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TCurlyLine.cxx
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1// @(#)root/graf:$Id$
2// Author: Otto Schaile 20/11/99
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
12/** \class TCurlyLine
13\ingroup BasicGraphics
14
15Implements curly or wavy polylines used to draw Feynman diagrams.
16
17Amplitudes and wavelengths may be specified in the constructors,
18via commands or interactively from popup menus.
19The class make use of TPolyLine by inheritance, ExecuteEvent methods
20are highly inspired from the methods used in TPolyLine and TArc.
21The picture below has been generated by the tutorial feynman.
22
23Begin_Macro(source)
24../../../tutorials/graphics/feynman.C
25End_Macro
26*/
27
28#include "TCurlyLine.h"
29#include "TROOT.h"
30#include "TVirtualPad.h"
31#include "TVirtualX.h"
32#include "TMath.h"
33#include "TPoint.h"
34
35#include <iostream>
36
40
42
43////////////////////////////////////////////////////////////////////////////////
44/// Default constructor.
45
47{
48 fX1 = 0.;
49 fY1 = 0.;
50 fX2 = 0.;
51 fY2 = 0.;
52 fWaveLength = 0.;
53 fAmplitude = 0.;
55 fNsteps = 0;
56}
57
58////////////////////////////////////////////////////////////////////////////////
59/// Create a new TCurlyLine with starting point (x1, y1), end point (x2,y2).
60/// The wavelength and amplitude are given in percent of the pad height.
61
63{
64 fX1 = x1;
65 fY1 = y1;
66 fX2 = x2;
67 fY2 = y2;
68 fWaveLength = wl;
69 fAmplitude = amp;
71 Build();
72}
73
74////////////////////////////////////////////////////////////////////////////////
75/// Create a curly (Gluon) or wavy (Gamma) line.
76
78{
79 Double_t pixeltoX = 1;
80 Double_t pixeltoY = 1;
81
82 Double_t wavelengthPix,amplitudePix, lengthPix, hPix;
83 Double_t px1, py1, px2, py2;
84 if (gPad) {
85 Double_t ww = (Double_t)gPad->GetWw();
86 Double_t wh = (Double_t)gPad->GetWh();
87 Double_t pxrange = gPad->GetAbsWNDC()*ww;
88 Double_t pyrange = - gPad->GetAbsHNDC()*wh;
89 Double_t xrange = gPad->GetX2() - gPad->GetX1();
90 Double_t yrange = gPad->GetY2() - gPad->GetY1();
91 pixeltoX = xrange / pxrange;
92 pixeltoY = yrange/pyrange;
93 hPix = TMath::Max(gPad->GetAbsHNDC() * gPad->GetWh(), gPad->GetAbsWNDC() * gPad->GetWw());
94 px1 = gPad->XtoAbsPixel(fX1);
95 py1 = gPad->YtoAbsPixel(fY1);
96 px2 = gPad->XtoAbsPixel(fX2);
97 py2 = gPad->YtoAbsPixel(fY2);
98
99 lengthPix = TMath::Sqrt((px2-px1)*(px2-px1) + (py1-py2)*(py1-py2));
100 wavelengthPix = hPix*fWaveLength;
101 amplitudePix = hPix*fAmplitude;
102 } else {
103 wavelengthPix = fWaveLength;
104 amplitudePix = fAmplitude;
105 px1 = fX1;
106 py1 = fY1;
107 px2 = fX2;
108 py2 = fY2;
109 lengthPix = TMath::Sqrt((px2-px1)*(px2-px1) + (py1-py2)*(py1-py2));
110 }
111 // construct the curly / wavy line in pixel coordinates at angle 0
112 Double_t anglestep = 40;
113 Double_t phimaxle = TMath::Pi() * 2. / anglestep ;
114 Double_t dx = wavelengthPix / 40;
115 Double_t len2pi = dx * anglestep;
116
117 // make sure there is a piece of straight line a both ends
118
119 Double_t lengthcycle = 0.5 * len2pi + 2 * amplitudePix;
120 // if (fIsCurly) lengthcycle += amplitudePix;
121 Int_t nperiods = (Int_t)((lengthPix - lengthcycle) / len2pi);
122 Double_t restlength = 0.5 * (lengthPix - nperiods * len2pi - lengthcycle);
123 fNsteps = (Int_t)(anglestep * nperiods + anglestep / 2 + 4);
124 if (fNsteps < 2) fNsteps = 2;
