def checkSupported(self, allSupported):
for m in self.analysis.Group:
if FemUtils.isOfType(m, "Fem::Constraint"):
supported = False
for sc in allSupported:
if FemUtils.isOfType(m, *sc):
supported = True
if not supported:
self.report.warning(
"Ignored unsupported constraint: %s" % m.Label)
return True
def checkMeshType(self):
mesh = FemUtils.getSingleMember(self.analysis, "Fem::FemMeshObject")
if not FemUtils.isOfType(mesh, "FemMeshGmsh"):
self.report.error("Unsupported type of mesh. "
"Mesh must be created with gmsh.")
self.fail()
return False
return True
def checkMeshType(self):
mesh = FemUtils.getSingleMember(self.analysis, "Fem::FemMeshObject")
if not FemUtils.isOfType(mesh, "Fem::FemMeshGmsh"):
self.report.error(
"Unsupported type of mesh. "
"Mesh must be created with gmsh.")
self.fail()
return False
return True
def _handleFluxsolver(self):
activeIn = []
for equation in self.solver.Group:
if FemUtils.isOfType(equation, "Fem::FemEquationElmerFluxsolver"):
if equation.References:
activeIn = equation.References[0][1]
else:
activeIn = self._getAllBodies()
solverSection = self._getFluxsolverSolver(equation)
for body in activeIn:
self._addSolver(body, solverSection)
def _handleElasticity(self):
activeIn = []
for equation in self.solver.Group:
if FemUtils.isOfType(equation, "Fem::FemEquationElmerElasticity"):
if equation.References:
activeIn = equation.References[0][1]
else:
activeIn = self._getAllBodies()
solverSection = self._getElasticitySolver(equation)
for body in activeIn:
self._addSolver(body, solverSection)
if activeIn:
self._handleElasticityConstants()
self._handleElasticityBndConditions()
self._handleElasticityInitial(activeIn)
self._handleElasticityBodyForces(activeIn)
self._handleElasticityMaterial(activeIn)
def _handleFlow(self):
activeIn = []
for equation in self.solver.Group:
if FemUtils.isOfType(equation, "Fem::FemEquationElmerFlow"):
if equation.References:
activeIn = equation.References[0][1]
else:
activeIn = self._getAllBodies()
solverSection = self._getFlowSolver(equation)
for body in activeIn:
self._addSolver(body, solverSection)
if activeIn:
self._handleFlowConstants()
self._handleFlowBndConditions()
self._handleFlowInitialVelocity(activeIn)
# self._handleFlowInitial(activeIn)
# self._handleFlowBodyForces(activeIn)
self._handleFlowMaterial(activeIn)
self._handleFlowEquation(activeIn)
def purge_results(self):
for m in FemUtils.getMember(self.analysis, "Fem::FemResultObject"):
if FemUtils.isOfType(m.Mesh, "FemMeshResult"):
self.analysis.Document.removeObject(m.Mesh.Name)
self.analysis.Document.removeObject(m.Name)
App.ActiveDocument.recompute()
def purge_results(self):
for m in FemUtils.getMember(self.analysis, "Fem::FemResultObject"):
if FemUtils.isOfType(m.Mesh, "FemMeshResult"):
self.analysis.Document.removeObject(m.Mesh.Name)
self.analysis.Document.removeObject(m.Name)
App.ActiveDocument.recompute()
