Logo ROOT   6.16/01
Reference Guide
TGLParametric.cxx
Go to the documentation of this file.
1// @(#)root/gl:$Id$
2// Author: Timur Pocheptsov 26/01/2007
3
4/*************************************************************************
5 * Copyright (C) 1995-2000, 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#include <cctype>
12
13#ifdef WIN32
14#define NOMINMAX
15#endif
16
17#include "TVirtualX.h"
18#include "TString.h"
19#include "TROOT.h"
20#include "TH3.h"
21
22#include "TGLPlotCamera.h"
23#include "TGLParametric.h"
24#include "TGLIncludes.h"
25#include "TVirtualPad.h"
26#include "KeySymbols.h"
27#include "Buttons.h"
28#include "TString.h"
29#include "TColor.h"
30#include "TMath.h"
31
32namespace
33{
34
35 /////////////////////////////////////////////////////////////////////////////
36 ///User defines equations using names 'u' and 'v' for
37 ///parameters. But TF2 works with 'x' and 'y'. So,
38 ///find 'u' and 'v' (which are not parts of other names)
39 ///and replace them with 'x' and 'y' correspondingly.
40
41 void ReplaceUVNames(TString &equation)
42 {
43 using namespace std;
44 const Ssiz_t len = equation.Length();
45 //TF2 requires 'y' in formula.
46 //'v' <=> 'y', so if none 'v' was found, I'll append "+0*y" to the equation.
47 Int_t vFound = 0;
48
49 for (Ssiz_t i = 0; i < len;) {
50 const char c = equation[i];
51 if (!isalpha(c)) {
52 ++i;
53 continue;
54 } else{
55 ++i;
56 if (c == 'u' || c == 'v') {
57 //1. This 'u' or 'v' is the last symbol in a string or
58 //2. After this 'u' or 'v' symbol, which cannot be part of longer name.
59 if (i == len || (!isalpha(equation[i]) && !isdigit(equation[i]) && equation[i] != '_')) {
60 //Replace 'u' with 'x' or 'v' with 'y'.
61 equation[i - 1] = c == 'u' ? 'x' : (++vFound, 'y');
62 } else {
63 //This 'u' or 'v' is the beginning of some longer name.
64 //Skip the remaining part of this name.
65 while (i < len && (isalpha(equation[i]) || isdigit(equation[i]) || equation[i] == '_'))
66 ++i;
67 }
68 } else {
69 while (i < len && (isalpha(equation[i]) || isdigit(equation[i]) || equation[i] == '_'))
70 ++i;
71 }
72 }
73 }
74
75 if (!vFound)
76 equation += "+0*y";
77 }
78
79}
80
81/** \class TGLParametricEquation
82\ingroup opengl
83A parametric surface is a surface defined by a parametric equation, involving
84two parameters (u, v):
85
86~~~ {.cpp}
87S(u, v) = (x(u, v), y(u, v), z(u, v)).
88~~~
89
90For example, "limpet torus" surface can be defined as:
91
92~~~ {.cpp}
93 x = cos(u) / (sqrt(2) + sin(v))
94 y = sin(u) / (sqrt(2) + sin(v))
95 z = 1 / (sqrt(2) + cos(v)),
96~~~
97
98where -pi <= u <= pi, -pi <= v <= pi.
99
100~~~ {.cpp}
101 TGLParametricEquation * eq =
102 new TGLParametricEquation("Limpet_torus", "cos(u) / (sqrt(2.) + sin(v))",
103 "sin(u) / (sqrt(2.) + sin(v))",
104 "1 / (sqrt(2) + cos(v))");
105~~~
106
107 `$ROOTSYS/tutorials/gl/glparametric.C` contains more examples.
108
109 Parametric equations can be specified:
110 - 1. by string expressions, as with TF2, but with 'u' instead of 'x' and
111 'v' instead of 'y'.
112 - 2. by function - see ParametricEquation_t declaration.
113
114*/
115
117
118////////////////////////////////////////////////////////////////////////////////
119///Surface is defined by three strings.
120///ROOT does not use exceptions in ctors,
121///so, I have to use MakeZombie to let
122///external user know about errors.
