Open CASCADE Technology 7.8.2.dev
StdSelect_Shape Class Reference

Presentable shape only for purpose of display for BRepOwner... More...

#include <StdSelect_Shape.hxx>

Inheritance diagram for StdSelect_Shape:

Public Member Functions

 StdSelect_Shape (const TopoDS_Shape &theShape, const Handle< Prs3d_Drawer > &theDrawer=Handle< Prs3d_Drawer >())
 
virtual void Compute (const Handle< PrsMgr_PresentationManager > &thePrsMgr, const Handle< Prs3d_Presentation > &thePrs, const Standard_Integer theMode) override
 Calculates the 3D view presentation for specified display mode. This is a key interface for implementing Presentable Object interface.
 
const TopoDS_ShapeShape () const
 
void Shape (const TopoDS_Shape &theShape)
 
virtual void DumpJson (Standard_OStream &theOStream, Standard_Integer theDepth=-1) const override
 Dumps the content of me into the stream.
 
- Public Member Functions inherited from PrsMgr_PresentableObject
PrsMgr_PresentationsPresentations ()
 Return presentations.
 
Graphic3d_ZLayerId ZLayer () const
 Get ID of Z layer for main presentation.
 
virtual void SetZLayer (const Graphic3d_ZLayerId theLayerId)
 Set Z layer ID and update all presentations of the presentable object. The layers mechanism allows drawing objects in higher layers in overlay of objects in lower layers.
 
Standard_Boolean IsMutable () const
 Returns true if object has mutable nature (content or location are be changed regularly). Mutable object will be managed in different way than static onces (another optimizations).
 
virtual void SetMutable (const Standard_Boolean theIsMutable)
 Sets if the object has mutable nature (content or location will be changed regularly). This method should be called before object displaying to take effect.
 
const Handle< Graphic3d_ViewAffinity > & ViewAffinity () const
 Return view affinity mask.
 
Standard_Boolean HasDisplayMode () const
 Returns true if the Interactive Object has display mode setting overriding global setting (within Interactive Context).
 
Standard_Integer DisplayMode () const
 Returns the display mode setting of the Interactive Object. The range of supported display mode indexes should be specified within object definition and filtered by AccepDisplayMode().
 
void SetDisplayMode (const Standard_Integer theMode)
 Sets the display mode for the interactive object. An object can have its own temporary display mode, which is different from that proposed by the interactive context.
 
void UnsetDisplayMode ()
 Removes display mode settings from the interactive object.
 
Standard_Boolean HasHilightMode () const
 Returns true if the Interactive Object is in highlight mode.
 
Standard_Integer HilightMode () const
 Returns highlight display mode. This is obsolete method for backward compatibility - use HilightAttributes() and DynamicHilightAttributes() instead.
 
void SetHilightMode (const Standard_Integer theMode)
 Sets highlight display mode. This is obsolete method for backward compatibility - use HilightAttributes() and DynamicHilightAttributes() instead.
 
void UnsetHilightMode ()
 Unsets highlight display mode.
 
virtual Standard_Boolean AcceptDisplayMode (const Standard_Integer theMode) const
 Returns true if the class of objects accepts specified display mode index. The interactive context can have a default mode of representation for the set of Interactive Objects. This mode may not be accepted by a given class of objects. Consequently, this virtual method allowing us to get information about the class in question must be implemented. At least one display mode index should be accepted by this method. Although subclass can leave default implementation, it is highly desired defining exact list of supported modes instead, which is usually an enumeration for one object or objects class sharing similar list of display modes.
 
virtual Standard_Integer DefaultDisplayMode () const
 Returns the default display mode.
 
Standard_Boolean ToBeUpdated (Standard_Boolean theToIncludeHidden=Standard_False) const
 Returns TRUE if any active presentation has invalidation flag.
 
void SetToUpdate (Standard_Integer theMode)
 Flags presentation to be updated; UpdatePresentations() will recompute these presentations.
 
void SetToUpdate ()
 flags all the Presentations to be Updated.
 
