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StdMeshersDC_RadialQuadrangle1D2D Class Reference

Defines a Radial Quadrangle 1D2D algorithm It is created by calling Mesh.Quadrangle(RADIAL_QUAD,geom=0) More...

Public Member Functions

def __init__
 Private constructor.
def Get2DHypothesis
 Return 2D hypothesis holding the 1D one.
def OwnHypothesis
 Private method creating a 1D hypothesis and storing it in the LayerDistribution hypothesis.
def NumberOfLayers
 Defines "NumberOfLayers" hypothesis, specifying the number of layers.
def LocalLength
 Defines "LocalLength" hypothesis, specifying the segment length.
def NumberOfSegments
 Defines "NumberOfSegments" hypothesis, specifying the number of layers.
def Arithmetic1D
 Defines "Arithmetic1D" hypothesis, specifying the distribution of segments with a length that changes in arithmetic progression.
def StartEndLength
 Defines "StartEndLength" hypothesis, specifying distribution of segments as geometric length increasing.
def AutomaticLength
 Defines "AutomaticLength" hypothesis, specifying the number of segments.
def FindHypothesis
 Finds a hypothesis in the study by its type name and parameters.
def FindAlgorithm
 Finds the algorithm in the study by its type name.
def GetSubMesh
 If the algorithm is global, returns 0;
else returns the submesh associated to this algorithm.
def GetAlgorithm
 Returns the wrapped mesher.
def GetCompatibleHypothesis
 Gets the list of hypothesis that can be used with this algorithm.
def GetName
 Gets the name of the algorithm.
def SetName
 Sets the name to the algorithm.
def GetId
 Gets the id of the algorithm.
def Create
 Private method.
def Assign
 Private method.
def CompareHyp
def CompareEqualHyp
def Hypothesis
 Private method.
def MainShapeEntry
 Returns entry of the shape to mesh in the study.
def ViscousLayers
 Defines "ViscousLayers" hypothesis to give parameters of layers of prisms to build near mesh boundary.
def ReversedEdgeIndices
 Transform a list of ether edges or tuples (edge 1st_vertex_of_edge) into a list acceptable to SetReversedEdges() of some 1D hypotheses.

Data Fields

 distribHyp
 nbLayers
 mesh
 geom
 subm
 algo

Static Public Attributes

string meshMethod = "Quadrangle"
 Name of method of class Mesh creating an instance of this class.
 algoType = RADIAL_QUAD
 Name of algorithm type.

Detailed Description

Defines a Radial Quadrangle 1D2D algorithm It is created by calling Mesh.Quadrangle(RADIAL_QUAD,geom=0)

Constructor & Destructor Documentation

def __init__ (   self,
  mesh,
  geom = 0 
)

Member Function Documentation

def Get2DHypothesis (   self)
def OwnHypothesis (   self,
  hypType,
  args = [],
  so = "libStdMeshersEngine.so" 
)

Private method creating a 1D hypothesis and storing it in the LayerDistribution hypothesis.

Returns the created hypothesis

References StdMeshersDC_Prism3D.distribHyp, StdMeshersDC_RadialQuadrangle1D2D.distribHyp, Mesh.geom, Mesh_Algorithm.geom, Mesh_Algorithm.Hypothesis(), StdMeshersDC_Prism3D.nbLayers, and StdMeshersDC_RadialQuadrangle1D2D.nbLayers.

def NumberOfLayers (   self,
  n,
  UseExisting = 0 
)

Defines "NumberOfLayers" hypothesis, specifying the number of layers.

Parameters
nnumber of layers
UseExistingif ==true - searches for the existing hypothesis created with the same parameters, else (default) - creates a new one

References StdMeshersDC_Prism3D.distribHyp, StdMeshersDC_RadialQuadrangle1D2D.distribHyp, Mesh.geom, Mesh_Algorithm.geom, Mesh_Algorithm.Hypothesis(), smesh.IsEqual(), StdMeshersDC_Prism3D.nbLayers, and StdMeshersDC_RadialQuadrangle1D2D.nbLayers.

def LocalLength (   self,
  l,
  p = 1e-07 
)

Defines "LocalLength" hypothesis, specifying the segment length.

