OCC.BRepMesh module¶
No docstring provided.
-
class
BRepMesh_Circle
(*args)¶ Bases:
object
- Default constructor.
Return type: None - Constructor. @param theLocation location of a circle. @param theRadius radius of a circle.
Parameters: Return type: -
Location
()¶ - Returns location of a circle.
Return type: inline gp_XY
-
Radius
()¶ - Returns radius of a circle.
Return type: inline float
-
SetLocation
()¶ - Sets location of a circle. @param theLocation location of a circle.
Parameters: theLocation (gp_XY) – Return type: inline void
-
SetRadius
()¶ - Sets radius of a circle. @param theRadius radius of a circle.
Parameters: theRadius (float) – Return type: inline void
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thisown
¶ The membership flag
-
class
BRepMesh_CircleInspector
(*args)¶ Bases:
object
- Constructor. @param theTolerance tolerance to be used for identification of shot circles. @param theReservedSize size to be reserved for vector of circles. @param theAllocator memory allocator to be used by internal collections.
Parameters: Return type: -
Bind
()¶ - Adds the circle to vector of circles at the given position. @param theIndex position of circle in the vector. @param theCircle circle to be added.
Parameters: - theIndex (int) –
- theCircle (BRepMesh_Circle &) –
Return type: inline void
-
Circle
()¶ - Returns circle with the given index. @param theIndex index of circle. returns circle with the given index.
Parameters: theIndex (int) – Return type: inline BRepMesh_Circle
-
Circles
()¶ - Resutns vector of registered circles.
Return type: inline BRepMesh::VectorOfCircle
-
GetShotCircles
()¶ - Returns list of circles shot by the reference point.
Return type: inline BRepMesh::ListOfInteger
-
Inspect
()¶ - Performs inspection of a circle with the given index. @param theTargetIndex index of a circle to be checked. returns status of the check.
Parameters: theTargetIndex (int) – Return type: NCollection_CellFilter_Action
-
static
IsEqual
()¶ - Checks indices for equlity.
Parameters: Return type:
-
SetPoint
()¶ - Set reference point to be checked. @param thePoint bullet point.
Parameters: thePoint (gp_XY) – Return type: inline void
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thisown
¶ The membership flag
-
BRepMesh_CircleInspector_IsEqual
()¶ - Checks indices for equlity.
Parameters: Return type:
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class
BRepMesh_CircleTool
(*args)¶ Bases:
object
- Constructor. @param theAllocator memory allocator to be used by internal structures.
Parameters: theAllocator (Handle_NCollection_IncAllocator &) – Return type: None - Constructor. @param theReservedSize size to be reserved for vector of circles. @param theAllocator memory allocator to be used by internal structures.
Parameters: - theReservedSize (int) –
- theAllocator (Handle_NCollection_IncAllocator &) –
Return type: -
Bind
()¶ - Binds the circle to the tool. @param theIndex index a circle should be bound with. @param theCircle circle to be bound.
Parameters: Return type: - Computes circle on three points and bind it to the tool. @param theIndex index a circle should be bound with. @param thePoint1 first point. @param thePoint2 second point. @param thePoint3 third point. returns False in case of impossibility to build a circle on the given points, True elsewhere.
Parameters: Return type:
-
Delete
()¶ - Deletes a circle from the tool. @param theIndex index of a circle to be removed.
Parameters: theIndex (int) – Return type: None
-
Init
()¶ - Initializes the tool. @param theReservedSize size to be reserved for vector of circles.
Parameters: Standard_Integer – Return type: inline void
-
static
MakeCircle
()¶ - Computes circle on three points. @param thePoint1 first point. @param thePoint2 second point. @param thePoint3 third point. @param[out] theLocation center of computed circle. @param[out] theRadius radius of computed circle. returns False in case of impossibility to build a circle on the given points, True elsewhere.
Parameters: Return type:
-
MocBind
()¶ - Binds implicit zero circle. @param theIndex index a zero circle should be bound with.
Parameters: theIndex (int) – Return type: None
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Select
()¶ - Select the circles shot by the given point. @param thePoint bullet point.
Parameters: thePoint (gp_XY) – Return type: BRepMesh::ListOfInteger
-
SetCellSize
()¶ - Sets new size for cell filter. @param theSize cell size to be set for X and Y dimensions.
Parameters: theSize (float) – Return type: inline void - Sets new size for cell filter. @param theSizeX cell size to be set for X dimension. @param theSizeY cell size to be set for Y dimension.
Parameters: Return type: inline void
-
SetMinMaxSize
()¶ - Sets limits of inspection area. @param theMin bottom left corner of inspection area. @param theMax top right corner of inspection area.
Parameters: Return type: inline void
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thisown
¶ The membership flag
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BRepMesh_CircleTool_MakeCircle
()¶ - Computes circle on three points. @param thePoint1 first point. @param thePoint2 second point. @param thePoint3 third point. @param[out] theLocation center of computed circle. @param[out] theRadius radius of computed circle. returns False in case of impossibility to build a circle on the given points, True elsewhere.
Parameters: Return type:
-
class
BRepMesh_Classifier
(*args)¶ Bases:
object
- Constructor.
Return type: None -
Perform
()¶ - Performs classification of the given point regarding to face internals. @param thePoint Point in parametric space to be classified. returns
Parameters: thePoint (gp_Pnt2d) – Return type: TopAbs_State
-
RegisterWire
()¶ - Registers wire specified by sequence of points for further classification of points. @param theWire Wire to be registered. Specified by sequence of points. @param theTolUV Tolerance to be used for calculations in parametric space. @param theUmin Lower U boundary of the face in parametric space. @param theUmax Upper U boundary of the face in parametric space. @param theVmin Lower V boundary of the face in parametric space. @param theVmax Upper V boundary of the face in parametric space.
Parameters: Return type:
-
thisown
¶ The membership flag
-
class
BRepMesh_DataStructureOfDelaun
(*args)¶ Bases:
OCC.Standard.Standard_Transient
- Constructor. @param theAllocator memory allocator to be used by internal structures. @param theReservedNodeSize presumed number of nodes in this mesh.
Parameters: - theAllocator (Handle_NCollection_IncAllocator &) –
- theReservedNodeSize (int) – default value is 100
Return type: -
AddElement
()¶ - Adds element to the mesh if it is not already in the mesh. @param theElement element to be added to the mesh. returns index of the element in the structure.
Parameters: theElement (BRepMesh_Triangle &) – Return type: int
-
AddLink
()¶ - Adds link to the mesh if it is not already in the mesh. @param theLink link to be added to the mesh. returns index of the link in the structure.
Parameters: theLink (BRepMesh_Edge &) – Return type: int
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AddNode
()¶ - Adds node to the mesh if it is not already in the mesh. @param theNode node to be added to the mesh. @param isForceAdd adds the given node to structure without checking on coincidence with other nodes. returns index of the node in the structure.
Parameters: - theNode (BRepMesh_Vertex &) –
- isForceAdd (bool) – default value is Standard_False
Return type:
-
Allocator
()¶ - Returns memory allocator used by the structure.
Return type: inline Handle_NCollection_IncAllocator
-
ClearDeleted
()¶ - Substitutes deleted items by the last one from corresponding map to have only non-deleted elements, links or nodes in the structure.
Return type: None
-
Data
()¶ - Gives the data structure for initialization of cell size and tolerance.
Return type: inline BRepMesh::HVertexTool
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ElementNodes
()¶ - Returns indices of nodes forming the given element. @param theElement element which nodes should be retrieved. @param[out] theNodes nodes of the given element.
Parameters: theElement (BRepMesh_Triangle &) – :param : :type : int(&theNodes) :rtype: None
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ElementsConnectedTo
()¶ - Returns indices of elements conected to the link with the given index. @param theLinkIndex index of link whose data should be retrieved. returns indices of elements conected to the link.
Parameters: theLinkIndex (int) – Return type: BRepMesh_PairOfIndex
-
ElementsOfDomain
()¶ - Returns map of indices of elements registered in mesh.
Return type: inline BRepMesh::MapOfInteger
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GetElement
()¶ - Get element by the index. @param theIndex index of an element. returns element with the given index.
Parameters: theIndex (int) – Return type: BRepMesh_Triangle
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GetHandle
()¶
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GetLink
()¶ - Get link by the index. @param theIndex index of a link. returns link with the given index.
Parameters: theIndex (int) – Return type: BRepMesh_Edge
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GetNode
()¶ - Get node by the index. @param theIndex index of a node. returns node with the given index.
Parameters: theIndex (int) – Return type: inline BRepMesh_Vertex
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IndexOf
()¶ - Finds the index of the given node. @param theNode node to find. returns index of the given element of zero if node is not in the mesh.
Parameters: theNode (BRepMesh_Vertex &) – Return type: int - Finds the index of the given link. @param theLink link to find. returns index of the given element of zero if link is not in the mesh.
Parameters: theLink (BRepMesh_Edge &) – Return type: int - Finds the index of the given element. @param theElement element to find. returns index of the given element of zero if element is not in the mesh.
Parameters: theElement (BRepMesh_Triangle &) – Return type: int
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LinksConnectedTo
()¶ - Get list of links attached to the node with the given index. @param theIndex index of node whose links should be retrieved. returns list of links attached to the node.
Parameters: theIndex (int) – Return type: inline BRepMesh::ListOfInteger
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LinksOfDomain
()¶ - Returns map of indices of links registered in mesh.
Return type: inline BRepMesh::MapOfInteger
-
NbElements
()¶ - @name API for accessing mesh elements. Returns number of links.
Return type: inline int
-
NbLinks
()¶ - @name API for accessing mesh links. Returns number of links.
Return type: inline int
-
NbNodes
()¶ - @name API for accessing mesh nodes. Returns number of nodes.
Return type: inline int
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RemoveElement
()¶ - Removes element from the mesh. @param theIndex index of element to be removed.
Parameters: theIndex (int) – Return type: None
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RemoveLink
()¶ - Removes link from the mesh in case if it has no connected elements and its type is Free. @param theIndex index of link to be removed. @param isForce if True link will be removed even if movability is not Free.
Parameters: Return type:
-
RemoveNode
()¶ - Removes node from the mesh in case if it has no connected links and its type is Free. @param theIndex index of node to be removed. @param isForce if True node will be removed even if movability is not Free.
Parameters: Return type:
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StatisticsToString
()¶ BRepMesh_DataStructureOfDelaun_StatisticsToString(BRepMesh_DataStructureOfDelaun self) -> std::string
-
SubstituteElement
()¶ - Substitutes the element with the given index by new one. @param theIndex index of element to be substituted. @param theNewLink substituting element. returns False in case if new element is already in the structure, True elsewhere.
Parameters: - theIndex (int) –
- theNewElement (BRepMesh_Triangle &) –
Return type:
-
SubstituteLink
()¶ - Substitutes the link with the given index by new one. @param theIndex index of link to be substituted. @param theNewLink substituting link. returns False in case if new link is already in the structure, True elsewhere.
Parameters: - theIndex (int) –
- theNewLink (BRepMesh_Edge &) –
Return type:
-
SubstituteNode
()¶ - Substitutes the node with the given index by new one. @param theIndex index of node to be substituted. @param theNewNode substituting node. returns False in case if new node is already in the structure, True elsewhere.
Parameters: - theIndex (int) –
- theNewNode (BRepMesh_Vertex &) –
Return type:
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thisown
¶ The membership flag
-
class
BRepMesh_Delaun
(*args)¶ Bases:
object
- Creates the triangulation with an empty Mesh data structure.
Parameters: theVertices (BRepMesh::Array1OfVertexOfDelaun &) – Return type: None - Creates the triangulation with an existent Mesh data structure.
Parameters: - theOldMesh (Handle_BRepMesh_DataStructureOfDelaun &) –
- theVertices (BRepMesh::Array1OfVertexOfDelaun &) –
Return type: - Creates the triangulation with an existant Mesh data structure.
Parameters: - theOldMesh (Handle_BRepMesh_DataStructureOfDelaun &) –
- theVertexIndices (BRepMesh::Array1OfInteger &) –
Return type: -
AddVertices
()¶ - Adds some vertices into the triangulation.
Parameters: theVertices (BRepMesh::Array1OfVertexOfDelaun &) – Return type: None
-
Circles
()¶ - Returns tool used to build mesh consistent to Delaunay criteria.
Return type: inline BRepMesh_CircleTool
-
Contains
()¶ - Test is the given triangle contains the given vertex. If theEdgeOn != 0 the vertex lies onto the edge index returned through this parameter.
Parameters: - theTriangleId (int) –
- theVertex (BRepMesh_Vertex &) –
- theEdgeOn (int &) –
Return type:
-
GetEdge
()¶ - Gives edge with the given index
Parameters: theIndex (int) – Return type: inline BRepMesh_Edge
-
GetTriangle
()¶ - Gives triangle with the given index
Parameters: theIndex (int) – Return type: inline BRepMesh_Triangle
-
GetVertex
()¶ - Gives vertex with the given index
Parameters: theIndex (int) – Return type: inline BRepMesh_Vertex
-
Init
()¶ - Initializes the triangulation with an array of vertices.
Parameters: theVertices (BRepMesh::Array1OfVertexOfDelaun &) – Return type: None
-
RemoveVertex
()¶ - Removes a vertex from the triangulation.
Parameters: theVertex (BRepMesh_Vertex &) – Return type: None
-
Result
()¶ - Gives the Mesh data structure.
Return type: inline Handle_BRepMesh_DataStructureOfDelaun
-
UseEdge
()¶ - Modify mesh to use the edge. returns True if done
Parameters: theEdge (int) – Return type: bool
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thisown
¶ The membership flag
-
class
BRepMesh_DiscretFactory
(*args, **kwargs)¶ Bases:
object
-
DefaultName
()¶ - Returns name for current meshing algorithm.
Return type: inline TCollection_AsciiString
-
Discret
()¶ - Returns triangulation algorithm instance. @param theShape shape to be meshed. @param theLinDeflection linear deflection to be used for meshing. @param theAngDeflection angular deflection to be used for meshing.
Parameters: Return type:
-
ErrorStatus
()¶ - Returns error status for last meshing algorithm switch.
Return type: inline BRepMesh_FactoryError
-
FunctionName
()¶ - Returns function name that should be exported by plugin.
Return type: inline TCollection_AsciiString
-
static
Get
()¶ - Returns the global factory instance.
Return type: BRepMesh_DiscretFactory
-
Names
()¶ - Returns the list of registered meshing algorithms.
Return type: inline TColStd_MapOfAsciiString
-
SetDefault
()¶ - Setup meshing algorithm that should be created by this Factory. Returns True if requested tool is available. On fail Factory will continue to use previous algo. Call ::ErrorStatus() method to retrieve fault reason.
Parameters: - theName (TCollection_AsciiString &) –
- theFuncName (TCollection_AsciiString &) – default value is ‘DISCRETALGO’
Return type:
-
SetDefaultName
()¶ - Setup meshing algorithm by name. Returns True if requested tool is available. On fail Factory will continue to use previous algo.
Parameters: theName (TCollection_AsciiString &) – Return type: bool
-
SetFunctionName
()¶ - Advanced function. Changes function name to retrieve from plugin. Returns True if requested tool is available. On fail Factory will continue to use previous algo.
Parameters: theFuncName (TCollection_AsciiString &) – Return type: bool
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thisown
¶ The membership flag
-
-
BRepMesh_DiscretFactory_Get
()¶ - Returns the global factory instance.
Return type: BRepMesh_DiscretFactory
-
class
BRepMesh_DiscretRoot
(*args, **kwargs)¶ Bases:
OCC.Standard.Standard_Transient
-
Angle
()¶ - Returns angular deflection.
Return type: inline float
-
Deflection
()¶ - Returns linear deflection.
Return type: inline float
-
GetHandle
()¶
-
IsDone
()¶ - Returns true if triangualtion was performed and has success.
Return type: inline bool
-
Perform
()¶ - Compute triangulation for set shape.
Return type: void
-
SetDeflection
()¶ - Setup linear deflection.
Parameters: theDeflection (float) – Return type: inline void
-
SetShape
()¶ - Set the shape to triangulate.
Parameters: theShape (TopoDS_Shape &) – Return type: inline void
-
Shape
()¶ Return type: inline TopoDS_Shape
-
thisown
¶ The membership flag
-
-
class
BRepMesh_Edge
(*args)¶ Bases:
OCC.BRepMesh.BRepMesh_OrientedEdge
- Default constructor.
Return type: None - Constructs a link between two vertices.
Parameters: Return type: -
IsEqual
()¶ - Checks for equality with another edge. @param theOther edge to be checked against this one. returns True if equal, False if not.
Parameters: theOther (BRepMesh_Edge &) – Return type: inline bool
-
IsSameOrientation
()¶ - Checks if the given edge and this one have the same orientation. @param theOther edge to be checked against this one. etrun True if edges have the same orientation, False if not.
Parameters: theOther (BRepMesh_Edge &) – Return type: inline bool
-
Movability
()¶ - Returns movability flag of the Link.
Return type: inline BRepMesh_DegreeOfFreedom
-
SetMovability
()¶ - Sets movability flag of the Link. @param theMovability flag to be set.
Parameters: theMovability (BRepMesh_DegreeOfFreedom) – Return type: inline void
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thisown
¶ The membership flag
-
class
BRepMesh_FastDiscret
(*args, **kwargs)¶ Bases:
OCC.Standard.Standard_Transient
-
Add
()¶ - Record a face for further processing. returns status flags collected during discretization of boundaries of the given face.
Parameters: face (TopoDS_Face &) – Return type: int
-
GetAngle
()¶ - returns the deflection value.
Return type: inline float
-
GetDeflection
()¶ - returns the deflection value.
Return type: inline float
-
GetFaceAttribute
()¶ - Gives face attribute.
Parameters: - theFace (TopoDS_Face &) –
- theAttribute (Handle_BRepMesh_FaceAttribute &) –
Return type:
-
GetHandle
()¶
-
InShape
()¶ Return type: inline bool
Parameters: theShape (TopoDS_Shape &) – Return type: None
-
IsParallel
()¶ - Returns the multi-threading usage flag.
Return type: inline bool
-
NbBoundaryPoints
()¶ - Returns number of boundary 3d points.
Return type: inline int
-
Perform
()¶ - Build triangulation on the whole shape.
Parameters: shape (TopoDS_Shape &) – Return type: None
-
Process
()¶ - Triangulate a face previously recorded for processing by call to Add(). Can be executed in parallel threads.
Parameters: face (TopoDS_Face &) – Return type: None
-
RemoveFaceAttribute
()¶ - Remove face attribute as useless to free locate memory.
Parameters: theFace (TopoDS_Face &) – Return type: None
-
SetParallel
()¶ - Request algorithm to launch in multiple threads to improve performance (should be supported by plugin).
Parameters: theInParallel (bool) – Return type: inline void
-
ShapeTrigu
()¶ Return type: inline bool
Return type: inline TopTools_IndexedDataMapOfShapeListOfShape
Return type: inline bool
-
thisown
¶ The membership flag
-
-
class
BRepMesh_FastDiscretFace
(*args)¶ Bases:
OCC.Standard.Standard_Transient
- Constructor. @param theAngle deviation angle to be used for surface tessellation. @param isInternalVerticesMode flag enabling/disabling internal vertices mode. @param isControlSurfaceDeflection enables/disables adaptive reconfiguration of mesh.
Parameters: Return type: -
GetHandle
()¶
-
thisown
¶ The membership flag
-
class
BRepMesh_GeomTool
(*args, **kwargs)¶ Bases:
object
-
AddPoint
()¶ - Adds point to already calculated points (or replaces existing). @param thePoint point to be added. @param theParam parameter on the curve corresponding to the given point. @param theIsReplace if True replaces existing point lying within parameteric tolerance of the given point. returns index of new added point or found with parametric tolerance
Parameters: Return type: inline int
-
Cross
= 1¶
-
EndPointTouch
= 2¶
-
Glued
= 4¶
-
static
IntLinLin
()¶ - Checks intersection between two lines defined by two points. @param theStartPnt1 start point of first line. @param theEndPnt1 end point of first line. @param theStartPnt2 start point of second line. @param theEndPnt2 end point of second line. @param[out] theIntPnt point of intersection. @param[out] theParamOnSegment parameters of intersection point corresponding to first and second segment. returns status of intersection check.
Parameters: :param : :type : float(&theParamOnSegment) :rtype: IntFlag
-
static
IntSegSeg
()¶ - Checks intersection between the two segments. Checks that intersection point lies within ranges of both segments. @param theStartPnt1 start point of first segment. @param theEndPnt1 end point of first segment. @param theStartPnt2 start point of second segment. @param theEndPnt2 end point of second segment. @param isConsiderEndPointTouch if True EndPointTouch status will be returned in case if segments are touching by end points, if False returns NoIntersection flag. @param isConsiderPointOnSegment if True PointOnSegment status will be returned in case if end point of one segment lies onto another one, if False returns NoIntersection flag. @param[out] theIntPnt point of intersection. returns status of intersection check.
Parameters: Return type: IntFlag
-
NbPoints
()¶ - Returns number of discretization points.
Return type: inline int
-
NoIntersection
= 0¶
-
static
Normal
()¶ - @name static API Computes normal to the given surface at the specified position in parametric space. @param theSurface surface the normal should be found for. @param theParamU U parameter in parametric space of the surface. @param theParamV V parameter in parametric space of the surface. @param[out] thePoint 3d point corresponding to the given parameters. @param[out] theNormal normal vector at the point specified by the parameters. returns False if the normal can not be computed, True elsewhere.
Parameters: Return type:
-
PointOnSegment
= 3¶
-
Same
= 5¶
-
Value
()¶ - Gets parameters of discretization point with the given index. @param theIndex index of discretization point. @param theIsoParam parameter on surface to be used as second coordinate of resulting 2d point. @param theParam[out] parameter of the point on the iso curve. @param thePoint[out] discretization point. @param theUV[out] discretization point in parametric space of the surface. returns True on success, False elsewhere.
Parameters: Return type: - Gets parameters of discretization point with the given index. @param theIndex index of discretization point. @param theSurface surface the curve is lying onto. @param theParam[out] parameter of the point on the curve. @param thePoint[out] discretization point. @param theUV[out] discretization point in parametric space of the surface. returns True on success, False elsewhere.
Parameters: Return type:
-
thisown
¶ The membership flag
-
-
BRepMesh_GeomTool_IntLinLin
()¶ - Checks intersection between two lines defined by two points. @param theStartPnt1 start point of first line. @param theEndPnt1 end point of first line. @param theStartPnt2 start point of second line. @param theEndPnt2 end point of second line. @param[out] theIntPnt point of intersection. @param[out] theParamOnSegment parameters of intersection point corresponding to first and second segment. returns status of intersection check.
Parameters: :param : :type : float(&theParamOnSegment) :rtype: IntFlag
-
BRepMesh_GeomTool_IntSegSeg
()¶ - Checks intersection between the two segments. Checks that intersection point lies within ranges of both segments. @param theStartPnt1 start point of first segment. @param theEndPnt1 end point of first segment. @param theStartPnt2 start point of second segment. @param theEndPnt2 end point of second segment. @param isConsiderEndPointTouch if True EndPointTouch status will be returned in case if segments are touching by end points, if False returns NoIntersection flag. @param isConsiderPointOnSegment if True PointOnSegment status will be returned in case if end point of one segment lies onto another one, if False returns NoIntersection flag. @param[out] theIntPnt point of intersection. returns status of intersection check.
Parameters: Return type: IntFlag
-
BRepMesh_GeomTool_Normal
()¶ - @name static API Computes normal to the given surface at the specified position in parametric space. @param theSurface surface the normal should be found for. @param theParamU U parameter in parametric space of the surface. @param theParamV V parameter in parametric space of the surface. @param[out] thePoint 3d point corresponding to the given parameters. @param[out] theNormal normal vector at the point specified by the parameters. returns False if the normal can not be computed, True elsewhere.
Parameters: Return type:
-
class
BRepMesh_IEdgeTool
(*args, **kwargs)¶ Bases:
OCC.Standard.Standard_Transient
-
GetHandle
()¶
-
Value
()¶ - Returns parameters of solution with the given index. @param theIndex index of tessellation point. @param theParameter parameters on PCurve corresponded to the solution. @param thePoint tessellation point. @param theUV coordinates of tessellation point in parametric space of face.
Parameters: Return type:
-
thisown
¶ The membership flag
-
-
class
BRepMesh_IncrementalMesh
(*args)¶ Bases:
OCC.BRepMesh.BRepMesh_DiscretRoot
- @name mesher API Default constructor
Return type: None - Constructor. Automatically calls method Perform. @param theShape shape to be meshed. @param theLinDeflection linear deflection. @param isRelative if True deflection used for discretization of each edge will be <theLinDeflection> * <size of edge>. Deflection used for the faces will be the maximum deflection of their edges. @param theAngDeflection angular deflection. @param isInParallel if True shape will be meshed in parallel.
Parameters: Return type: -
static
Discret
()¶ - @name plugin API Plugin interface for the Mesh Factories. Initializes meshing algorithm with the given parameters. @param theShape shape to be meshed. @param theLinDeflection linear deflection. @param theAngDeflection angular deflection. @param[out] theAlgo pointer to initialized algorithm.
Parameters: Return type:
-
GetHandle
()¶
-
GetMinSize
()¶ - Returns min size parameter.
Return type: inline float
-
GetStatusFlags
()¶ - Returns accumulated status flags faced during meshing.
Return type: inline int
-
IsControlSurfaceDeflection
()¶ - Returns flag indicating is adaptive reconfiguration of mesh enabled/disabled.
Return type: inline bool
-
IsInternalVerticesMode
()¶ - Returns flag indicating is internal vertices mode enabled/disabled.
Return type: inline bool
-
IsModified
()¶ - Returns modified flag.
Return type: inline bool
-
IsParallel
()¶ - Returns the multi-threading usage flag.
Return type: inline bool
-
static
IsParallelDefault
()¶ - Returns multi-threading usage flag set by default in Discret() static method (thus applied only to Mesh Factories).
Return type: bool
-
IsRelative
()¶ - Returns relative deflection flag.
Return type: inline bool
-
SetControlSurfaceDeflection
()¶ - Enables/disables control of deflection of mesh from real surface (enabled by default).
Parameters: isEnabled (bool) – Return type: inline void
-
SetInternalVerticesMode
()¶ - Enables/disables internal vertices mode (enabled by default).
Parameters: isEnabled (bool) – Return type: inline void
-
SetParallel
()¶ - Request algorithm to launch in multiple threads to improve performance.
Parameters: isInParallel (bool) – Return type: inline void
-
static
SetParallelDefault
()¶ - Setup multi-threading usage flag set by default in Discret() static method (thus applied only to Mesh Factories).
Parameters: isInParallel (bool) – Return type: void
-
SetRelative
()¶ - @name accessing to parameters. Enables using relative deflection. @param isRelative if True deflection used for discretization of each edge will be <theLinDeflection> * <size of edge>. Deflection used for the faces will be the maximum deflection of their edges.
Parameters: isRelative (bool) – Return type: inline void
-
thisown
¶ The membership flag
-
BRepMesh_IncrementalMesh_Discret
()¶ - @name plugin API Plugin interface for the Mesh Factories. Initializes meshing algorithm with the given parameters. @param theShape shape to be meshed. @param theLinDeflection linear deflection. @param theAngDeflection angular deflection. @param[out] theAlgo pointer to initialized algorithm.
Parameters: Return type:
-
BRepMesh_IncrementalMesh_IsParallelDefault
()¶ - Returns multi-threading usage flag set by default in Discret() static method (thus applied only to Mesh Factories).
Return type: bool
-
BRepMesh_IncrementalMesh_SetParallelDefault
()¶ - Setup multi-threading usage flag set by default in Discret() static method (thus applied only to Mesh Factories).
Parameters: isInParallel (bool) – Return type: void
-
class
BRepMesh_OrientedEdge
(*args)¶ Bases:
object
- Default constructor.
Return type: None - Constructs a link between two vertices.
Parameters: Return type: -
FirstNode
()¶ - Returns index of first node of the Link.
Return type: inline int
-
HashCode
()¶ - Returns hash code for this edge. @param theUpper upper index in the container. returns hash code.
Parameters: theUpper (int) – Return type: int
-
IsEqual
()¶ - Checks this and other edge for equality. @param theOther edge to be checked against this one. @retrun True if edges have the same orientation, False if not.
Parameters: theOther (BRepMesh_OrientedEdge &) – Return type: inline bool
-
LastNode
()¶ - Returns index of last node of the Link.
Return type: inline int
-
thisown
¶ The membership flag
-
class
BRepMesh_PairOfIndex
(*args)¶ Bases:
object
- Default constructor
Return type: None -
Extent
()¶ - Returns number of initialized indeces.
Return type: inline int
-
FirstIndex
()¶ - Returns first index of pair.
Return type: inline int
-
Index
()¶ - Returns index corresponding to the given position in the pair. @param thePairPos position of index in the pair (1 or 2).
Parameters: thePairPos (int) – Return type: inline int
-
IsEmpty
()¶ - Returns is pair is empty.
Return type: inline bool
-
LastIndex
()¶ - Returns last index of pair
Return type: inline int
-
RemoveIndex
()¶ - Remove index from the given position. @param thePairPos position of index in the pair (1 or 2).
Parameters: thePairPos (int) – Return type: inline void
-
SetIndex
()¶ - Sets index corresponding to the given position in the pair. @param thePairPos position of index in the pair (1 or 2). @param theIndex index to be stored.
Parameters: Return type: inline void
-
thisown
¶ The membership flag
-
class
BRepMesh_PairOfPolygon
(*args)¶ Bases:
object
- Constructor. Creates empty pair with null fileds.
Return type: None -
Append
()¶ - Sets the last element of the pair. If first element is empty, also assignes the given polygon to it. @param thePolygon plygon to be set.
Parameters: thePolygon (Handle_Poly_PolygonOnTriangulation &) – Return type: inline void
-
Clear
()¶ - Clears pair handles.
Return type: inline void
-
First
()¶ - Returns first polygon on triangulation.
Return type: inline Handle_Poly_PolygonOnTriangulation
-
Last
()¶ - Returns last polygon on triangulation.
Return type: inline Handle_Poly_PolygonOnTriangulation
-
Prepend
()¶ - Sets the first element of the pair. If last element is empty, also assignes the given polygon to it. @param thePolygon plygon to be set.
Parameters: thePolygon (Handle_Poly_PolygonOnTriangulation &) – Return type: inline void
-
thisown
¶ The membership flag
-
class
BRepMesh_SelectorOfDataStructureOfDelaun
(*args)¶ Bases:
object
- Default constructor.
Return type: None - Constructor. Initializes selector by the mesh.
Parameters: theMesh (Handle_BRepMesh_DataStructureOfDelaun &) – Return type: None -
AddNeighbours
()¶ - Adds a level of neighbours by edge the selector.
Return type: inline void
-
Elements
()¶ - Returns selected elements.
Return type: inline BRepMesh::MapOfInteger
-
FrontierLinks
()¶ - Gives the list of incices of frontier links.
Return type: inline BRepMesh::MapOfInteger
-
Initialize
()¶ - Initializes selector by the mesh.
Parameters: theMesh (Handle_BRepMesh_DataStructureOfDelaun &) – Return type: None
-
Links
()¶ - Returns selected links.
Return type: inline BRepMesh::MapOfInteger
-
NeighboursByEdgeOf
()¶ - Selects all neighboring elements by links of the given element.
Parameters: theElement (BRepMesh_Triangle &) – Return type: None
-
NeighboursOf
()¶ - Selects all neighboring elements of the given node.
Parameters: theNode (BRepMesh_Vertex &) – Return type: None - Selects all neighboring elements of the given link.
Parameters: theLink (BRepMesh_Edge &) – Return type: None - Selects all neighboring elements of the given element.
Parameters: theElement (BRepMesh_Triangle &) – Return type: None - Adds a level of neighbours by edge to the selector.
Parameters: & (BRepMesh_SelectorOfDataStructureOfDelaun) – Return type: inline void
-
NeighboursOfElement
()¶ - Selects all neighboring elements by nodes of the given element.
Parameters: theElementIndex (int) – Return type: None
-
NeighboursOfLink
()¶ - Selects all neighboring elements of link with the given index.
Parameters: theLinkIndex (int) – Return type: None
-
NeighboursOfNode
()¶ - Selects all neighboring elements of node with the given index.
Parameters: theNodeIndex (int) – Return type: None
-
Nodes
()¶ - Returns selected nodes.
Return type: inline BRepMesh::MapOfInteger
-
thisown
¶ The membership flag
-
class
BRepMesh_ShapeTool
¶ Bases:
object
-
static
AddInFace
()¶ - Stores the given triangulation into the given face. @param theFace face to be updated by triangulation. @param theTriangulation triangulation to be stored into the face.
Parameters: - theFace (TopoDS_Face &) –
- theTriangulation (Handle_Poly_Triangulation &) –
Return type: void
-
static
BoxMaxDimension
()¶ - Gets the maximum dimension of the given bounding box. If the given bounding box is void leaves the resulting value unchanged. @param theBox bounding box to be processed. @param theMaxDimension maximum dimension of the given box.
Parameters: - theBox (Bnd_Box &) –
- theMaxDimension (float &) –
Return type: void
-
static
FindUV
()¶ - Checks 2d representations of 3d point with the given index for equality to avoid duplications. @param theIndexOfPnt3d index of 3d point with which 2d representation should be associated. @param thePnt2d 2d representation of the point with the given index. @param theVertex vertex corresponded to 3d point with the given index. Used to extract vertex tolerance in 3d space. @param theMinDistance minimum distance between vertices regarding which they could be treated as distinct ones. This value is defined by mesher using parameters given by user in connection with shape metrics. @param theFaceAttribute attributes contining data calculated according to face geomtry and define limits of face in parametric space. If defined, will be used instead of surface parameter. @param theLocation2dMap map of 2d representations of 3d points. returns given 2d point in case if 3d poind does not alredy have the similar representation, otherwice 2d point corresponding to existing representation will be returned.
Parameters: Return type:
-
static
IsDegenerated
()¶ - Checks is the given edge degenerated. Checks geometrical parameters in case if IsDegenerated flag is not set. @param theEdge edge to be checked. @param theFace face within which parametric space edge will be checked for geometrical degenerativity.
Parameters: - theEdge (TopoDS_Edge &) –
- theFace (TopoDS_Face &) –
Return type:
-
static
MaxFaceTolerance
()¶ - Returns maximum tolerance of the given face. Considers tolerances of edges and vertices contained in the given face.
Parameters: theFace (TopoDS_Face &) – Return type: float
-
static
NullifyEdge
()¶ - Nullifies polygon on triangulation stored in the edge. @param theEdge edge to be updated by null polygon. @param theTriangulation triangulation the given edge is associated to. @param theLocation face location.
Parameters: - theEdge (TopoDS_Edge &) –
- theTriangulation (Handle_Poly_Triangulation &) –
- theLocation (TopLoc_Location &) –
Return type: void
-
static
NullifyFace
()¶ - Nullifies triangulation stored in the face. @param theFace face to be updated by null triangulation.
Parameters: theFace (TopoDS_Face &) – Return type: void
-
static
RelativeEdgeDeflection
()¶ - Returns relative deflection for edge with respect to shape size. @param theEdge edge for which relative deflection should be computed. @param theDeflection absolute deflection. @param theMaxShapeSize maximum size of a shape. @param theAdjustmentCoefficient coefficient of adjustment between maximum size of shape and calculated relative deflection. returns relative deflection for the edge.
Parameters: Return type:
-
static
UpdateEdge
()¶ - Updates the given edge by the given tessellated representation. @param theEdge edge to be updated. @param thePolygon tessellated representation of the edge to be stored. @param theTriangulation triangulation the given edge is associated to. @param theLocation face location.
Parameters: - theEdge (TopoDS_Edge &) –
- thePolygon (Handle_Poly_PolygonOnTriangulation &) –
- theTriangulation (Handle_Poly_Triangulation &) –
- theLocation (TopLoc_Location &) –
Return type: void
- Updates the given seam edge by the given tessellated representations. @param theEdge edge to be updated. @param thePolygon1 tessellated representation corresponding to forward direction of the seam edge. @param thePolygon2 tessellated representation corresponding to reversed direction of the seam edge. @param theTriangulation triangulation the given edge is associated to. @param theLocation face location.
Parameters: - theEdge (TopoDS_Edge &) –
- thePolygon1 (Handle_Poly_PolygonOnTriangulation &) –
- thePolygon2 (Handle_Poly_PolygonOnTriangulation &) –
- theTriangulation (Handle_Poly_Triangulation &) –
- theLocation (TopLoc_Location &) –
Return type: void
-
static
UseLocation
()¶ - Applies location to the given point and return result. @param thePnt point to be transformed. @param theLoc location to be applied.
Parameters: - thePnt (gp_Pnt) –
- theLoc (TopLoc_Location &) –
Return type:
-
thisown
¶ The membership flag
-
static
-
BRepMesh_ShapeTool_AddInFace
()¶ - Stores the given triangulation into the given face. @param theFace face to be updated by triangulation. @param theTriangulation triangulation to be stored into the face.
Parameters: - theFace (TopoDS_Face &) –
- theTriangulation (Handle_Poly_Triangulation &) –
Return type: void
-
BRepMesh_ShapeTool_BoxMaxDimension
()¶ - Gets the maximum dimension of the given bounding box. If the given bounding box is void leaves the resulting value unchanged. @param theBox bounding box to be processed. @param theMaxDimension maximum dimension of the given box.
Parameters: - theBox (Bnd_Box &) –
- theMaxDimension (float &) –
Return type: void
-
BRepMesh_ShapeTool_FindUV
()¶ - Checks 2d representations of 3d point with the given index for equality to avoid duplications. @param theIndexOfPnt3d index of 3d point with which 2d representation should be associated. @param thePnt2d 2d representation of the point with the given index. @param theVertex vertex corresponded to 3d point with the given index. Used to extract vertex tolerance in 3d space. @param theMinDistance minimum distance between vertices regarding which they could be treated as distinct ones. This value is defined by mesher using parameters given by user in connection with shape metrics. @param theFaceAttribute attributes contining data calculated according to face geomtry and define limits of face in parametric space. If defined, will be used instead of surface parameter. @param theLocation2dMap map of 2d representations of 3d points. returns given 2d point in case if 3d poind does not alredy have the similar representation, otherwice 2d point corresponding to existing representation will be returned.
Parameters: Return type:
-
BRepMesh_ShapeTool_IsDegenerated
()¶ - Checks is the given edge degenerated. Checks geometrical parameters in case if IsDegenerated flag is not set. @param theEdge edge to be checked. @param theFace face within which parametric space edge will be checked for geometrical degenerativity.
Parameters: - theEdge (TopoDS_Edge &) –
- theFace (TopoDS_Face &) –
Return type:
-
BRepMesh_ShapeTool_MaxFaceTolerance
()¶ - Returns maximum tolerance of the given face. Considers tolerances of edges and vertices contained in the given face.
Parameters: theFace (TopoDS_Face &) – Return type: float
-
BRepMesh_ShapeTool_NullifyEdge
()¶ - Nullifies polygon on triangulation stored in the edge. @param theEdge edge to be updated by null polygon. @param theTriangulation triangulation the given edge is associated to. @param theLocation face location.
Parameters: - theEdge (TopoDS_Edge &) –
- theTriangulation (Handle_Poly_Triangulation &) –
- theLocation (TopLoc_Location &) –
Return type: void
-
BRepMesh_ShapeTool_NullifyFace
()¶ - Nullifies triangulation stored in the face. @param theFace face to be updated by null triangulation.
Parameters: theFace (TopoDS_Face &) – Return type: void
-
BRepMesh_ShapeTool_RelativeEdgeDeflection
()¶ - Returns relative deflection for edge with respect to shape size. @param theEdge edge for which relative deflection should be computed. @param theDeflection absolute deflection. @param theMaxShapeSize maximum size of a shape. @param theAdjustmentCoefficient coefficient of adjustment between maximum size of shape and calculated relative deflection. returns relative deflection for the edge.
Parameters: Return type:
-
BRepMesh_ShapeTool_UpdateEdge
()¶ - Updates the given edge by the given tessellated representation. @param theEdge edge to be updated. @param thePolygon tessellated representation of the edge to be stored. @param theTriangulation triangulation the given edge is associated to. @param theLocation face location.
Parameters: - theEdge (TopoDS_Edge &) –
- thePolygon (Handle_Poly_PolygonOnTriangulation &) –
- theTriangulation (Handle_Poly_Triangulation &) –
- theLocation (TopLoc_Location &) –
Return type: void
- Updates the given seam edge by the given tessellated representations. @param theEdge edge to be updated. @param thePolygon1 tessellated representation corresponding to forward direction of the seam edge. @param thePolygon2 tessellated representation corresponding to reversed direction of the seam edge. @param theTriangulation triangulation the given edge is associated to. @param theLocation face location.
Parameters: - theEdge (TopoDS_Edge &) –
- thePolygon1 (Handle_Poly_PolygonOnTriangulation &) –
- thePolygon2 (Handle_Poly_PolygonOnTriangulation &) –
- theTriangulation (Handle_Poly_Triangulation &) –
- theLocation (TopLoc_Location &) –
Return type: void
-
BRepMesh_ShapeTool_UseLocation
()¶ - Applies location to the given point and return result. @param thePnt point to be transformed. @param theLoc location to be applied.
Parameters: - thePnt (gp_Pnt) –
- theLoc (TopLoc_Location &) –
Return type:
-
class
BRepMesh_Triangle
(*args)¶ Bases:
object
- Default constructor.
Return type: None - Constructor. @param theEdges array of edges of triangle. @param theOrientations array of edge’s orientations. @param theMovability movability of triangle.
Parameters: - Standard_Integer(&theEdges) –
- Standard_Boolean(&theOrientations) –
- theMovability (BRepMesh_DegreeOfFreedom) –
Return type: -
Edges
()¶ - Gets edges with orientations composing the triangle. @param[out] theEdges array edges are stored to. @param[out] theOrientations array orientations are stored to.
:param : :type : int(&theEdges) :param : :type : bool(&theOrientations) :rtype: inline void
-
HashCode
()¶ - Returns hash code for this triangle. @param theUpper upper index in the container. returns hash code.
Parameters: theUpper (int) – Return type: int
-
Initialize
()¶ - Initializes the triangle by the given parameters. @param theEdges array of edges of triangle. @param theOrientations array of edge’s orientations. @param theMovability movability of triangle.
Parameters: - Standard_Integer(&theEdges) –
- Standard_Boolean(&theOrientations) –
- theMovability (BRepMesh_DegreeOfFreedom) –
Return type: inline void
-
IsEqual
()¶ - Checks for equality with another triangle. @param theOther triangle to be checked against this one. returns True if equal, False if not.
Parameters: theOther (BRepMesh_Triangle &) – Return type: bool
-
Movability
()¶ - Returns movability of the triangle.
Return type: inline BRepMesh_DegreeOfFreedom
-
SetMovability
()¶ - Sets movability of the triangle.
Parameters: theMovability (BRepMesh_DegreeOfFreedom) – Return type: inline void
-
thisown
¶ The membership flag
-
class
BRepMesh_Vertex
(*args)¶ Bases:
object
- Default constructor
Return type: None - Creates vertex associated with point in 3d space. @param theUV position of vertex in parametric space. @param theLocation3d index of 3d point to be associated with vertex. @param theMovability movability of the vertex.
Parameters: Return type: - Creates vertex without association with point in 3d space. @param theU U position of vertex in parametric space. @param theV V position of vertex in parametric space. @param theMovability movability of the vertex.
Parameters: Return type: -
ChangeCoord
()¶ - Returns position of the vertex in parametric space for modification.
Return type: inline gp_XY
-
Coord
()¶ - Returns position of the vertex in parametric space.
Return type: inline gp_XY
-
HashCode
()¶ - Returns hash code for this vertex. @param theUpper upper index in the container. returns hash code.
Parameters: Upper (int) – Return type: int
-
Initialize
()¶ - Initializes vertex associated with point in 3d space. @param theUV position of vertex in parametric space. @param theLocation3d index of 3d point to be associated with vertex. @param theMovability movability of the vertex.
Parameters: Return type: inline void
-
IsEqual
()¶ - Checks for equality with another vertex. @param theOther vertex to be checked against this one. returns True if equal, False if not.
Parameters: theOther (BRepMesh_Vertex &) – Return type: bool
-
Location3d
()¶ - Returns index of 3d point associated with the vertex.
Return type: inline int
-
Movability
()¶ - Returns movability of the vertex.
Return type: inline BRepMesh_DegreeOfFreedom
-
SetMovability
()¶ - Sets movability of the vertex.
Parameters: theMovability (BRepMesh_DegreeOfFreedom) – Return type: inline void
-
thisown
¶ The membership flag
-
class
BRepMesh_VertexInspector
(*args)¶ Bases:
object
- Constructor. @param theReservedSize size to be reserved for vector of vertices. @param theAllocator memory allocator to be used by internal collections.
Parameters: - theReservedSize (int) –
- theAllocator (Handle_NCollection_IncAllocator &) –
Return type: -
Add
()¶ - Registers the given vertex. @param theVertex vertex to be registered.
Parameters: theVertex (BRepMesh_Vertex &) – Return type: int
-
ChangeVertices
()¶ - Returns set of mesh vertices for modification.
Return type: inline BRepMesh::HVectorOfVertex
-
Clear
()¶ - Clear inspector’s internal data structures.
Return type: inline void
-
Delete
()¶ - Deletes vertex with the given index. @param theIndex index of vertex to be removed.
Parameters: theIndex (int) – Return type: inline void
-
GetCoincidentPoint
()¶ - Returns index of point coinciding with regerence one.
Return type: inline int
-
GetListOfDelPoints
()¶ - Returns list with indexes of vertices that have movability attribute equal to BRepMesh_Deleted and can be replaced with another node.
Return type: inline BRepMesh::ListOfInteger
-
GetVertex
()¶ - Returns vertex with the given index.
Parameters: theIndex (int) – Return type: inline BRepMesh_Vertex
-
Inspect
()¶ - Performs inspection of a point with the given index. @param theTargetIndex index of a circle to be checked. returns status of the check.
Parameters: theTargetIndex (int) – Return type: NCollection_CellFilter_Action
-
static
IsEqual
()¶ - Checks indices for equlity.
Parameters: Return type:
-
NbVertices
()¶ - Returns number of registered vertices.
Return type: inline int
-
SetPoint
()¶ - Set reference point to be checked.
Parameters: thePoint (gp_XY) – Return type: inline void
-
SetTolerance
()¶ - Sets the tolerance to be used for identification of coincident vertices equal for both dimensions.
Parameters: theTolerance (float) – Return type: inline void - Sets the tolerance to be used for identification of coincident vertices. @param theToleranceX tolerance for X dimension. @param theToleranceY tolerance for Y dimension.
Parameters: Return type: inline void
-
Vertices
()¶ - Returns set of mesh vertices.
Return type: inline BRepMesh::HVectorOfVertex
-
thisown
¶ The membership flag
-
BRepMesh_VertexInspector_IsEqual
()¶ - Checks indices for equlity.
Parameters: Return type:
-
class
BRepMesh_VertexTool
(*args)¶ Bases:
object
- Constructor. @param theReservedSize size to be reserved for vector of vertices. @param theAllocator memory allocator to be used by internal collections.
Parameters: - theReservedSize (int) –
- theAllocator (Handle_NCollection_IncAllocator &) –
Return type: -
Add
()¶ - Adds vertex with empty data to the tool. @param theVertex node to be added to the mesh. @param isForceAdd adds the given node to structure without checking on coincidence with other nodes. returns index of the node in the structure.
Parameters: - theVertex (BRepMesh_Vertex &) –
- isForceAdd (bool) –
Return type:
-
ChangeVertices
()¶ - Returns set of mesh vertices.
Return type: inline BRepMesh::HVectorOfVertex
-
Delete
()¶ - Deletes vertex with the given index from the tool.
Parameters: theIndex (int) – Return type: None
-
Extent
()¶ - Returns a number of vertices.
Return type: inline int
-
FindIndex
()¶ - Returns index of the given vertex.
Parameters: theVertex (BRepMesh_Vertex &) – Return type: int
-
FindKey
()¶ - Returns vertex by the given index.
Parameters: theIndex (int) – Return type: inline BRepMesh_Vertex
-
GetListOfDelNodes
()¶ - Returns the list with indexes of vertices that have movability attribute equal to BRepMesh_Deleted and can be replaced with another node.
Return type: inline BRepMesh::ListOfInteger
-
IsEmpty
()¶ - Returns True when the map contains no keys.
Return type: inline bool
-
RemoveLast
()¶ - Remove last node from the structure.
Return type: inline void
-
SetCellSize
()¶ - Sets new size of cell for cellfilter equal in both directions.
Parameters: theSize (float) – Return type: None - Sets new size of cell for cellfilter. @param theSizeX size for X dimension. @param theSizeY size for Y dimension.
Parameters: Return type:
-
SetTolerance
()¶ - Sets the tolerance to be used for identification of coincident vertices equal for both dimensions.
Parameters: theTolerance (float) – Return type: None - Sets the tolerance to be used for identification of coincident vertices. @param theToleranceX tolerance for X dimension. @param theToleranceY tolerance for Y dimension.
Parameters: Return type:
-
StatisticsToString
()¶ BRepMesh_VertexTool_StatisticsToString(BRepMesh_VertexTool self) -> std::string
-
Substitute
()¶ - Substitutes vertex with the given by the given vertex with attributes. @param theIndex index of vertex to be substituted. @param theVertex replacement vertex.
Parameters: - theIndex (int) –
- theVertex (BRepMesh_Vertex &) –
Return type:
-
Vertices
()¶ - Returns set of mesh vertices.
Return type: inline BRepMesh::HVectorOfVertex
-
thisown
¶ The membership flag
-
class
BRepMesh_WireChecker
(*args)¶ Bases:
object
- Constructor. @param theFace Face to be checked. @param theTolUV Tolerance to be used for calculations in parametric space. @param theEdges Map of edges with associated polygon on triangulation. @param theVertexMap Map of face vertices. @param theStructure Discretized representation of face in parametric space. @param theUmin Lower U boundary of the face in parametric space. @param theUmax Upper U boundary of the face in parametric space. @param theVmin Lower V boundary of the face in parametric space. @param theVmax Upper V boundary of the face in parametric space.
Parameters: Return type: -
ReCompute
()¶ - Recompute data using parameters passed in constructor. @param[out] theClassifier Classifier to be updated using calculated data.
Parameters: theClassifier (BRepMesh::HClassifier &) – Return type: None
-
Status
()¶ - Returns status of the check.
Return type: inline BRepMesh_Status
-
thisown
¶ The membership flag
-
class
Handle_BRepMesh_DataStructureOfDelaun
(*args)¶ Bases:
OCC.Standard.Handle_Standard_Transient
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepMesh_DiscretRoot
(*args)¶ Bases:
OCC.Standard.Handle_Standard_Transient
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepMesh_FastDiscret
(*args)¶ Bases:
OCC.Standard.Handle_Standard_Transient
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepMesh_FastDiscretFace
(*args)¶ Bases:
OCC.Standard.Handle_Standard_Transient
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepMesh_IEdgeTool
(*args)¶ Bases:
OCC.Standard.Handle_Standard_Transient
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepMesh_IncrementalMesh
(*args)¶ Bases:
OCC.BRepMesh.Handle_BRepMesh_DiscretRoot
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
SwigPyIterator
(*args, **kwargs)¶ Bases:
object
-
advance
()¶
-
copy
()¶
-
decr
()¶
-
distance
()¶
-
equal
()¶
-
incr
()¶
-
next
()¶
-
previous
()¶
-
thisown
¶ The membership flag
-
value
()¶
-
-
new_instancemethod
(func, inst, cls)¶
-
register_handle
(handle, base_object)¶ Inserts the handle into the base object to prevent memory corruption in certain cases