126 Double_t *xv = GetX();
127 Double_t *yv = GetY();
128 xv[0] = 0; yv[0] = 0;
129 xv[1] = restlength; yv[1] = 0;
130 Double_t phase = 1.5 * TMath::Pi();
131 Double_t x0 = amplitudePix + restlength;
132 Int_t i;
133 for(i = 2; i < fNsteps-1; i++){
134 // distinguish between curly and wavy
135 if (fIsCurly) xv[i] = x0 + amplitudePix * TMath::Sin(phase);
136 else xv[i] = x0;
137 yv[i] = amplitudePix*TMath::Cos(phase);
138 phase += phimaxle;
139 x0 += dx;
140 }
141 xv[fNsteps-1] = lengthPix; yv[fNsteps-1] = 0;
142
143 if (InheritsFrom("TCurlyArc")) return; // called by TCurlyArc
144
145 // rotate object and transform back to user coordinates
146 Double_t angle = TMath::ATan2(py2-py1, px2-px1);
147 if (angle < 0) angle += 2*TMath::Pi();
148
149 Double_t cosang = TMath::Cos(angle);
150 Double_t sinang = TMath::Sin(angle);
151 Double_t xx, yy;
152
153 for(i = 0; i < fNsteps; i++){
154 xx = xv[i] * cosang - yv[i] * sinang;
155 yy = xv[i] * sinang + yv[i] * cosang;
156 if (gPad) {
157 xx *= pixeltoX;
158 yy *= pixeltoY;
159 }
160 xv[i] = xx + fX1;
161 yv[i] = yy + fY1;
162 }
163 if (gPad) gPad->Modified();
164}
165
166////////////////////////////////////////////////////////////////////////////////
167/// Compute distance from point px,py to a line.
168
170{
171 return DistancetoLine(px,py,fX1,fY1,fX2,fY2);
172}
173
174////////////////////////////////////////////////////////////////////////////////
175/// Execute action corresponding to one event.
176///
177/// This member function is called when a TCurlyLine is clicked with the locator
178///
179/// If Left button clicked on one of the line end points, this point
180/// follows the cursor until button is released.
181///
182/// if Middle button clicked, the line is moved parallel to itself
183/// until the button is released.
184
186{
187 if (!gPad) return;
188
189 Int_t kMaxDiff = 20;
190 static Int_t d1,d2,px1,px2,py1,py2;
191 static Int_t pxold, pyold, px1old, py1old, px2old, py2old;
192 static Bool_t p1, p2, pL;
193 Int_t dx, dy;
194
195 Bool_t opaque = gPad->OpaqueMoving();
196
197 switch (event) {
198
199 case kArrowKeyPress:
200 case kButton1Down:
201 if (!opaque) {
202 gVirtualX->SetLineColor(-1);
203 TAttLine::Modify(); //Change line attributes only if necessary
204 }
205
206 // No break !!!
207
208 case kMouseMotion:
209
210 px1 = gPad->XtoAbsPixel(fX1);
211 py1 = gPad->YtoAbsPixel(fY1);
212 px2 = gPad->XtoAbsPixel(fX2);
213 py2 = gPad->YtoAbsPixel(fY2);
214
215 p1 = p2 = pL = kFALSE;
216
217 d1 = TMath::Abs(px1 - px) + TMath::Abs(py1-py); //simply take sum of pixels differences
218 if (d1 < kMaxDiff) { //*-*================>OK take point number 1
219 px1old = px1; py1old = py1;
220 p1 = kTRUE;
221 gPad->SetCursor(kPointer);
222 return;
223 }
224 d2 = TMath::Abs(px2 - px) + TMath::Abs(py2-py); //simply take sum of pixels differences
225 if (d2 < kMaxDiff) { //*-*================>OK take point number 2
226 px2old = px2; py2old = py2;
227 p2 = kTRUE;
228 gPad->SetCursor(kPointer);
229 return;
230 }
231
232 pL = kTRUE;
233 pxold = px; pyold = py;
234 gPad->SetCursor(kMove);
235
236 break;
237
238 case kArrowKeyRelease:
239 case kButton1Motion:
240
241 if (p1) {
242 if (!opaque) {
243 gVirtualX->DrawLine(px1old, py1old, px2, py2);
244 gVirtualX->DrawLine(px, py, px2, py2);
245 }
246 else this->SetStartPoint(gPad->AbsPixeltoX(px),gPad->AbsPixeltoY(py));
247 px1old = px;
248 py1old = py;
249 }
250 if (p2) {
251 if (!opaque) {
252 gVirtualX->DrawLine(px1, py1, px2old, py2old);
253 gVirtualX->DrawLine(px1, py1, px, py);
254 }
255 else this->SetEndPoint(gPad->AbsPixeltoX(px), gPad->AbsPixeltoY(py));
256 px2old = px;
257 py2old = py;
258 }
259 if (pL) {
260 if (!opaque) gVirtualX->DrawLine(px1, py1, px2, py2);
261 dx = px-pxold; dy = py-pyold;
262 px1 += dx; py1 += dy; px2 += dx; py2 += dy;
263 if (!opaque) gVirtualX->DrawLine(px1, py1, px2, py2);
264 pxold = px;
265 pyold = py;
266 if (opaque) {
267 this->SetStartPoint(gPad->AbsPixeltoX(px1),gPad->AbsPixeltoY(py1));
268 this->SetEndPoint(gPad->AbsPixeltoX(px2), gPad->AbsPixeltoY(py2));
269 }
270 }
271
272 if (opaque) {
273 if (p1) {
274 //check in which corner the BBox is edited
275 if (fX1>fX2) {
276 if (fY1>fY2)
277 gPad->ShowGuidelines(this, event, '2', true);
278 else
279 gPad->ShowGuidelines(this, event, '3', true);
280 }
281 else {
282 if (fY1>fY2)
283 gPad->ShowGuidelines(this, event, '1', true);
284 else
285 gPad->ShowGuidelines(this, event, '4', true);
286 }
287 }
288 if (p2) {
289 //check in which corner the BBox is edited
290 if (fX1>fX2) {
291 if (fY1>fY2)
292 gPad->ShowGuidelines(this, event, '4', true);
293 else
294 gPad->ShowGuidelines(this, event, '1', true);
295 }
296 else {
297 if (fY1>fY2)
298 gPad->ShowGuidelines(this, event, '3', true);
299 else
300 gPad->ShowGuidelines(this, event, '2', true);
301 }
302 }
303 if (pL) {
304 gPad->ShowGuidelines(this, event, 'i', true);
305 }
306 gPad->Modified(kTRUE);
307 gPad->Update();
308 }
309 break;
310
311 case kButton1Up:
312
313 if (opaque) {
314 gPad->ShowGuidelines(this, event);
315 } else {
316 if (p1) {
317 fX1 = gPad->AbsPixeltoX(px);
318 fY1 = gPad->AbsPixeltoY(py);
319 }
320 if (p2) {
321 fX2 = gPad->AbsPixeltoX(px);
322 fY2 = gPad->AbsPixeltoY(py);
323 }
324 if (pL) {
325 fX1 = gPad->AbsPixeltoX(px1);
326 fY1 = gPad->AbsPixeltoY(py1);
327 fX2 = gPad->AbsPixeltoX(px2);
328 fY2 = gPad->AbsPixeltoY(py2);
329 }
330 }
331 Build();
332 gPad->Modified();
333 if (!opaque) gVirtualX->SetLineColor(-1);
334 }
335}
336
337////////////////////////////////////////////////////////////////////////////////
338/// Save primitive as a C++ statement(s) on output stream out
339
340void TCurlyLine::SavePrimitive(std::ostream &out, Option_t * /*= ""*/)
341{
342 if (gROOT->ClassSaved(TCurlyLine::Class())) {
343 out<<" ";
344 } else {
345 out<<" TCurlyLine *";
346 }
347 out<<"curlyline = new TCurlyLine("
348 <<fX1<<","<<fY1<<","<<fX2<<","<<fY2<<","
349 <<fWaveLength<<","<<fAmplitude<<");"<<std::endl;
350 if (!fIsCurly) {
351 out<<" curlyline->SetWavy();"<<std::endl;
352 }
353 SaveLineAttributes(out,"curlyline",1,1,1);
354 out<<" curlyline->Draw();"<<std::endl;
355}
356
357////////////////////////////////////////////////////////////////////////////////
358/// Set curly.
359
361{
362 fIsCurly = kTRUE;
363 Build();
364}
365
366////////////////////////////////////////////////////////////////////////////////
367/// Set wavy.
368
370{
372 Build();
373}
374
375////////////////////////////////////////////////////////////////////////////////
376/// Set wave length.
377
379{
380 fWaveLength = x;
381 Build();
382}
383
384////////////////////////////////////////////////////////////////////////////////
385/// Set amplitude.
386
388{
389 fAmplitude = x;
390 Build();
391}
392
393////////////////////////////////////////////////////////////////////////////////
394/// Set start point.
