NearestNodeLocator::NearestNodeLocator(SubProblem & subproblem, MooseMesh & mesh, BoundaryID boundary1, BoundaryID boundary2) : Restartable(subproblem.getMooseApp(), Moose::stringify(boundary1) + Moose::stringify(boundary2), "NearestNodeLocator", 0), _subproblem(subproblem), _mesh(mesh), _slave_node_range(NULL), _boundary1(boundary1), _boundary2(boundary2), _first(true), _patch_update_strategy(_mesh.getPatchUpdateStrategy()) { /* //sanity check on boundary ids const std::set<BoundaryID>& bids=_mesh.getBoundaryIDs(); std::set<BoundaryID>::const_iterator sit; sit=bids.find(_boundary1); if (sit == bids.end()) mooseError("NearestNodeLocator being created for boundaries ", _boundary1, " and ", _boundary2, ", but boundary ", _boundary1, " does not exist"); sit=bids.find(_boundary2); if (sit == bids.end()) mooseError("NearestNodeLocator being created for boundaries ", _boundary1, " and ", _boundary2, ", but boundary ", _boundary2, " does not exist"); */ }
SystemBase::SystemBase(SubProblem & subproblem, const std::string & name) : libMesh::ParallelObject(subproblem), _subproblem(subproblem), _app(subproblem.getMooseApp()), _factory(_app.getFactory()), _mesh(subproblem.mesh()), _name(name), _currently_computing_jacobian(false), _vars(libMesh::n_threads()), _var_map() { }