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TEveCalo2DGL.cxx
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1// @(#)root/eve:$Id$
2// Author: Matevz Tadel 2007
3
4/*************************************************************************
5 * Copyright (C) 1995-2007, Rene Brun and Fons Rademakers. *
6 * All rights reserved. *
7 * *
8 * For the licensing terms see $ROOTSYS/LICENSE. *
9 * For the list of contributors see $ROOTSYS/README/CREDITS. *
10 *************************************************************************/
11
12#include "TEveCalo2DGL.h"
13#include "TEveCalo.h"
14#include "TEveProjections.h"
16#include "TEveRGBAPalette.h"
17
18#include "TGLRnrCtx.h"
19#include "TGLPhysicalShape.h"
20#include "TGLSelectRecord.h"
21#include "TGLIncludes.h"
22#include "TGLUtil.h"
23#include "TAxis.h"
24
25/** \class TEveCalo2DGL
26\ingroup TEve
27OpenGL renderer class for TEveCalo2D.
28*/
29
31
32////////////////////////////////////////////////////////////////////////////////
33/// Constructor.
34
36 TGLObject(),
37 fM(0)
38{
39 // fDLCache = kFALSE; // Disable display list.
41}
42
43////////////////////////////////////////////////////////////////////////////////
44/// Set model object.
45
47{
48 fM = SetModelDynCast<TEveCalo2D>(obj);
49 return kTRUE;
50}
51
52////////////////////////////////////////////////////////////////////////////////
53/// Set bounding box.
54
56{
58}
59
60////////////////////////////////////////////////////////////////////////////////
61/// Is current projection type RPhi
62
64{
66}
67
68////////////////////////////////////////////////////////////////////////////////
69/// Calculate vertices for the calorimeter cell in RPhi projection.
70/// Returns outside radius of the tower.
71
73 Float_t towerH, Float_t offset) const
74{
75 using namespace TMath;
76
77 Float_t r1 = fM->fBarrelRadius + offset;
78 Float_t r2 = r1 + towerH;
79
80 Float_t pnts[8];
81
82 pnts[0] = r1*Cos(phiMin); pnts[1] = r1*Sin(phiMin);
83 pnts[2] = r2*Cos(phiMin); pnts[3] = r2*Sin(phiMin);
84 pnts[4] = r2*Cos(phiMax); pnts[5] = r2*Sin(phiMax);
85 pnts[6] = r1*Cos(phiMax); pnts[7] = r1*Sin(phiMax);
86
87 Float_t x, y, z;
88 glBegin(GL_QUADS);
89 for (Int_t i = 0; i < 4; ++i)
90 {
91 x = pnts[2*i];
92 y = pnts[2*i+1];
93 z = 0.f;
95 glVertex3f(x, y, z);
96 }
97 glEnd();
98}
99
100////////////////////////////////////////////////////////////////////////////////
101/// Draw calorimeter cells in RPhi projection.
102
104{
105 TEveCaloData* data = fM->GetData();
106 Int_t nSlices = data->GetNSlices();
107 Float_t *sliceVal = new Float_t[nSlices];
109 Float_t towerH;
110
111 UInt_t nPhi = data->GetPhiBins()->GetNbins();
112 TAxis* axis = data->GetPhiBins();
113 for(UInt_t phiBin = 1; phiBin <= nPhi; ++phiBin)
114 {
115 if (cellLists[phiBin] )
116 {
117 // reset values
118 Float_t off = 0;
119 for (Int_t s=0; s<nSlices; ++s)
120 sliceVal[s] = 0;
121
122 // sum eta cells
123 TEveCaloData::vCellId_t* cids = cellLists[phiBin];
124 for (TEveCaloData::vCellId_i it = cids->begin(); it != cids->end(); it++)
125 {
126 data->GetCellData(*it, cellData);
127 sliceVal[(*it).fSlice] += cellData.Value(fM->fPlotEt)*(*it).fFraction;
128 }
129
130 if (rnrCtx.SecSelection()) {
131 glLoadName(phiBin); // set name-stack phi bin
132 glPushName(0);
133 }
134 for (Int_t s = 0; s < nSlices; ++s)
135 {
136 if (rnrCtx.SecSelection()) glLoadName(s); // set name-stack slice
137 fM->SetupColorHeight(sliceVal[s], s, towerH);
138 MakeRPhiCell(axis->GetBinLowEdge(phiBin), axis->GetBinUpEdge(phiBin), towerH, off);
139 off += towerH;
140 }
141 if (rnrCtx.SecSelection()) glPopName(); // slice
142 }
143 }
144
145 delete [] sliceVal;
146}
147
148////////////////////////////////////////////////////////////////////////////////
149/// Draw selected calorimeter cells in RPhi projection.