123
124TGLParametricEquation::TGLParametricEquation(const TString &name, const TString &xFun, const TString &yFun,
125 const TString &zFun, Double_t uMin, Double_t uMax,
126 Double_t vMin, Double_t vMax)
127 : TNamed(name, name),
128 fEquation(0),
129 fURange(uMin, uMax),
130 fVRange(vMin, vMax),
131 fConstrained(kFALSE),
132 fModified(kFALSE)
133{
134 if (!xFun.Length() || !yFun.Length() || !zFun.Length()) {
135 Error("TGLParametricEquation", "One of string expressions is empty");
136 MakeZombie();
137 return;
138 }
139
140 TString equation(xFun);
141 equation.ToLower();
142 ReplaceUVNames(equation);
143 fXEquation.reset(new TF2(name + "xEquation", equation.Data(), uMin, uMax, vMin, vMax));
144 //Formula was incorrect.
145 if (fXEquation->IsZombie()) {
146 MakeZombie();
147 return;
148 }
149
150 equation = yFun;
151 equation.ToLower();
152 ReplaceUVNames(equation);
153 fYEquation.reset(new TF2(name + "yEquation", equation.Data(), uMin, uMax, vMin, vMax));
154 //Formula was incorrect.
155 if (fYEquation->IsZombie()) {
156 MakeZombie();
157 return;
158 }
159
160 equation = zFun;
161 equation.ToLower();
162 ReplaceUVNames(equation);
163 fZEquation.reset(new TF2(name + "zEquation", equation.Data(), uMin, uMax, vMin, vMax));
164 //Formula was incorrect.
165 if (fZEquation->IsZombie())
166 MakeZombie();
167}
168
169////////////////////////////////////////////////////////////////////////////////
170///Surface defined by user's function (see ParametricEquation_t declaration in TGLParametricEquation.h)
171
173 Double_t uMin, Double_t uMax, Double_t vMin, Double_t vMax)
174 : TNamed(name, name),
175 fEquation(equation),
176 fURange(uMin, uMax),
177 fVRange(vMin, vMax),
178 fConstrained(kFALSE),
179 fModified(kFALSE)
180{
181 if (!fEquation) {
182 Error("TGLParametricEquation", "Function ptr is null");
183 MakeZombie();
184 }
185}
186
187////////////////////////////////////////////////////////////////////////////////
188///[uMin, uMax]
189
191{
192 return fURange;
193}
194
195////////////////////////////////////////////////////////////////////////////////
196///[vMin, vMax]
197
199{
200 return fVRange;
201}
202
203////////////////////////////////////////////////////////////////////////////////
204///Check is constrained.
205
207{
208 return fConstrained;
209}
210
211////////////////////////////////////////////////////////////////////////////////
212///Set constrained.
213
215{
216 fConstrained = c;
217}
218
219////////////////////////////////////////////////////////////////////////////////
220///Something was changed in parametric equation (or constrained option was changed).
221
223{
224 return fModified;
225}
226
227////////////////////////////////////////////////////////////////////////////////
228///Set modified.
229
231{
232 fModified = m;
233}
234
235////////////////////////////////////////////////////////////////////////////////
236///Calculate vertex.
237
239{
240 if (fEquation)
241 return fEquation(newVertex, u, v);
242
243 if (IsZombie())
244 return;
245
246 newVertex.X() = fXEquation->Eval(u, v);
247 newVertex.Y() = fYEquation->Eval(u, v);
248 newVertex.Z() = fZEquation->Eval(u, v);
249}
250
251////////////////////////////////////////////////////////////////////////////////
252///Check, if parametric surface is under cursor.
253
255{
256 if (fPainter.get())
257 return fPainter->DistancetoPrimitive(px, py);
258 return 9999;
259}
260
261////////////////////////////////////////////////////////////////////////////////
262///Pass event to painter.
263
265{
266 if (fPainter.get())
267 return fPainter->ExecuteEvent(event, px, py);
268}
269
270////////////////////////////////////////////////////////////////////////////////
271///No object info yet.
272
274{
275 static char mess[] = { "parametric surface" };
276 return mess;
277}
278
279////////////////////////////////////////////////////////////////////////////////
280///Delegate paint.
