0024023: Revamp the OCCT Handle -- ambiguity
[occt.git] / src / AIS / AIS_InteractiveObject.cdl
CommitLineData
b311480e 1-- Created on: 1996-12-11
2-- Created by: Robert COUBLANC
3-- Copyright (c) 1996-1999 Matra Datavision
973c2be1 4-- Copyright (c) 1999-2014 OPEN CASCADE SAS
b311480e 5--
973c2be1 6-- This file is part of Open CASCADE Technology software library.
b311480e 7--
d5f74e42 8-- This library is free software; you can redistribute it and/or modify it under
9-- the terms of the GNU Lesser General Public License version 2.1 as published
973c2be1 10-- by the Free Software Foundation, with special exception defined in the file
11-- OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
12-- distribution for complete text of the license and disclaimer of any warranty.
b311480e 13--
973c2be1 14-- Alternatively, this file may be used under the terms of Open CASCADE
15-- commercial license or contractual agreement.
b311480e 16
7fd59977 17deferred class InteractiveObject from AIS inherits SelectableObject from SelectMgr
18
19 ---Purpose:
20 -- Defines a class of objects with display and selection services.
21 -- Entities which are visualized and selected are
22 -- Interactive Objects. You can make use of classes of
23 -- standard Interactive Objects for which all necessary
24 -- methods have already been programmed, or you can
25 -- implement your own classes of Interactive Objects.
26 -- Specific attributes of entities such as arrow aspect for
27 -- dimensions must be loaded in a Drawer. This Drawer
28 -- is then applied to the Interactive Object in view.
29 -- There are four types of Interactive Object in AIS: the
30 -- construction element or Datum, the Relation, which
31 -- includes both dimensions and constraints, the Object,
32 -- and finally, when the object is of an unknown type, the None type.
33 -- Inside these categories, a signature, or index,
34 -- provides the possibility of additional characterization.
35 -- By default, the Interactive Object has a None type
36 -- and a signature of 0. If you want to give a particular
37 -- type and signature to your interactive object, you must
38 -- redefine the methods, Signature and Type.
39 -- Warning
40 -- In the case of attribute methods, methods for
41 -- standard attributes are virtual. They must be
42 -- redefined by the inheriting classes. Setcolor for a
43 -- point and Setcolor for a plane, for example, do not
44 -- affect the same attributes in the Drawer.
45
46uses
47 Trsf from gp,
48 NameOfColor from Quantity,
49 Color from Quantity,
50 Ratio from Quantity,
51 ListOfTransient from TColStd,
52 ListOfInteger from TColStd,
53 Box from Bnd,
54 NameOfMaterial from Graphic3d,
55 MaterialAspect from Graphic3d,
7fd59977 56 PToContext from AIS,
57 TypeOfPresentation3d from PrsMgr,
58 InteractiveContext from AIS,
59 KindOfInteractive from AIS,
60 TypeOfFacingModel from Aspect,
7fd59977 61 Transformation from Geom,
62 Presentation from Prs3d,
63 BasicAspect from Prs3d,
64 -- 22-03-04 OCC4895 SAN High-level interface for controlling polygon offsets
65 PresentationManager from PrsMgr,
66 Presentation from PrsMgr
67 -- 22-03-04 OCC4895 SAN High-level interface for controlling polygon offsets
68
69is
70 Initialize (aTypeOfPresentation3d: TypeOfPresentation3d from PrsMgr = PrsMgr_TOP_AllView) ;
71 ---Purpose: The TypeOfPresention3d means that the interactive object
72 -- may have a presentation dependant of the view of Display
73
74
75
76 ---Category: Virtual methods to be redefined...
77
78 Type (me) returns KindOfInteractive from AIS is virtual;
79 ---Purpose:
80 -- Returns the kind of Interactive Object:
81 -- - None
82 -- - Datum
83 -- - Relation
84 -- - Object
85 -- By default, the interactive object has a None type.