150
151void TEveCalo2DGL::DrawRPhiHighlighted(std::vector<TEveCaloData::vCellId_t*>& cellLists) const
152{
153 static const TEveException eh("TEveCalo2DGL::DrawRPhiHighlighted ");
154
155 TEveCaloData* data = fM->fData;
157 Int_t nSlices = data->GetNSlices();
158 UInt_t nPhiBins = data->GetPhiBins()->GetNbins();
159 Float_t *sliceVal = new Float_t[nSlices];
160 Float_t *sliceValRef = new Float_t[nSlices];
161 Float_t towerH, towerHRef;
162
163 TAxis* axis = data->GetPhiBins();
164 for(UInt_t phiBin = 1; phiBin <= nPhiBins; ++phiBin)
165 {
166 if (cellLists[phiBin])
167 {
168 if (!fM->fCellLists[phiBin]) {
169 delete[] sliceVal;
170 delete[] sliceValRef;
171 throw eh + "selected cell not in cell list cache.";
172 }
173
174 Float_t off = 0;
175 // selected eta sum
176 for (Int_t s=0; s<nSlices; ++s) sliceVal[s] = 0;
177 TEveCaloData::vCellId_t& cids = *(cellLists[phiBin]);
178 for (TEveCaloData::vCellId_i i=cids.begin(); i!=cids.end(); i++) {
179 data->GetCellData((*i), cellData);
180 sliceVal[i->fSlice] += cellData.Value(fM->fPlotEt)*(*i).fFraction;
181 }
182 // referenced eta sum
183 for (Int_t s=0; s<nSlices; ++s) sliceValRef[s] = 0;
184 TEveCaloData::vCellId_t& cidsRef = *(fM->fCellLists[phiBin]);
185 for (TEveCaloData::vCellId_i i=cidsRef.begin(); i!=cidsRef.end(); i++) {
186 data->GetCellData(*i, cellData);
187 sliceValRef[i->fSlice] += cellData.Value(fM->fPlotEt)*(*i).fFraction;
188 }
189 // draw
190 for (Int_t s = 0; s < nSlices; ++s) {
191 fM->SetupColorHeight(sliceValRef[s], s, towerHRef);
192 if (sliceVal[s] > 0)
193 {
194 fM->SetupColorHeight(sliceVal[s], s, towerH);
195 MakeRPhiCell(axis->GetBinLowEdge(phiBin), axis->GetBinUpEdge(phiBin), towerH, off);
196 }
197 off += towerHRef;
198 }
199 }
200 }
201
202 delete [] sliceVal;
203 delete [] sliceValRef;
204}
205
206////////////////////////////////////////////////////////////////////////////////
207/// Draw cell in RhoZ projection.