281
283{
284 if (!fPainter.get())
285 fPainter.reset(new TGLHistPainter(this));
286 fPainter->Paint("dummyoption");
287}
288
289/** \class TGLParametricPlot
290\ingroup opengl
291*/
292
294
295////////////////////////////////////////////////////////////////////////////////
296///Constructor.
297
299 TGLPlotCamera *camera)
300 : TGLPlotPainter(camera),
301 fMeshSize(90),
302 fShowMesh(kFALSE),
303 fColorScheme(4),
304 fEquation(eq)
305{
309
311
312 InitGeometry();
313 InitColors();
314}
315
316////////////////////////////////////////////////////////////////////////////////
317///Build mesh. The surface is 'immutable':
318///the only reason to rebuild it - the change in size or
319///if one of equations contain reference to TF2 function, whose
320///parameters were changed.
321
323{
324 // const Bool_t constrained = kTRUE;//fEquation->IsConstrained();
325
326 if (fMeshSize * fMeshSize != (Int_t)fMesh.size() || fEquation->IsModified()) {
327 if (fEquation->IsZombie())
328 return kFALSE;
329
331
332 fMesh.resize(fMeshSize * fMeshSize);
333 fMesh.SetRowLen(fMeshSize);
334
335 const Rgl::Range_t uRange(fEquation->GetURange());
336 const Rgl::Range_t vRange(fEquation->GetVRange());
337
338 const Double_t dU = (uRange.second - uRange.first) / (fMeshSize - 1);
339 const Double_t dV = (vRange.second - vRange.first) / (fMeshSize - 1);
340 const Double_t dd = 0.001;
341 Double_t u = uRange.first;
342
343 TGLVertex3 min;
344 fEquation->EvalVertex(min, uRange.first, vRange.first);
345 TGLVertex3 max(min), newVert, v1, v2;
346 using namespace TMath;
347
348 for (Int_t i = 0; i < fMeshSize; ++i) {
349 Double_t v = vRange.first;
350 for (Int_t j = 0; j < fMeshSize; ++j) {
351 fEquation->EvalVertex(newVert, u, v);
352 min.X() = Min(min.X(), newVert.X());
353 max.X() = Max(max.X(), newVert.X());
354 min.Y() = Min(min.Y(), newVert.Y());
355 max.Y() = Max(max.Y(), newVert.Y());
356 min.Z() = Min(min.Z(), newVert.Z());
357 max.Z() = Max(max.Z(), newVert.Z());
358
359 fMesh[i][j].fPos = newVert;
360
361 v += dV;
362 }
363 u += dU;
364 }
365
366 TH3F hist("tmp", "tmp", 2, -1., 1., 2, -1., 1., 2, -1., 1.);
367 hist.SetDirectory(0);
368 //TAxis has a lot of attributes, defaults, set by ctor,
369 //are not enough to be correctly painted by TGaxis object.
370 //To simplify their initialization - I use temporary histogram.
374
375 fCartesianXAxis.Set(fMeshSize, min.X(), max.X());
376 fCartesianXAxis.SetTitle("x");//it's lost when copying from temp. hist.
377 fCartesianYAxis.Set(fMeshSize, min.Y(), max.Y());
379 fCartesianZAxis.Set(fMeshSize, min.Z(), max.Z());
381
383 return kFALSE;
384
385 for (Int_t i = 0; i < fMeshSize; ++i) {
386 for (Int_t j = 0; j < fMeshSize; ++j) {
387 TGLVertex3 &ver = fMesh[i][j].fPos;
388 ver.X() *= fCoord->GetXScale(), ver.Y() *= fCoord->GetYScale(), ver.Z() *= fCoord->GetZScale();
389 }
390 }
391
392 u = uRange.first;
393 for (Int_t i = 0; i < fMeshSize; ++i) {
394 Double_t v = vRange.first;
395 for (Int_t j = 0; j < fMeshSize; ++j) {
396 TGLVertex3 &ver = fMesh[i][j].fPos;
397 fEquation->EvalVertex(v1, u + dd, v);
398 fEquation->EvalVertex(v2, u, v + dd);
399 v1.X() *= fCoord->GetXScale(), v1.Y() *= fCoord->GetYScale(), v1.Z() *= fCoord->GetZScale();
400 v2.X() *= fCoord->GetXScale(), v2.Y() *= fCoord->GetYScale(), v2.Z() *= fCoord->GetZScale();
401 Normal2Plane(ver.CArr(), v1.CArr(), v2.CArr(), fMesh[i][j].fNormal.Arr());
402 v += dV;
403 }
404 u += dU;
405 }
406
411 }
412
413 return kTRUE;
414}
415
416////////////////////////////////////////////////////////////////////////////////
417///User clicks right mouse button (in a pad).
