OCC.BRepAlgo module¶
The BRepAlgo package provides a full range ofservices to perform Old Boolean Operations in Open CASCADE.Attention:The New Boolean Operation has replaced the OldBoolean Operations algorithm in the BrepAlgoAPIpackage in Open CASCADE.
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class
BRepAlgo_AsDes
(*args)¶ Bases:
OCC.MMgt.MMgt_TShared
- Creates an empty AsDes.
Return type: None -
Add
()¶ - Stores <SS> as a futur subshape of <S>.
Parameters: - S (TopoDS_Shape &) –
- SS (TopoDS_Shape &) –
Return type: - Stores <SS> as futurs SubShapes of <S>.
Parameters: - S (TopoDS_Shape &) –
- SS (TopTools_ListOfShape &) –
Return type:
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Ascendant
()¶ - Returns the Shape containing <S>.
Parameters: S (TopoDS_Shape &) – Return type: TopTools_ListOfShape
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ChangeDescendant
()¶ - Returns futur subhapes of <S>.
Parameters: S (TopoDS_Shape &) – Return type: TopTools_ListOfShape
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Descendant
()¶ - Returns futur subhapes of <S>.
Parameters: S (TopoDS_Shape &) – Return type: TopTools_ListOfShape
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GetHandle
()¶
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HasCommonDescendant
()¶ - Returns True if (S1> and <S2> has common Descendants. Stores in <LC> the Commons Descendants.
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
- LC (TopTools_ListOfShape &) –
Return type:
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Replace
()¶ - Replace <OldS> by <NewS>. <OldS> disapear from <self>.
Parameters: - OldS (TopoDS_Shape &) –
- NewS (TopoDS_Shape &) –
Return type:
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thisown
¶ The membership flag
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class
BRepAlgo_BooleanOperation
(*args, **kwargs)¶ Bases:
OCC.BRepBuilderAPI.BRepBuilderAPI_MakeShape
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Builder
()¶ Return type: Handle_TopOpeBRepBuild_HBuilder
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Shape1
()¶ - Returns the first shape involved in this Boolean operation.
Return type: TopoDS_Shape
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Shape2
()¶ - Returns the second shape involved in this Boolean operation.
Return type: TopoDS_Shape
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thisown
¶ The membership flag
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class
BRepAlgo_BooleanOperations
(*args)¶ Bases:
object
Return type: None -
Builder
()¶ Return type: Handle_TopOpeBRepBuild_HBuilder
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ChangeBuilder
()¶ Return type: Handle_TopOpeBRepBuild_HBuilder
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ChangeDataStructure
()¶ Return type: Handle_TopOpeBRepDS_HDataStructure
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Common
()¶ - returns the common part of the shapes.
Return type: TopoDS_Shape
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Cut
()¶ - returns the cut part of the shapes.
Return type: TopoDS_Shape
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DataStructure
()¶ Return type: Handle_TopOpeBRepDS_HDataStructure
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DataStructureAccess
()¶ - returns the member myDSA. It is useful to then access the method GetSectionEdgeSet (wich is a member of DSAccess)
Return type: BRepAlgo_DSAccess
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Define
()¶ Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
- HDS (Handle_TopOpeBRepDS_HDataStructure &) –
Return type:
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Fus
()¶ - returns the fuse part of the shapes.
Return type: TopoDS_Shape
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IsDeleted
()¶ - Returns the fact that the shape <S> has been deleted or not by the boolean operation.
Parameters: S (TopoDS_Shape &) – Return type: bool
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Modified
()¶ - Returns the list of the descendant shapes of the shape <S>.
Parameters: S (TopoDS_Shape &) – Return type: TopTools_ListOfShape
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Section
()¶ - returns the intersection of the shapes.
Return type: TopoDS_Shape
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SetApproxParameters
()¶ - Sets different parameters for the curve approximations : NbPntMax : Maximum number of points to be approximated at the same time in one curve. Tol3D, Tol2D : Tolerances to be reached by the approximation. RelativeTol : The given tolerances are relative.
Parameters: Return type:
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Shape
()¶ - returns the result of the boolean operation.
Return type: TopoDS_Shape
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ShapeFrom
()¶ - Returns the shape(s) resulting of the boolean operation issued from the shape <S>.
Parameters: S (TopoDS_Shape &) – Return type: TopoDS_Shape
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Shapes
()¶ - Defines the arguments.
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type:
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Shapes2d
()¶ - S1 is a Shell with ALL faces supported by the SAME S2 is an Edge INCLUDED in that surface with pcurve. this avoids a time-consuming 3D operation, compared to Shapes.
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type:
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thisown
¶ The membership flag
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class
BRepAlgo_Common
(*args)¶ Bases:
OCC.BRepAlgo.BRepAlgo_BooleanOperation
- Constructs the common part of shapes S1 and S2.
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type: -
thisown
¶ The membership flag
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class
BRepAlgo_Cut
(*args)¶ Bases:
OCC.BRepAlgo.BRepAlgo_BooleanOperation
- Cuts the shape S2 from the shape S1.
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type: -
thisown
¶ The membership flag
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class
BRepAlgo_DSAccess
(*args)¶ Bases:
object
Return type: None -
Builder
()¶ Return type: Handle_TopOpeBRepBuild_HBuilder
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ChangeBuilder
()¶ Return type: Handle_TopOpeBRepBuild_HBuilder
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ChangeDS
()¶ Return type: Handle_TopOpeBRepDS_HDataStructure
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ChangeEdgeSet
()¶ - Modifies a line of section. <New> – should be a Group of Edges connected by Vertex. – Can be a Wire. Can be a group of connected Edges that do not form a standard Wire. <New> should be sub-groupn of <Old>
Parameters: - Old (TopoDS_Shape &) –
- New (TopoDS_Shape &) –
Return type:
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Check
()¶ - NYI coherence of the internal Data Structure.
Return type: BRepAlgo_CheckStatus
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DS
()¶ Return type: Handle_TopOpeBRepDS_HDataStructure
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GetSectionEdgeSet
()¶ - returns compounds of Edge connected with section, which contains sections between faces contained in S1 and S2. returns an empty list of Shape if S1 or S2 do not contain face. calls GetSectionEdgeSet() if it has not already been done
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type: - returns all compounds of edges connected with section contained in the DS
Return type: TopTools_ListOfShape
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Intersect
()¶ - Intersects two shapes at input and loads the DS with their intersection. Clears the TopOpeBRepBuild_HBuilder if necessary
Return type: None - Intersects the faces contained in two given shapes and loads them in the DS. Clears the TopOpeBRepBuild_HBuilder if necessary
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type:
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Load
()¶ - Loads the shape in DS.
Parameters: S (TopoDS_Shape &) – Return type: None - Loads two shapes in the DS without intersecting them.
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type:
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Merge
()¶ Parameters: - state1 (TopAbs_State) –
- state2 (TopAbs_State) –
- state1 –
Return type: Return type:
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Modified
()¶ - Returns the list of the descendant shapes of the shape <S>.
Parameters: S (TopoDS_Shape &) – Return type: TopTools_ListOfShape
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Propagate
()¶ - NYI Propagation of a state starting from the shape FromShape = edge or vertex of section, face or Coumpound de section. LoadShape is either S1, or S2 (see the method Load). Propagation from FromShape, on the states <what> of LoadShape. Return a Wire in 2d, a Shell in 3d. Specifications are incomplete, to be redefined for the typologies correpsonding to <FromShape> and the result : exemple : FromShape resultat vertex wire (or edge) edge of section face (or shell) compound of section shell … …
Parameters: - what (TopAbs_State) –
- FromShape (TopoDS_Shape &) –
- LoadShape (TopoDS_Shape &) –
Return type:
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PropagateFromSection
()¶ - SectionShape est soit un Vertex de section(NYI), soit une Edge de section. Propagation des shapes de section en partant de SectionShape. return un Compound de section.
Parameters: SectionShape (TopoDS_Shape &) – Return type: TopoDS_Shape
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SameDomain
()¶ - This method does the same thing as the previous, but faster. There is no intersection face/face 3D. The faces have the same support(surface). No test of tangency (that is why it is faster). Intersects in 2d the faces tangent F1 anf F2.
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type:
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SectionVertex
()¶ - NYI returns the vertex of section, which contains the section between face S1 and edge S2 (returns an empty Shape if S1 is not a face or if S2 is not an edge)
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type:
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SuppressEdgeSet
()¶ - Invalidates a complete line of section. All Edges connected by Vertex or a Wire. Can be a group of connected Edges, which do not form a standard Wire.
Parameters: Compound (TopoDS_Shape &) – Return type: None
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SuppressSectionVertex
()¶ - NYI Make invalid a Vertex of section. The Vertex shoud be reconstructed from a point.
Parameters: V (TopoDS_Vertex &) – Return type: None
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Wire
()¶ - NYI
Parameters: Compound (TopoDS_Shape &) – Return type: TopoDS_Shape
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thisown
¶ The membership flag
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class
BRepAlgo_DataMapIteratorOfDataMapOfShapeBoolean
(*args)¶ Bases:
OCC.TCollection.TCollection_BasicMapIterator
Return type: None Parameters: aMap (BRepAlgo_DataMapOfShapeBoolean &) – Return type: None -
Key
()¶ Return type: TopoDS_Shape
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thisown
¶ The membership flag
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class
BRepAlgo_DataMapIteratorOfDataMapOfShapeInterference
(*args)¶ Bases:
OCC.TCollection.TCollection_BasicMapIterator
Return type: None Parameters: aMap (BRepAlgo_DataMapOfShapeInterference &) – Return type: None -
Key
()¶ Return type: TopoDS_Shape
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Value
()¶ Return type: Handle_TopOpeBRepDS_Interference
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thisown
¶ The membership flag
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class
BRepAlgo_DataMapNodeOfDataMapOfShapeBoolean
(*args)¶ Bases:
OCC.TCollection.TCollection_MapNode
Parameters: - K (TopoDS_Shape &) –
- I (bool) –
- n (TCollection_MapNodePtr &) –
Return type: -
GetHandle
()¶
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GetValue
()¶ BRepAlgo_DataMapNodeOfDataMapOfShapeBoolean_GetValue(BRepAlgo_DataMapNodeOfDataMapOfShapeBoolean self) -> Standard_Boolean
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Key
()¶ Return type: TopoDS_Shape
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SetValue
()¶ BRepAlgo_DataMapNodeOfDataMapOfShapeBoolean_SetValue(BRepAlgo_DataMapNodeOfDataMapOfShapeBoolean self, Standard_Boolean value)
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thisown
¶ The membership flag
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class
BRepAlgo_DataMapNodeOfDataMapOfShapeInterference
(*args)¶ Bases:
OCC.TCollection.TCollection_MapNode
Parameters: - K (TopoDS_Shape &) –
- I (Handle_TopOpeBRepDS_Interference &) –
- n (TCollection_MapNodePtr &) –
Return type: -
GetHandle
()¶
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Key
()¶ Return type: TopoDS_Shape
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Value
()¶ Return type: Handle_TopOpeBRepDS_Interference
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thisown
¶ The membership flag
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class
BRepAlgo_DataMapOfShapeBoolean
(*args)¶ Bases:
OCC.TCollection.TCollection_BasicMap
Parameters: NbBuckets (int) – default value is 1 Return type: None -
Assign
()¶ Parameters: Other (BRepAlgo_DataMapOfShapeBoolean &) – Return type: BRepAlgo_DataMapOfShapeBoolean
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ChangeFind1
()¶ Parameters: K (TopoDS_Shape &) – Return type: Standard_Address
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Find1
()¶ Parameters: K (TopoDS_Shape &) – Return type: Standard_Address
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Set
()¶ Parameters: Other (BRepAlgo_DataMapOfShapeBoolean &) – Return type: BRepAlgo_DataMapOfShapeBoolean
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thisown
¶ The membership flag
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class
BRepAlgo_DataMapOfShapeInterference
(*args)¶ Bases:
OCC.TCollection.TCollection_BasicMap
Parameters: NbBuckets (int) – default value is 1 Return type: None -
Assign
()¶ Parameters: Other (BRepAlgo_DataMapOfShapeInterference &) – Return type: BRepAlgo_DataMapOfShapeInterference
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ChangeFind
()¶ Parameters: K (TopoDS_Shape &) – Return type: Handle_TopOpeBRepDS_Interference
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ChangeFind1
()¶ Parameters: K (TopoDS_Shape &) – Return type: Standard_Address
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Find
()¶ Parameters: K (TopoDS_Shape &) – Return type: Handle_TopOpeBRepDS_Interference
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Find1
()¶ Parameters: K (TopoDS_Shape &) – Return type: Standard_Address
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Set
()¶ Parameters: Other (BRepAlgo_DataMapOfShapeInterference &) – Return type: BRepAlgo_DataMapOfShapeInterference
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thisown
¶ The membership flag
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class
BRepAlgo_EdgeConnector
(*args)¶ Bases:
OCC.MMgt.MMgt_TShared
Return type: None -
Add
()¶ Parameters: - e (TopoDS_Edge &) –
- LOEdge (TopTools_ListOfShape &) –
Return type: Return type:
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AddStart
()¶ Parameters: - e (TopoDS_Shape &) –
- LOEdge (TopTools_ListOfShape &) –
Return type: Return type:
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GetHandle
()¶
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IsWire
()¶ - NYI returns true if W is a Wire standard. W must belong to the list returned by MakeBlock.
Parameters: W (TopoDS_Shape &) – Return type: bool
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MakeBlock
()¶ - returns a list of wire non standard
Return type: TopTools_ListOfShape
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thisown
¶ The membership flag
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class
BRepAlgo_FaceRestrictor
(*args)¶ Bases:
object
Return type: None -
Add
()¶ - Add the wire <W> to the set of wires. //! Warning: The Wires must be closed. //! The edges of <W> can be modified if they have not pcurves on the surface <S> of <F>. In this case if <Proj> is false the first pcurve of the edge is positionned on <S>. if <Proj> is True ,the Pcurve On <S> is the projection of the curve 3d on <F>.
Parameters: W (TopoDS_Wire &) – Return type: None
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Current
()¶ Return type: TopoDS_Face
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Init
()¶ - the surface of <F> will be the the surface of each new faces built. <Proj> is used to update pcurves on edges if necessary. See Add().
Parameters: Return type:
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thisown
¶ The membership flag
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class
BRepAlgo_Fuse
(*args)¶ Bases:
OCC.BRepAlgo.BRepAlgo_BooleanOperation
- Fuse S1 and S2.
Parameters: - S1 (TopoDS_Shape &) –
- S2 (TopoDS_Shape &) –
Return type: -
thisown
¶ The membership flag
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class
BRepAlgo_Image
(*args)¶ Bases:
object
Return type: None -
Add
()¶ - Add <NewS> to the image of <OldS>.
Parameters: - OldS (TopoDS_Shape &) –
- NewS (TopoDS_Shape &) –
Return type: - Add <NewS> to the image of <OldS>.
Parameters: - OldS (TopoDS_Shape &) –
- NewS (TopTools_ListOfShape &) –
Return type:
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Bind
()¶ - Links <NewS> as image of <OldS>.
Parameters: - OldS (TopoDS_Shape &) –
- NewS (TopoDS_Shape &) –
Return type: - Links <NewS> as image of <OldS>.
Parameters: - OldS (TopoDS_Shape &) –
- NewS (TopTools_ListOfShape &) –
Return type:
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Filter
()¶ - Deletes in the images the shape of type <ShapeType> which are not in <S>. Warning: Compact() must be call before.
Parameters: - S (TopoDS_Shape &) –
- ShapeType (TopAbs_ShapeEnum) –
Return type:
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Image
()¶ - Returns the Image of <S>. Returns <S> in the list if HasImage(S) is false.
Parameters: S (TopoDS_Shape &) – Return type: TopTools_ListOfShape
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ImageFrom
()¶ - Returns the generator of <S>
Parameters: S (TopoDS_Shape &) – Return type: TopoDS_Shape
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LastImage
()¶ - Stores in <L> the images of images of…images of <S>. <L> contains only <S> if HasImage(S) is false.
Parameters: - S (TopoDS_Shape &) –
- L (TopTools_ListOfShape &) –
Return type:
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Root
()¶ - Returns the upper generator of <S>
Parameters: S (TopoDS_Shape &) – Return type: TopoDS_Shape
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Roots
()¶ Return type: TopTools_ListOfShape
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thisown
¶ The membership flag
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class
BRepAlgo_Loop
(*args)¶ Bases:
object
Return type: None -
AddConstEdge
()¶ - Add <E> as const edge, E can be in the result.
Parameters: E (TopoDS_Edge &) – Return type: None
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AddConstEdges
()¶ - Add <LE> as a set of const edges.
Parameters: LE (TopTools_ListOfShape &) – Return type: None
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AddEdge
()¶ - Add E with <LV>. <E> will be copied and trim by vertices in <LV>.
Parameters: - E (TopoDS_Edge &) –
- LV (TopTools_ListOfShape &) –
Return type:
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CutEdge
()¶ - Cut the edge <E> in several edges <NE> on the vertices<VonE>.
Parameters: - E (TopoDS_Edge &) –
- VonE (TopTools_ListOfShape &) –
- NE (TopTools_ListOfShape &) –
Return type:
-
GetVerticesForSubstitute
()¶ - Returns the datamap of vertices with their substitutes.
Parameters: VerVerMap (TopTools_DataMapOfShapeShape &) – Return type: None
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Init
()¶ - Init with <F> the set of edges must have pcurves on <F>.
Parameters: F (TopoDS_Face &) – Return type: None
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NewEdges
()¶ - Returns the list of new edges built from an edge <E> it can be an empty list.
Parameters: E (TopoDS_Edge &) – Return type: TopTools_ListOfShape
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NewFaces
()¶ - Returns the list of faces. Warning: The method <WiresToFaces> as to be called before. can be an empty list.
Return type: TopTools_ListOfShape
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NewWires
()¶ - Returns the list of wires performed. can be an empty list.
Return type: TopTools_ListOfShape
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thisown
¶ The membership flag
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class
BRepAlgo_NormalProjection
(*args)¶ Bases:
object
Return type: None Parameters: S (TopoDS_Shape &) – Return type: None -
Add
()¶ - Add an edge or a wire to the list of shape to project
Parameters: ToProj (TopoDS_Shape &) – Return type: None
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Ancestor
()¶ - For a resulting edge, returns the corresponding initial edge.
Parameters: E (TopoDS_Edge &) – Return type: TopoDS_Shape
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BuildWire
()¶ - build the result as a list of wire if possible in – a first returns a wire only if there is only a wire.
Parameters: Liste (TopTools_ListOfShape &) – Return type: bool
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Compute3d
()¶ - if With3d = Standard_False the 3dcurve is not computed the initial 3dcurve is kept to build the resulting edges.
Parameters: With3d (bool) – default value is Standard_True Return type: None
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Couple
()¶ - For a projected edge, returns the corresponding initial face.
Parameters: E (TopoDS_Edge &) – Return type: TopoDS_Shape
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Generated
()¶ - Returns the list of shapes generated from the shape <S>.
Parameters: S (TopoDS_Shape &) – Return type: TopTools_ListOfShape
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Projection
()¶ - returns the result
Return type: TopoDS_Shape
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SetDefaultParams
()¶ - Set the parameters used for computation in their default values
Return type: None
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SetLimit
()¶ - Manage limitation of projected edges.
Parameters: FaceBoundaries (bool) – default value is Standard_True Return type: None
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SetMaxDistance
()¶ - Sets the maximum distance between target shape and shape to project. If this condition is not satisfied then corresponding part of solution is discarded. if MaxDist < 0 then this method does not affect the algorithm
Parameters: MaxDist (float) – Return type: None
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SetParams
()¶ - Set the parameters used for computation Tol3d is the requiered tolerance between the 3d projected curve and its 2d representation InternalContinuity is the order of constraints used for approximation. MaxDeg and MaxSeg are the maximum degree and the maximum number of segment for BSpline resulting of an approximation.
Parameters: Return type:
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thisown
¶ The membership flag
-
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class
BRepAlgo_Section
(*args)¶ Bases:
OCC.BRepAlgo.BRepAlgo_BooleanOperation
Parameters: - Sh1 (TopoDS_Shape &) –
- Sh2 (TopoDS_Shape &) –
- PerformNow (bool) – default value is Standard_True
- Sh (TopoDS_Shape &) –
- Pl (gp_Pln) –
- PerformNow – default value is Standard_True
- Sh –
- Sf (Handle_Geom_Surface &) –
- PerformNow – default value is Standard_True
- Sf –
- Sh –
- PerformNow – default value is Standard_True
Return type: Return type: Return type: Return type: - This and the above algorithms construct a framework for computing the section lines of - the two shapes Sh1 and Sh2, or - the shape Sh and the plane Pl, or - the shape Sh and the surface Sf, or - the surface Sf and the shape Sh, or - the two surfaces Sf1 and Sf2, and builds the result if PerformNow equals true, its default value. If PerformNow equals false, the intersection will be computed later by the function Build. The constructed shape will be returned by the function Shape. This is a compound object composed of edges. These intersection edges may be built: - on new intersection lines, or - on coincident portions of edges in the two intersected shapes. These intersection edges are independent: they are not chained or grouped in wires. If no intersection edge exists, the result is an empty compound object. Note that other objects than TopoDS_Shape shapes involved in these syntaxes are converted into faces or shells before performing the computation of the intersection. A shape resulting from this conversion can be retrieved with the function Shape1 or Shape2. Parametric 2D curves on intersection edges No parametric 2D curve (pcurve) is defined for each elementary edge of the result. To attach such parametric curves to the constructed edges you may use a constructor with the PerformNow flag equal to false; then you use: - the function ComputePCurveOn1 to ask for the additional computation of a pcurve in the parametric space of the first shape, - the function ComputePCurveOn2 to ask for the additional computation of a pcurve in the parametric space of the second shape, - in the end, the function Build to construct the result. Note that as a result, pcurves will only be added on edges built on new intersection lines. Approximation of intersection edges The underlying 3D geometry attached to each elementary edge of the result is: - analytic where possible, provided the corresponding geometry corresponds to a type of analytic curve defined in the Geom package; for example, the intersection of a cylindrical shape with a plane gives an ellipse or a circle; - or elsewhere, given as a succession of points grouped together in a BSpline curve of degree 1. If you prefer to have an attached 3D geometry which is a BSpline approximation of the computed set of points on computed elementary intersection edges whose underlying geometry is not analytic, you may use a constructor with the PerformNow flag equal to false. Then you use: - the function Approximation to ask for this computation option, and - the function Build to construct the result. Note that as a result, approximations will only be computed on edges built on new intersection lines. Example You may also combine these computation options. In the following example: - each elementary edge of the computed intersection, built on a new intersection line, which does not correspond to an analytic Geom curve, will be approximated by a BSpline curve whose degree is not greater than 8. - each elementary edge built on a new intersection line, will have: - a pcurve in the parametric space of the shape S1, - no pcurve in the parametric space of the shape S2. // TopoDS_Shape S1 = … , S2 = … ; Standard_Boolean PerformNow = Standard_False; BRepAlgo_Section S ( S1, S2, PerformNow ); S.ComputePCurveOn1 (Standard_True); S.Approximation (Standard_True); S.Build(); TopoDS_Shape R = S.Shape();
Parameters: - Sf1 (Handle_Geom_Surface &) –
- Sf2 (Handle_Geom_Surface &) –
- PerformNow (bool) – default value is Standard_True
Return type: -
Approximation
()¶ - Defines an option for computation of further intersections. This computation will be performed by the function Build in this framework. By default, the underlying 3D geometry attached to each elementary edge of the result of a computed intersection is: - analytic where possible, provided the corresponding geometry corresponds to a type of analytic curve defined in the Geom package; for example the intersection of a cylindrical shape with a plane gives an ellipse or a circle; - or elsewhere, given as a succession of points grouped together in a BSpline curve of degree 1. If Approx equals true, when further computations are performed in this framework with the function Build, these edges will have an attached 3D geometry which is a BSpline approximation of the computed set of points. Note that as a result, approximations will be computed on edges built only on new intersection lines.
Parameters: B (bool) – Return type: None
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ComputePCurveOn1
()¶ - Indicates if the Pcurve must be (or not) performed on first part.
Parameters: B (bool) – Return type: None
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ComputePCurveOn2
()¶ - Define options for the computation of further intersections which will be performed by the function Build in this framework. By default, no parametric 2D curve (pcurve) is defined for the elementary edges of the result. If ComputePCurve1 equals true, further computations performed in this framework with the function Build will attach an additional pcurve in the parametric space of the first shape to the constructed edges. If ComputePCurve2 equals true, the additional pcurve will be attached to the constructed edges in the parametric space of the second shape. These two functions may be used together. Note that as a result, pcurves will only be added onto edges built on new intersection lines.
Parameters: B (bool) – Return type: None
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HasAncestorFaceOn1
()¶ - Identifies the ancestor faces of the new intersection edge E resulting from the last computation performed in this framework, that is, the faces of the two original shapes on which the edge E lies: - HasAncestorFaceOn1 gives the ancestor face in the first shape, and These functions return: - true if an ancestor face F is found, or - false if not. An ancestor face is identifiable for the edge E if the three following conditions are satisfied: - the first part on which this algorithm performed its last computation is a shape, that is, it was not given as a surface or a plane at the time of construction of this algorithm or at a later time by the Init1 function, - E is one of the elementary edges built by the last computation of this section algorithm, - the edge E is built on an intersection curve. In other words, E is a new edge built on the intersection curve, not on edges belonging to the intersecting shapes. To use these functions properly, you have to test the returned Boolean value before using the ancestor face: F is significant only if the returned Boolean value equals true.
Parameters: - E (TopoDS_Shape &) –
- F (TopoDS_Shape &) –
Return type:
-
HasAncestorFaceOn2
()¶ - Identifies the ancestor faces of the new intersection edge E resulting from the last computation performed in this framework, that is, the faces of the two original shapes on which the edge E lies: - HasAncestorFaceOn2 gives the ancestor face in the second shape. These functions return: - true if an ancestor face F is found, or - false if not. An ancestor face is identifiable for the edge E if the three following conditions are satisfied: - the first part on which this algorithm performed its last computation is a shape, that is, it was not given as a surface or a plane at the time of construction of this algorithm or at a later time by the Init1 function, - E is one of the elementary edges built by the last computation of this section algorithm, - the edge E is built on an intersection curve. In other words, E is a new edge built on the intersection curve, not on edges belonging to the intersecting shapes. To use these functions properly, you have to test the returned Boolean value before using the ancestor face: F is significant only if the returned Boolean value equals true.
Parameters: - E (TopoDS_Shape &) –
- F (TopoDS_Shape &) –
Return type:
-
Init1
()¶ - Initializes the first part
Parameters: S1 (TopoDS_Shape &) – Return type: None - Initializes the first part
Parameters: Pl (gp_Pln) – Return type: None - Initializes the first part
Parameters: Sf (Handle_Geom_Surface &) – Return type: None
-
Init2
()¶ - initialize second part
Parameters: S2 (TopoDS_Shape &) – Return type: None - Initializes the second part
Parameters: Pl (gp_Pln) – Return type: None - This and the above algorithms reinitialize the first and the second parts on which this algorithm is going to perform the intersection computation. This is done with either: the surface Sf, the plane Pl or the shape Sh. You use the function Build to construct the result.
Parameters: Sf (Handle_Geom_Surface &) – Return type: None
-
thisown
¶ The membership flag
-
class
BRepAlgo_SequenceNodeOfSequenceOfSequenceOfInteger
(*args)¶ Bases:
OCC.TCollection.TCollection_SeqNode
Parameters: - I (TColStd_SequenceOfInteger &) –
- n (TCollection_SeqNodePtr &) –
- p (TCollection_SeqNodePtr &) –
Return type: -
GetHandle
()¶
-
Value
()¶ Return type: TColStd_SequenceOfInteger
-
thisown
¶ The membership flag
-
class
BRepAlgo_SequenceOfSequenceOfInteger
(*args)¶ Bases:
OCC.TCollection.TCollection_BaseSequence
Return type: None Parameters: Other (BRepAlgo_SequenceOfSequenceOfInteger &) – Return type: None -
Append
()¶ Parameters: - T (TColStd_SequenceOfInteger &) –
- S (BRepAlgo_SequenceOfSequenceOfInteger &) –
Return type: Return type:
-
Assign
()¶ Parameters: Other (BRepAlgo_SequenceOfSequenceOfInteger &) – Return type: BRepAlgo_SequenceOfSequenceOfInteger
-
ChangeValue
()¶ Parameters: Index (int) – Return type: TColStd_SequenceOfInteger
-
First
()¶ Return type: TColStd_SequenceOfInteger
-
InsertAfter
()¶ Parameters: - Index (int) –
- T (TColStd_SequenceOfInteger &) –
- Index –
- S (BRepAlgo_SequenceOfSequenceOfInteger &) –
Return type: Return type:
-
InsertBefore
()¶ Parameters: - Index (int) –
- T (TColStd_SequenceOfInteger &) –
- Index –
- S (BRepAlgo_SequenceOfSequenceOfInteger &) –
Return type: Return type:
-
Last
()¶ Return type: TColStd_SequenceOfInteger
-
Prepend
()¶ Parameters: - T (TColStd_SequenceOfInteger &) –
- S (BRepAlgo_SequenceOfSequenceOfInteger &) –
Return type: Return type:
-
Remove
()¶ Parameters: Return type: Return type:
-
Set
()¶ Parameters: Other (BRepAlgo_SequenceOfSequenceOfInteger &) – Return type: BRepAlgo_SequenceOfSequenceOfInteger
-
Value
()¶ Parameters: Index (int) – Return type: TColStd_SequenceOfInteger
-
thisown
¶ The membership flag
-
-
class
BRepAlgo_Tool
¶ Bases:
object
-
static
Deboucle3D
()¶ - Remove the non valid part of an offsetshape 1 - Remove all the free boundary and the faces connex to such edges. 2 - Remove all the shapes not valid in the result (according to the side of offseting) in this verion only the first point is implemented.
Parameters: - S (TopoDS_Shape &) –
- Boundary (TopTools_MapOfShape &) –
Return type:
-
thisown
¶ The membership flag
-
static
-
BRepAlgo_Tool_Deboucle3D
()¶ - Remove the non valid part of an offsetshape 1 - Remove all the free boundary and the faces connex to such edges. 2 - Remove all the shapes not valid in the result (according to the side of offseting) in this verion only the first point is implemented.
Parameters: - S (TopoDS_Shape &) –
- Boundary (TopTools_MapOfShape &) –
Return type:
-
class
Handle_BRepAlgo_AsDes
(*args)¶ Bases:
OCC.MMgt.Handle_MMgt_TShared
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepAlgo_DataMapNodeOfDataMapOfShapeBoolean
(*args)¶ Bases:
OCC.TCollection.Handle_TCollection_MapNode
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepAlgo_DataMapNodeOfDataMapOfShapeInterference
(*args)¶ Bases:
OCC.TCollection.Handle_TCollection_MapNode
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepAlgo_EdgeConnector
(*args)¶ Bases:
OCC.MMgt.Handle_MMgt_TShared
-
static
DownCast
()¶
-
GetObject
()¶
-
IsNull
()¶
-
Nullify
()¶
-
thisown
¶ The membership flag
-
static
-
class
Handle_BRepAlgo_SequenceNodeOfSequenceOfSequenceOfInteger
(*args)¶ Bases:
OCC.TCollection.Handle_TCollection_SeqNode
-
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
()¶
-
-
class
brepalgo
¶ Bases:
object
-
static
ConcatenateWire
()¶ - this method makes a wire whose edges are C1 from a Wire whose edges could be G1. It removes a vertex between G1 edges. Option can be G1 or C1.
Parameters: - Wire (TopoDS_Wire &) –
- Option (GeomAbs_Shape) –
- AngularTolerance (float) – default value is 1.0e-4
Return type:
-
static
ConcatenateWireC0
()¶ - this method makes an edge from a wire. Junction points between edges of wire may be sharp, resulting curve of the resulting edge may be C0.
Parameters: Wire (TopoDS_Wire &) – Return type: TopoDS_Edge
-
static
IsTopologicallyValid
()¶ - Checks if the shape is ‘correct’. If not, returns <Standard_False>, else returns <Standard_True>. This method differs from the previous one in the fact that no geometric contols (intersection of wires, pcurve validity) are performed.
Parameters: S (TopoDS_Shape &) – Return type: bool
-
static
IsValid
()¶ - Checks if the shape is ‘correct’. If not, returns <Standard_False>, else returns <Standard_True>.
Parameters: S (TopoDS_Shape &) – Return type: bool - Checks if the Generated and Modified Faces from the shapes <arguments> in the shape <result> are ‘correct’. The args may be empty, then all faces will be checked. If <Closed> is True, only closed shape are valid. If <GeomCtrl> is False the geometry of new vertices and edges are not verified and the auto-intersection of new wires are not searched.
Parameters: Return type:
-
thisown
¶ The membership flag
-
static
-
brepalgo_ConcatenateWire
()¶ - this method makes a wire whose edges are C1 from a Wire whose edges could be G1. It removes a vertex between G1 edges. Option can be G1 or C1.
Parameters: - Wire (TopoDS_Wire &) –
- Option (GeomAbs_Shape) –
- AngularTolerance (float) – default value is 1.0e-4
Return type:
-
brepalgo_ConcatenateWireC0
()¶ - this method makes an edge from a wire. Junction points between edges of wire may be sharp, resulting curve of the resulting edge may be C0.
Parameters: Wire (TopoDS_Wire &) – Return type: TopoDS_Edge
-
brepalgo_IsTopologicallyValid
()¶ - Checks if the shape is ‘correct’. If not, returns <Standard_False>, else returns <Standard_True>. This method differs from the previous one in the fact that no geometric contols (intersection of wires, pcurve validity) are performed.
Parameters: S (TopoDS_Shape &) – Return type: bool
-
brepalgo_IsValid
()¶ - Checks if the shape is ‘correct’. If not, returns <Standard_False>, else returns <Standard_True>.
Parameters: S (TopoDS_Shape &) – Return type: bool - Checks if the Generated and Modified Faces from the shapes <arguments> in the shape <result> are ‘correct’. The args may be empty, then all faces will be checked. If <Closed> is True, only closed shape are valid. If <GeomCtrl> is False the geometry of new vertices and edges are not verified and the auto-intersection of new wires are not searched.
Parameters: Return type:
-
new_instancemethod
(func, inst, cls)¶
-
register_handle
(handle, base_object)¶ Inserts the handle into the base object to prevent memory corruption in certain cases