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salome-smesh  6.5.0
Classes | Variables
StdMeshersDC Namespace Reference

Classes

class  StdMeshersDC_Segment
 Class to define a REGULAR 1D algorithm for discretization. More...
class  StdMeshersDC_CompositeSegment
 A regular 1D algorithm for discretization of a set of adjacent edges as one. More...
class  StdMeshersDC_Segment_Python
 Defines a segment 1D algorithm for discretization with python function It is created by calling Mesh.Segment(PYTHON,geom=0) More...
class  StdMeshersDC_Triangle_MEFISTO
 Triangle MEFISTO 2D algorithm It is created by calling Mesh.Triangle(MEFISTO,geom=0) More...
class  StdMeshersDC_Quadrangle
 Defines a quadrangle 2D algorithm It is created by calling Mesh.Quadrangle(geom=0) More...
class  StdMeshersDC_Hexahedron
 Defines a hexahedron 3D algorithm It is created by calling Mesh.Hexahedron(geom=0) More...
class  StdMeshersDC_Projection1D
 Defines a projection 1D algorithm It is created by calling Mesh.Projection1D(geom=0) More...
class  StdMeshersDC_Projection2D
 Defines a projection 2D algorithm It is created by calling Mesh.Projection2D(geom=0) More...
class  StdMeshersDC_Projection1D2D
 Defines a projection 1D-2D algorithm It is created by calling Mesh.Projection1D2D(geom=0) More...
class  StdMeshersDC_Projection3D
 Defines a projection 3D algorithm It is created by calling Mesh.Projection3D(COMPOSITE) More...
class  StdMeshersDC_Prism3D
 Defines a Prism 3D algorithm, which is either "Extrusion 3D" or "Radial Prism" depending on geometry It is created by calling Mesh.Prism(geom=0) More...
class  StdMeshersDC_RadialQuadrangle1D2D
 Defines a Radial Quadrangle 1D2D algorithm It is created by calling Mesh.Quadrangle(RADIAL_QUAD,geom=0) More...
class  StdMeshersDC_UseExistingElements_1D
 Defines a Radial Quadrangle 1D2D algorithm It is created by calling Mesh.UseExisting1DElements(geom=0) More...
class  StdMeshersDC_UseExistingElements_1D2D
 Defines a Radial Quadrangle 1D2D algorithm It is created by calling Mesh.UseExisting2DElements(geom=0) More...
class  StdMeshersDC_Cartesian_3D
 Defines a Body Fitting 3D algorithm It is created by calling Mesh.BodyFitted(geom=0) More...
class  StdMeshersDC_UseExisting_1D
 Defines a stub 1D algorithm, which enables "manual" creation of nodes and segments usable by 2D algoritms It is created by calling Mesh.UseExistingSegments(geom=0) More...
class  StdMeshersDC_UseExisting_2D
 Defines a stub 2D algorithm, which enables "manual" creation of nodes and faces usable by 3D algoritms It is created by calling Mesh.UseExistingFaces(geom=0) More...

Variables

string REGULAR = "Regular_1D"
string PYTHON = "Python_1D"
string COMPOSITE = "CompositeSegment_1D"
string MEFISTO = "MEFISTO_2D"
string Hexa = "Hexa_3D"
string QUADRANGLE = "Quadrangle_2D"
string RADIAL_QUAD = "RadialQuadrangle_1D2D"

Variable Documentation

string StdMeshersDC.COMPOSITE = "CompositeSegment_1D"

Definition at line 29 of file StdMeshersDC.py.

string StdMeshersDC.Hexa = "Hexa_3D"

Definition at line 31 of file StdMeshersDC.py.

string StdMeshersDC.MEFISTO = "MEFISTO_2D"

Definition at line 30 of file StdMeshersDC.py.

string StdMeshersDC.PYTHON = "Python_1D"

Definition at line 28 of file StdMeshersDC.py.

string StdMeshersDC.QUADRANGLE = "Quadrangle_2D"

Definition at line 32 of file StdMeshersDC.py.

string StdMeshersDC.RADIAL_QUAD = "RadialQuadrangle_1D2D"

Definition at line 33 of file StdMeshersDC.py.

string StdMeshersDC.REGULAR = "Regular_1D"

Definition at line 27 of file StdMeshersDC.py.