418
420{
421 fMousePosition.fX = px;
423 fCamera->StartPan(px, py);
425}
426
427////////////////////////////////////////////////////////////////////////////////
428///User's moving mouse cursor, with middle mouse button pressed (for pad).
429///Calculate 3d shift related to 2d mouse movement.
430
432{
433 if (fSelectedPart) {
436
439
442 else
443 fCamera->Pan(px, py);
444
447 }
448
450}
451
452////////////////////////////////////////////////////////////////////////////////
453///No object info yet.
454
456{
457 static char mess[] = { "parametric surface" };
458 return mess;
459}
460
461////////////////////////////////////////////////////////////////////////////////
462///No additional options for parametric surfaces.
463
464void TGLParametricPlot::AddOption(const TString &/*option*/)
465{
466}
467
468////////////////////////////////////////////////////////////////////////////////
469///Change color/mesh size or switch on/off mesh/box cut.
470///Left double click - remove box cut.
471
473{
474 if (event == kButton1Double && fBoxCut.IsActive()) {
476 if (!gVirtualX->IsCmdThread())
477 gROOT->ProcessLineFast(Form("((TGLPlotPainter *)0x%lx)->Paint()", (ULong_t)this));
478 else
479 Paint();
480 } else if (event == kKeyPress) {
481 if (py == kKey_c || py == kKey_C) {
482 if (fHighColor)
483 Info("ProcessEvent", "Switch to true color to use box cut");
484 else {
487 }
488 } else if (py == kKey_s || py == kKey_S) {
489 fColorScheme == 20 ? fColorScheme = -1 : ++fColorScheme;
490 InitColors();//color scheme was changed! recalculate vertices colors.
491 } else if (py == kKey_w || py == kKey_W) {
493 } else if (py == kKey_l || py == kKey_L) {
494 fMeshSize == kHigh ? fMeshSize = kLow : fMeshSize += 15;
495 InitGeometry();
496 InitColors();
497 }
498 }
499}
500
501////////////////////////////////////////////////////////////////////////////////
502///Initialize gl state.
503
505{
506 glEnable(GL_DEPTH_TEST);
507 glEnable(GL_LIGHTING);
508 glEnable(GL_LIGHT0);
509 glDisable(GL_CULL_FACE);
510 glLightModeli(GL_LIGHT_MODEL_TWO_SIDE, GL_TRUE);
511}
512
513////////////////////////////////////////////////////////////////////////////////
514///Initialize gl state.
515
517{
518 glDisable(GL_DEPTH_TEST);
519 glDisable(GL_LIGHTING);
520 glDisable(GL_LIGHT0);
521 glDisable(GL_CULL_FACE);
522 glLightModeli(GL_LIGHT_MODEL_TWO_SIDE, GL_FALSE);
523}
524
525////////////////////////////////////////////////////////////////////////////////
526///Draw parametric surface.
527
529{
530 //Shift plot to point of origin.
