Version: 8.3.0
Defines a Radial Quadrangle 1D-2D algorithm. More...
Public Member Functions | |
| def | __init__ |
| Private constructor. More... | |
| def | Get2DHypothesis |
| Return 2D hypothesis holding the 1D one. More... | |
| def | OwnHypothesis |
| Private method creating a 1D hypothesis and storing it in the LayerDistribution hypothesis. More... | |
| def | NumberOfLayers |
| Defines "NumberOfLayers" hypothesis, specifying the number of layers. More... | |
| def | LocalLength |
| Defines "LocalLength" hypothesis, specifying the segment length. More... | |
| def | NumberOfSegments |
| Defines "NumberOfSegments" hypothesis, specifying the number of layers. More... | |
| def | Arithmetic1D |
| Defines "Arithmetic1D" hypothesis, specifying the distribution of segments with a length that changes in arithmetic progression. More... | |
| def | GeometricProgression |
| Defines "GeometricProgression" hypothesis, specifying the distribution of segments with a length that changes in Geometric progression. More... | |
| def | StartEndLength |
| Defines "StartEndLength" hypothesis, specifying distribution of segments as geometric length increasing. More... | |
| def | AutomaticLength |
| Defines "AutomaticLength" hypothesis, specifying the number of segments. More... | |
Data Fields | |
| distribHyp | |
| nbLayers | |
Static Public Attributes | |
| string | meshMethod = "Quadrangle" |
| name of the dynamic method in smeshBuilder.Mesh class More... | |
| algoType = RADIAL_QUAD | |
| type of algorithm used with helper function in smeshBuilder.Mesh class More... | |
| string | docHelper = "Creates quadrangle 1D-2D algorithm for faces having a shape of disk or a disk segment" |
| doc string of the method More... | |
Defines a Radial Quadrangle 1D-2D algorithm.
It is created by calling smeshBuilder.Mesh.Quadrangle(smeshBuilder.RADIAL_QUAD,geom=0)
| def __init__ | ( | self, | |
| mesh, | |||
geom = 0 |
|||
| ) |
Private constructor.
| mesh | parent mesh object algorithm is assigned to |
| geom | geometry (shape/sub-shape) algorithm is assigned to; if it is 0 (default), the algorithm is assigned to the main shape |
References StdMeshersBuilder_Segment.algoType, StdMeshersBuilder_CompositeSegment.algoType, StdMeshersBuilder_Segment_Python.algoType, StdMeshersBuilder_Triangle_MEFISTO.algoType, StdMeshersBuilder_Quadrangle.algoType, StdMeshersBuilder_Hexahedron.algoType, StdMeshersBuilder_Projection1D.algoType, StdMeshersBuilder_Projection2D.algoType, StdMeshersBuilder_Projection1D2D.algoType, StdMeshersBuilder_Projection3D.algoType, StdMeshersBuilder_Prism3D.algoType, StdMeshersBuilder_RadialPrism3D.algoType, StdMeshersBuilder_RadialQuadrangle1D2D.algoType, and Mesh_Algorithm.Create().
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inherited |
Return 2D hypothesis holding the 1D one.
References StdMeshersBuilder_Prism3D.distribHyp, StdMeshersBuilder_RadialPrism3D.distribHyp, StdMeshersBuilder_RadialAlgorithm.distribHyp, and Mesh_Algorithm.Hypothesis().
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inherited |
Private method creating a 1D hypothesis and storing it in the LayerDistribution hypothesis.
Returns the created hypothesis
References StdMeshersBuilder_Prism3D.distribHyp, StdMeshersBuilder_RadialPrism3D.distribHyp, StdMeshersBuilder_RadialAlgorithm.distribHyp, Mesh_Algorithm.geom, StdMeshersBuilder_Segment.geom, Mesh.geom, Mesh_Algorithm.Hypothesis(), StdMeshersBuilder_Prism3D.nbLayers, StdMeshersBuilder_RadialPrism3D.nbLayers, and StdMeshersBuilder_RadialAlgorithm.nbLayers.
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inherited |
Defines "NumberOfLayers" hypothesis, specifying the number of layers.
| n | number of layers |
| UseExisting | if ==true - searches for the existing hypothesis created with the same parameters, else (default) - creates a new one |
References StdMeshersBuilder_Prism3D.distribHyp, StdMeshersBuilder_RadialPrism3D.distribHyp, StdMeshersBuilder_RadialAlgorithm.distribHyp, Mesh_Algorithm.geom, StdMeshersBuilder_Segment.geom, Mesh.geom, Mesh_Algorithm.Hypothesis(), smeshBuilder.IsEqual(), StdMeshersBuilder_Prism3D.nbLayers, StdMeshersBuilder_RadialPrism3D.nbLayers, and StdMeshersBuilder_RadialAlgorithm.nbLayers.
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inherited |
Defines "LocalLength" hypothesis, specifying the segment length.
| l | the length of segments |
| p | the precision of rounding |
References StdMeshersBuilder_Prism3D.OwnHypothesis(), and StdMeshersBuilder_RadialAlgorithm.OwnHypothesis().
|
inherited |
Defines "NumberOfSegments" hypothesis, specifying the number of layers.
| n | the number of layers |
| s | the scale factor (optional) |
References StdMeshersBuilder_Prism3D.OwnHypothesis(), and StdMeshersBuilder_RadialAlgorithm.OwnHypothesis().
|
inherited |
Defines "Arithmetic1D" hypothesis, specifying the distribution of segments with a length that changes in arithmetic progression.
| start | the length of the first segment |
| end | the length of the last segment |
References StdMeshersBuilder_Prism3D.OwnHypothesis(), and StdMeshersBuilder_RadialAlgorithm.OwnHypothesis().
|
inherited |
Defines "GeometricProgression" hypothesis, specifying the distribution of segments with a length that changes in Geometric progression.
| start | the length of the first segment |
| ratio | the common ratio of the geometric progression |
References StdMeshersBuilder_Prism3D.OwnHypothesis(), and StdMeshersBuilder_RadialAlgorithm.OwnHypothesis().
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inherited |
Defines "StartEndLength" hypothesis, specifying distribution of segments as geometric length increasing.
| start | for the length of the first segment |
| end | for the length of the last segment |
References StdMeshersBuilder_Prism3D.OwnHypothesis(), and StdMeshersBuilder_RadialAlgorithm.OwnHypothesis().
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inherited |
Defines "AutomaticLength" hypothesis, specifying the number of segments.
| fineness | defines the quality of the mesh within the range [0-1] |
References StdMeshersBuilder_Prism3D.OwnHypothesis(), and StdMeshersBuilder_RadialAlgorithm.OwnHypothesis().
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static |
name of the dynamic method in smeshBuilder.Mesh class
|
static |
type of algorithm used with helper function in smeshBuilder.Mesh class
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static |
doc string of the method
| distribHyp |
| nbLayers |