86 -- Because specific shapes entail different behavior
87 -- according to their sub-shapes, you may need to
88 -- create a Local Context. This will allow you to
89 -- specify the additional characteristics which you
90 -- need to handle these shapes.
91
92 Signature(me) returns Integer from Standard is virtual;
93 ---Purpose: Specifies additional characteristics of Interactive
94 -- Objects. A signature is, in fact, an index with integer
95 -- values assigned different properties.
96 -- This method is frequently used in conjuction with
97 -- Type to give a particular type and signature to an
98 -- Interactive Object. By default, the Interactive Object
99 -- has a None type and a signature of 0. Among the
100 -- datums, this signature is attributed to the shape
101 -- The remaining datums have the following default signatures:
102 -- - Point signature 1
103 -- - Axis signature 2
104 -- - Trihedron signature 3
105 -- - PlaneTrihedron signature 4
106 -- - Line signature 5
107 -- - Circle signature 6
108 -- - Plane signature 7.
109
110
111 AcceptShapeDecomposition(me) returns Boolean from Standard is virtual;
112 ---C++: inline
113 ---Purpose: Informs the graphic context that the interactive Object
114 -- may be decomposed into sub-shapes for dynamic selection.
115 -- The most used Interactive Object is AIS_Shape.
116 -- Activation methods for standard selection modes are
117 -- proposed in the Interactive Context. These include
118 -- selection by vertex or by edges. For datums with the
119 -- same behavior as AIS_Shape, such as vetices and
120 -- edges, we must redefine the virtual method so that
121 -- AcceptShapeDecomposition returns false.
122 -- Rule for selection :
123 -- Mode 0 : Selection of the interactive Object itself
124 -- Mode 1 : Selection of vertices
125 -- Mode 2 : Selection Of Edges
126 -- Mode 3 : Selection Of Wires
127 -- Mode 4 : Selection Of Faces ...
128
129
130 SetCurrentFacingModel(me: mutable;
131 aModel: TypeOfFacingModel from Aspect = Aspect_TOFM_BOTH_SIDE);
132 ---Purpose: change the current facing model apply on polygons for
133 -- SetColor(), SetTransparency(), SetMaterial() methods
134 -- default facing model is Aspect_TOFM_TWO_SIDE. This mean that attributes is
135 -- applying both on the front and back face.
136
137 CurrentFacingModel(me) returns TypeOfFacingModel from Aspect;
138 ---Purpose: Returns the current facing model which is in effect.
139
140 SetColor(me:mutable;aColor:Color from Quantity) is virtual;
141
142 SetColor(me:mutable;aColor:NameOfColor from Quantity) is virtual;
143 ---Purpose: only the interactive obj knowns which Drawer attribute
144 -- is affected by the color (ex: for a wire, it's the
145 -- wireaspect field of the drawer, but for a vertex, only
146 -- the point aspect field is affected by the color)
147 -- WARNING : Do not forget to set the corresponding fields
148 -- here (hasOwnColor and myOwnColor)
149
150 UnsetColor(me:mutable) is virtual;
151 ---Purpose: Removes color settings. Only the Interactive Object
152 -- knows which Drawer attribute is affected by the color
153 -- setting. For a wire, for example, wire aspect is the
154 -- attribute affected. For a vertex, however, only point
155 -- aspect is affected by the color setting.
156
157 SetWidth(me:mutable; aValue:Real from Standard) is virtual;
158 ---Purpose: Allows you to provide the setting aValue for width.
159 -- Only the Interactive Object knows which Drawer
160 -- attribute is affected by the width setting.
161
162 UnsetWidth(me:mutable) is virtual;
163
164 AcceptDisplayMode(me;aMode:Integer from Standard) returns Boolean from Standard is virtual;
165 ---Purpose: Returns true if the class of objects accepts the display mode aMode.