208
210 Float_t& offset, Bool_t isBarrel, Bool_t phiPlus, Float_t towerH) const
211{
212 using namespace TMath;
213
214 Float_t pnts[8];
215
216 Float_t sin1 = Sin(thetaMin);
217 Float_t cos1 = Cos(thetaMin);
218 Float_t sin2 = Sin(thetaMax);
219 Float_t cos2 = Cos(thetaMax);
220
221 if (isBarrel)
222 {
223 Float_t r1 = fM->fBarrelRadius/Abs(Sin(0.5f*(thetaMin+thetaMax))) + offset;
224 Float_t r2 = r1 + towerH;
225
226 pnts[0] = r1*sin1; pnts[1] = r1*cos1;
227 pnts[2] = r2*sin1; pnts[3] = r2*cos1;
228 pnts[4] = r2*sin2; pnts[5] = r2*cos2;
229 pnts[6] = r1*sin2; pnts[7] = r1*cos2;
230 }
231 else
232 {
233 // endcap
235 // uses a different theta definition than GetTransitionThetaBackward(), so we need a conversion
237 if (thetaMax >= transThetaB)
238 zE = Abs(fM->GetBackwardEndCapPos());
239 Float_t r1 = zE/Abs(Cos(0.5f*(thetaMin+thetaMax))) + offset;
240 Float_t r2 = r1 + towerH;
241
242 pnts[0] = r1*sin1; pnts[1] = r1*cos1;
243 pnts[2] = r2*sin1; pnts[3] = r2*cos1;
244 pnts[4] = r2*sin2; pnts[5] = r2*cos2;
245 pnts[6] = r1*sin2; pnts[7] = r1*cos2;
246 }
247
248 glBegin(GL_QUADS);
249 Float_t x, y, z;
250 for (Int_t i = 0; i < 4; ++i)
251 {
252 x = 0.f;
253 y = phiPlus ? Abs(pnts[2*i]) : -Abs(pnts[2*i]);
254 z = pnts[2*i+1];
256 glVertex3f(x, y, z);
257 }
258 glEnd();
259}
260
261////////////////////////////////////////////////////////////////////////////////
262/// Draw calorimeter in RhoZ projection.
263
265{
266 TEveCaloData* data = fM->GetData();
267 Int_t nSlices = data->GetNSlices();
268
270 Float_t *sliceValsUp = new Float_t[nSlices];
271 Float_t *sliceValsLow = new Float_t[nSlices];
272 Bool_t isBarrel;
273 Float_t towerH;
274 Float_t transEtaF = fM->GetTransitionEtaForward();
275 Float_t transEtaB = fM->GetTransitionEtaBackward();
276
277 TAxis* axis = data->GetEtaBins();
278 UInt_t nEta = axis->GetNbins();
279 for (UInt_t etaBin = 1; etaBin <= nEta; ++etaBin)
280 {
281 if (cellLists[etaBin] )
282 {
283 assert(fM->fCellLists[etaBin]);
284 Float_t etaMin = axis->GetBinLowEdge(etaBin);
285 Float_t etaMax = axis->GetBinUpEdge(etaBin);
286 Float_t thetaMin = TEveCaloData::EtaToTheta(etaMax);
287 Float_t thetaMax = TEveCaloData::EtaToTheta(etaMin);
288
289 // clear
290 Float_t offUp = 0;
291 Float_t offLow = 0;
292 for (Int_t s = 0; s < nSlices; ++s) {
293 sliceValsUp [s] = 0;
294 sliceValsLow[s] = 0;
295 }
296 // values
297 TEveCaloData::vCellId_t* cids = cellLists[etaBin];
298 for (TEveCaloData::vCellId_i it = cids->begin(); it != cids->end(); ++it)
299 {
300 data->GetCellData(*it, cellData);
301 if (cellData.IsUpperRho())
302 sliceValsUp [it->fSlice] += cellData.Value(fM->fPlotEt)*(*it).fFraction;
303 else
304 sliceValsLow[it->fSlice] += cellData.Value(fM->fPlotEt)*(*it).fFraction;
305 }
306
307 isBarrel = !(etaMax > 0 && etaMax > transEtaF) && !(etaMin < 0 && etaMin < transEtaB);
308
309 // draw
310 if (rnrCtx.SecSelection()) glLoadName(etaBin); // name-stack eta bin
311 if (rnrCtx.SecSelection()) glPushName(0);
312
