Sensitive for triangulation or point set defined by Primitive Array. The primitives can be optionally combined into patches within BVH tree to reduce its building time in expense of extra traverse time. More...

#include <Select3D_SensitivePrimitiveArray.hxx>

Inheritance diagram for Select3D_SensitivePrimitiveArray:

[legend]

Public Member Functions
	Select3D_SensitivePrimitiveArray (const occ::handle< SelectMgr_EntityOwner > &theOwnerId)
	Constructs an empty sensitive object.

int	PatchSizeMax () const
	Return patch size limit (1 by default).

void	SetPatchSizeMax (const int thePatchSizeMax)
	Assign patch size limit. Should be set before initialization.

float	PatchDistance () const
	Maximum allowed distance between consequential elements in patch (ShortRealLast() by default). Has no effect on indexed triangulation.

void	SetPatchDistance (const float thePatchDistMax)
	Assign patch distance limit. Should be set before initialization.

bool	InitTriangulation (const occ::handle< Graphic3d_Buffer > &theVerts, const occ::handle< Graphic3d_IndexBuffer > &theIndices, const TopLoc_Location &theInitLoc, const int theIndexLower, const int theIndexUpper, const bool theToEvalMinMax=true, const int theNbGroups=1)
	Initialize the sensitive object from triangualtion. The sub-triangulation can be specified by arguments theIndexLower and theIndexUpper (these are for iterating theIndices, not to restrict the actual index values!).

bool	InitTriangulation (const occ::handle< Graphic3d_Buffer > &theVerts, const occ::handle< Graphic3d_IndexBuffer > &theIndices, const TopLoc_Location &theInitLoc, const bool theToEvalMinMax=true, const int theNbGroups=1)
	Initialize the sensitive object from triangualtion.

bool	InitPoints (const occ::handle< Graphic3d_Buffer > &theVerts, const occ::handle< Graphic3d_IndexBuffer > &theIndices, const TopLoc_Location &theInitLoc, const int theIndexLower, const int theIndexUpper, const bool theToEvalMinMax=true, const int theNbGroups=1)
	Initialize the sensitive object from point set. The sub-set of points can be specified by arguments theIndexLower and theIndexUpper (these are for iterating theIndices, not to restrict the actual index values!).

bool	InitPoints (const occ::handle< Graphic3d_Buffer > &theVerts, const occ::handle< Graphic3d_IndexBuffer > &theIndices, const TopLoc_Location &theInitLoc, const bool theToEvalMinMax=true, const int theNbGroups=1)
	Initialize the sensitive object from point set.

bool	InitPoints (const occ::handle< Graphic3d_Buffer > &theVerts, const TopLoc_Location &theInitLoc, const bool theToEvalMinMax=true, const int theNbGroups=1)
	Initialize the sensitive object from point set.

void	SetMinMax (double theMinX, double theMinY, double theMinZ, double theMaxX, double theMaxY, double theMaxZ)
	Assign new not transformed bounding box.

bool	ToDetectElements () const
	Return flag to keep index of last topmost detected element, TRUE by default.

void	SetDetectElements (bool theToDetect)
	Setup keeping of the index of last topmost detected element (axis picking).

bool	ToDetectElementMap () const
	Return flag to keep index map of last detected elements, FALSE by default (rectangle selection).

void	SetDetectElementMap (bool theToDetect)
	Setup keeping of the index map of last detected elements (rectangle selection).

bool	ToDetectNodes () const
	Return flag to keep index of last topmost detected node, FALSE by default.

void	SetDetectNodes (bool theToDetect)
	Setup keeping of the index of last topmost detected node (for axis picking).

bool	ToDetectNodeMap () const
	Return flag to keep index map of last detected nodes, FALSE by default (rectangle selection).

void	SetDetectNodeMap (bool theToDetect)
	Setup keeping of the index map of last detected nodes (rectangle selection).

bool	ToDetectEdges () const
	Return flag to keep index of last topmost detected edge, FALSE by default.

void	SetDetectEdges (bool theToDetect)
	Setup keeping of the index of last topmost detected edge (axis picking).

int	LastDetectedElement () const
	Return last topmost detected element or -1 if undefined (axis picking).

const occ::handle< TColStd_HPackedMapOfInteger > &	LastDetectedElementMap () const
	Return the index map of last detected elements (rectangle selection).

int	LastDetectedNode () const
	Return last topmost detected node or -1 if undefined (axis picking).