166 -- The interactive context can have a default mode of
167 -- representation for the set of Interactive Objects. This
168 -- mode may not be accepted by a given class of
169 -- objects. Consequently, this virtual method allowing us
170 -- to get information about the class in question must be implemented.
171 DefaultDisplayMode(me) returns Integer from Standard is virtual;
172 ---Purpose: Returns the default display mode. This method is to
173 -- be implemented when the main mode is not mode 0.
174
175
36132a2e 176 Redisplay (me:mutable; AllModes:Boolean from Standard =Standard_False);
177 ---Purpose: Updates the active presentation; if <AllModes> = Standard_True
178 -- all the presentations inside are recomputed.
179 -- IMPORTANT: It is preferable to call Redisplay method of
180 -- corresponding AIS_InteractiveContext instance for cases when it
181 -- is accessible. This method just redirects call to myCTXPtr,
182 -- so this class field must be up to date for proper result.
7fd59977 183
184
185 SetInfiniteState(me:mutable;aFlag:Boolean from Standard = Standard_True);
186 ---Purpose: Sets the infinite state flag aFlage.
187 -- if <aFlag> = True , the interactiveObject is
188 -- considered as infinite, i.e. its graphic presentations
189 -- are not taken in account for View FitAll...
190
191 IsInfinite(me) returns Boolean from Standard;
192 ---C++: inline
193 ---Purpose:
194 -- Returns true if the interactive object is infinite. In this
195 -- case, its graphic presentations are not taken into
196 -- account in the fit-all view.
197
198
199 ---Category: Link To InteractiveContext
200
201 HasInteractiveContext(me) returns Boolean from Standard;
202 ---Purpose: Indicates whether the Interactive Object has a pointer
203 -- to an interactive context.
204
205 GetContext(me) returns InteractiveContext from AIS;
206 ---Purpose: Returns the context pointer to the interactive context.
207
208 SetContext(me:mutable; aCtx : InteractiveContext from AIS) is virtual;
209 ---Purpose: Sets the interactive context aCtx and provides a link
210 -- to the default drawing tool or "Drawer" if there is none.
211
212 HasOwner (me) returns Boolean from Standard;
213 ---Purpose: Returns true if the object has an owner attributed to it.
214 -- The owner can be a shape for a set of sub-shapes or
215 -- a sub-shape for sub-shapes which it is composed of,
216 -- and takes the form of a transient.
217
218 GetOwner (me) returns any Transient from Standard;
219 ---Purpose: Returns the owner of the Interactive Object.
220 -- The owner can be a shape for a set of sub-shapes or
221 -- a sub-shape for sub-shapes which it is composed of,
222 -- and takes the form of a transient.
223 -- There are two types of owners:
224 -- - Direct owners, decomposition shapes such as
225 -- edges, wires, and faces.
226 -- - Users, presentable objects connecting to sensitive
227 -- primitives, or a shape which has been decomposed.
228 ---C++: inline
229 ---C++: return const&
230
231
232
233 SetOwner (me : mutable;
234 ApplicativeEntity : Transient from Standard);
235 ---Purpose: Allows you to attribute the owner ApplicativeEntity to
236 -- an Interactive Object. This can be a shape for a set of
237 -- sub-shapes or a sub-shape for sub-shapes which it
238 -- is composed of. The owner takes the form of a transient.
239 ---C++: inline
240
241 ClearOwner(me:mutable);
242 ---Purpose: Each Interactive Object has methods which allow us
243 -- to attribute an Owner to it in the form of a Transient.
244 -- This method removes the owner from the graphic entity.