531 const Rgl::PlotTranslation trGuard(this);
532
533 if (!fSelectionPass) {
535 if (fShowMesh) {
536 glEnable(GL_POLYGON_OFFSET_FILL);
537 glPolygonOffset(1.f, 1.f);
538 }
539 } else {
541 }
542
543 glBegin(GL_TRIANGLES);
544
545 for (Int_t i = 0; i < fMeshSize - 1; ++i) {
546 for (Int_t j = 0; j < fMeshSize - 1; ++j) {
547 if (fBoxCut.IsActive()) {
548 using TMath::Min;
549 using TMath::Max;
550 const Double_t xMin = Min(Min(fMesh[i][j].fPos.X(), fMesh[i + 1][j].fPos.X()), Min(fMesh[i][j + 1].fPos.X(), fMesh[i + 1][j + 1].fPos.X()));
551 const Double_t xMax = Max(Max(fMesh[i][j].fPos.X(), fMesh[i + 1][j].fPos.X()), Max(fMesh[i][j + 1].fPos.X(), fMesh[i + 1][j + 1].fPos.X()));
552 const Double_t yMin = Min(Min(fMesh[i][j].fPos.Y(), fMesh[i + 1][j].fPos.Y()), Min(fMesh[i][j + 1].fPos.Y(), fMesh[i + 1][j + 1].fPos.Y()));
553 const Double_t yMax = Max(Max(fMesh[i][j].fPos.Y(), fMesh[i + 1][j].fPos.Y()), Max(fMesh[i][j + 1].fPos.Y(), fMesh[i + 1][j + 1].fPos.Y()));
554 const Double_t zMin = Min(Min(fMesh[i][j].fPos.Z(), fMesh[i + 1][j].fPos.Z()), Min(fMesh[i][j + 1].fPos.Z(), fMesh[i + 1][j + 1].fPos.Z()));
555 const Double_t zMax = Max(Max(fMesh[i][j].fPos.Z(), fMesh[i + 1][j].fPos.Z()), Max(fMesh[i][j + 1].fPos.Z(), fMesh[i + 1][j + 1].fPos.Z()));
556
557 if (fBoxCut.IsInCut(xMin, xMax, yMin, yMax, zMin, zMax))
558 continue;
559 }
560
561 glNormal3dv(fMesh[i + 1][j + 1].fNormal.CArr());
562 if(fColorScheme != -1)
563 glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, fMesh[i + 1][j + 1].fRGBA);
564 glVertex3dv(fMesh[i + 1][j + 1].fPos.CArr());
565
566 glNormal3dv(fMesh[i][j + 1].fNormal.CArr());
567 if(fColorScheme != -1)
568 glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, fMesh[i][j + 1].fRGBA);
569 glVertex3dv(fMesh[i][j + 1].fPos.CArr());
570
571 glNormal3dv(fMesh[i][j].fNormal.CArr());
572 if(fColorScheme != -1)
573 glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, fMesh[i][j].fRGBA);
574 glVertex3dv(fMesh[i][j].fPos.CArr());
575
576 glNormal3dv(fMesh[i + 1][j].fNormal.CArr());
577 if(fColorScheme != -1)
578 glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, fMesh[i + 1][j].fRGBA);
579 glVertex3dv(fMesh[i + 1][j].fPos.CArr());
580
581 glNormal3dv(fMesh[i + 1][j + 1].fNormal.CArr());
582 if(fColorScheme != -1)
583 glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, fMesh[i + 1][j + 1].fRGBA);
584 glVertex3dv(fMesh[i + 1][j + 1].fPos.CArr());
585
586 glNormal3dv(fMesh[i][j].fNormal.CArr());
587 if(fColorScheme != -1)
588 glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, fMesh[i][j].fRGBA);
589 glVertex3dv(fMesh[i][j].fPos.CArr());
590 }
591 }
592
593 glEnd();
594
595 if (!fSelectionPass && fShowMesh) {
596 glDisable(GL_POLYGON_OFFSET_FILL);
597 const TGLDisableGuard lightGuard(GL_LIGHTING);
598 const TGLEnableGuard blendGuard(GL_BLEND);
599 const TGLEnableGuard smoothGuard(GL_LINE_SMOOTH);
600
601 glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
602 glColor4d(0., 0., 0., 0.5);
603 glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
604
605 for (Int_t i = 0; i < fMeshSize - 1; ++i) {
606 for (Int_t j = 0; j < fMeshSize - 1; ++j) {
607 if (fBoxCut.IsActive()) {
608 using TMath::Min;
609 using TMath::Max;
610 const Double_t xMin = Min(Min(fMesh[i][j].fPos.X(), fMesh[i + 1][j].fPos.X()), Min(fMesh[i][j + 1].fPos.X(), fMesh[i + 1][j + 1].fPos.X()));
611 const Double_t xMax = Max(Max(fMesh[i][j].fPos.X(), fMesh[i + 1][j].fPos.X()), Max(fMesh[i][j + 1].fPos.X(), fMesh[i + 1][j + 1].fPos.X()));
