1 // Created on: 2013-11-11
2 // Created by: Anastasia BORISOVA
3 // Copyright (c) 2013-2014 OPEN CASCADE SAS
5 // This file is part of Open CASCADE Technology software library.
7 // This library is free software; you can redistribute it and/or modify it under
8 // the terms of the GNU Lesser General Public License version 2.1 as published
9 // by the Free Software Foundation, with special exception defined in the file
10 // OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
11 // distribution for complete text of the license and disclaimer of any warranty.
13 // Alternatively, this file may be used under the terms of Open CASCADE
14 // commercial license or contractual agreement.
16 #ifndef _AIS_Dimension_HeaderFile
17 #define _AIS_Dimension_HeaderFile
19 #include <AIS_DimensionSelectionMode.hxx>
20 #include <AIS_DimensionOwner.hxx>
21 #include <AIS_DisplaySpecialSymbol.hxx>
22 #include <AIS_InteractiveObject.hxx>
23 #include <AIS_KindOfInteractive.hxx>
24 #include <AIS_KindOfDimension.hxx>
25 #include <AIS_KindOfSurface.hxx>
26 #include <Geom_Curve.hxx>
28 #include <Prs3d_ArrowAspect.hxx>
29 #include <Prs3d_DimensionAspect.hxx>
30 #include <Prs3d_DimensionUnits.hxx>
31 #include <Prs3d_Drawer.hxx>
32 #include <Prs3d_LineAspect.hxx>
33 #include <Prs3d_Presentation.hxx>
34 #include <Prs3d_TextAspect.hxx>
35 #include <SelectMgr_EntityOwner.hxx>
36 #include <Standard.hxx>
37 #include <TCollection_ExtendedString.hxx>
38 #include <TColgp_HSequenceOfPnt.hxx>
39 #include <TopoDS_Edge.hxx>
40 #include <TopoDS_Face.hxx>
41 #include <TopoDS_Shape.hxx>
42 #include <NCollection_Sequence.hxx>
43 #include <NCollection_Handle.hxx>
46 DEFINE_STANDARD_HANDLE(AIS_Dimension, AIS_InteractiveObject)
48 //! AIS_Dimension is a base class for 2D presentations of linear (length, diameter, radius)
49 //! and angular dimensions.
51 //! The dimensions provide measurement of quantities, such as lengths or plane angles.
52 //! The measurement of dimension "value" is done in model space "as is".
53 //! These "value" are said to be represented in "model units", which can be specified by user.
54 //! During the display the measured value converted from "model units" to "display units".
55 //! The display and model units are stored in common Prs3d_Drawer (drawer of the context)
56 //! to share it between all dimensions.
57 //! The specified by user units are stored in the dimension's drawer.
59 //! As a drawing, the dimension is composed from the following components:
60 //! - Attachment (binding) points. The points where the dimension lines attaches to, for
61 //! length dimensions the distances are measured between these points.
62 //! - Main dimension line. The which extends from the attachment points in "up" direction,
63 //! and which contains text label on it with value string.
64 //! - Flyouts. The lines connecting the attachment points with main dimension line.
65 //! - Extension. The lines used to extend the main dimension line in the cases when text
66 //! or arrows do not fit into the main dimension line due to their size.
70 //! Linear dimensions:
74 //! -->|------- main dimension line -------|<--
78 //! +-----------------------------------+
79 //! attachment attachment
82 //! Angular dimensions:
88 //! | 90(deg) - main dimension line
97 //! Being a 2D drawings, the dimensions are created on imaginary plane, called "dimension plane",
98 //! which can be thought of as reference system of axes (X,Y,N) for constructing the presentation.
100 //! The role of axes of the dimension plane is to guide you through the encapsualted automations
101 //! of presentation building to help you understand how is the presentation will look and how it
102 //! will be oriented in model space during construction.
104 //! Orientation of dimension line in model space relatively to the base shapes is defined
105 //! with the flyouts. Flyouts specify length of flyout lines and their orientation relatively
106 //! to the attachment points on the working plane.
107 //! For linear dimensions:
108 //! Direction of flyouts is specified with direction of main dimension line
109 //! (vector from the first attachment to the second attachment) and the normal of the dimension plane.
110 //! Positive direction of flyouts is defined by vector multiplication: AttachVector * PlaneNormal.