Standard_Boolean IsInfinite () const
 Returns true if the interactive object is infinite; FALSE by default. This flag affects various operations operating on bounding box of graphic presentations of this object. For instance, infinite objects are not taken in account for View FitAll. This does not necessarily means that object is actually infinite, auxiliary objects might be also marked with this flag to achieve desired behavior.
 
void SetInfiniteState (const Standard_Boolean theFlag=Standard_True)
 Sets if object should be considered as infinite.
 
PrsMgr_TypeOfPresentation3d TypeOfPresentation3d () const
 Returns information on whether the object accepts display in HLR mode or not.
 
void SetTypeOfPresentation (const PrsMgr_TypeOfPresentation3d theType)
 Set type of presentation.
 
PrsMgr_DisplayStatus DisplayStatus () const
 Return presentation display status; PrsMgr_DisplayStatus_None by default.
 
const Handle< Prs3d_Drawer > & Attributes () const
 Returns the attributes settings.
 
virtual void SetAttributes (const Handle< Prs3d_Drawer > &theDrawer)
 Initializes the drawing tool theDrawer.
 
const Handle< Prs3d_Drawer > & HilightAttributes () const
 Returns the hilight attributes settings. When not NULL, overrides both Prs3d_TypeOfHighlight_LocalSelected and Prs3d_TypeOfHighlight_Selected defined within AIS_InteractiveContext::HighlightStyle().
 
virtual void SetHilightAttributes (const Handle< Prs3d_Drawer > &theDrawer)
 Initializes the hilight drawing tool theDrawer.
 
const Handle< Prs3d_Drawer > & DynamicHilightAttributes () const
 Returns the hilight attributes settings. When not NULL, overrides both Prs3d_TypeOfHighlight_LocalDynamic and Prs3d_TypeOfHighlight_Dynamic defined within AIS_InteractiveContext::HighlightStyle().
 
virtual void SetDynamicHilightAttributes (const Handle< Prs3d_Drawer > &theDrawer)
 Initializes the dynamic hilight drawing tool.
 
virtual void UnsetHilightAttributes ()
 Clears settings provided by the hilight drawing tool theDrawer.
 
void SynchronizeAspects ()
 Synchronize presentation aspects after their modification.
 
const Handle< Graphic3d_TransformPers > & TransformPersistence () const
 Returns Transformation Persistence defining a special Local Coordinate system where this presentable object is located or NULL handle if not defined. Position of the object having Transformation Persistence is mutable and depends on camera position. The same applies to a bounding box of the object.
 
virtual void SetTransformPersistence (const Handle< Graphic3d_TransformPers > &theTrsfPers)
 Sets up Transform Persistence defining a special Local Coordinate system where this object should be located. Note that management of Transform Persistence object is more expensive than of the normal one, because it requires its position being recomputed basing on camera position within each draw call / traverse.
 
const Handle< TopLoc_Datum3D > & LocalTransformationGeom () const
 Return the local transformation. Note that the local transformation of the object having Transformation Persistence is applied within Local Coordinate system defined by this Persistence.
 
void SetLocalTransformation (const gp_Trsf &theTrsf)
 Sets local transformation to theTransformation. Note that the local transformation of the object having Transformation Persistence is applied within Local Coordinate system defined by this Persistence.
 
void SetLocalTransformation (const Handle< TopLoc_Datum3D > &theTrsf)
 Sets local transformation to theTransformation. Note that the local transformation of the object having Transformation Persistence is applied within Local Coordinate system defined by this Persistence.
 