612 const Double_t yMin = Min(Min(fMesh[i][j].fPos.Y(), fMesh[i + 1][j].fPos.Y()), Min(fMesh[i][j + 1].fPos.Y(), fMesh[i + 1][j + 1].fPos.Y()));
613 const Double_t yMax = Max(Max(fMesh[i][j].fPos.Y(), fMesh[i + 1][j].fPos.Y()), Max(fMesh[i][j + 1].fPos.Y(), fMesh[i + 1][j + 1].fPos.Y()));
614 const Double_t zMin = Min(Min(fMesh[i][j].fPos.Z(), fMesh[i + 1][j].fPos.Z()), Min(fMesh[i][j + 1].fPos.Z(), fMesh[i + 1][j + 1].fPos.Z()));
615 const Double_t zMax = Max(Max(fMesh[i][j].fPos.Z(), fMesh[i + 1][j].fPos.Z()), Max(fMesh[i][j + 1].fPos.Z(), fMesh[i + 1][j + 1].fPos.Z()));
616
617 if (fBoxCut.IsInCut(xMin, xMax, yMin, yMax, zMin, zMax))
618 continue;
619 }
620 glBegin(GL_POLYGON);
621 glVertex3dv(fMesh[i][j].fPos.CArr());
622 glVertex3dv(fMesh[i][j + 1].fPos.CArr());
623 glVertex3dv(fMesh[i + 1][j + 1].fPos.CArr());
624 glVertex3dv(fMesh[i + 1][j].fPos.CArr());
625 glEnd();
626 }
627 }
628
629 glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
630 }
631
632 if (fBoxCut.IsActive())
634}
635
636////////////////////////////////////////////////////////////////////////////////
637///Calculate colors for vertices,
638///using one of 20 color themes.
639///-1 simple 'metal' surface.
640
642{
643 if (fColorScheme == -1)
644 return;
645
646 const Rgl::Range_t uRange(fEquation->GetURange());
647
648 const Float_t dU = Float_t((uRange.second - uRange.first) / (fMeshSize - 1));
649 Float_t u = Float_t(uRange.first);
650
651 for (Int_t i = 0; i < fMeshSize; ++i) {
652 for (Int_t j = 0; j < fMeshSize; ++j)
653 Rgl::GetColor(u, uRange.first, uRange.second, fColorScheme, fMesh[i][j].fRGBA);
654 u += dU;
655 }
656}
657
658////////////////////////////////////////////////////////////////////////////////
659///No such sections.
660
662{
663}
664
665////////////////////////////////////////////////////////////////////////////////
666///No such sections.
667
669{
670}
671
672////////////////////////////////////////////////////////////////////////////////
673///No such sections.
674
676{
677}
678
679////////////////////////////////////////////////////////////////////////////////
680///Set material properties.
681
683{
684 const Float_t specular[] = {1.f, 1.f, 1.f, 1.f};
685 glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, specular);
686 glMaterialf(GL_FRONT_AND_BACK, GL_SHININESS, 20.f);
687
688 if (fColorScheme == -1) {
689 const Float_t outerDiff[] = {0.5f, 0.42f, 0.f, 1.f};
690 glMaterialfv(GL_FRONT, GL_DIFFUSE, outerDiff);
691 const Float_t innerDiff[] = {0.5f, 0.2f, 0.f, 1.f};
692 glMaterialfv(GL_BACK, GL_DIFFUSE, innerDiff);
693 }
694}
@ kKeyPress
Definition: Buttons.h:20
@ kButton1Double
Definition: Buttons.h:24
SVector< double, 2 > v
Definition: Dict.h:5
@ kKey_W
Definition: KeySymbols.h:148
@ kKey_L
Definition: KeySymbols.h:137
@ kKey_l
Definition: KeySymbols.h:169
@ kKey_C
Definition: KeySymbols.h:128
@ kKey_S
Definition: KeySymbols.h:144
@ kKey_s
Definition: KeySymbols.h:176
@ kKey_w
Definition: KeySymbols.h:180
@ kKey_c
Definition: KeySymbols.h:160
#define c(i)
Definition: RSha256.hxx:101
int Int_t
Definition: RtypesCore.h:41
int Ssiz_t
Definition: RtypesCore.h:63
const Bool_t kFALSE
Definition: RtypesCore.h:88
unsigned long ULong_t
Definition: RtypesCore.h:51
bool Bool_t
Definition: RtypesCore.h:59
double Double_t
Definition: RtypesCore.h:55
float Float_t
Definition: RtypesCore.h:53
const Bool_t kTRUE
Definition: RtypesCore.h:87
const char Option_t
Definition: RtypesCore.h:62
#define ClassImp(name)
Definition: Rtypes.h:363
void Info(const char *location, const char *msgfmt,...)
