-# Copyright (C) 2007-2022 CEA/DEN, EDF R&D, OPEN CASCADE
+# Copyright (C) 2007-2024 CEA, EDF, OPEN CASCADE
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
## Algorithm type: Netgen tetrahedron 3D algorithm, see NETGEN_3D_Algorithm
NETGEN_3D = "NETGEN_3D"
+NETGEN_3D_Remote = "NETGEN_3D_Remote"
## Algorithm type: Netgen tetrahedron 1D-2D-3D algorithm, see NETGEN_1D2D3D_Algorithm
NETGEN_1D2D3D = "NETGEN_2D3D"
## Algorithm type: Netgen triangle 1D-2D algorithm, see NETGEN_1D2D_Algorithm
NETGEN_1D2D = "NETGEN_2D"
## Algorithm type: Netgen triangle 2D algorithm, see NETGEN_2D_Only_Algorithm
NETGEN_2D = "NETGEN_2D_ONLY"
+NETGEN_2D_Remote = "NETGEN_2D_Remote"
## Algorithm type: Synonim of NETGEN_1D2D3D, see NETGEN_1D2D3D_Algorithm
NETGEN_FULL = NETGEN_1D2D3D
## Algorithm type: Synonim of NETGEN_3D, see NETGEN_3D_Algorithm
if self.Parameters(): self.params.SetGrowthRate(theRate)
pass
+ ## Sets @c NbThreads parameter
+ # @param theRate new value of the @c NbThreads parameter
+ def SetNbThreads(self, theNumber):
+ if self.Parameters(): self.params.SetNbThreads(theNumber)
+ pass
+
## Creates meshing hypothesis according to the chosen algorithm type
# and initializes it with default parameters
# @param which hypothesis type; can be either @ref SOLE (default) or @ref SIMPLE
hypType = "NETGEN_SimpleParameters_3D"
else:
hypType = "NETGEN_Parameters"
- elif self.algoType == NETGEN_2D:
+ elif self.algoType in [NETGEN_2D, NETGEN_2D_Remote]:
hypType = "NETGEN_Parameters_2D_ONLY"
else:
hypType = "NETGEN_Parameters_3D"
pass # end of NETGEN_3D_Algorithm class
+## Tetrahedron 3D algorithm
+#
+# It can be created by calling smeshBuilder.Mesh.Tetrahedron() or smeshBuilder.Mesh.Tetrahedron( smeshBuilder.NETGEN, geom=0 )
+#
+# This algorithm generates only 3D (volumes) elements for given geometrical shape
+# and, in contrast to NETGEN_1D2D3D_Algorithm class, should be used in conjunction
+# with other 1D and 2D meshing algorithms.
+class NETGEN_3D_Remote_Algorithm(NETGEN_3D_Algorithm):
+
+ ## type of algorithm used with helper function in smeshBuilder.Mesh class
+ # @internal
+ algoType = NETGEN_3D_Remote
+ ## flag pointing either this algorithm should be used by default in dynamic method
+ # of smeshBuilder.Mesh class
+ # @internal
+ isDefault = False
+ ## doc string of the method
+ # @internal
+ docHelper = "Remotely Creates tetrahedron 3D algorithm for solids"
+
+ ## Private constructor.
+ # @param mesh parent mesh object algorithm is assigned to
+ # @param geom geometry (shape/sub-shape) algorithm is assigned to;
+ # if it is @c 0 (default), the algorithm is assigned to the main shape
+ def __init__(self, mesh, geom=0):
+ NETGEN_3D_Algorithm.__init__(self, mesh, geom)
+ pass
+
+ pass # end of NETGEN_3D_Remote_Algorithm class
+
+## Tetrahedron 2D algorithm
+#
+# It can be created by calling smeshBuilder.Mesh.Triangle() or smeshBuilder.Mesh.Triangle( smeshBuilder.NETGEN, geom=0 )
+#
+class NETGEN_2D_Remote_Algorithm(NETGEN_2D_Only_Algorithm):
+
+ ## type of algorithm used with helper function in smeshBuilder.Mesh class
+ # @internal
+ algoType = NETGEN_2D_Remote
+ ## flag pointing either this algorithm should be used by default in dynamic method
+ # of smeshBuilder.Mesh class
+ # @internal
+ isDefault = False
+ ## doc string of the method
+ # @internal
+ docHelper = "Remotely Creates triangles in face of solids"
+
+ ## Private constructor.
+ # @param mesh parent mesh object algorithm is assigned to
+ # @param geom geometry (shape/sub-shape) algorithm is assigned to;
+ # if it is @c 0 (default), the algorithm is assigned to the main shape
+ def __init__(self, mesh, geom=0):
+ self.algoType = NETGEN_2D_Remote
+ NETGEN_2D_Only_Algorithm.__init__(self, mesh, geom)
+ pass
+
+ pass # end of NETGEN_2D_Remote_Algorithm class
+
## Triangle (helper) 1D-2D algorithm
#