Standard_Boolean HasTransformation () const
 Returns true if object has a transformation that is different from the identity.
 
const Handle< TopLoc_Datum3D > & TransformationGeom () const
 Return the transformation taking into account transformation of parent object(s). Note that the local transformation of the object having Transformation Persistence is applied within Local Coordinate system defined by this Persistence.
 
const gp_TrsfLocalTransformation () const
 Return the local transformation. Note that the local transformation of the object having Transformation Persistence is applied within Local Coordinate system defined by this Persistence.
 
const gp_TrsfTransformation () const
 Return the transformation taking into account transformation of parent object(s). Note that the local transformation of the object having Transformation Persistence is applied within Local Coordinate system defined by this Persistence.
 
const gp_GTrsfInversedTransformation () const
 Return inversed transformation.
 
const Handle< TopLoc_Datum3D > & CombinedParentTransformation () const
 Return combined parent transformation.
 
virtual void ResetTransformation ()
 resets local transformation to identity.
 
virtual void UpdateTransformation ()
 Updates final transformation (parent + local) of presentable object and its presentations.
 
const Handle< Graphic3d_SequenceOfHClipPlane > & ClipPlanes () const
 Get clip planes.
 
virtual void SetClipPlanes (const Handle< Graphic3d_SequenceOfHClipPlane > &thePlanes)
 Set clip planes for graphical clipping for all display mode presentations. The composition of clip planes truncates the rendering space to convex volume. Please be aware that number of supported clip plane is limited. The planes which exceed the limit are ignored. Besides of this, some planes can be already set in view where the object is shown: the number of these planes should be subtracted from limit to predict the maximum possible number of object clipping planes.
 
virtual void AddClipPlane (const Handle< Graphic3d_ClipPlane > &thePlane)
 Adds clip plane for graphical clipping for all display mode presentations. The composition of clip planes truncates the rendering space to convex volume. Please be aware that number of supported clip plane is limited. The planes which exceed the limit are ignored. Besides of this, some planes can be already set in view where the object is shown: the number of these planes should be subtracted from limit to predict the maximum possible number of object clipping planes.
 
virtual void RemoveClipPlane (const Handle< Graphic3d_ClipPlane > &thePlane)
 Removes previously added clip plane.
 
PrsMgr_PresentableObjectParent () const
 Returns parent of current object in scene hierarchy.
 
const PrsMgr_ListOfPresentableObjectsChildren () const
 Returns children of the current object.
 
virtual void AddChild (const Handle< PrsMgr_PresentableObject > &theObject)
 Makes theObject child of current object in scene hierarchy.
 
void AddChildWithCurrentTransformation (const Handle< PrsMgr_PresentableObject > &theObject)
 Makes theObject child of current object in scene hierarchy with keeping the current global transformation So the object keeps the same position/orientation in the global CS.
 
virtual void RemoveChild (const Handle< PrsMgr_PresentableObject > &theObject)
 Removes theObject from children of current object in scene hierarchy.
 
void RemoveChildWithRestoreTransformation (const Handle< PrsMgr_PresentableObject > &theObject)
 Removes theObject from children of current object in scene hierarchy with keeping the current global transformation. So the object keeps the same position/orientation in the global CS.
 
Standard_Boolean HasOwnPresentations () const
 Returns true if object should have own presentations.
 
virtual void BoundingBox (Bnd_Box &theBndBox)
 Returns bounding box of object correspondingly to its current display mode. This method requires presentation to be already computed, since it relies on bounding box of presentation structures, which are supposed to be same/close amongst different display modes of this object.
 
void SetIsoOnTriangulation (const Standard_Boolean theIsEnabled)
 Enables or disables on-triangulation build of isolines according to the flag given.
 
Aspect_TypeOfFacingModel CurrentFacingModel () const
 Returns the current facing model which is in effect.
 
void SetCurrentFacingModel (const Aspect_TypeOfFacingModel theModel=Aspect_TOFM_BOTH_SIDE)
 change the current facing model apply on polygons for SetColor(), SetTransparency(), SetMaterial() methods default facing model is Aspect_TOFM_TWO_SIDE. This mean that attributes is applying both on the front and back face.
 