245
246
247 HasUsers(me) returns Boolean from Standard;
248
249 Users(me) returns ListOfTransient from TColStd;
250 ---C++: inline
251 ---C++: return const&
252
253
254 AddUser(me:mutable; aUser : Transient from Standard);
255
256 ClearUsers(me:mutable);
257
258
259
260 ---Category: "STANDARD" LOCAL ATTRIBUTES :
261 --
262 -- -Local DisplayMode
263 -- -Color
264 -- -width of lines or points
265 -- -typeOfLine or Marker Aspect
266 -- -material name (if needed)
267 -- -transparency (if needed)
268 --
269 -- Specific attributes of entities (such as
270 -- arrow aspect for dimensions) must be
271 -- loaded in a Drawer; this drawer is then
272 -- applied to InteractiveObject WARNING :
273 -- Here the Methods for standard attributes
274 -- are virtual and do nothing they must be
275 -- redefined by the inheriting classes
276 -- (setcolor for a point and setcolor for a plane
277 -- don't affect the same attributes in the Drawer)
278
279
280 HasDisplayMode (me)
281 returns Boolean from Standard;
282 ---Purpose:
283 -- Returns true if the Interactive Object has a display
284 -- mode setting. Otherwise, it is displayed in Neutral Point.
285 ---C++: inline
286
287 SetDisplayMode(me : mutable; aMode : Integer from Standard);
288 ---Purpose: Sets the display mode aMode for the interactive object.
289 -- An object can have its own temporary display mode,
290 -- which is different from that proposed by the interactive context.
291 -- The range of possibilities currently proposed is the following:
292 -- - AIS_WireFrame
293 -- - AIS_Shaded
7fd59977 294 -- This range can, however, be extended through the creation of new display modes.
295
296 UnsetDisplayMode(me : mutable);
297 ---Purpose: Removes display mode settings from the interactive object.
298 ---C++: inline
299
300 DisplayMode(me)
301 returns Integer;
302 ---C++: inline
303 ---Purpose: Returns the display mode setting of the Interactive Object.
304 -- The range of possibilities is the following:
305 -- - AIS_WireFrame
306 -- - AIS_Shaded
7fd59977 307 -- This range can, however, be extended through the
308 -- creation of new display modes.
309
310
311 HasSelectionMode(me) returns Boolean from Standard;
312 ---Purpose: Allows you to change the selection mode of an
313 -- Interactive Object.
314 -- The default selection mode setting is 0.
315 -- For shapes, for example, the selection modes are as follows:
316 -- - mode 0 - selection of the shape itself
317 -- - mode 1 - selection of vertices
318 -- - mode 2 - selection of edges
319 -- - mode 3 - selection of wires
320 -- - mode 4 - selection of faces
321 -- - mode 5 - selection of shells
322 -- - mode 6 - selection of solids
323 -- - mode 7 - selection of compounds
324 -- For trihedra, on the other hand, the selection modes are the following four:
325 -- - mode 0 - selection of a trihedron
326 -- - mode 1 - selection of its origin
327 -- - mode 2 - selection of its axes
328 -- - mode 3 - selection of its planes
329
330 SelectionMode(me) returns Integer from Standard;
331 ---Purpose: Returns the selection mode of the interactive object.
332
333 SetSelectionMode(me:mutable; aMode: Integer from Standard);
334 ---Purpose: You can change the default selection mode index
335 -- aMode of an Interactive Object.
336 -- This is only of interest if you decide that mode 0
337 -- adopted by convention will not do.
338
339 UnsetSelectionMode(me:mutable);
340 ---Purpose: You can change the default selection mode index of
341 -- an Interactive Object.
342 -- This is only of interest if you decide that the 0 mode
343 -- adopted by convention will not do.
344 ---C++: inline
345
346
347 SelectionPriority(me) returns Integer from Standard;
348 ---C++: inline
349 ---Purpose: Returns the selection priority setting. -1 indicates that there is none.
350 -- You can modify the selection priority of an owner to
351 -- make one entity more selectionable than another one.
352 -- The default selection priority for an owner is 5, for
353 -- example. To increase selection priority, choose a
354 -- setting between 5 and 10. An entity with priority 7 will
355 -- take priority over one with a setting of 6 if both
356 -- objects are selected at the same time.