void(* ParametricEquation_t)(TGLVertex3 &, Double_t u, Double_t v)
Definition: TGLParametric.h:33
#define gROOT
Definition: TROOT.h:410
char * Form(const char *fmt,...)
#define gVirtualX
Definition: TVirtualX.h:345
virtual void Set(Int_t nbins, Double_t xmin, Double_t xmax)
Initialize axis with fix bins.
Definition: TAxis.cxx:717
virtual void Copy(TObject &axis) const
Copy axis structure to another axis.
Definition: TAxis.cxx:208
A 2-Dim function with parameters.
Definition: TF2.h:29
void MoveBox(Int_t px, Int_t py, Int_t axisID)
Move box cut along selected direction.
Bool_t IsInCut(Double_t xMin, Double_t xMax, Double_t yMin, Double_t yMax, Double_t zMin, Double_t zMax) const
Check, if box defined by xmin/xmax etc. is in cut.
void DrawBox(Bool_t selectionPass, Int_t selected) const
Draw cut as a semi-transparent box.
void TurnOnOff()
Turn the box cut on/off.
void StartMovement(Int_t px, Int_t py)
Start cut's movement.
Bool_t IsActive() const
The histogram painter class using OpenGL.
A parametric surface is a surface defined by a parametric equation, involving two parameters (u,...
Definition: TGLParametric.h:35
Rgl::Range_t GetVRange() const
[vMin, vMax]
ParametricEquation_t fEquation
Definition: TGLParametric.h:43
void ExecuteEvent(Int_t event, Int_t px, Int_t py)
Pass event to painter.
void Paint(Option_t *option)
Delegate paint.
Bool_t IsModified() const
Something was changed in parametric equation (or constrained option was changed).
TGLParametricEquation(const TString &name, const TString &xEquation, const TString &yEquation, const TString &zEquation, Double_t uMin, Double_t uMax, Double_t vMin, Double_t vMax)
Surface is defined by three strings.
char * GetObjectInfo(Int_t px, Int_t py) const
No object info yet.
Rgl::Range_t GetURange() const
[uMin, uMax]
Bool_t IsConstrained() const
Check is constrained.
Int_t DistancetoPrimitive(Int_t px, Int_t py)
Check, if parametric surface is under cursor.
Rgl::Range_t fVRange
Definition: TGLParametric.h:46
Rgl::Range_t fURange
Definition: TGLParametric.h:45
void EvalVertex(TGLVertex3 &newVertex, Double_t u, Double_t v) const
Calculate vertex.
void SetConstrained(Bool_t c)
Set constrained.
void SetModified(Bool_t m)
Set modified.
TGLParametricPlot(TGLParametricEquation *equation, TGLPlotCamera *camera)
Constructor.
void InitColors()
Calculate colors for vertices, using one of 20 color themes.
void DeInitGL() const
Initialize gl state.
Bool_t InitGeometry()
Build mesh.
void AddOption(const TString &option)
No additional options for parametric surfaces.
void InitGL() const
Initialize gl state.
void DrawSectionXOY() const
No such sections.
void DrawSectionYOZ() const
No such sections.
void ProcessEvent(Int_t event, Int_t px, Int_t py)
Change color/mesh size or switch on/off mesh/box cut.
char * GetPlotInfo(Int_t px, Int_t py)
No object info yet.
void Pan(Int_t px, Int_t py)
User's moving mouse cursor, with middle mouse button pressed (for pad).
void DrawPlot() const
Draw parametric surface.
void SetSurfaceColor() const
Set material properties.
TGLPlotCoordinates fCartesianCoord
TGLParametricEquation * fEquation
TGL2DArray< Vertex_t > fMesh
Definition: TGLParametric.h:99
void StartPan(Int_t px, Int_t py)
User clicks right mouse button (in a pad).
void DrawSectionXOZ() const
No such sections.
void SetPlotBox(const Rgl::Range_t &xRange, const Rgl::Range_t &yRange, const Rgl::Range_t &zRange)
Set up a frame box.