Standard_Boolean HasColor () const
 Returns true if the Interactive Object has color.
 
virtual void Color (Quantity_Color &theColor) const
 Returns the color setting of the Interactive Object.
 
virtual void SetColor (const Quantity_Color &theColor)
 Only the interactive object knowns which Drawer attribute is affected by the color, if any (ex: for a wire,it's the wireaspect field of the drawer, but for a vertex, only the point aspect field is affected by the color). WARNING : Do not forget to set the corresponding fields here (hasOwnColor and myDrawer->SetColor())
 
virtual void UnsetColor ()
 Removes color settings. Only the Interactive Object knows which Drawer attribute is affected by the color setting. For a wire, for example, wire aspect is the attribute affected. For a vertex, however, only point aspect is affected by the color setting.
 
Standard_Boolean HasWidth () const
 Returns true if the Interactive Object has width.
 
Standard_Real Width () const
 Returns the width setting of the Interactive Object.
 
virtual void SetWidth (const Standard_Real theWidth)
 Allows you to provide the setting aValue for width. Only the Interactive Object knows which Drawer attribute is affected by the width setting.
 
virtual void UnsetWidth ()
 Reset width to default value.
 
Standard_Boolean HasMaterial () const
 Returns true if the Interactive Object has a setting for material.
 
virtual Graphic3d_NameOfMaterial Material () const
 Returns the current material setting as enumeration value.
 
virtual void SetMaterial (const Graphic3d_MaterialAspect &aName)
 Sets the material aMat defining this display attribute for the interactive object. Material aspect determines shading aspect, color and transparency of visible entities.
 
virtual void UnsetMaterial ()
 Removes the setting for material.
 
Standard_Boolean IsTransparent () const
 Returns true if there is a transparency setting.
 
virtual Standard_Real Transparency () const
 Returns the transparency setting. This will be between 0.0 and 1.0. At 0.0 an object will be totally opaque, and at 1.0, fully transparent.
 
virtual void SetTransparency (const Standard_Real aValue=0.6)
 Attributes a setting aValue for transparency. The transparency value should be between 0.0 and 1.0. At 0.0 an object will be totally opaque, and at 1.0, fully transparent. Warning At a value of 1.0, there may be nothing visible.
 
virtual void UnsetTransparency ()
 Removes the transparency setting. The object is opaque by default.
 
virtual Standard_Boolean HasPolygonOffsets () const
 Returns Standard_True if <myDrawer> has non-null shading aspect.
 
virtual void PolygonOffsets (Standard_Integer &aMode, Standard_ShortReal &aFactor, Standard_ShortReal &aUnits) const
 Retrieves current polygon offsets settings from <myDrawer>.
 
virtual void SetPolygonOffsets (const Standard_Integer aMode, const Standard_ShortReal aFactor=1.0, const Standard_ShortReal aUnits=0.0)
 Sets up polygon offsets for this object.
 
virtual void UnsetAttributes ()
 Clears settings provided by the drawing tool aDrawer.
 
void ToBeUpdated (TColStd_ListOfInteger &ListOfMode) const
 gives the list of modes which are flagged "to be updated".
 
Standard_Boolean ToPropagateVisualState () const
 Get value of the flag "propagate visual state" It means that the display/erase/color visual state is propagated automatically to all children; by default, the flag is true.
 
void SetPropagateVisualState (const Standard_Boolean theFlag)
 Change the value of the flag "propagate visual state".
 
- Public Member Functions inherited from Standard_Transient
 Standard_Transient ()
 Empty constructor.
 
 Standard_Transient (const Standard_Transient &)
 Copy constructor – does nothing.
 
Standard_Transientoperator= (const Standard_Transient &)
 Assignment operator, needed to avoid copying reference counter.
 
virtual ~Standard_Transient ()
 Destructor must be virtual.
 
virtual const opencascade::handle< Standard_Type > & DynamicType () const
 Returns a type descriptor about this object.
 
Standard_Boolean IsInstance (const opencascade::handle< Standard_Type > &theType) const
 Returns a true value if this is an instance of Type.
 