357 -- You could give vertices priority 8, edges priority 7,
358 -- faces priority 6, and shapes priority 5. If a vertex, an
359 -- edge and a face are simultaneously detected during
360 -- selection, only the vertex will then be highlighted.
361 -- For trihedra, for example, the default priorities are the following four:
362 -- - priority 1 - a trihedron
363 -- - priority 5 - its origin
364 -- - priority 3 - its axes
365 -- - priority 2 - its planes
366
367 SetSelectionPriority(me:mutable; aPriority : Integer from Standard);
368 ---C++: inline
369 ---Purpose: Allows you to provide a setting aPriority for selection priority.
370 -- You can modify selection priority of an owner to make
371 -- one entity more selectionable than another one. The
372 -- default selection priority for an owner is 5, for
373 -- example. To increase selection priority, choose a
374 -- setting between 5 and 10. An entity with priority 7 will
375 -- take priority over one with a setting of 6.
376
377 UnsetSelectionPriority(me:mutable);
378 ---C++: inline
379 ---Purpose: Removes the setting for selection priority. SelectionPriority then returns -1.
380
381 HasSelectionPriority(me) returns Boolean from Standard;
382 ---C++: inline
383 ---Purpose: Returns true if there is a setting for selection priority.
384 -- You can modify selection priority of an owner to make
385 -- one entity more selectionable than another one. The
386 -- default selection priority for an owner is 5, for
387 -- example. To increase selection priority, choose a
388 -- setting between 5 and 10. An entity with priority 7 will
389 -- take priority over one with a setting of 6.
390
391 HasHilightMode(me) returns Boolean from Standard;
392 ---C++: inline
393 ---Purpose: Returns true if the Interactive Object is in highlight mode.
394
395 HilightMode(me) returns Integer from Standard ;
396 ---C++: inline
397 ---Purpose: Returns the setting for highlight mode.
398 -- At dynamic detection, the presentation echoed by the
399 -- Interactive Context, is by default the presentation
400 -- already on the screen. You can specify a Highlight
401 -- presentation mode which is valid no matter what the
402 -- active representation of the object. It makes no
403 -- difference whether this choice is temporary or
404 -- definitive. To do this, we use the following functions:
405 -- - SetHilightMode
406 -- - UnSetHilightMode
407 -- In the case of a shape, whether it is visualized in
408 -- wireframe presentation or with shading, we want to
409 -- systematically highlight the wireframe presentation.
410 -- Consequently, we set the highlight mode to 0.
411
412 SetHilightMode(me:mutable;anIndex : Integer from Standard);
413 ---C++: inline
414 ---Purpose: Sets the highlight mode anIndex for the interactive object.
415 -- If, for example, you want to systematically highlight
416 -- the wireframe presentation of a shape - whether
417 -- visualized in wireframe presentation or with shading -
418 -- you set the highlight mode to 0.
419
420 UnsetHilightMode(me:mutable);
421 ---C++: inline
422 ---Purpose: Allows the user to take a given Prs for hilight
423 -- ex : for a shape which would be displayed in shading mode
424 -- the hilight Prs is the wireframe mode.
425 -- if No specific hilight mode is defined, the displayed Prs
426 -- will be the hilighted one.
427
428 HasColor (me) returns Boolean from Standard;
429 ---C++: inline
430 ---Purpose: Returns true if the Interactive Object has color.
431
432 Color(me) returns NameOfColor from Quantity is virtual;
433 ---C++: inline
434 ---Purpose: Returns the color setting of the Interactive Object.
435
436 Color(me; aColor: out Color from Quantity) is virtual;
437 ---C++: inline
438
439 HasWidth(me) returns Boolean from Standard;
440 ---C++: inline
441 ---Purpose: Returns true if the Interactive Object has width.
442
443 Width(me) returns Real from Standard ;
444 --- Purpose: Returns the width setting of the Interactive Object.
445
446 HasMaterial(me) returns Boolean from Standard ;
447 ---Purpose: Returns true if the Interactive Object has a setting for material.
