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G4OpenGLXmRotationCallbacks.cc
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27 // $Id: G4OpenGLXmRotationCallbacks.cc 66373 2012-12-18 09:41:34Z gcosmo $
28 //
29 //
30 // Andrew Walkden 16th April 1997
31 // G4OpenGLXmRotationCallbacks :
32 // Several callback functions used by
33 // elements of the control panel to
34 // rotate the view.
35 
36 #ifdef G4VIS_BUILD_OPENGLXM_DRIVER
37 
38 #include "G4OpenGLXmViewer.hh"
39 
40 #include "G4PhysicalConstants.hh"
41 #include "G4Scene.hh"
42 #include "G4UImanager.hh"
43 #include "G4ios.hh"
44 
45 void G4OpenGLXmViewer::theta_rotation_callback (Widget w,
46  XtPointer clientData,
47  XtPointer callData)
48 {
49  XmArrowButtonCallbackStruct *cbs = (XmArrowButtonCallbackStruct*) callData;
50  G4OpenGLXmViewer* pView = (G4OpenGLXmViewer*) clientData;
51 
52  pView->rotate_right = get_boolean_userData (w);
53 
54  if (cbs->reason == XmCR_ARM) {
55  rotate_in_theta (pView, NULL);
56  } else if (cbs->reason == XmCR_DISARM) {
57  XtRemoveTimeOut (pView->rotation_timer);
58  }
59 }
60 
61 void G4OpenGLXmViewer::rotate_in_theta (XtPointer clientData,
62  XtIntervalId* timer_id)
63 {
64  //theta spin stuff here
65  G4OpenGLXmViewer* pView = (G4OpenGLXmViewer*) clientData;
66 
67  if (pView->rotate_right) {
68  pView->rotateScene(1,0);
69  } else {
70  pView->rotateScene(-1,0);
71  }
72  /*
73  G4double delta_theta;
74 
75  if (pView->fVP.GetLightsMoveWithCamera()) {
76  if (pView->rotate_right) {
77  delta_theta = -(pView->fRot_sens);
78  } else {
79  delta_theta = pView->fRot_sens;
80  }
81  } else {
82  if (pView->rotate_right) {
83  delta_theta = pView->fRot_sens;
84  } else {
85  delta_theta = -(pView->fRot_sens);
86  }
87  }
88  delta_theta *= deg;
89  // Rotates by fixed azimuthal angle delta_theta.
90 
91  const G4Vector3D& vp = pView->fVP.GetViewpointDirection ().unit ();
92  const G4Vector3D& up = pView->fVP.GetUpVector ().unit ();
93  const G4Vector3D& zprime = up;
94  G4double cosalpha = up.dot (vp);
95  G4double sinalpha = std::sqrt (1. - std::pow (cosalpha, 2));
96  G4Vector3D yprime = (zprime.cross (vp)).unit ();
97  G4Vector3D xprime = yprime.cross (zprime);
98  // Projection of vp on plane perpendicular to up...
99  G4Vector3D a1 = sinalpha * xprime;
100  // Required new projection...
101  G4Vector3D a2 =
102  sinalpha * (std::cos (delta_theta) * xprime + std::sin (delta_theta) * yprime);
103  // Required Increment vector...
104  G4Vector3D delta = a2 - a1;
105  // So new viewpoint is...
106  G4Vector3D viewPoint = vp + delta;
107 
108  pView->fVP.SetViewAndLights (viewPoint);
109  */
110 
111  pView->SetView ();
112  pView->ClearView ();
113  pView->DrawView ();
114 
115  pView->rotation_timer = XtAppAddTimeOut
116  (pView->app,
117  timer_id == NULL ? 500 : 1,
118  rotate_in_theta,
119  pView);
120 }
121 
122 void G4OpenGLXmViewer::phi_rotation_callback (Widget w,
123  XtPointer clientData,
124  XtPointer callData)
125 {
126  XmArrowButtonCallbackStruct *cbs = (XmArrowButtonCallbackStruct*) callData;
127  G4OpenGLXmViewer* pView = (G4OpenGLXmViewer*) clientData;
128 
129  pView->rotate_up = get_boolean_userData (w);
130 
131  if (cbs->reason == XmCR_ARM) {
132  rotate_in_phi (pView, NULL);
133  } else if (cbs->reason == XmCR_DISARM) {
134  XtRemoveTimeOut (pView->rotation_timer);
135  }
136 }
137 
138 void G4OpenGLXmViewer::rotate_in_phi (XtPointer clientData,
139  XtIntervalId* timer_id)
140 {
141  //phi spin stuff here
142  // G4double delta_alpha;
143  G4OpenGLXmViewer* pView = (G4OpenGLXmViewer*) clientData;
144 
145  if (pView -> rotate_up) {
146  pView->rotateScene(0,-1);
147  } else {
148  pView->rotateScene(0,1);
149  }
150  /*
151  if (pView->fVP.GetLightsMoveWithCamera()) {
152  if (pView -> rotate_up) {
153  delta_alpha = -(pView->fRot_sens);
154  } else {
155  delta_alpha = pView->fRot_sens;
156  }
157  } else {
158  if (pView -> rotate_up) {
159  delta_alpha = pView->fRot_sens;
160  } else {
161  delta_alpha = -(pView->fRot_sens);
162  }
163  }
164 
165  delta_alpha *= deg;
166 
167  const G4Vector3D& vp = pView->fVP.GetViewpointDirection ().unit ();
168  const G4Vector3D& up = pView->fVP.GetUpVector ().unit ();
169 
170  const G4Vector3D& xprime = vp;
171  G4Vector3D yprime = (up.cross(xprime)).unit();
172  G4Vector3D zprime = (xprime.cross(yprime)).unit();
173 
174  G4Vector3D new_vp = std::cos(delta_alpha) * xprime + std::sin(delta_alpha) * zprime;
175 
176  pView->fVP.SetViewAndLights (new_vp.unit());
177 
178  if (pView->fVP.GetLightsMoveWithCamera()) {
179  G4Vector3D new_up = (new_vp.cross(yprime)).unit();
180  pView->fVP.SetUpVector(new_up);
181  }
182 
183  */
184  pView->SetView ();
185  pView->ClearView ();
186  pView->DrawView ();
187 
188  pView->rotation_timer = XtAppAddTimeOut
189  (pView->app,
190  timer_id == NULL ? 500 : 1,
191  rotate_in_phi,
192  pView);
193 }
194 
195 void G4OpenGLXmViewer::set_rot_sens_callback (Widget w,
196  XtPointer clientData,
197  XtPointer callData)
198 {
199  XmScaleCallbackStruct *cbs = (XmScaleCallbackStruct*) callData;
200  G4OpenGLXmViewer* pView = (G4OpenGLXmViewer*) clientData;
201  short dp = -1;
202  G4float ten_to_the_dp = 10.;
203 
204  XtVaGetValues (w,
205  XmNdecimalPoints, &dp,
206  NULL);
207 
208  if (dp == 0) {
209  ten_to_the_dp = 1.;
210  } else if ( dp > 0) {
211  for (G4int i = 1; i < (G4int)dp; i++) {
212  ten_to_the_dp *= 10.;
213  }
214  } else {
216  ("G4OpenGLXmViewer::set_rot_sens_callback",
217  "opengl2004", FatalException,
218  "Bad value returned for dp in set_rot_sens_callback");
219  }
220 
221  pView->fRot_sens = (G4float)(cbs->value) / ten_to_the_dp;
222 }
223 
224 void G4OpenGLXmViewer::set_rot_subject_callback (Widget w,
225  XtPointer clientData,
226  XtPointer)
227 {
228  G4OpenGLXmViewer* pView = (G4OpenGLXmViewer*)clientData;
229 
230  G4int choice = get_int_userData (w);
231 
232  switch (choice) {
233  case 0:
234  {
235  pView->fVP.SetLightsMoveWithCamera (true);
236  break;
237  }
238  case 1:
239  {
240  pView->fVP.SetLightsMoveWithCamera (false);
241  break;
242  }
243  default:
244  {
246  ("G4OpenGLXmViewer::set_rot_subject_callback",
247  "opengl2005", FatalException,
248  "Unrecognised choice made in set_rot_subject_callback");
249  }
250  }
251 }
252 
253 void G4OpenGLXmViewer::wobble_callback (Widget w,
254  XtPointer,
255  XtPointer)
256 {
257  G4OpenGLXmViewer* pView;
258 
259  XtVaGetValues (w,
260  XmNuserData, &pView,
261  NULL);
262 
263  pView->original_vp = pView->fVP.GetViewpointDirection();
264  pView->wobble_timer = XtAppAddTimeOut
265  (pView->app,
266  (long unsigned int) (1000. * (1. / pView->wob_sens)),
267  wobble_timer_callback,
268  pView);
269 }
270 
271 void G4OpenGLXmViewer::wobble_timer_callback (XtPointer clientData,
272  XtIntervalId*)
273 {
274  G4OpenGLXmViewer* pView = (G4OpenGLXmViewer*)clientData;
275  const G4Vector3D& up = pView->fVP.GetUpVector();
276  G4Vector3D third_axis = up.cross(pView->original_vp);
277  G4double pi_div_by_ten = pi / 10.0;
278  G4Vector3D d_up = 0.1 * (std::sin ((G4double)pView->frameNo * pi_div_by_ten * 2.)) * up;
279  G4Vector3D d_third_axis = 0.1 * (std::sin ((G4double)pView->frameNo * (pi_div_by_ten))) * third_axis;
280 
281  pView->fVP.SetViewAndLights (pView->original_vp + d_up + d_third_axis);
282 
283  pView->SetView ();
284  pView->ClearView ();
285  pView->DrawView ();
286 
287  if (pView->frameNo++ == 20) {
288  if (pView->wobble_timer) {
289  XtRemoveTimeOut (pView->wobble_timer);
290  pView->frameNo = 0;
291  pView->fVP.SetViewAndLights (pView->original_vp);
292  pView->SetView ();
293  pView->ClearView ();
294  pView->DrawView ();
295  }
296  } else {
297  pView->wobble_timer = XtAppAddTimeOut
298  (pView->app,
299  (long unsigned int) (1000. * (1. / pView->wob_sens)),
300  wobble_timer_callback,
301  pView);
302  }
303 }
304 
305 void G4OpenGLXmViewer::reset_callback (Widget w,
306  XtPointer,
307  XtPointer)
308 {
309 
310  G4OpenGLXmViewer* pView;
311 
312  XtVaGetValues (w,
313  XmNuserData, &pView,
314  NULL);
315 
316  pView->fVP.SetCurrentTargetPoint(G4Point3D());
317  pView->fVP.SetZoomFactor(1.0);
318  pView->fVP.SetDolly(0.0);
319  pView->SetView ();
320  pView->ClearView ();
321  pView->DrawView ();
322  pView->zoom_low = 0.1;
323  pView->zoom_high = 10.0;
324 
325 }
326 #endif
float G4float
Definition: G4Types.hh:77
BasicVector3D< T > cross(const BasicVector3D< T > &v) const
double G4double
Definition: G4Types.hh:76
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *description)
Definition: G4Exception.hh:65
int G4int
Definition: G4Types.hh:78
static constexpr double pi
Definition: G4SIunits.hh:75
HepGeom::Point3D< G4double > G4Point3D
Definition: G4Point3D.hh:35