111 //! For angular dimensions:
112 //! Flyouts are defined by vectors from the center point to the attachment points.
113 //! These vectors directions are supposed to be the positive directions of flyouts.
114 //! Negative flyouts directions means that these vectors should be reversed
115 //! (and dimension will be built out of the angle constructed with center and two attach points).
117 //! The dimension plane can be constructed automatically by application (where possible,
118 //! it depends on the measured geometry).
119 //! It can be also set by user. However, if the user-defined plane does not fit the
120 //! geometry of the dimension (attach points do not belong to it), the dimension could not
122 //! If it is not possible to compute automatic plane (for example, in case of length between
123 //! two points) the user is supposed to specify the custom plane.
125 //! Since the dimensions feature automated construction procedures from an arbitrary shapes,
126 //! the interfaces to check the validness are also implemented. Once the measured geometry is
127 //! specified, the one can inquire the validness status by calling "IsValid()" method. If the result
128 //! is TRUE, then all of public parameters should be pre-computed and ready. The presentation
129 //! should be also computable. Otherwise, the parameters may return invalid values. In this case,
130 //! the presentation will not be computed and displayed.
132 //! The dimension support two local selection modes: main dimension line selection and text label
133 //! selection. These modes can be used to develop interactive modification of dimension presentations.
134 //! The component highlighting in these selection modes is provided by AIS_DimensionOwner class.
135 //! Please note that selection is unavailable until the presentation is computed.
137 //! The specific drawing attributes are controlled through Prs3d_DimensionAspect. The one can change
138 //! color, arrows, text and arrow style and specify positioning of value label by setting corresponding
139 //! values to the aspect.
141 //! Such set of parameters that consists of:
142 //! - flyout size and direction,
143 //! - user-defined dimension plane,
144 //! - horizontal and vertical text alignment
145 //! can be uniquely replaced with text position in 3d space. Therefore, there are methods to convert
146 //! this set of parameters to the text position and vice versa:
148 //! - If the fixed text position is defined by user, called SetTextPosition (theTextPos) method converts
149 //! this 3d point to the set of parameters including adjusting of the dimension plane (this plane will be
150 //! automatic plane, NOT user-defined one).
151 //! If the fixed text position is set, the flag myIsFixedTextPosition is set to TRUE.
152 //! ATTENSION! myIsFixedTextPosition fixes all parameters of the set from recomputing inside
153 //! SetMeasureGeometry() methods. Parameters in dimension aspect (they are horizontal text position
154 //! and extension size) are adjusted on presentation computing step, user-defined values in
155 //! dimension aspect are not changed.
156 //! But plane and flyout as dimension position parameters are changed by SetTextPosition() method
157 //! according with user-defined text position.
158 //! If parameters from the set are changed by user with calls of setters, it leads to disabling of
159 //! fixed text position (myIsFixedTextPosition is set to FALSE).
160 //! If the fixed text position is set and geometry is changed by user (SetMeasureGeometry() method
161 //! is called) and the geometry doesn't satisfy computed dimension plane, the dimension is not valid.
163 //! - If the set of parameters was set by user (may be without the user-defined plane or with it),
164 //! it can be converted to the text position by calling the method GetTextPosition(). In this case
165 //! the text position is NOT fixed, and SetMeasureGeometry() without user-defined plane adjusts
166 //! the automatic plane according input geometry (if it is possible).
168 class AIS_Dimension : public AIS_InteractiveObject
172 //! Geometry type defines type of shapes on which the dimension is to be built.
173 //! Some type of geometry allows automatic plane computing and
174 //! can be built without user-defined plane
175 //! Another types can't be built without user-defined plane.
178 GeometryType_UndefShapes,
184 GeometryType_EdgeFace,
185 GeometryType_EdgeVertex
188 //! Specifies supported at base level horizontal and vertical
189 //! label positions for drawing extension lines and centered text.
192 LabelPosition_None = 0x00,
194 LabelPosition_Left = 0x01,
195 LabelPosition_Right = 0x02,
196 LabelPosition_HCenter = 0x04,
197 LabelPosition_HMask = LabelPosition_Left | LabelPosition_Right | LabelPosition_HCenter,
199 LabelPosition_Above = 0x10,
200 LabelPosition_Below = 0x20,
201 LabelPosition_VCenter = 0x40,
202 LabelPosition_VMask = LabelPosition_Above | LabelPosition_Below | LabelPosition_VCenter
208 ValueType_CustomReal,
214 //! Specifies supported presentation compute modes.