Standard_Boolean IsInstance (const Standard_CString theTypeName) const
 Returns a true value if this is an instance of TypeName.
 
Standard_Boolean IsKind (const opencascade::handle< Standard_Type > &theType) const
 Returns true if this is an instance of Type or an instance of any class that inherits from Type. Note that multiple inheritance is not supported by OCCT RTTI mechanism.
 
Standard_Boolean IsKind (const Standard_CString theTypeName) const
 Returns true if this is an instance of TypeName or an instance of any class that inherits from TypeName. Note that multiple inheritance is not supported by OCCT RTTI mechanism.
 
Standard_TransientThis () const
 Returns non-const pointer to this object (like const_cast). For protection against creating handle to objects allocated in stack or call from constructor, it will raise exception Standard_ProgramError if reference counter is zero.
 
Standard_Integer GetRefCount () const noexcept
 Get the reference counter of this object.
 
void IncrementRefCounter () noexcept
 Increments the reference counter of this object.
 
Standard_Integer DecrementRefCounter () noexcept
 Decrements the reference counter of this object; returns the decremented value.
 
virtual void Delete () const
 Memory deallocator for transient classes.
 

Additional Inherited Members

- Public Types inherited from Standard_Transient
typedef void base_type
 Returns a type descriptor about this object.
 
- Static Public Member Functions inherited from Standard_Transient
static constexpr const char * get_type_name ()
 Returns a type descriptor about this object.
 
static const opencascade::handle< Standard_Type > & get_type_descriptor ()
 Returns type descriptor of Standard_Transient class.
 
- Protected Member Functions inherited from PrsMgr_PresentableObject
void Update (Standard_Boolean theToIncludeHidden=Standard_False)
 Recomputes all presentations of the object.
 
void Update (Standard_Integer theMode, Standard_Boolean theToClearOther)
 Recomputes the presentation in the given mode.
 
 PrsMgr_PresentableObject (const PrsMgr_TypeOfPresentation3d aTypeOfPresentation3d=PrsMgr_TOP_AllView)
 Protected empty constructor.
 
virtual ~PrsMgr_PresentableObject ()
 Destructor.
 
virtual void Fill (const Handle< PrsMgr_PresentationManager > &thePrsMgr, const Handle< PrsMgr_Presentation > &thePrs, const Standard_Integer theMode)
 Fills the given 3D view presentation for specified display mode using Compute() method. In addition, configures other properties of presentation (transformation, clipping planes).
 
virtual void computeHLR (const Handle< Graphic3d_Camera > &theProjector, const Handle< TopLoc_Datum3D > &theTrsf, const Handle< Prs3d_Presentation > &thePrs)
 Calculates hidden line removal presentation for specific camera position. Each of the views in the viewer and every modification such as rotation, for example, entails recalculation. Default implementation throws Standard_NotImplemented exception Warning! The transformation must be applied to the object before computation.
 
Standard_Boolean UpdatePresentations (Standard_Boolean theToIncludeHidden=Standard_False)
 Recomputes invalidated presentations of the object.
 
virtual void UpdateClipping ()
 General virtual method for internal update of presentation state when some modifications on list of clip planes occurs. Base implementation propagate clip planes to every presentation.
 
virtual void SetCombinedParentTransform (const Handle< TopLoc_Datum3D > &theTrsf)
 Sets myCombinedParentTransform to theTransformation. Thus object receives transformation from parent node and able to derive its own.
 
virtual void setLocalTransformation (const Handle< TopLoc_Datum3D > &theTransformation)
 Sets local transformation to theTransformation.
 
void recomputeComputed () const
 Recompute computed (HLR) presentations (when view is in computed mode).
 
void replaceAspects (const Graphic3d_MapOfAspectsToAspects &theMap)
 Replace aspects of existing (computed) presentation groups, so that the new aspects can be applied without recomputing presentation. It is NOT recommended approach, because user has to fill such map and then search for each occurrence in computed groups. The recommended approach is computing presentation with necessary customized aspects, and then modify them directly followed by SynchronizeAspects() call.
 