const occ::handle< TColStd_HPackedMapOfInteger > &	LastDetectedNodeMap () const
	Return the index map of last detected nodes (rectangle selection).

int	LastDetectedEdgeNode1 () const
	Return the first node of last topmost detected edge or -1 if undefined (axis picking).

int	LastDetectedEdgeNode2 () const
	Return the second node of last topmost detected edge or -1 if undefined (axis picking).

std::array< NCollection_Vec3< float >, 3 >	GetVertex (const int theIndex) const
	Return the three vertex positions of the triangle at the given triangulation index. Only meaningful for triangulation-based primitive arrays.

void	DumpJson (Standard_OStream &theOStream, int theDepth=-1) const override
	Dumps the content of me into the stream.

bool	Matches (SelectBasics_SelectingVolumeManager &theMgr, SelectBasics_PickResult &thePickResult) override
	Checks whether the sensitive entity is overlapped by current selecting volume.

occ::handle< Select3D_SensitiveEntity >	GetConnected () override
	Originally this method intended to return sensitive entity with new location aLocation, but currently sensitive entities do not hold a location, instead HasLocation() and Location() methods call corresponding entity owner's methods. Thus all entities returned by GetConnected() share the same location propagated from corresponding selectable object. You must redefine this function for any type of sensitive entity which can accept another connected sensitive entity.

int	Size () const override
	Returns the length of array of triangles or edges.

int	NbSubElements () const override
	Returns the amount of nodes in triangulation.

Select3D_BndBox3d	Box (const int theIdx) const override
	Returns bounding box of triangle/edge with index theIdx.

double	Center (const int theIdx, const int theAxis) const override
	Returns geometry center of triangle/edge with index theIdx in array along the given axis theAxis.

void	Swap (const int theIdx1, const int theIdx2) override
	Swaps items with indexes theIdx1 and theIdx2 in array.

Select3D_BndBox3d	BoundingBox () override
	Returns bounding box of the triangulation. If location transformation is set, it will be applied.

gp_Pnt	CenterOfGeometry () const override
	Returns center of triangulation. If location transformation is set, it will be applied.

bool	HasInitLocation () const override
	Returns true if the shape corresponding to the entity has init location.

gp_GTrsf	InvInitLocation () const override
	Returns inversed location transformation matrix if the shape corresponding to this entity has init location set. Otherwise, returns identity matrix.

void	Set (const occ::handle< SelectMgr_EntityOwner > &theOwnerId) override
	Sets the owner for all entities in group.

void	BVH () override
	Builds BVH tree for sensitive set.

Public Member Functions inherited from Select3D_SensitiveSet
	Select3D_SensitiveSet (const occ::handle< SelectMgr_EntityOwner > &theOwnerId)
	Creates new empty sensitive set and its content.

bool	Matches (SelectBasics_SelectingVolumeManager &theMgr, SelectBasics_PickResult &thePickResult) override
	Checks whether one or more entities of the set overlap current selecting volume. Implements the traverse of BVH tree built for the set.

void	BVH () override
	Builds BVH tree for sensitive set. Must be called manually to build BVH tree for any sensitive set in case if its content was initialized not in a constructor, but element by element.

bool	ToBuildBVH () const override
	Returns TRUE if BVH tree is in invalidated state.

void	SetBuilder (const occ::handle< Select3D_BVHBuilder3d > &theBuilder)
	Sets the method (builder) used to construct BVH.

void	MarkDirty ()
	Marks BVH tree of the set as outdated. It will be rebuild at the next call of BVH()

Select3D_BndBox3d	BoundingBox () override
	Returns bounding box of the whole set. This method should be redefined in Select3D_SensitiveSet descendants.

gp_Pnt	CenterOfGeometry () const override
	Returns center of the whole set. This method should be redefined in Select3D_SensitiveSet descendants.

void	Clear () override
	Destroys cross-reference to avoid memory leak.

int	GetLeafNodeSize () const
	Returns a number of nodes in 1 BVH leaf.

void	DumpJson (Standard_OStream &theOStream, int theDepth=-1) const override
	Dumps the content of me into the stream.

Public Member Functions inherited from Select3D_SensitiveEntity
const occ::handle< SelectMgr_EntityOwner > &	OwnerId () const
	Returns pointer to owner of the entity.

int	SensitivityFactor () const
	allows a better sensitivity for a specific entity in selection algorithms useful for small sized entities.

void	SetSensitivityFactor (const int theNewSens)
	Allows to manage sensitivity of a particular sensitive entity.

const occ::handle< Graphic3d_TransformPers > &	TransformPersistence () const
	Return transformation persistence.

virtual void	SetTransformPersistence (const occ::handle< Graphic3d_TransformPers > &theTrsfPers)
	Set transformation persistence.

const occ::handle< Graphic3d_Flipper > &	Flipper () const
	Return flipper metadata describing the runtime flip of the owning group, or null.

virtual void	SetFlippingOptions (const bool theIsEnabled, const gp_Ax2 &theRefPlane)
	Set flipping options. When enabled, creates a Graphic3d_Flipper for theRefPlane; otherwise clears the flipper.

Public Member Functions inherited from Standard_Transient
	Standard_Transient ()
	Empty constructor.

	Standard_Transient (const Standard_Transient &)
	Copy constructor – does nothing.

Standard_Transient &	operator= (const Standard_Transient &)
	Assignment operator, needed to avoid copying reference counter.

virtual	~Standard_Transient ()=default
	Destructor must be virtual.

virtual const opencascade::handle< Standard_Type > &	DynamicType () const
	Returns a type descriptor about this object.

bool	IsInstance (const opencascade::handle< Standard_Type > &theType) const
	Returns a true value if this is an instance of Type.

bool	IsInstance (const char *const theTypeName) const
	Returns a true value if this is an instance of TypeName.

bool	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.

bool	IsKind (const char *const 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_Transient *	This () 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.

int	GetRefCount () const noexcept
	Get the reference counter of this object.

void	IncrementRefCounter () noexcept
	Increments the reference counter of this object. Uses relaxed memory ordering since incrementing only requires atomicity, not synchronization with other memory operations.

int	DecrementRefCounter () noexcept
	Decrements the reference counter of this object; returns the decremented value. Uses release ordering for the decrement to ensure all writes to the object are visible before the count reaches zero. An acquire fence is added only when the count reaches zero, ensuring proper synchronization before deletion. This is more efficient than using acq_rel for every decrement.

virtual void	Delete () const
	Memory deallocator for transient classes.

Protected Member Functions
void	computeBoundingBox ()
	Compute bounding box.

Select3D_BndBox3d	applyTransformation ()
	Inner function for transformation application to bounding box of the triangulation.

const NCollection_Vec3< float > &	getPosVec3 (const int theIndex) const
	Auxiliary getter.

const NCollection_Vec2< float > &	getPosVec2 (const int theIndex) const
	Auxiliary getter.

bool	overlapsElement (SelectBasics_PickResult &thePickResult, SelectBasics_SelectingVolumeManager &theMgr, int theElemIdx, bool theIsFullInside) override
	Checks whether the element with index theIdx overlaps the current selecting volume.

double	distanceToCOG (SelectBasics_SelectingVolumeManager &theMgr) override
	Calculates distance from the 3d projection of used-picked screen point to center of the geometry.

bool	elementIsInside (SelectBasics_SelectingVolumeManager &theMgr, int theElemIdx, bool theIsFullInside) override
	Checks whether the entity with index theIdx is inside the current selecting volume.

Protected Member Functions inherited from Select3D_SensitiveSet
bool	matches (SelectBasics_SelectingVolumeManager &theMgr, SelectBasics_PickResult &thePickResult, bool theToCheckAllInside)
	Checks whether one or more entities of the set overlap current selecting volume. Implements the traverse of BVH tree built for the set.

bool	processElements (SelectBasics_SelectingVolumeManager &theMgr, int theFirstElem, int theLastElem, bool theIsFullInside, bool theToCheckAllInside, SelectBasics_PickResult &thePickResult, int &theMatchesNb)
	Process elements overlapped by the selection volume.

Protected Member Functions inherited from Select3D_SensitiveEntity
	Select3D_SensitiveEntity (const occ::handle< SelectMgr_EntityOwner > &theOwnerId)

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 Select3D_SensitiveSet
static const occ::handle< Select3D_BVHBuilder3d > &	DefaultBVHBuilder ()
	Return global instance to default BVH builder.

static void	SetDefaultBVHBuilder (const occ::handle< Select3D_BVHBuilder3d > &theBuilder)
	Assign new BVH builder to be used by default for new sensitive sets (assigning is NOT thread-safe!).

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 Attributes inherited from Select3D_SensitiveSet
BvhPrimitiveSet	myContent
	A link between sensitive entity and BVH_PrimitiveSet.

int	myDetectedIdx
	Index of detected primitive in BVH sorted primitive array.

Protected Attributes inherited from Select3D_SensitiveEntity
occ::handle< SelectMgr_EntityOwner >	myOwnerId

occ::handle< Graphic3d_TransformPers >	myTrsfPers

occ::handle< Graphic3d_Flipper >	myFlipper

int	mySFactor

Detailed Description

Sensitive for triangulation or point set defined by Primitive Array. The primitives can be optionally combined into patches within BVH tree to reduce its building time in expense of extra traverse time.

Constructor & Destructor Documentation

◆ Select3D_SensitivePrimitiveArray()

Select3D_SensitivePrimitiveArray::Select3D_SensitivePrimitiveArray ( const occ::handle< SelectMgr_EntityOwner > & theOwnerId )

Constructs an empty sensitive object.

Member Function Documentation

◆ applyTransformation()

Select3D_BndBox3d Select3D_SensitivePrimitiveArray::applyTransformation ( )

protected

Inner function for transformation application to bounding box of the triangulation.

◆ BoundingBox()

Select3D_BndBox3d Select3D_SensitivePrimitiveArray::BoundingBox ( )

overridevirtual

Returns bounding box of the triangulation. If location transformation is set, it will be applied.

Implements Select3D_SensitiveEntity.

◆ Box()

Select3D_BndBox3d Select3D_SensitivePrimitiveArray::Box ( const int theIdx ) const

overridevirtual

Returns bounding box of triangle/edge with index theIdx.

Implements Select3D_SensitiveSet.

◆ BVH()

void Select3D_SensitivePrimitiveArray::BVH ( )

overridevirtual

Builds BVH tree for sensitive set.

Reimplemented from Select3D_SensitiveEntity.

◆ Center()

double Select3D_SensitivePrimitiveArray::Center	(	const int	theIdx,
		const int	theAxis ) const

overridevirtual

Returns geometry center of triangle/edge with index theIdx in array along the given axis theAxis.

Implements Select3D_SensitiveSet.

◆ CenterOfGeometry()

gp_Pnt Select3D_SensitivePrimitiveArray::CenterOfGeometry ( ) const

inlineoverridevirtual

Returns center of triangulation. If location transformation is set, it will be applied.

Implements Select3D_SensitiveEntity.

◆ computeBoundingBox()

void Select3D_SensitivePrimitiveArray::computeBoundingBox ( )

protected

Compute bounding box.

◆ distanceToCOG()

double Select3D_SensitivePrimitiveArray::distanceToCOG ( SelectBasics_SelectingVolumeManager & theMgr )

overrideprotectedvirtual

Calculates distance from the 3d projection of used-picked screen point to center of the geometry.

Implements Select3D_SensitiveSet.

◆ DumpJson()

void Select3D_SensitivePrimitiveArray::DumpJson	(	Standard_OStream &	theOStream,
		int	theDepth = -1 ) const

overridevirtual

Dumps the content of me into the stream.

Reimplemented from Select3D_SensitiveEntity.

◆ elementIsInside()

bool Select3D_SensitivePrimitiveArray::elementIsInside	(	SelectBasics_SelectingVolumeManager &	theMgr,
		int	theElemIdx,
		bool	theIsFullInside )

overrideprotectedvirtual

Checks whether the entity with index theIdx is inside the current selecting volume.

Implements Select3D_SensitiveSet.

◆ GetConnected()

occ::handle< Select3D_SensitiveEntity > Select3D_SensitivePrimitiveArray::GetConnected ( )

overridevirtual

Originally this method intended to return sensitive entity with new location aLocation, but currently sensitive entities do not hold a location, instead HasLocation() and Location() methods call corresponding entity owner's methods. Thus all entities returned by GetConnected() share the same location propagated from corresponding selectable object. You must redefine this function for any type of sensitive entity which can accept another connected sensitive entity.

Reimplemented from Select3D_SensitiveEntity.

◆ getPosVec2()

const NCollection_Vec2< float > & Select3D_SensitivePrimitiveArray::getPosVec2 ( const int theIndex ) const

inlineprotected

Auxiliary getter.

◆ getPosVec3()

const NCollection_Vec3< float > & Select3D_SensitivePrimitiveArray::getPosVec3 ( const int theIndex ) const

inlineprotected

Auxiliary getter.

◆ GetVertex()

std::array< NCollection_Vec3< float >, 3 > Select3D_SensitivePrimitiveArray::GetVertex ( const int theIndex ) const

Return the three vertex positions of the triangle at the given triangulation index. Only meaningful for triangulation-based primitive arrays.

Parameters

[in] theIndex zero-based triangle index within [0, triangle count)

◆ HasInitLocation()

bool Select3D_SensitivePrimitiveArray::HasInitLocation ( ) const

inlineoverridevirtual

Returns true if the shape corresponding to the entity has init location.

Reimplemented from Select3D_SensitiveEntity.

◆ InitPoints() [1/3]

bool Select3D_SensitivePrimitiveArray::InitPoints	(	const occ::handle< Graphic3d_Buffer > &	theVerts,
		const occ::handle< Graphic3d_IndexBuffer > &	theIndices,
		const TopLoc_Location &	theInitLoc,
		const bool	theToEvalMinMax = true,
		const int	theNbGroups = 1 )

inline

Initialize the sensitive object from point set.

Parameters

theVerts	attributes array containing Graphic3d_TOA_POS with type Graphic3d_TOD_VEC3 or Graphic3d_TOD_VEC2
theIndices	index array to define subset of points
theInitLoc	location
theToEvalMinMax	compute bounding box within initialization
theNbGroups	number of groups to split the vertex array into several parts

◆ InitPoints() [2/3]

bool Select3D_SensitivePrimitiveArray::InitPoints	(	const occ::handle< Graphic3d_Buffer > &	theVerts,
		const occ::handle< Graphic3d_IndexBuffer > &	theIndices,
		const TopLoc_Location &	theInitLoc,
		const int	theIndexLower,
		const int	theIndexUpper,
		const bool	theToEvalMinMax = true,
		const int	theNbGroups = 1 )

Initialize the sensitive object from point set. The sub-set of points can be specified by arguments theIndexLower and theIndexUpper (these are for iterating theIndices, not to restrict the actual index values!).

Parameters

theVerts	attributes array containing Graphic3d_TOA_POS with type Graphic3d_TOD_VEC3 or Graphic3d_TOD_VEC2
theIndices	index array defining points
theInitLoc	location
theIndexLower	the theIndices range - first value (inclusive), starting from 0
theIndexUpper	the theIndices range - last value (inclusive), upto theIndices->NbElements-1
theToEvalMinMax	compute bounding box within initialization
theNbGroups	number of groups to split the vertex array into several parts

◆ InitPoints() [3/3]

bool Select3D_SensitivePrimitiveArray::InitPoints	(	const occ::handle< Graphic3d_Buffer > &	theVerts,
		const TopLoc_Location &	theInitLoc,
		const bool	theToEvalMinMax = true,
		const int	theNbGroups = 1 )

inline

Initialize the sensitive object from point set.

Parameters

theVerts	attributes array containing Graphic3d_TOA_POS with type Graphic3d_TOD_VEC3 or Graphic3d_TOD_VEC2
theInitLoc	location
theToEvalMinMax	compute bounding box within initialization
theNbGroups	number of groups to split the vertex array into several parts

◆ InitTriangulation() [1/2]

bool Select3D_SensitivePrimitiveArray::InitTriangulation	(	const occ::handle< Graphic3d_Buffer > &	theVerts,
		const occ::handle< Graphic3d_IndexBuffer > &	theIndices,
		const TopLoc_Location &	theInitLoc,
		const bool	theToEvalMinMax = true,
		const int	theNbGroups = 1 )

inline

Initialize the sensitive object from triangualtion.

Parameters

theVerts	attributes array containing Graphic3d_TOA_POS with type Graphic3d_TOD_VEC3 or Graphic3d_TOD_VEC2
theIndices	index array defining triangulation
theInitLoc	location
theToEvalMinMax	compute bounding box within initialization
theNbGroups	number of groups to split the vertex array into several parts

◆ InitTriangulation() [2/2]

bool Select3D_SensitivePrimitiveArray::InitTriangulation	(	const occ::handle< Graphic3d_Buffer > &	theVerts,
		const occ::handle< Graphic3d_IndexBuffer > &	theIndices,
		const TopLoc_Location &	theInitLoc,
		const int	theIndexLower,
		const int	theIndexUpper,
		const bool	theToEvalMinMax = true,
		const int	theNbGroups = 1 )

Initialize the sensitive object from triangualtion. The sub-triangulation can be specified by arguments theIndexLower and theIndexUpper (these are for iterating theIndices, not to restrict the actual index values!).

Parameters

theVerts	attributes array containing Graphic3d_TOA_POS with type Graphic3d_TOD_VEC3 or Graphic3d_TOD_VEC2
theIndices	index array defining triangulation
theInitLoc	location
theIndexLower	the theIndices range - first value (inclusive), starting from 0 and multiple by 3
theIndexUpper	the theIndices range - last value (inclusive), upto theIndices->NbElements-1 and multiple by 3
theToEvalMinMax	compute bounding box within initialization
theNbGroups	number of groups to split the vertex array into several parts

◆ InvInitLocation()

gp_GTrsf Select3D_SensitivePrimitiveArray::InvInitLocation ( ) const

inlineoverridevirtual

Returns inversed location transformation matrix if the shape corresponding to this entity has init location set. Otherwise, returns identity matrix.

Reimplemented from Select3D_SensitiveEntity.

◆ LastDetectedEdgeNode1()

int Select3D_SensitivePrimitiveArray::LastDetectedEdgeNode1 ( ) const

inline

Return the first node of last topmost detected edge or -1 if undefined (axis picking).

◆ LastDetectedEdgeNode2()

int Select3D_SensitivePrimitiveArray::LastDetectedEdgeNode2 ( ) const

inline

Return the second node of last topmost detected edge or -1 if undefined (axis picking).

◆ LastDetectedElement()

int Select3D_SensitivePrimitiveArray::LastDetectedElement ( ) const

inline

Return last topmost detected element or -1 if undefined (axis picking).

◆ LastDetectedElementMap()

const occ::handle< TColStd_HPackedMapOfInteger > & Select3D_SensitivePrimitiveArray::LastDetectedElementMap ( ) const

inline

Return the index map of last detected elements (rectangle selection).

◆ LastDetectedNode()

int Select3D_SensitivePrimitiveArray::LastDetectedNode ( ) const

inline

Return last topmost detected node or -1 if undefined (axis picking).

◆ LastDetectedNodeMap()

const occ::handle< TColStd_HPackedMapOfInteger > & Select3D_SensitivePrimitiveArray::LastDetectedNodeMap ( ) const

inline

Return the index map of last detected nodes (rectangle selection).

◆ Matches()

bool Select3D_SensitivePrimitiveArray::Matches	(	SelectBasics_SelectingVolumeManager &	theMgr,
		SelectBasics_PickResult &	thePickResult )

overridevirtual

Checks whether the sensitive entity is overlapped by current selecting volume.

Implements Select3D_SensitiveEntity.

◆ NbSubElements()

int Select3D_SensitivePrimitiveArray::NbSubElements ( ) const

inlineoverridevirtual

Returns the amount of nodes in triangulation.

Implements Select3D_SensitiveEntity.

◆ overlapsElement()

bool Select3D_SensitivePrimitiveArray::overlapsElement	(	SelectBasics_PickResult &	thePickResult,
		SelectBasics_SelectingVolumeManager &	theMgr,
		int	theElemIdx,
		bool	theIsFullInside )

overrideprotectedvirtual

Checks whether the element with index theIdx overlaps the current selecting volume.

Implements Select3D_SensitiveSet.

◆ PatchDistance()

float Select3D_SensitivePrimitiveArray::PatchDistance ( ) const

inline

Maximum allowed distance between consequential elements in patch (ShortRealLast() by default). Has no effect on indexed triangulation.

◆ PatchSizeMax()

int Select3D_SensitivePrimitiveArray::PatchSizeMax ( ) const

inline

Return patch size limit (1 by default).

◆ Set()

void Select3D_SensitivePrimitiveArray::Set ( const occ::handle< SelectMgr_EntityOwner > & theOwnerId )

overridevirtual

Sets the owner for all entities in group.

Reimplemented from Select3D_SensitiveEntity.

◆ SetDetectEdges()

void Select3D_SensitivePrimitiveArray::SetDetectEdges ( bool theToDetect )

inline

Setup keeping of the index of last topmost detected edge (axis picking).

◆ SetDetectElementMap()

void Select3D_SensitivePrimitiveArray::SetDetectElementMap ( bool theToDetect )

Setup keeping of the index map of last detected elements (rectangle selection).

◆ SetDetectElements()

void Select3D_SensitivePrimitiveArray::SetDetectElements ( bool theToDetect )

inline

Setup keeping of the index of last topmost detected element (axis picking).

◆ SetDetectNodeMap()

void Select3D_SensitivePrimitiveArray::SetDetectNodeMap ( bool theToDetect )

Setup keeping of the index map of last detected nodes (rectangle selection).

◆ SetDetectNodes()

void Select3D_SensitivePrimitiveArray::SetDetectNodes ( bool theToDetect )

inline

Setup keeping of the index of last topmost detected node (for axis picking).

◆ SetMinMax()

void Select3D_SensitivePrimitiveArray::SetMinMax	(	double	theMinX,
		double	theMinY,
		double	theMinZ,
		double	theMaxX,
		double	theMaxY,
		double	theMaxZ )

inline

Assign new not transformed bounding box.

◆ SetPatchDistance()

void Select3D_SensitivePrimitiveArray::SetPatchDistance ( const float thePatchDistMax )

inline

Assign patch distance limit. Should be set before initialization.

◆ SetPatchSizeMax()

void Select3D_SensitivePrimitiveArray::SetPatchSizeMax ( const int thePatchSizeMax )

inline

Assign patch size limit. Should be set before initialization.

◆ Size()

int Select3D_SensitivePrimitiveArray::Size ( ) const

overridevirtual

Returns the length of array of triangles or edges.

Implements Select3D_SensitiveSet.

◆ Swap()

void Select3D_SensitivePrimitiveArray::Swap	(	const int	theIdx1,
		const int	theIdx2 )

overridevirtual

Swaps items with indexes theIdx1 and theIdx2 in array.

Implements Select3D_SensitiveSet.

◆ ToDetectEdges()

bool Select3D_SensitivePrimitiveArray::ToDetectEdges ( ) const

inline

Return flag to keep index of last topmost detected edge, FALSE by default.

◆ ToDetectElementMap()

bool Select3D_SensitivePrimitiveArray::ToDetectElementMap ( ) const

inline

Return flag to keep index map of last detected elements, FALSE by default (rectangle selection).

◆ ToDetectElements()

bool Select3D_SensitivePrimitiveArray::ToDetectElements ( ) const

inline

Return flag to keep index of last topmost detected element, TRUE by default.

◆ ToDetectNodeMap()

bool Select3D_SensitivePrimitiveArray::ToDetectNodeMap ( ) const

inline

Return flag to keep index map of last detected nodes, FALSE by default (rectangle selection).

◆ ToDetectNodes()

bool Select3D_SensitivePrimitiveArray::ToDetectNodes ( ) const

inline

Return flag to keep index of last topmost detected node, FALSE by default.

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

Select3D_SensitivePrimitiveArray.hxx

Public Member Functions

Protected Member Functions

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ Select3D_SensitivePrimitiveArray()

Member Function Documentation

◆ applyTransformation()

◆ BoundingBox()

◆ Box()

◆ BVH()

◆ Center()

◆ CenterOfGeometry()

◆ computeBoundingBox()

◆ distanceToCOG()

◆ DumpJson()

◆ elementIsInside()

◆ GetConnected()

◆ getPosVec2()

◆ getPosVec3()

◆ GetVertex()

◆ HasInitLocation()

◆ InitPoints() [1/3]

◆ InitPoints() [2/3]

◆ InitPoints() [3/3]

◆ InitTriangulation() [1/2]

◆ InitTriangulation() [2/2]

◆ InvInitLocation()

◆ LastDetectedEdgeNode1()

◆ LastDetectedEdgeNode2()

◆ LastDetectedElement()

◆ LastDetectedElementMap()

◆ LastDetectedNode()

◆ LastDetectedNodeMap()

◆ Matches()

◆ NbSubElements()

◆ overlapsElement()

◆ PatchDistance()

◆ PatchSizeMax()

◆ Set()

◆ SetDetectEdges()

◆ SetDetectElementMap()

◆ SetDetectElements()

◆ SetDetectNodeMap()

◆ SetDetectNodes()

◆ SetMinMax()

◆ SetPatchDistance()

◆ SetPatchSizeMax()

◆ Size()

◆ Swap()

◆ ToDetectEdges()

◆ ToDetectElementMap()

◆ ToDetectElements()

◆ ToDetectNodeMap()

◆ ToDetectNodes()