215 //! Used to compute only parts of presentation for
216 //! advanced highlighting.
219 ComputeMode_All = 0, //!< "0" is reserved as neutral mode
220 ComputeMode_Line = 1, //!< corresponds to selection mode
221 ComputeMode_Text = 2 //!< corresponds to selection mode
226 //! Constructor with default parameters values.
227 //! @param theType [in] the type of dimension.
228 Standard_EXPORT AIS_Dimension (const AIS_KindOfDimension theType);
230 //! Gets dimension measurement value. If the value to display is not
231 //! specified by user, then the dimension object is responsible to
232 //! compute it on its own in model space coordinates.
233 //! @return the dimension value (in model units) which is used
234 //! during display of the presentation.
235 Standard_Real GetValue() const
237 return myValueType == ValueType_CustomReal ? myCustomValue : ComputeValue();
240 //! Sets computed dimension value. Resets custom value mode if it was set.
241 void SetComputedValue ()
243 myValueType = ValueType_Computed;
246 //! Sets user-defined dimension value.
247 //! The user-defined dimension value is specified in model space,
248 //! and affect by unit conversion during the display.
249 //! @param theValue [in] the user-defined value to display.
250 Standard_EXPORT void SetCustomValue (const Standard_Real theValue);
252 //! Sets user-defined dimension value.
253 //! Unit conversion during the display is not applyed.
254 //! @param theValue [in] the user-defined value to display.
255 Standard_EXPORT void SetCustomValue (const TCollection_ExtendedString& theValue);
257 //! Gets user-defined dimension value.
258 //! @return dimension value string.
259 Standard_EXPORT const TCollection_ExtendedString& GetCustomValue () const;
261 //! Get the dimension plane in which the 2D dimension presentation is computed.
262 //! By default, if plane is not defined by user, it is computed automatically
263 //! after dimension geometry is computed.
264 //! If computed dimension geometry (points) can't be placed on the user-defined
265 //! plane, dimension geometry was set as invalid (validity flag is set to false)
266 //! and dimension presentation will not be computed.
267 //! If user-defined plane allow geometry placement on it, it will be used for
268 //! computing of the dimension presentation.
269 //! @return dimension plane used for presentation computing.
270 Standard_EXPORT const gp_Pln& GetPlane() const;
272 //! Geometry type defines type of shapes on which the dimension is to be built.
273 //! @return type of geometry on which the dimension will be built.
274 Standard_Integer GetGeometryType () const { return myGeometryType; }
276 //! Sets user-defined plane where the 2D dimension presentation will be placed.
277 //! Checks validity of this plane if geometry has been set already.
278 //! Validity of the plane is checked according to the geometry set
279 //! and has different criteria for different kinds of dimensions.
280 Standard_EXPORT virtual void SetCustomPlane (const gp_Pln& thePlane);
282 //! Unsets user-defined plane. Therefore the plane for dimension will be
283 //! computed automatically.
284 void UnsetCustomPlane() { myIsPlaneCustom = Standard_False; }
286 //! @return TRUE if text position is set by user with method SetTextPosition().
287 Standard_Boolean IsTextPositionCustom() const
289 return myIsTextPositionFixed;
292 //! Fixes the absolute text position and adjusts flyout, plane and text alignment
293 //! according to it. Updates presentation if the text position is valid.
294 //! ATTENTION! It does not change vertical text alignment.
295 //! @param theTextPos [in] the point of text position.
296 virtual void SetTextPosition (const gp_Pnt& /*theTextPos*/) { }
298 //! Computes absolute text position from dimension parameters
299 //! (flyout, plane and text alignment).
300 virtual const gp_Pnt GetTextPosition () const { return gp_Pnt(); }
304 //! Gets the dimension aspect from AIS object drawer.
305 //! Dimension aspect contains aspects of line, text and arrows for dimension presentation.
306 Handle(Prs3d_DimensionAspect) DimensionAspect() const
308 return myDrawer->DimensionAspect();
311 //! Sets new dimension aspect for the interactive object drawer.
312 //! The dimension aspect provides dynamic properties which are generally
313 //! used during computation of dimension presentations.
314 Standard_EXPORT void SetDimensionAspect (const Handle(Prs3d_DimensionAspect)& theDimensionAspect);
316 //! @return the kind of dimension.
317 AIS_KindOfDimension KindOfDimension() const
319 return myKindOfDimension;
322 //! @return the kind of interactive.
323 virtual AIS_KindOfInteractive Type() const Standard_OVERRIDE
325 return AIS_KOI_Dimension;
328 //! Returns true if the class of objects accepts the display mode theMode.
329 //! The interactive context can have a default mode of representation for
330 //! the set of Interactive Objects. This mode may not be accepted by object.
331 virtual Standard_Boolean AcceptDisplayMode (const Standard_Integer theMode) const Standard_OVERRIDE
333 return theMode == ComputeMode_All;
338 //! @return dimension special symbol display options.
339 AIS_DisplaySpecialSymbol DisplaySpecialSymbol() const
341 return myDisplaySpecialSymbol;
344 //! Specifies whether to display special symbol or not.
345 Standard_EXPORT void SetDisplaySpecialSymbol (const AIS_DisplaySpecialSymbol theDisplaySpecSymbol);
347 //! @return special symbol.
348 Standard_ExtCharacter SpecialSymbol() const
350 return mySpecialSymbol;
353 //! Specifies special symbol.
354 Standard_EXPORT void SetSpecialSymbol (const Standard_ExtCharacter theSpecialSymbol);
356 Standard_EXPORT virtual const TCollection_AsciiString& GetDisplayUnits() const;
358 Standard_EXPORT virtual const TCollection_AsciiString& GetModelUnits() const;
360 virtual void SetDisplayUnits (const TCollection_AsciiString& /*theUnits*/) { }
362 virtual void SetModelUnits (const TCollection_AsciiString& /*theUnits*/) { }
364 //! Unsets user defined text positioning and enables text positioning
365 //! by other parameters: text alignment, extension size, flyout and custom plane.
366 Standard_EXPORT void UnsetFixedTextPosition();
370 //! Returns selection tolerance for text2d:
371 //! For 2d text selection detection sensitive point with tolerance is used
372 //! Important! Only for 2d text.
373 Standard_Real SelToleranceForText2d() const
375 return mySelToleranceForText2d;
378 //! Sets selection tolerance for text2d:
379 //! For 2d text selection detection sensitive point with tolerance is used
380 //! to change this tolerance use this method
381 //! Important! Only for 2d text.
382 Standard_EXPORT void SetSelToleranceForText2d (const Standard_Real theTol);
384 //! @return flyout value for dimension.
385 Standard_Real GetFlyout() const
390 //! Sets flyout value for dimension.
391 Standard_EXPORT void SetFlyout (const Standard_Real theFlyout);
393 //! Check that the input geometry for dimension is valid and the
394 //! presentation can be successfully computed.
395 //! @return TRUE if dimension geometry is ok.
396 virtual Standard_Boolean IsValid() const
398 return myIsGeometryValid && CheckPlane (GetPlane());
403 DEFINE_STANDARD_RTTIEXT(AIS_Dimension,AIS_InteractiveObject)
407 Standard_EXPORT Standard_Real ValueToDisplayUnits() const;
409 //! Get formatted value string and its model space width.
410 //! @param theWidth [out] the model space with of the string.
411 //! @return formatted dimension value string.
412 Standard_EXPORT TCollection_ExtendedString GetValueString (Standard_Real& theWidth) const;
414 //! Performs drawing of 2d or 3d arrows on the working plane
415 //! @param theLocation [in] the location of the arrow tip.
416 //! @param theDirection [in] the direction from the tip to the bottom of the arrow.
417 Standard_EXPORT void DrawArrow (const Handle(Prs3d_Presentation)& thePresentation,
418 const gp_Pnt& theLocation,
419 const gp_Dir& theDirection);
421 //! Performs drawing of 2d or 3d text on the working plane
422 //! @param theTextPos [in] the position of the text label.
423 //! @param theTestDir [in] the direction of the text label.
424 //! @param theText [in] the text label string.
425 //! @param theLabelPosition [in] the text label vertical and horizontal positioning option
426 //! respectively to the main dimension line.
427 //! @return text width relative to the dimension working plane. For 2d text this value will be zero.
428 Standard_EXPORT void drawText (const Handle(Prs3d_Presentation)& thePresentation,
429 const gp_Pnt& theTextPos,
430 const gp_Dir& theTextDir,
431 const TCollection_ExtendedString& theText,
432 const Standard_Integer theLabelPosition);
434 //! Performs computing of dimension linear extension with text
435 //! @param thePresentation [in] the presentation to fill with graphical primitives.
436 //! @param theExtensionSize [in] the size of extension line.
437 //! @param theExtensionStart [in] the point where extension line connects to dimension.
438 //! @param theExtensionDir [in] the direction of extension line.
439 //! @param theLabelString [in] the string with value.
440 //! @param theLabelWidth [in] the geometrical width computed for value string.
441 //! @param theMode [in] the display mode.
442 //! @param theLabelPosition [in] position flags for the text label.
443 Standard_EXPORT void DrawExtension (const Handle(Prs3d_Presentation)& thePresentation,
444 const Standard_Real theExtensionSize,
445 const gp_Pnt& theExtensionStart,
446 const gp_Dir& theExtensionDir,
447 const TCollection_ExtendedString& theLabelString,
448 const Standard_Real theLabelWidth,
449 const Standard_Integer theMode,
450 const Standard_Integer theLabelPosition);
452 //! Performs computing of linear dimension (for length, diameter, radius and so on).
453 //! Please note that this method uses base dimension properties, like working plane
454 //! flyout length, drawer attributes.
455 //! @param thePresentation [in] the presentation to fill with primitives.
456 //! @param theMode [in] the presentation compute mode.
457 //! @param theFirstPoint [in] the first attach point of linear dimension.
458 //! @param theSecondPoint [in] the second attach point of linear dimension.
459 //! @param theIsOneSide [in] specifies whether the dimension has only one flyout line.
460 Standard_EXPORT void DrawLinearDimension (const Handle(Prs3d_Presentation)& thePresentation,
461 const Standard_Integer theMode,
462 const gp_Pnt& theFirstPoint,
463 const gp_Pnt& theSecondPoint,
464 const Standard_Boolean theIsOneSide = Standard_False);
466 //! Computes points bounded the flyout line for linear dimension.
467 //! @param theFirstPoint [in] the first attach point of linear dimension.
468 //! @param theSecondPoint [in] the second attach point of linear dimension.
469 //! @param theLineBegPoint [out] the first attach point of linear dimension.
470 //! @param theLineEndPoint [out] the second attach point of linear dimension.
471 Standard_EXPORT virtual void ComputeFlyoutLinePoints (const gp_Pnt& theFirstPoint, const gp_Pnt& theSecondPoint,
472 gp_Pnt& theLineBegPoint, gp_Pnt& theLineEndPoint);
474 //! Compute selection sensitives for linear dimension flyout lines (length, diameter, radius).
475 //! Please note that this method uses base dimension properties: working plane and flyout length.
476 //! @param theSelection [in] the selection structure to fill with selection primitives.
477 //! @param theOwner [in] the selection entity owner.
478 //! @param theFirstPoint [in] the first attach point of linear dimension.
479 //! @param theSecondPoint [in] the second attach point of linear dimension.
480 Standard_EXPORT void ComputeLinearFlyouts (const Handle(SelectMgr_Selection)& theSelection,
481 const Handle(SelectMgr_EntityOwner)& theOwner,
482 const gp_Pnt& theFirstPoint,
483 const gp_Pnt& theSecondPoint);
486 //! Performs initialization of circle and middle arc point from the passed
487 //! shape which is assumed to contain circular geometry.
488 //! @param theShape [in] the shape to explore.
489 //! @param theCircle [out] the circle geometry.
490 //! @param theMiddleArcPoint [out] the middle point of the arc.
491 //! @param theIsClosed [out] returns TRUE if the geometry is closed circle.
492 //! @return TRUE if the the circle is successfully got from the input shape.
493 Standard_EXPORT Standard_Boolean InitCircularDimension (const TopoDS_Shape& theShape,
495 gp_Pnt& theMiddleArcPoint,
496 Standard_Boolean& theIsClosed);
498 //! Produce points for triangular arrow face.
499 //! @param thePeakPnt [in] the arrow peak position.
500 //! @param theDirection [in] the arrow direction.
501 //! @param thePlane [in] the face plane.
502 //! @param theArrowLength [in] the length of arrow.
503 //! @param theArrowAngle [in] the angle of arrow.
504 //! @param theSidePnt1 [out] the first side point.
505 //! @param theSidePnt2 [out] the second side point.