- Static Protected Member Functions inherited from PrsMgr_PresentableObject
static const gp_TrsfgetIdentityTrsf ()
 Return the identity transformation.
 
- Protected Attributes inherited from PrsMgr_PresentableObject
PrsMgr_PresentableObjectmyParent
 pointer to the parent object
 
PrsMgr_Presentations myPresentations
 list of presentations
 
Handle< Graphic3d_ViewAffinitymyViewAffinity
 view affinity mask
 
Handle< Graphic3d_SequenceOfHClipPlanemyClipPlanes
 sequence of object-specific clipping planes
 
Handle< Prs3d_DrawermyDrawer
 main presentation attributes
 
Handle< Prs3d_DrawermyHilightDrawer
 (optional) custom presentation attributes for highlighting selected object
 
Handle< Prs3d_DrawermyDynHilightDrawer
 (optional) custom presentation attributes for highlighting detected object
 
Handle< Graphic3d_TransformPersmyTransformPersistence
 transformation persistence
 
Handle< TopLoc_Datum3DmyLocalTransformation
 local transformation relative to parent object
 
Handle< TopLoc_Datum3DmyTransformation
 absolute transformation of this object (combined parents + local transformations)
 
Handle< TopLoc_Datum3DmyCombinedParentTransform
 transformation of parent object (combined for all parents)
 
PrsMgr_ListOfPresentableObjects myChildren
 list of children
 
gp_GTrsf myInvTransformation
 inversion of absolute transformation (combined parents + local transformations)
 
PrsMgr_TypeOfPresentation3d myTypeOfPresentation3d
 presentation type
 
PrsMgr_DisplayStatus myDisplayStatus
 presentation display status
 
Aspect_TypeOfFacingModel myCurrentFacingModel
 current facing model
 
Standard_ShortReal myOwnWidth
 custom width value
 
Standard_Boolean hasOwnColor
 own color flag
 
Standard_Boolean hasOwnMaterial
 own material flag
 
Standard_Boolean myInfiniteState
 infinite flag
 
Standard_Boolean myIsMutable
 mutable flag
 
Standard_Boolean myHasOwnPresentations
 flag indicating if object should have own presentations
 
Standard_Boolean myToPropagateVisualState
 flag indicating if visual state (display/erase/color) should be propagated to all children
 

Detailed Description

Presentable shape only for purpose of display for BRepOwner...

Constructor & Destructor Documentation

◆ StdSelect_Shape()

StdSelect_Shape::StdSelect_Shape ( const TopoDS_Shape & theShape,
const Handle< Prs3d_Drawer > & theDrawer = HandlePrs3d_Drawer >() )

Member Function Documentation

◆ Compute()

virtual void StdSelect_Shape::Compute ( const Handle< PrsMgr_PresentationManager > & thePrsMgr,
const Handle< Prs3d_Presentation > & thePrs,
const Standard_Integer theMode )
overridevirtual

Calculates the 3D view presentation for specified display mode. This is a key interface for implementing Presentable Object interface.

Parameters
thePrsMgrpresentation manager where presentation has been created
thePrspresentation to fill
theModedisplay mode to compute; can be any number accepted by AcceptDisplayMode() method
See also
AcceptDisplayMode()

Implements PrsMgr_PresentableObject.

◆ DumpJson()

virtual void StdSelect_Shape::DumpJson ( Standard_OStream & theOStream,
Standard_Integer theDepth = -1 ) const
overridevirtual

Dumps the content of me into the stream.

Reimplemented from PrsMgr_PresentableObject.

◆ Shape() [1/2]

const TopoDS_Shape & StdSelect_Shape::Shape ( ) const
inline

◆ Shape() [2/2]

void StdSelect_Shape::Shape ( const TopoDS_Shape & theShape)
inline

The documentation for this class was generated from the following file: