
432
433 //
434 // Setup the correct environment
435 //
436 fDrawingPad->SetBorderMode(0);
437 fDrawingPad->SetFillColor(22);
438
439 //
440 // Set the initial coordinate range
441 //
442 Paint();
443
444 /*
445 //
446 // Create and draw the buttons which allows changing the
447 // color palette of the display
448 //
449 TButton *but;
450 char txt[100];
451 sprintf(txt, "((MCamDisplay*)0x%lx)->SetPalette(1,0);", this);
452 but = new TButton("Pretty", txt, 0.01, 0.95, 0.15, 0.99);
453 but->Draw();
454 sprintf(txt, "((MCamDisplay*)0x%lx)->SetPalette(51,0);", this);
455 but = new TButton("Deap Sea", txt, 0.16, 0.95, 0.30, 0.99);
456 but->Draw();
457 sprintf(txt, "((MCamDisplay*)0x%lx)->SetPalette(52,0);", this);
458 but = new TButton("Blue Inv", txt, 0.31, 0.95, 0.45, 0.99);
459 but->Draw();
460 */
461
462 //
463 // Draw all pixels of the camera
464 // (means apend all pixelobjects to the current pad)
465 //
466 for (UInt_t i=0; i<fNumPixels; i++)
467 {
468#if ROOT_VERSION_CODE > ROOT_VERSION(3,01,06)
469 (*this)[i].SetBit(/*kNoContextMenu|*/kCannotPick);
470#endif
471 (*this)[i].SetFillColor(22);
472 (*this)[i].Draw();
473 }
474
475 fArrowX->Draw();
476 fArrowY->Draw();
477
478 fLegRadius->Draw();
479 fLegDegree->Draw();
480
481 //
482 // initialize and draw legend
483 //
484 const Float_t H = 0.9*fRange;
485 const Float_t h = 2./kItemsLegend;
486
487 const Float_t w = fRange/sqrt(fNumPixels);
488
489 for (Int_t i=0; i<kItemsLegend; i++)
490 {
491 TBox *box = GetBox(i);
492 box->SetX1(fRange);
493 box->SetX2(fRange+w);
494 box->SetY1(H*( i *h - 1.));
495 box->SetY2(H*((i+1)*h - 1.));
496 box->SetFillColor(22);
497#if ROOT_VERSION_CODE > ROOT_VERSION(3,01,06)
498 box->SetBit(/*kNoContextMenu|*/kCannotPick);
499#endif
500 box->Draw();
501
502 TText *txt = GetText(i);
503 txt->SetX(fRange+1.5*w);
504 txt->SetY(H*((i+0.5)*h - 1.));
505#if ROOT_VERSION_CODE > ROOT_VERSION(3,01,06)
506 txt->SetBit(/*kNoContextMenu|*/kCannotPick);
507#endif
508 txt->Draw();
509 }
510
511 //
512 // Append this object, so that the aspect ratio is maintained
513 // (Paint-function is called)
514 // Add it here so that root will have it first in the internal list:
515 // This means, that root 'sees' the whole camera instead of all the
516 // single hexagons.
517 //
518 AppendPad(option);
519
520 //fDrawingPad->SetEditable(kFALSE);
521}
522
523void MCamDisplay::DrawPixelNumbers()
524{
525 if (!fDrawingPad)
526 Draw();
527
528 fDrawingPad->cd();
529
530 TText txt;
531 txt.SetTextFont(122);
532 txt.SetTextAlign(22); // centered/centered
533
534 for (UInt_t i=0; i<fNumPixels; i++)
535 {
536 TString num;
537 num += i;
538
539 const MHexagon &h = (*this)[i];
540 TText *nt = txt.DrawText(h.GetX(), h.GetY(), num);
541 nt->SetTextSize(0.3*h.GetD()/fGeomCam->GetMaxRadius());
542 }
543}
544
545// ------------------------------------------------------------------------
546//
547// Call this function to draw the number of photo electron into the
548// camera.
549//
550void MCamDisplay::DrawPhotNum(const MCerPhotEvt *event)
551{
552 if (!event)
553 return;
554
555 Draw();
556
557 fDrawingPad->cd();
558
559 for (int i=0; i<kItemsLegend; i++)
560 GetBox(i)->SetFillColor(fColors[i]);
561
562 //
563 // Reset pixel colors to default value
564 //
565 Reset();
566
567 //
568 // if the autoscale is true, set the values for the range for
569 // each event
570 //
571 Float_t min = 0;
572 Float_t max = 50;
573 if (fAutoScale)
574 {
575 min = event->GetNumPhotonsMin(fGeomCam);
576 max = event->GetNumPhotonsMax(fGeomCam);
577
578 if (max < 20.)
579 max = 20.;
580
581 UpdateLegend(min, max);
582 }
583
584 //
585 // update the colors in the picture
586 //
587 const Int_t entries = event->GetNumPixels();
588
589 for (Int_t i=0; i<entries; i++)
590 {
591 const MCerPhotPix &pix = (*event)[i];
592
593 if (!pix.IsPixelUsed())
594 continue;
595
596 SetPixColor(pix, i, min, max);
597 }
598
599 //
600 // Update display physically
601 //
602 fDrawingPad->Modified();
603 fDrawingPad->Update();
604}
605
606// ------------------------------------------------------------------------
607//
608// Call this function to draw the number of photo electron into the
609// camera.
610//
611void MCamDisplay::DrawPedestals(const MPedestalCam *event)
612{
613 if (!event)
614 return;
615
616 Draw();
617
618 fDrawingPad->cd();
619
620 for (int i=0; i<kItemsLegend; i++)
621 GetBox(i)->SetFillColor(fColors[i]);
622
623 //
624 // Reset pixel colors to default value
625 //
626 Reset();
627
628 //
629 // if the autoscale is true, set the values for the range for
630 // each event
631 //
632 Float_t min = 0;
633 Float_t max = 50;
634 if (fAutoScale)
635 {
636 min = event->GetMeanMin(fGeomCam);
637 max = event->GetMeanMax(fGeomCam);
638
639 if (max < 20.)
640 max = 20.;
641
642 UpdateLegend(min, max);
643 }
644
645 //
646 // update the colors in the picture
647 //
648 const Int_t entries = event->GetSize();
649
650 for (Int_t i=0; i<entries; i++)
651 SetPixColorPedestal((*event)[i], i, min, max);
652
653 //
654 // Update display physically
655 //
656 fDrawingPad->Modified();
657 fDrawingPad->Update();
658}
659
660// ------------------------------------------------------------------------
661//
662// Call this function to draw the error of number of photo electron
663// into the camera.
664//
665void MCamDisplay::DrawErrorPhot(const MCerPhotEvt *event)
666{
667 if (!event)
668 return;
669
670 if (!fDrawingPad)
671 Draw();
672
673 fDrawingPad->cd();
674
675 for (int i=0; i<kItemsLegend; i++)
676 GetBox(i)->SetFillColor(fColors[i]);
677
678 //
679 // Reset pixel colors to default value
680 //
681 Reset();
682
683 //
684 // if the autoscale is true, set the values for the range for
685 // each event
686 //
687 Float_t min = 0;
688 Float_t max = 50;
689 if (fAutoScale)
690 {
691 min = event->GetErrorPhotMin(fGeomCam);
692 max = event->GetErrorPhotMax(fGeomCam);
693
694 if (max < 20.)
695 max = 20.;
696
697 UpdateLegend(min, max);
698 }
699
700 //
701 // update the colors in the picture
702 //
703 const Int_t entries = event->GetNumPixels();
704
705 for (Int_t i=0; i<entries; i++)
706 {
707 const MCerPhotPix &pix = (*event)[i];
708
709 if (!pix.IsPixelUsed())
710 continue;
711
712 SetPixColorError(pix, i, min, max);
713 }
714
715 //
716 // Update display physically
717 //
718 fDrawingPad->Modified();
719 fDrawingPad->Update();
720}
721
722// ------------------------------------------------------------------------
723//
724// Call this function to draw the ratio of the number of photons
725// divided by its error
726//
727void MCamDisplay::DrawRatio(const MCerPhotEvt *event)
728{
729 if (!event)
730 return;
731
732 if (!fDrawingPad)
733 Draw();
734
735 fDrawingPad->cd();
736
737 for (int i=0; i<kItemsLegend; i++)
738 GetBox(i)->SetFillColor(fColors[i]);
739
740 //
741 // Reset pixel colors to default value
742 //
743 Reset();
744
745 //
746 // if the autoscale is true, set the values for the range for
747 // each event
748 //
749 Float_t min = 0;
750 Float_t max = 20;
751 if (fAutoScale)
752 {
753 min = event->GetRatioMin();
754 max = event->GetRatioMax();
755
756 UpdateLegend(min, max);
757 }
758
759 //
760 // update the colors in the picture
761 //
762 const Int_t entries = event->GetNumPixels();
763
764 for (Int_t i=0; i<entries; i++)
765 {
766 const MCerPhotPix &pix = (*event)[i];
767
768 if (!pix.IsPixelUsed())
769 continue;
770
771 SetPixColorRatio(pix, min, max);
772 }
773
774 //
775 // Update display physically
776 //
777 fDrawingPad->Modified();
778 fDrawingPad->Update();
779}
780
781// ------------------------------------------------------------------------
782//
783// Draw the colors in respect to the cleaning levels
784//
785void MCamDisplay::DrawLevels(const MCerPhotEvt *event, Float_t lvl1, Float_t lvl2)
786{
787 if (!event)
788 return;
789
790 if (!fDrawingPad)
791 Draw();
792
793 fDrawingPad->cd();
794
795 for (int i=0; i<kItemsLegend; i++)
796 GetBox(i)->SetFillColor(fColors[i]);
797
798 //
799 // Reset pixel colors to default value
800 //
801 Reset();
802
803 //
804 // update the colors in the picture
805 //
806 const Int_t entries = event->GetNumPixels();
807
808 for (Int_t i=0; i<entries; i++)
809 {
810 const MCerPhotPix &pix = (*event)[i];
811
812 if (!pix.IsPixelUsed())
813 continue;
814
815 SetPixColorLevel(pix, lvl1, lvl2);
816 }
817
818 //
819 // Update display physically
820 //
821 fDrawingPad->Modified();
822 fDrawingPad->Update();
823}
824
825// ------------------------------------------------------------------------
826//
827// Draw the colors in respect to the cleaning levels
828//
829void MCamDisplay::DrawLevels(const MCerPhotEvt *event, const MImgCleanStd &clean)
830{
831 DrawLevels(event, clean.GetCleanLvl1(), clean.GetCleanLvl2());
832}
833
834// ------------------------------------------------------------------------
835//
836// reset the all pixel colors to a default value
837//
838void MCamDisplay::Reset()
839{
840 for (UInt_t i=0; i<fNumPixels; i++)
841 (*this)[i].SetFillColor(10);
842}
843
844// ------------------------------------------------------------------------
845//
846// Here we calculate the color index for the current value.
847// The color index is defined with the class TStyle and the
848// Color palette inside. We use the command gStyle->SetPalette(1,0)
849// for the display. So we have to convert the value "wert" into
850// a color index that fits the color palette.
851// The range of the color palette is defined by the values fMinPhe
852// and fMaxRange. Between this values we have 50 color index, starting
853// with 0 up to 49.
854//
855Int_t MCamDisplay::GetColor(Float_t val, Float_t min, Float_t max)
856{
857 //
858 // first treat the over- and under-flows
859 //
860 const Int_t maxcolidx = kItemsLegend-1;
861
862 if (val >= max)
863 return fColors[maxcolidx];
864
865 if (val <= min)
866 return fColors[0];
867
868 //
869 // calculate the color index
870 //
871 const Float_t ratio = (val-min) / (max-min);
872 const Int_t colidx = (Int_t)(ratio*maxcolidx + .5);
873
874 return fColors[colidx];
875}
876
877// ------------------------------------------------------------------------
878//
879// change the text on the legend according to the range of the
880// Display
881//
882void MCamDisplay::UpdateLegend(Float_t minphe, Float_t maxphe)
883{
884 char text[10];
885
886 for (Int_t i=0; i<kItemsLegend; i+=3)
887 {
888 const Float_t val = minphe + (Float_t)i/kItemsLegend * (maxphe-minphe) ;
889
890 sprintf(text, "%5.1f", val);
891
892 TText &txt = *GetText(i);
893
894 txt.SetText(txt.GetX(), txt.GetY(), text);
895 }
896}
897
898// ------------------------------------------------------------------------
899//
900// Save primitive as a C++ statement(s) on output stream out
901//
902void MCamDisplay::SavePrimitive(ofstream &out, Option_t *opt)
903{
904 if (!gROOT->ClassSaved(TCanvas::Class()))
905 fDrawingPad->SavePrimitive(out, opt);
906
907 out << " " << fDrawingPad->GetName() << "->SetWindowSize(";
908 out << fDrawingPad->GetWw() << "," << fDrawingPad->GetWh() << ");" << endl;
909}
910
911// ------------------------------------------------------------------------
912//
913// compute the distance of a point (px,py) to the Camera
914// this functions needed for graphical primitives, that
915// means without this function you are not able to interact
916// with the graphical primitive with the mouse!!!
917//
918// All calcutations are running in pixel coordinates
919//
920Int_t MCamDisplay::DistancetoPrimitive(Int_t px, Int_t py)
921{
922 Int_t dist = 999999;
923
924 for (UInt_t i=0; i<fNumPixels; i++)
925 {
926 Int_t d = (*fPixels)[i]->DistancetoPrimitive(px, py);
927
928 if (d<dist)
929 dist=d;
930 }
931 return dist==0?0:999999;
932}
933
934// ------------------------------------------------------------------------
935//
936// Execute a mouse event on the camera
937//
938/*
939 void MCamDisplay::ExecuteEvent(Int_t event, Int_t px, Int_t py)
940 {
941 cout << "Execute Event Camera " << event << " @ " << px << " " << py << endl;
942 }
943 */
944
945
946// ------------------------------------------------------------------------
947//
948// Function introduced (31-01-03)
949//
950void MCamDisplay::SetPix(const Int_t pixnum, const Int_t color, Float_t min, Float_t max)
951{
952 (*this)[pixnum].SetFillColor(GetColor(color, min, max));
953
954}
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