448 Material(me) returns NameOfMaterial from Graphic3d is virtual;
449 ---Purpose: Returns the current material setting.
450 -- This will be on of the following materials:
451 -- - Brass
452 -- - Bronze
453 -- - Gold
454 -- - Pewter
455 -- - Silver
456 -- - Stone.
189f85a3 457
7fd59977 458 SetMaterial(me:mutable;aName:NameOfMaterial from Graphic3d) is virtual;
459 ---Purpose: Sets the name aName for material defining this
460 -- display attribute for the interactive object.
461 -- Material aspect determines shading aspect, color and
462 -- transparency of visible entities.
463
464
465 SetMaterial(me:mutable;aName:MaterialAspect from Graphic3d) is virtual;
466 --- Purpose: Sets the material aMat defining this display attribute
467 -- for the interactive object.
468 -- Material aspect determines shading aspect, color and
469 -- transparency of visible entities.
470
471 UnsetMaterial(me:mutable) is virtual;
472 ---Purpose: Removes the setting for material.
473
474 SetTransparency(me:mutable;aValue : Real from Standard=0.6) is virtual;
475 ---Purpose: Attributes a setting aValue for transparency.
476 -- The transparency value should be between 0.0 and 1.0.
477 -- At 0.0 an object will be totally opaque, and at 1.0, fully transparent.
478 -- Warning At a value of 1.0, there may be nothing visible.
479
480 IsTransparent(me) returns Boolean from Standard;
481 ---C++: inline
482 ---Purpose: Returns true if there is a transparency setting.
483
484 Transparency(me) returns Real from Standard is virtual;
485 ---Purpose: Returns the transparency setting.
486 -- This will be between 0.0 and 1.0.
487 -- At 0.0 an object will be totally opaque, and at 1.0, fully transparent.
488
489 UnsetTransparency(me:mutable) is virtual;
490 ---Purpose: Removes the transparency setting. The object is opaque by default.
6262338c 491
492 UnsetAttributes(me:mutable) is redefined virtual;
7fd59977 493 ---Purpose: Clears settings provided by the drawing tool aDrawer.
494
495 ---Category: information about Prs to be recomputed
496 -- after local attributes change... to be removed...
497
498 RecomputeEveryPrs(me) returns Boolean is virtual private;
499
500 MustRecomputePrs(me;aMode : Integer from Standard) is private;
501
502 ListOfRecomputeModes(me)returns ListOfInteger from TColStd is private;
503 ---C++: return const&
504 SetRecomputeOk(me:mutable) is private;
505
7fd59977 506 State(me:mutable;theState: Integer from Standard) ;
507 ---C++: inline
508 State(me) returns Integer from Standard ;
509 ---C++: inline
510
7fd59977 511 HasPresentation ( me ) returns Boolean from Standard
512 is static;
513 ---Level: Public
514 ---Purpose: Returns TRUE when this object has a presentation
515 -- in the current DisplayMode()
516 ---Category: Inquire transformation method
517
518 Presentation ( me ) returns Presentation from Prs3d
519 is static;
520 ---Level: Public
521 ---Purpose: Returns the current presentation of this object
522 -- according to the current DisplayMode()
523 ---Category: Inquire transformation method
524
525 SetAspect ( me : mutable; anAspect: any BasicAspect from Prs3d;
526 globalChange: Boolean from Standard = Standard_True)
527 is static;
528 ---Level: Public
529 ---Purpose: Sets the graphic basic aspect to the current presentation.
530 -- When <globalChange> is TRUE , the full object presentation
531 -- is changed.
532 -- When <globalChange> is FALSE , only the current group
533 -- of the object presentation is changed.
534 ---Category: Graphic attributes management
535
536 -- 22-03-04 OCC4895 SAN High-level interface for controlling polygon offsets
537 SetPolygonOffsets ( me : mutable;
538 aMode : Integer from Standard;
60be1f9b 539 aFactor : ShortReal from Standard = 1.0;
540 aUnits : ShortReal from Standard = 0.0 ) is virtual;
7fd59977 541 ---Level: Public
542 ---Purpose: Sets up polygon offsets for this object.