395
397{
398 fX1 = x;
399 fY1 = y;
400 Build();
401}
402
403////////////////////////////////////////////////////////////////////////////////
404/// Set end point.
405
407{
408 fX2 = x;
409 fY2 = y;
410 Build();
411}
412
413////////////////////////////////////////////////////////////////////////////////
414/// Set default wave length.
415
417{
418 fgDefaultWaveLength = WaveLength;
419}
420
421////////////////////////////////////////////////////////////////////////////////
422/// Set default amplitude.
423
425{
426 fgDefaultAmplitude = Amplitude;
427}
428
429////////////////////////////////////////////////////////////////////////////////
430/// Set default "IsCurly".
431
433{
434 fgDefaultIsCurly = IsCurly;
435}
436
437////////////////////////////////////////////////////////////////////////////////
438/// Get default wave length.
439
441{
442 return fgDefaultWaveLength;
443}
444
445////////////////////////////////////////////////////////////////////////////////
446/// Get default amplitude.
447
449{
450 return fgDefaultAmplitude;
451}
452
453////////////////////////////////////////////////////////////////////////////////
454/// Get default "IsCurly".
455
457{
458 return fgDefaultIsCurly;
459}
460
461////////////////////////////////////////////////////////////////////////////////
462/// Return the bounding Box of the CurlyLine
463
465{
466 Rectangle_t BBox;
467 Int_t px1, py1, px2, py2;
468 px1 = gPad->XtoPixel(fX1);
469 px2 = gPad->XtoPixel(fX2);
470 py1 = gPad->YtoPixel(fY1);
471 py2 = gPad->YtoPixel(fY2);
472
473 Int_t tmp;
474 if (px1>px2) { tmp = px1; px1 = px2; px2 = tmp;}
475 if (py1>py2) { tmp = py1; py1 = py2; py2 = tmp;}
476
477 BBox.fX = px1;
478 BBox.fY = py1;
479 BBox.fWidth = px2-px1;
480 BBox.fHeight = py2-py1;
481
482 return (BBox);
483}
484
485////////////////////////////////////////////////////////////////////////////////
486/// Return the center of the BoundingBox as TPoint in pixels
487
489{
490 TPoint p;
491 p.SetX(gPad->XtoPixel(TMath::Min(fX1,fX2)+0.5*(TMath::Max(fX1, fX2)-TMath::Min(fX1, fX2))));
492 p.SetY(gPad->YtoPixel(TMath::Min(fY1,fY2)+0.5*(TMath::Max(fY1, fY2)-TMath::Min(fY1, fY2))));
493 return(p);
494}
495
496////////////////////////////////////////////////////////////////////////////////
497/// Set center of the BoundingBox
498
500{
503 Double_t x1, x2, y1, y2;
504
505 if (fX2 > fX1) {
506 x1 = gPad->PixeltoX(p.GetX())-0.5*w;
507 x2 = gPad->PixeltoX(p.GetX())+0.5*w;
508 } else {
509 x2 = gPad->PixeltoX(p.GetX())-0.5*w;
510 x1 = gPad->PixeltoX(p.GetX())+0.5*w;
511 }
512 if (fY2 > fY1) {
513 y1 = gPad->PixeltoY(p.GetY()-gPad->VtoPixel(0))-0.5*h;
514 y2 = gPad->PixeltoY(p.GetY()-gPad->VtoPixel(0))+0.5*h;
515 } else {
516 y2 = gPad->PixeltoY(p.GetY()-gPad->VtoPixel(0))-0.5*h;
517 y1 = gPad->PixeltoY(p.GetY()-gPad->VtoPixel(0))+0.5*h;
518 }
519 this->SetStartPoint(x1, y1);
520 this->SetEndPoint(x2, y2);
521}
522
523////////////////////////////////////////////////////////////////////////////////
524/// Set X coordinate of the center of the BoundingBox
525
527{
529 if (fX2>fX1) {
530 this->SetStartPoint(gPad->PixeltoX(x)-0.5*w, fY1);
531 this->SetEndPoint(gPad->PixeltoX(x)+0.5*w, fY2);
532 }
533 else {
534 this->SetEndPoint(gPad->PixeltoX(x)-0.5*w, fY2);
535 this->SetStartPoint(gPad->PixeltoX(x)+0.5*w, fY1);
536 }
537}
538
539////////////////////////////////////////////////////////////////////////////////
540/// Set Y coordinate of the center of the BoundingBox
541
543{
545 if (fY2>fY1) {
546 this->SetStartPoint(fX1, gPad->PixeltoY(y-gPad->VtoPixel(0))-0.5*h);
547 this->SetEndPoint(fX2, gPad->PixeltoY(y-gPad->VtoPixel(0))+0.5*h);
548 }
549 else {
550 this->SetEndPoint(fX2, gPad->PixeltoY(y-gPad->VtoPixel(0))-0.5*h);
551 this->SetStartPoint(fX1, gPad->PixeltoY(y-gPad->VtoPixel(0))+0.5*h);
552 }
553}
554
555////////////////////////////////////////////////////////////////////////////////
556/// Set left hand side of BoundingBox to a value
557/// (resize in x direction on left)
558
560{
561 if (fX2>fX1)
562 this->SetStartPoint(gPad->PixeltoX(x), fY1);
563 else
564 this->SetEndPoint(gPad->PixeltoX(x), fY2);
565}
566
567////////////////////////////////////////////////////////////////////////////////
568/// Set right hands ide of BoundingBox to a value
569/// (resize in x direction on right)
570
572{
573 if (fX2>fX1)
574 this->SetEndPoint(gPad->PixeltoX(x), fY2);
575 else
576 this->SetStartPoint(gPad->PixeltoX(x), fY1);
577}
578
579////////////////////////////////////////////////////////////////////////////////
580/// Set top of BoundingBox to a value (resize in y direction on top)
581
583{
584 if (fY2>fY1)
585 this->SetEndPoint(fX2, gPad->PixeltoY(y - gPad->VtoPixel(0)));
586 else
587 this->SetStartPoint(fX1, gPad->PixeltoY(y - gPad->VtoPixel(0)));
588}
589
590////////////////////////////////////////////////////////////////////////////////
591/// Set bottom of BoundingBox to a value
592/// (resize in y direction on bottom)
593
595{
596 if (fY2>fY1)
597 this->SetStartPoint(fX1, gPad->PixeltoY(y - gPad->VtoPixel(0)));
598 else
599 this->SetEndPoint(fX2, gPad->PixeltoY(y - gPad->VtoPixel(0)));
600}
@ kMouseMotion
Definition Buttons.h:23
@ kArrowKeyRelease
Definition Buttons.h:21
@ kButton1Motion
Definition Buttons.h:20
@ kButton1Up
Definition Buttons.h:19
@ kArrowKeyPress
Definition Buttons.h:21
@ kButton1Down
Definition Buttons.h:17
@ kMove
Definition GuiTypes.h:374
@ kPointer
Definition GuiTypes.h:375
#define h(i)
Definition RSha256.hxx:106
bool Bool_t
Definition RtypesCore.h:63
int Int_t
Definition RtypesCore.h:45
constexpr Bool_t kFALSE
Definition RtypesCore.h:101
double Double_t
Definition RtypesCore.h:59
constexpr Bool_t kTRUE
Definition RtypesCore.h:100
const char Option_t
Definition RtypesCore.h:66
#define ClassImp(name)
Definition Rtypes.h:377
winID h TVirtualViewer3D TVirtualGLPainter p
Option_t Option_t TPoint TPoint const char x2
Option_t Option_t TPoint TPoint const char x1
Option_t Option_t TPoint TPoint angle
Option_t Option_t TPoint TPoint const char y2
Option_t Option_t TPoint TPoint const char y1
#define gROOT
Definition TROOT.h:405
#define gPad
#define gVirtualX
Definition TVirtualX.h:338
virtual void Modify()
Change current line attributes if necessary.
Definition TAttLine.cxx:245
Int_t DistancetoLine(Int_t px, Int_t py, Double_t xp1, Double_t yp1, Double_t xp2, Double_t yp2)
Compute distance from point px,py to a line.
Definition TAttLine.cxx:209
virtual void SaveLineAttributes(std::ostream &out, const char *name, Int_t coldef=1, Int_t stydef=1, Int_t widdef=1)
Save line attributes as C++ statement(s) on output stream out.
Definition TAttLine.cxx:273
Implements curly or wavy polylines used to draw Feynman diagrams.
Definition TCurlyLine.h:19
TCurlyLine()
Default constructor.
virtual void SetWaveLength(Double_t WaveLength)
Set wave length.
virtual void SetCurly()
Set curly.
static TClass * Class()
Double_t fY1
start y, center for arc
Definition TCurlyLine.h:23
virtual void SetAmplitude(Double_t x)
Set amplitude.
Double_t fWaveLength
wavelength of sinusoid in percent of pad height
Definition TCurlyLine.h:26
Double_t fAmplitude
amplitude of sinusoid in percent of pad height
Definition TCurlyLine.h:27
void SetBBoxY1(const Int_t y) override
Set top of BoundingBox to a value (resize in y direction on top)
virtual void SetStartPoint(Double_t x1, Double_t y1)
Set start point.
void SetBBoxX2(const Int_t x) override
Set right hands ide of BoundingBox to a value (resize in x direction on right)
Int_t fNsteps
used internally (controls precision)
Definition TCurlyLine.h:28
void SetBBoxCenter(const TPoint &p) override
Set center of the BoundingBox.
void SetBBoxY2(const Int_t y) override
Set bottom of BoundingBox to a value (resize in y direction on bottom)
Rectangle_t GetBBox() override
Return the bounding Box of the CurlyLine.
TPoint GetBBoxCenter() override
Return the center of the BoundingBox as TPoint in pixels.
static Double_t GetDefaultWaveLength()
Get default wave length.
static Bool_t GetDefaultIsCurly()
Get default "IsCurly".
virtual void Build()
Create a curly (Gluon) or wavy (Gamma) line.
void SavePrimitive(std::ostream &out, Option_t *="") override
Save primitive as a C++ statement(s) on output stream out.
static void SetDefaultAmplitude(Double_t Amplitude)
Set default amplitude.
static void SetDefaultWaveLength(Double_t WaveLength)
Set default wave length.
static Bool_t fgDefaultIsCurly
default curly type
Definition TCurlyLine.h:33
Double_t fY2
end y
Definition TCurlyLine.h:25
static Double_t GetDefaultAmplitude()
Get default amplitude.
virtual void SetEndPoint(Double_t x2, Double_t y2)
Set end point.
void SetBBoxX1(const Int_t x) override
Set left hand side of BoundingBox to a value (resize in x direction on left)
Double_t fX1
start x, center for arc
Definition TCurlyLine.h:22
static Double_t fgDefaultWaveLength
default wavelength
Definition TCurlyLine.h:31
void SetBBoxCenterX(const Int_t x) override
Set X coordinate of the center of the BoundingBox.
static void SetDefaultIsCurly(Bool_t IsCurly)
Set default "IsCurly".
virtual void SetWavy()
Set wavy.
static Double_t fgDefaultAmplitude
default amplitude
Definition TCurlyLine.h:32
Int_t DistancetoPrimitive(Int_t px, Int_t py) override
Compute distance from point px,py to a line.
Double_t fX2
end x
Definition TCurlyLine.h:24
void ExecuteEvent(Int_t event, Int_t px, Int_t py) override
Execute action corresponding to one event.
Bool_t fIsCurly
true: Gluon, false: Gamma
Definition TCurlyLine.h:29
void SetBBoxCenterY(const Int_t y) override
Set Y coordinate of the center of the BoundingBox.
virtual Bool_t InheritsFrom(const char *classname) const
Returns kTRUE if object inherits from class "classname".
Definition TObject.cxx:525
Double_t * GetX() const
Definition TPolyLine.h:54
Double_t * GetY() const
Definition TPolyLine.h:55
virtual void SetPolyLine(Int_t n)
Resize this polyline to size n.
Double_t y[n]
Definition legend1.C:17
Double_t x[n]
Definition legend1.C:17
Short_t Max(Short_t a, Short_t b)
Returns the largest of a and b.
Definition TMathBase.h:250
Double_t ATan2(Double_t y, Double_t x)
Returns the principal value of the arc tangent of y/x, expressed in radians.
Definition TMath.h:644
Double_t Sqrt(Double_t x)
Returns the square root of x.
Definition TMath.h:660
Short_t Min(Short_t a, Short_t b)
Returns the smallest of a and b.
Definition TMathBase.h:198
Double_t Cos(Double_t)
Returns the cosine of an angle of x radians.
Definition TMath.h:592
constexpr Double_t Pi()
Definition TMath.h:37
Double_t Sin(Double_t)
Returns the sine of an angle of x radians.
Definition TMath.h:586
Short_t Abs(Short_t d)
Returns the absolute value of parameter Short_t d.
Definition TMathBase.h:123
Rectangle structure (maps to the X11 XRectangle structure)
Definition GuiTypes.h:361
Short_t fX
Definition GuiTypes.h:362
UShort_t fHeight
Definition GuiTypes.h:363
Short_t fY
Definition GuiTypes.h:362
UShort_t fWidth
Definition GuiTypes.h:363