Parameters
lthe length of segments
pthe precision of rounding

References StdMeshersDC_Prism3D.OwnHypothesis(), and StdMeshersDC_RadialQuadrangle1D2D.OwnHypothesis().

def NumberOfSegments (   self,
  n,
  s = [] 
)

Defines "NumberOfSegments" hypothesis, specifying the number of layers.

Parameters
nthe number of layers
sthe scale factor (optional)

References StdMeshersDC_Prism3D.OwnHypothesis(), and StdMeshersDC_RadialQuadrangle1D2D.OwnHypothesis().

def Arithmetic1D (   self,
  start,
  end 
)

Defines "Arithmetic1D" hypothesis, specifying the distribution of segments with a length that changes in arithmetic progression.

Parameters
startthe length of the first segment
endthe length of the last segment

References StdMeshersDC_Prism3D.OwnHypothesis(), and StdMeshersDC_RadialQuadrangle1D2D.OwnHypothesis().

def StartEndLength (   self,
  start,
  end 
)

Defines "StartEndLength" hypothesis, specifying distribution of segments as geometric length increasing.

Parameters
startfor the length of the first segment
endfor the length of the last segment

References StdMeshersDC_Prism3D.OwnHypothesis(), and StdMeshersDC_RadialQuadrangle1D2D.OwnHypothesis().

def AutomaticLength (   self,
  fineness = 0 
)

Defines "AutomaticLength" hypothesis, specifying the number of segments.

Parameters
finenessdefines the quality of the mesh within the range [0-1]

References StdMeshersDC_Prism3D.OwnHypothesis(), and StdMeshersDC_RadialQuadrangle1D2D.OwnHypothesis().

def FindHypothesis (   self,
  hypname,
  args,
  CompareMethod,
  smeshpyD 
)
inherited

Finds a hypothesis in the study by its type name and parameters.

Finds only the hypotheses created in smeshpyD engine.

Returns
SMESH.SMESH_Hypothesis
def FindAlgorithm (   self,
  algoname,
  smeshpyD 
)
inherited

Finds the algorithm in the study by its type name.

Finds only the algorithms, which have been created in smeshpyD engine.

Returns
SMESH.SMESH_Algo
def GetSubMesh (   self)
inherited

If the algorithm is global, returns 0;
else returns the submesh associated to this algorithm.

References Mesh_Algorithm.subm.

def GetAlgorithm (   self)
inherited

Returns the wrapped mesher.

References Mesh_Algorithm.algo.

def GetCompatibleHypothesis (   self)
inherited

Gets the list of hypothesis that can be used with this algorithm.

References Mesh_Algorithm.algo.

def GetName (   self)
inherited

Gets the name of the algorithm.

References Mesh_Algorithm.algo.

def SetName (   self,
  name 
)
inherited

Sets the name to the algorithm.

References Mesh_Algorithm.algo.

def GetId (   self)
inherited

Gets the id of the algorithm.

def Create (   self,
  mesh,
  geom,
  hypo,
  so = "libStdMeshersEngine.so" 
)
inherited
def Assign (   self,
  algo,
  mesh,
  geom 
)
inherited
def CompareHyp (   self,
  hyp,
  args 
)
inherited
def CompareEqualHyp (   self,
  hyp,
  args 
)
inherited
def Hypothesis (   self,
  hyp,
  args = [],
  so = "libStdMeshersEngine.so",
  UseExisting = 0,
  CompareMethod = "" 
)
inherited
def MainShapeEntry (   self)
inherited

Returns entry of the shape to mesh in the study.

References Mesh.mesh, and Mesh_Algorithm.mesh.

Field Documentation

string meshMethod = "Quadrangle"
static

Name of method of class Mesh creating an instance of this class.

algoType = RADIAL_QUAD
static

Name of algorithm type.

distribHyp
nbLayers
mesh
inherited
geom
inherited
subm
inherited
algo
inherited
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