506 Standard_EXPORT void PointsForArrow (const gp_Pnt& thePeakPnt,
507 const gp_Dir& theDirection,
508 const gp_Dir& thePlane,
509 const Standard_Real theArrowLength,
510 const Standard_Real theArrowAngle,
512 gp_Pnt& theSidePnt2);
514 //! Compute point of text position for dimension parameters
515 //! for linear kinds of dimensions (length, radius, diameter).
516 Standard_EXPORT gp_Pnt GetTextPositionForLinear (const gp_Pnt& theFirstPoint,
517 const gp_Pnt& theSecondPoint,
518 const Standard_Boolean theIsOneSide = Standard_False) const;
520 //! Fits text alignment relatively to the dimension line.
521 //! @param theFirstPoint [in] the first attachment point.
522 //! @param theSecondPoint [in] the second attachment point.
523 //! @param theIsOneSide [in] is the arrow displayed only on the one side of the dimension.
524 //! @param theHorizontalTextPos [in] the text horizontal position (alignment).
525 //! @param theLabelPosition [out] the label position, contains bits that defines
526 //! vertical and horizontal alignment. (for internal usage in count text position)
527 //! @param theIsArrowExternal [out] is the arrows external,
528 //! if arrow orientation in the dimension aspect is Prs3d_DAO_Fit, it fits arrow
529 //! orientation automatically.
530 Standard_EXPORT void FitTextAlignmentForLinear (const gp_Pnt& theFirstPoint,
531 const gp_Pnt& theSecondPoint,
532 const Standard_Boolean theIsOneSide,
533 const Prs3d_DimensionTextHorizontalPosition& theHorizontalTextPos,
534 Standard_Integer& theLabelPosition,
535 Standard_Boolean& theIsArrowsExternal) const;
537 //! Adjusts aspect parameters according the text position:
538 //! extension size, vertical text alignment and flyout.
539 //! @param theTextPos [in] the user defined 3d point of text position
540 //! @param theFirstPoint [in] the first point of linear measurement.
541 //! @param theSecondPoint [in] the second point of linear measurement.
542 //! @param theExtensionSize [out] the adjusted extension size
543 //! @param theAlignment [out] the horizontal label alignment.
544 //! @param theFlyout [out] the adjusted value of flyout.
545 //! @param thePlane [out] the new plane that contains theTextPos and attachment points.
546 //! @param theIsPlaneOld [out] shows if new plane is computed.
547 Standard_EXPORT Standard_Boolean AdjustParametersForLinear (const gp_Pnt& theTextPos,
548 const gp_Pnt& theFirstPoint,
549 const gp_Pnt& theSecondPoint,
550 Standard_Real& theExtensionSize,
551 Prs3d_DimensionTextHorizontalPosition& theAlignment,
552 Standard_Real& theFlyout,
554 Standard_Boolean& theIsPlaneOld) const;
556 protected: //! @name Static auxilliary methods for geometry extraction
558 //! If it is possible extracts circle from planar face.
559 //! @param theFace [in] the planar face
560 //! @param theCurve [out] the circular curve
561 //! @param theFirstPoint [out] the point of the first parameter of the circlular curve
562 //! @param theSecondPoint [out] the point of the last parameter of the circlular curve
563 //! @return TRUE in case of successful circle extraction
564 static Standard_Boolean CircleFromPlanarFace (const TopoDS_Face& theFace,
565 Handle(Geom_Curve)& theCurve,
566 gp_Pnt& theFirstPoint,
567 gp_Pnt& theLastPoint);
569 //! If it is possible extracts circle from the edge.
570 //! @param theEdge [in] input edge to extract circle from
571 //! @param theCircle [out] circle
572 //! @param theFirstPoint [out] the point of the first parameter of the circlular curve
573 //! @param theSecondPoint [out] the point of the last parameter of the circlular curve
574 //! @return TRUE in case of successful circle extraction.
575 static Standard_Boolean CircleFromEdge (const TopoDS_Edge& theEdge,
577 gp_Pnt& theFirstPoint,
578 gp_Pnt& theLastPoint);
580 protected: //! @name Behavior to implement
582 //! Override this method to check if user-defined plane
583 //! is valid for the dimension geometry.
584 //! @param thePlane [in] the working plane for positioning every
585 //! dimension in the application.
586 //! @return true is the plane is suitable for building dimension
587 //! with computed dimension geometry.
