## Return 3D hypothesis holding the 1D one
def Get3DHypothesis(self):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
return self.distribHyp
# hypothesis. Returns the created hypothesis
def OwnHypothesis(self, hypType, args=[], so="libStdMeshersEngine.so"):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
if not self.nbLayers is None:
self.mesh.GetMesh().RemoveHypothesis( self.geom, self.nbLayers )
# the same parameters, else (default) - creates a new one
def NumberOfLayers(self, n, UseExisting=0):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
self.mesh.RemoveHypothesis( self.distribHyp, self.geom )
from salome.smesh.smeshBuilder import IsEqual
# @param p the precision of rounding
def LocalLength(self, l, p=1e-07):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
hyp = self.OwnHypothesis("LocalLength", [l,p])
hyp.SetLength(l)
# @param s the scale factor (optional)
def NumberOfSegments(self, n, s=[]):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
if not s:
hyp = self.OwnHypothesis("NumberOfSegments", [n])
# @param end the length of the last segment
def Arithmetic1D(self, start, end ):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
hyp = self.OwnHypothesis("Arithmetic1D", [start, end])
hyp.SetLength(start, 1)
# @param ratio the common ratio of the geometric progression
def GeometricProgression(self, start, ratio ):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
hyp = self.OwnHypothesis("GeometricProgression", [start, ratio])
hyp.SetStartLength( start )
# @param end for the length of the last segment
def StartEndLength(self, start, end):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
hyp = self.OwnHypothesis("StartEndLength", [start, end])
hyp.SetLength(start, 1)
# @param fineness defines the quality of the mesh within the range [0-1]
def AutomaticLength(self, fineness=0):
if self.algoType != "RadialPrism_3D":
- print "Prism_3D algorith doesn't support any hyposesis"
+ print "Prism_3D algorithm doesn't support any hypothesis"
return None
hyp = self.OwnHypothesis("AutomaticLength")
hyp.SetFineness( fineness )