Definition: TGLPlotBox.cxx:198
const TGLVertex3 * Get3DBox() const
Get 3D box.
Definition: TGLPlotBox.cxx:303
Camera for TGLPlotPainter and sub-classes.
Definition: TGLPlotCamera.h:22
void StartPan(Int_t px, Int_t py)
User clicks somewhere (px, py).
void Apply(Double_t phi, Double_t theta) const
Applies rotations and translations before drawing.
void SetCamera() const
Viewport and projection.
void Pan(Int_t px, Int_t py)
Pan camera.
Int_t GetHeight() const
viewport[3]
void SetViewVolume(const TGLVertex3 *box)
'box' is the TGLPlotPainter's back box's coordinates.
Bool_t SetRanges(const TH1 *hist, Bool_t errors=kFALSE, Bool_t zBins=kFALSE)
Set bin ranges, ranges.
Double_t GetYScale() const
const Rgl::Range_t & GetXRangeScaled() const
Scaled range.
const Rgl::Range_t & GetYRangeScaled() const
Scaled range.
Double_t GetXScale() const
Double_t GetZScale() const
const Rgl::Range_t & GetZRangeScaled() const
Scaled range.
Base class for plot-painters that provide GL rendering of various 2D and 3D histograms,...
Double_t fPadTheta
void RestoreModelviewMatrix() const
TGLBoxCut fBoxCut
virtual void Paint()
Draw lego/surf/whatever you can.
TGLPlotCoordinates * fCoord
TGLPlotBox fBackBox
void SaveProjectionMatrix() const
void SaveModelviewMatrix() const
Bool_t fUpdateSelection
TGLPlotCamera * fCamera
void RestoreProjectionMatrix() const
3 component (x/y/z) vertex class.
Definition: TGLUtil.h:83
Double_t X() const
Definition: TGLUtil.h:118
Double_t Z() const
Definition: TGLUtil.h:122
Double_t Y() const
Definition: TGLUtil.h:120
const Double_t * CArr() const
Definition: TGLUtil.h:125
virtual void SetDirectory(TDirectory *dir)
By default when an histogram is created, it is added to the list of histogram objects in the current ...
Definition: TH1.cxx:8259
TAxis * GetZaxis()
Definition: TH1.h:318
TAxis * GetXaxis()
Get the behaviour adopted by the object about the statoverflows. See EStatOverflows for more informat...
Definition: TH1.h:316
TAxis * GetYaxis()
Definition: TH1.h:317
3-D histogram with a float per channel (see TH1 documentation)}
Definition: TH3.h:267
The TNamed class is the base class for all named ROOT classes.
Definition: TNamed.h:29
virtual void SetTitle(const char *title="")
Set the title of the TNamed.
Definition: TNamed.cxx:164
R__ALWAYS_INLINE Bool_t IsZombie() const
Definition: TObject.h:134
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
Definition: TObject.cxx:880
void MakeZombie()
Definition: TObject.h:49
SCoord_t fY
Definition: TPoint.h:36
SCoord_t fX
Definition: TPoint.h:35
Basic string class.
Definition: TString.h:131
Ssiz_t Length() const
Definition: TString.h:405
void ObjectIDToColor(Int_t objectID, Bool_t highColor)
Object id encoded as rgb triplet.
Definition: TGLUtil.cxx:2908
void GetColor(Float_t v, Float_t vmin, Float_t vmax, Int_t type, Float_t *rgba)
This function creates color for parametric surface's vertex, using its 'u' value.
Definition: TGLUtil.cxx:3894
std::pair< Double_t, Double_t > Range_t
Definition: TGLUtil.h:1193
TMath.
Definition: TMathBase.h:35
T * Normal2Plane(const T v1[3], const T v2[3], const T v3[3], T normal[3])
Calculate a normal vector of a plane.
Definition: TMath.h:1177
Short_t Max(Short_t a, Short_t b)
Definition: TMathBase.h:212
Short_t Min(Short_t a, Short_t b)
Definition: TMathBase.h:180
STL namespace.
auto * m
Definition: textangle.C:8