void AuxiliarySystem::reinitElem(const Elem * /*elem*/, THREAD_ID tid) { for (std::map<std::string, MooseVariable *>::iterator it = _nodal_vars[tid].begin(); it != _nodal_vars[tid].end(); ++it) { MooseVariable *var = it->second; var->computeElemValues(); } for (std::map<std::string, MooseVariable *>::iterator it = _elem_vars[tid].begin(); it != _elem_vars[tid].end(); ++it) { MooseVariable *var = it->second; var->reinitAux(); var->computeElemValues(); } }
void AuxiliarySystem::reinitElem(const Elem * /*elem*/, THREAD_ID tid) { for (const auto & it : _nodal_vars[tid]) { MooseVariable * var = it.second; var->computeElemValues(); } for (const auto & it : _elem_vars[tid]) { MooseVariable * var = it.second; var->reinitAux(); var->computeElemValues(); } }
void SystemBase::reinitElem(const Elem * /*elem*/, THREAD_ID tid) { if (_subproblem.hasActiveElementalMooseVariables(tid)) { const std::set<MooseVariable *> & active_elemental_moose_variables = _subproblem.getActiveElementalMooseVariables(tid); for (std::set<MooseVariable *>::iterator it = active_elemental_moose_variables.begin(); it != active_elemental_moose_variables.end(); ++it) if (&(*it)->sys() == this) (*it)->computeElemValues(); } else { const std::vector<MooseVariable *> & vars = _vars[tid].variables(); for (std::vector<MooseVariable *>::const_iterator it = vars.begin(); it != vars.end(); ++it) { MooseVariable *var = *it; var->computeElemValues(); } } }