543 -- It modifies all existing presentations of <anObj> (if any),
544 -- so it is reasonable to call this method after <anObj> has been displayed.
545 -- Otherwise, Compute() method should pass Graphic3d_AspectFillArea3d
546 -- aspect from <myDrawer> to Graphic3d_Group to make polygon offsets work.
547 --
548 -- <aMode> parameter can contain various combinations of
549 -- Aspect_PolygonOffsetMode enumeration elements (Aspect_POM_None means
550 -- that polygon offsets are not changed).
551 -- If <aMode> is different from Aspect_POM_Off and Aspect_POM_None, then <aFactor> and <aUnits>
552 -- arguments are used by graphic renderer to calculate a depth offset value:
553 --
554 -- offset = <aFactor> * m + <aUnits> * r, where
555 -- m - maximum depth slope for the polygon currently being displayed,
556 -- r - minimum window coordinates depth resolution (implementation-specific).
557 --
558 -- Deafult settings for OCC 3D viewer: mode = Aspect_POM_Fill, factor = 1., units = 0.
559 --
560 -- Negative offset values move polygons closer to the viewport,
561 -- while positive values shift polygons away.
562 -- Consult OpenGL reference for details (glPolygonOffset function description).
563 --
564 -- NOTE: This method has a side effect - it creates own shading aspect
565 -- if not yet created, so it is better to set up object material,
566 -- color, etc. first.
567 ---Category: Graphic attributes management
568
569 HasPolygonOffsets ( me )
570 returns Boolean from Standard
571 is virtual;
572 ---Level: Public
573 ---Purpose: Returns Standard_True if <myDrawer> has non-null shading aspect
574 ---Category: Inquire methods
575
576 PolygonOffsets ( me;
577 aMode : out Integer from Standard;
60be1f9b 578 aFactor : out ShortReal from Standard;
579 aUnits : out ShortReal from Standard ) is virtual;
7fd59977 580 ---Level: Public
581 ---Purpose: Retrieves current polygon offsets settings from <myDrawer>.
582 ---Category: Inquire methods
583
f751596e 584 BoundingBox (me : mutable;
585 theBndBox : out Box from Bnd)
586 is redefined;
587 ---Level: Public
588 ---Purpose: Returns bounding box of object correspondingly to its current display mode.
589
7fd59977 590fields
591
592 myCTXPtr : PToContext from AIS;
593
594 -- The reference to applicative World...
595
596 myOwner : Transient from Standard;
597 myUsers : ListOfTransient from TColStd;
598
599 -- The Information Fields
600
7fd59977 601 myTransparency : Real from Standard is protected;
7fd59977 602 myOwnColor : Color from Quantity is protected;
603 myOwnMaterial : NameOfMaterial from Graphic3d is protected;
604 ---myOwnMaterial : NameOfPhysicalMaterial from Graphic3d is protected;
605 mySelPriority : Integer from Standard;
606 myDisplayMode : Integer from Standard ;
607 mySelectionMode : Integer from Standard;
608 myHilightMode : Integer from Standard is protected;
609 myOwnWidth : Real from Standard is protected;
610 myInfiniteState : Boolean from Standard is protected;
611 hasOwnColor : Boolean from Standard is protected;
612 hasOwnMaterial : Boolean from Standard is protected ;
613 myCurrentFacingModel: TypeOfFacingModel from Aspect is protected;
614
615 -- the management field (to be removed)...
616 myRecomputeEveryPrs : Boolean from Standard is protected;
617
618 myToRecomputeModes : ListOfInteger from TColStd is protected;
619 mystate : Integer from Standard;
7fd59977 620
621
622friends
623 class InteractiveContext from AIS
624
625end InteractiveObject;
626