313 for (Int_t s = 0; s < nSlices; ++s)
314 {
315 if (rnrCtx.SecSelection()) glLoadName(s); // name-stack slice
316 if (rnrCtx.SecSelection()) glPushName(0);
317 // phi +
318 if (sliceValsUp[s])
319 {
320 if (rnrCtx.SecSelection()) glLoadName(1); // name-stack phi sign
321 fM->SetupColorHeight(sliceValsUp[s], s, towerH);
322 MakeRhoZCell(thetaMin, thetaMax, offUp, isBarrel, kTRUE , towerH);
323 offUp += towerH;
324 }
325 // phi -
326 if (sliceValsLow[s])
327 {
328 if (rnrCtx.SecSelection()) glLoadName(0); // name-stack phi sign
329 fM->SetupColorHeight(sliceValsLow[s], s, towerH);
330 MakeRhoZCell(thetaMin, thetaMax, offLow, isBarrel, kFALSE , towerH);
331 offLow += towerH;
332 }
333 if (rnrCtx.SecSelection()) glPopName(); // phi sign is pos
334 }
335 //
336 if (rnrCtx.SecSelection()) glPopName(); // slice
337 }
338 }
339
340 delete [] sliceValsUp;
341 delete [] sliceValsLow;
342}
343
344////////////////////////////////////////////////////////////////////////////////
345/// Draw selected calorimeter cells in RhoZ projection.
346
347void TEveCalo2DGL::DrawRhoZHighlighted(std::vector<TEveCaloData::vCellId_t*>& cellLists) const
348{
349 static const TEveException eh("TEveCalo2DGL::DrawRhoZHighlighted ");
350
351 TEveCaloData* data = fM->GetData();
352 TAxis* axis = data->GetEtaBins();
353 UInt_t nEtaBins = axis->GetNbins();
354 Int_t nSlices = data->GetNSlices();
355 Float_t transEtaF = fM->GetTransitionEtaForward();
356 Float_t transEtaB = fM->GetTransitionEtaBackward();
357
358 Float_t *sliceValsUp = new Float_t[nSlices];
359 Float_t *sliceValsLow = new Float_t[nSlices];
360 Float_t *sliceValsUpRef = new Float_t[nSlices];
361 Float_t *sliceValsLowRef = new Float_t[nSlices];
362
363 Bool_t isBarrel;
364 Float_t towerH, towerHRef, offUp, offLow;
366
367 for (UInt_t etaBin = 1; etaBin <= nEtaBins; ++etaBin)
368 {
369 if (cellLists[etaBin])
370 {
371 if (!fM->fCellLists[etaBin]) {
372 delete[] sliceValsUp;
373 delete[] sliceValsLow;
374 delete[] sliceValsUpRef;
375 delete[] sliceValsLowRef;
376 throw(eh + "selected cell not in cell list cache.");
377 }
378
379 offUp = 0; offLow =0;
380 // selected phi sum
381 for (Int_t s = 0; s < nSlices; ++s) {
382 sliceValsUp[s] = 0; sliceValsLow[s] = 0;
383 }
384 TEveCaloData::vCellId_t& cids = *(cellLists[etaBin]);
385 for (TEveCaloData::vCellId_i i=cids.begin(); i!=cids.end(); i++) {
386 data->GetCellData(*i, cellData);
387 if (cellData.IsUpperRho())
388 sliceValsUp [i->fSlice] += cellData.Value(fM->fPlotEt)*(*i).fFraction;
389 else
390 sliceValsLow[i->fSlice] += cellData.Value(fM->fPlotEt)*(*i).fFraction;
391 }
392
393 // reference phi sum
394 for (Int_t s = 0; s < nSlices; ++s)
395 {
396 sliceValsUpRef[s] = 0; sliceValsLowRef[s] = 0;
397 }
398 TEveCaloData::vCellId_t& cidsRef = *(fM->fCellLists[etaBin]);
399 for (TEveCaloData::vCellId_i i=cidsRef.begin(); i!=cidsRef.end(); i++)
400 {
401 data->GetCellData(*i, cellData);
402 if (cellData.IsUpperRho())
403 sliceValsUpRef [i->fSlice] += cellData.Value(fM->fPlotEt)*(*i).fFraction;
404 else
405 sliceValsLowRef[i->fSlice] += cellData.Value(fM->fPlotEt)*(*i).fFraction;
406 }
407
408 Float_t bincenterEta = axis->GetBinCenter(etaBin);
409 isBarrel = !(bincenterEta > 0 && bincenterEta > transEtaF) && !(bincenterEta < 0 && bincenterEta < transEtaB);
410
411 for (Int_t s = 0; s < nSlices; ++s)
412 {
413 Float_t thetaMin = TEveCaloData::EtaToTheta(axis->GetBinUpEdge(etaBin));
414 Float_t thetaMax = TEveCaloData::EtaToTheta(axis->GetBinLowEdge(etaBin));
415 // phi +
416 fM->SetupColorHeight(sliceValsUpRef[s], s, towerHRef);
417 if (sliceValsUp[s] > 0) {
418 fM->SetupColorHeight(sliceValsUp[s], s, towerH);
419 MakeRhoZCell(thetaMin, thetaMax, offUp, isBarrel, kTRUE , towerH);
420 }
421 offUp += towerHRef;
422
423 // phi -
424 fM->SetupColorHeight(sliceValsLowRef[s], s, towerHRef);
425 if (sliceValsLow[s] > 0) {
426 fM->SetupColorHeight(sliceValsLow[s], s, towerH);
427 MakeRhoZCell(thetaMin, thetaMax, offLow, isBarrel, kFALSE , towerH);
428 }
429 offLow += towerHRef;
430 } // slices
431 } // if eta bin
432 } //eta bin
433
434 delete [] sliceValsUp;
435 delete [] sliceValsLow;
436 delete [] sliceValsUpRef;
437 delete [] sliceValsLowRef;
438}
439
440////////////////////////////////////////////////////////////////////////////////
441/// Render with OpenGL.
442
444{
445 TGLCapabilitySwitch light_off(GL_LIGHTING, kFALSE);
446 TGLCapabilitySwitch cull_off (GL_CULL_FACE, kFALSE);
447
448 glPushAttrib(GL_ENABLE_BIT | GL_POLYGON_BIT);
449 glEnable(GL_BLEND);
450 glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
451
452 if (fM->fCellIdCacheOK == kFALSE)
454
455 fM->AssertPalette();
456
457 if (rnrCtx.SecSelection()) glPushName(0);
458 if (IsRPhi())
459 DrawRPhi(rnrCtx, fM->fCellLists);
460 else
461 DrawRhoZ(rnrCtx, fM->fCellLists);
462 if (rnrCtx.SecSelection()) glPopName();
463 glPopAttrib();
464}
465
466////////////////////////////////////////////////////////////////////////////////
467/// Draw towers in highlight mode.
468
469void TEveCalo2DGL::DrawHighlight(TGLRnrCtx& rnrCtx, const TGLPhysicalShape* /*pshp*/, Int_t /*lvl*/) const
470{
471 static const TEveException eh("TEveCalo2DGL::DrawHighlight ");
472
473 if (fM->fData->GetCellsSelected().empty() && fM->fData->GetCellsHighlighted().empty())
474 {
475 return;
476 }
477
478 TGLCapabilitySwitch cull_off (GL_CULL_FACE, kFALSE);
479
481 try
482 {
483 if (!fM->fData->GetCellsHighlighted().empty())
484 {
485 glColor4ubv(rnrCtx.ColorSet().Selection(3).CArr());
486
487 if (IsRPhi())
489 else
491 }
492 if (!fM->fData->GetCellsSelected().empty())
493 {
494 glColor4ubv(rnrCtx.ColorSet().Selection(1).CArr());
495 if (IsRPhi())
497 else
499
500 }
501 }
502 catch (TEveException& exc)
503 {
504 Warning(eh, "%s", exc.what());
505 }
507}
508
509////////////////////////////////////////////////////////////////////////////////
510/// Processes tower selection in eta bin or phi bin.
511/// Virtual function from TGLogicalShape. Called from TGLViewer.
512
514{
516 if (rec.GetN() > 2)
517 {
518 Int_t bin = rec.GetItem(1);
519 Int_t slice = rec.GetItem(2);
520 for (TEveCaloData::vCellId_i it = fM->fCellLists[bin]->begin();
521 it != fM->fCellLists[bin]->end(); ++it)
522 {
523 if ((*it).fSlice == slice)
524 {
525 if (IsRPhi())
526 {
527 sel.push_back(*it);
528 }
529 else
530 {
531 assert(rec.GetN() > 3);
532 Bool_t is_upper = (rec.GetItem(3) == 1);
534 fM->fData->GetCellData(*it, cd);
535 if ((is_upper && cd.IsUpperRho()) || (!is_upper && !cd.IsUpperRho()))
536 sel.push_back(*it);
537 }
538 }
539 }
540 }
541 fM->fData->ProcessSelection(sel, rec);
542}
#define GL_QUADS
Definition GL_glu.h:290
const Bool_t kFALSE
Definition RtypesCore.h:92
float Float_t
Definition RtypesCore.h:57
const Bool_t kTRUE
Definition RtypesCore.h:91
const char Option_t
Definition RtypesCore.h:66
#define ClassImp(name)
Definition Rtypes.h:364
void Warning(const char *location, const char *msgfmt,...)
Use this function in warning situations.
Definition TError.cxx:231
Class to manage histogram axis.
Definition TAxis.h:30
virtual Double_t GetBinCenter(Int_t bin) const
Return center of bin.
Definition TAxis.cxx:478
virtual Double_t GetBinLowEdge(Int_t bin) const
Return low edge of bin.
Definition TAxis.cxx:518
Int_t GetNbins() const
Definition TAxis.h:121
virtual Double_t GetBinUpEdge(Int_t bin) const
Return up edge of bin.
Definition TAxis.cxx:528
OpenGL renderer class for TEveCalo2D.
void DrawRPhi(TGLRnrCtx &rnrCtx, TEveCalo2D::vBinCells_t &) const
Draw calorimeter cells in RPhi projection.
void MakeRPhiCell(Float_t phiMin, Float_t phiMax, Float_t towerH, Float_t offset) const
Calculate vertices for the calorimeter cell in RPhi projection.
void DrawRhoZ(TGLRnrCtx &rnrCtx, TEveCalo2D::vBinCells_t &) const
Draw calorimeter in RhoZ projection.
Bool_t IsRPhi() const
Is current projection type RPhi.
virtual Bool_t SetModel(TObject *obj, const Option_t *opt=0)
Set model object.
void DrawRPhiHighlighted(std::vector< TEveCaloData::vCellId_t * > &cellLists) const
Draw selected calorimeter cells in RPhi projection.
void DrawRhoZHighlighted(std::vector< TEveCaloData::vCellId_t * > &cellLists) const
Draw selected calorimeter cells in RhoZ projection.
virtual void DirectDraw(TGLRnrCtx &rnrCtx) const
Render with OpenGL.
virtual void ProcessSelection(TGLRnrCtx &rnrCtx, TGLSelectRecord &rec)
Processes tower selection in eta bin or phi bin.
void MakeRhoZCell(Float_t thetaMin, Float_t thetaMax, Float_t &offset, Bool_t isBarrel, Bool_t phiPlus, Float_t towerH) const
Draw cell in RhoZ projection.
TEveCalo2DGL()
Constructor.
TEveCalo2D * fM
virtual void SetBBox()
Set bounding box.
virtual void DrawHighlight(TGLRnrCtx &rnrCtx, const TGLPhysicalShape *ps, Int_t lvl=-1) const
Draw towers in highlight mode.
Visualization of a calorimeter event data in 2D.
Definition TEveCalo.h:202
std::vector< TEveCaloData::vCellId_t * > fCellListsHighlighted
Definition TEveCalo.h:220
std::vector< TEveCaloData::vCellId_t * > vBinCells_t
Definition TEveCalo.h:206
virtual void BuildCellIdCache()
Build lists of drawn cell IDs. See TEveCalo2DGL::DirecDraw().
Definition TEveCalo.cxx:559
std::vector< TEveCaloData::vCellId_t * > fCellLists
Definition TEveCalo.h:217
std::vector< TEveCaloData::vCellId_t * > fCellListsSelected
Definition TEveCalo.h:219
A central manager for calorimeter event data.
std::vector< CellId_t > vCellId_t
static Float_t EtaToTheta(Float_t eta)
void ProcessSelection(vCellId_t &sel_cells, TGLSelectRecord &rec)
Process newly selected cells with given select-record.
virtual void GetCellData(const CellId_t &id, CellData_t &data) const =0
virtual TAxis * GetEtaBins() const
Int_t GetNSlices() const
vCellId_t & GetCellsHighlighted()
virtual TAxis * GetPhiBins() const
vCellId_t & GetCellsSelected()
std::vector< CellId_t >::iterator vCellId_i
Float_t fPlotEt
Definition TEveCalo.h:55
Float_t GetTransitionEtaBackward() const
Get transition eta between barrel and backward end-cap cells.
Definition TEveCalo.cxx:227
Float_t fBarrelRadius
Definition TEveCalo.h:51
Float_t GetBackwardEndCapPos() const
Definition TEveCalo.h:104
Float_t GetForwardEndCapPos() const
Definition TEveCalo.h:103
TEveCaloData * GetData() const
Definition TEveCalo.h:87
TEveRGBAPalette * AssertPalette()
Make sure the TEveRGBAPalette pointer is not null.
Definition TEveCalo.cxx:378
Bool_t fCellIdCacheOK
Definition TEveCalo.h:41
TEveCaloData * fData
Definition TEveCalo.h:40
Float_t GetTransitionEtaForward() const
Get transition eta between barrel and forward end-cap cells.
Definition TEveCalo.cxx:209
void SetupColorHeight(Float_t value, Int_t slice, Float_t &height) const
Set color and height for a given value and slice using slice color or TEveRGBAPalette.
Definition TEveCalo.cxx:415
Exception class thrown by TEve classes and macros.
Definition TEveUtil.h:102
virtual const char * what() const noexcept
Definition TEveUtil.h:111
TEveProjectionManager * fManager
TEveProjection * GetProjection()
virtual void ProjectPoint(Float_t &x, Float_t &y, Float_t &z, Float_t d, EPProc_e p=kPP_Full)=0
EPType_e GetType() const
TGLColor & Selection(Int_t i)
Definition TGLUtil.h:855
const UChar_t * CArr() const
Definition TGLUtil.h:800
TObject * fExternalObj
first replica
Base-class for direct OpenGL renderers.
Definition TGLObject.h:22
Bool_t fMultiColor
Definition TGLObject.h:28
void SetAxisAlignedBBox(Float_t xmin, Float_t xmax, Float_t ymin, Float_t ymax, Float_t zmin, Float_t zmax)
Set axis-aligned bounding-box.
Definition TGLObject.cxx:86
Concrete physical shape - a GL drawable.
The TGLRnrCtx class aggregates data for a given redering context as needed by various parts of the RO...
Definition TGLRnrCtx.h:41
Bool_t SecSelection() const
Definition TGLRnrCtx.h:224
TGLColorSet & ColorSet()
Return reference to current color-set (top of the stack).
UInt_t GetItem(Int_t i) const
Standard selection record including information about containing scene and details ob out selected ob...
static UInt_t LockColor()
Prevent further color changes.
Definition TGLUtil.cxx:1663
static UInt_t UnlockColor()
Allow color changes.
Definition TGLUtil.cxx:1671
Mother of all ROOT objects.
Definition TObject.h:37
Double_t y[n]
Definition legend1.C:17
Double_t x[n]
Definition legend1.C:17
TMath.
Definition TMathBase.h:35
Cell data inner structure.
Float_t Value(Bool_t) const
Return energy value associated with the cell, usually Et.
Bool_t IsUpperRho() const