588 virtual Standard_Boolean CheckPlane (const gp_Pln& /*thePlane*/) const { return Standard_True; }
590 //! Override this method to computed value of dimension.
591 //! @return value from the measured geometry.
592 virtual Standard_Real ComputeValue() const
597 //! Override this method to compute selection primitives for
598 //! flyout lines (if the dimension provides it).
599 //! This callback is a only a part of base selection
600 //! computation routine.
601 virtual void ComputeFlyoutSelection (const Handle(SelectMgr_Selection)&,
602 const Handle(SelectMgr_EntityOwner)&) {}
605 //! Base procedure of computing selection (based on selection geometry data).
606 //! @param theSelection [in] the selection structure to will with primitives.
607 //! @param theMode [in] the selection mode.
608 Standard_EXPORT virtual void ComputeSelection (const Handle(SelectMgr_Selection)& theSelection,
609 const Standard_Integer theMode) Standard_OVERRIDE;
611 protected: //! @name Selection geometry
613 //! Selection geometry of dimension presentation. The structure is filled with data
614 //! during compute of presentation, then this data is used to generate selection
615 //! sensitives when computing selection.
616 struct SelectionGeometry
618 //! Arrows are represented by directed triangles.
624 typedef NCollection_Sequence<gp_Pnt> Curve;
625 typedef NCollection_Handle<Curve> HCurve;
626 typedef NCollection_Handle<Arrow> HArrow;
627 typedef NCollection_Sequence<HCurve> SeqOfCurves;
628 typedef NCollection_Sequence<HArrow> SeqOfArrows;
630 gp_Pnt TextPos; //!< Center of text label.
631 gp_Dir TextDir; //!< Direction of text label.
632 Standard_Real TextWidth; //!< Width of text label.
633 Standard_Real TextHeight; //!< Height of text label.
634 SeqOfCurves DimensionLine; //!< Sequence of points for composing the segments of dimension line.
635 SeqOfArrows Arrows; //!< Sequence of arrow geometries.
636 Standard_Boolean IsComputed; //!< Shows if the selection geometry was filled.
640 //! Clear geometry of sensitives for the specified compute mode.
641 //! @param theMode [in] the compute mode to clear.
642 void Clear (const Standard_Integer theMode)
644 if (theMode == ComputeMode_All || theMode == ComputeMode_Line)
646 DimensionLine.Clear();
650 if (theMode == ComputeMode_All || theMode == ComputeMode_Text)
652 TextPos = gp::Origin();
658 IsComputed = Standard_False;
661 //! Add new curve entry and return the reference to populate it.
664 DimensionLine.Append( new Curve );
665 HCurve& aLastCurve = DimensionLine.ChangeLast();
669 //! Add new arrow entry and return the reference to populate it.
672 Arrows.Append( new Arrow );
673 HArrow& aLastArrow = Arrows.ChangeLast();
678 Standard_Real mySelToleranceForText2d; //!< Sensitive point tolerance for 2d text selection.
680 protected: //! @name Value properties
682 ValueType myValueType; //! type of value (computed or user-defined)
683 Standard_Real myCustomValue; //!< Value of the dimension (computed or user-defined).
685 TCollection_ExtendedString myCustomStringValue; //!< Value of the dimension (computed or user-defined).
687 protected: //! @name Fixed text position properties
689 gp_Pnt myFixedTextPosition; //!< Stores text position fixed by user.
690 Standard_Boolean myIsTextPositionFixed; //!< Is the text label position fixed by user.
692 protected: //! @name Units properties
694 Standard_ExtCharacter mySpecialSymbol; //!< Special symbol.
695 AIS_DisplaySpecialSymbol myDisplaySpecialSymbol; //!< Special symbol display options.
697 protected: //! @name Geometrical properties
699 GeometryType myGeometryType; //!< defines type of shapes on which the dimension is to be built.
701 gp_Pln myPlane; //!< Plane where dimension will be built (computed or user defined).
702 Standard_Boolean myIsPlaneCustom; //!< Is plane defined by user (otherwise it will be computed automatically).
703 Standard_Real myFlyout; //!< Flyout distance.
704 Standard_Boolean myIsGeometryValid; //!< Is dimension geometry properly defined.
708 AIS_KindOfDimension myKindOfDimension;
711 #endif // _AIS_Dimension_HeaderFile