nLevels = ct.nLevels
parallelPartitioningType = mesh.parallelPartitioningType
nLayersOfOverlapForParallel = mesh.nLayersOfOverlapForParallel
restrictFineSolutionToAllMeshes = mesh.restrictFineSolutionToAllMeshes
triangleOptions = mesh.triangleOptions
elementQuadrature = ct.elementQuadrature
elementBoundaryQuadrature = ct.elementBoundaryQuadrature
femSpaces = {0: ct.basis}
massLumping = False
conservativeFlux = None
numericalFluxType = NCLS.NumericalFlux
subgridError = NCLS.SubgridError(coefficients=physics.coefficients,
nd=ct.domain.nd)
shockCapturing = NCLS.ShockCapturing(
physics.coefficients,
ct.domain.nd,
shockCapturingFactor=ct.ls_shockCapturingFactor,
lag=ct.ls_lag_shockCapturing)
fullNewtonFlag = True
multilevelNonlinearSolver = NonlinearSolvers.Newton
levelNonlinearSolver = NonlinearSolvers.Newton
nonlinearSmoother = None
linearSmoother = None
matrix = LinearAlgebraTools.SparseMatrix
parallelPartitioningType = ct.parallelPartitioningType
nLayersOfOverlapForParallel = ct.nLayersOfOverlapForParallel
restrictFineSolutionToAllMeshes = ct.restrictFineSolutionToAllMeshes
triangleOptions = ct.triangleOptions
timeIntegration = TimeIntegration.BackwardEuler_cfl
stepController = StepControl.Min_dt_controller
femSpaces = {0:ct.basis}
elementQuadrature = ct.elementQuadrature
elementBoundaryQuadrature = ct.elementBoundaryQuadrature
massLumping = False
conservativeFlux = None
numericalFluxType = NCLS.NumericalFlux
subgridError = NCLS.SubgridError(physics.coefficients, ct.nd)
shockCapturing = NCLS.ShockCapturing(physics.coefficients,
ct.nd,
shockCapturingFactor = ct.ls_shockCapturingFactor,
lag = ct.ls_lag_shockCapturing)
fullNewtonFlag = True
multilevelNonlinearSolver = NonlinearSolvers.Newton
levelNonlinearSolver = NonlinearSolvers.Newton
nonlinearSmoother = None
linearSmoother = None
matrix = LinearAlgebraTools.SparseMatrix
if ct.opts.parallel:
