#ifdef DEAL_II_USE_MT
- ACE_Thread_Manager thread_manager;
+ Threads::ThreadManager thread_manager;
for (unsigned int l=0;l<n_threads;++l)
Threads::spawn (thread_manager,
Threads::encapsulate (&DataOut<dim>::build_some_patches)
vector<IndexInterval> index_intervals
= Threads::split_interval (0, dof_handler.get_tria().n_active_cells(),
n_threads);
- ACE_Thread_Manager thread_manager;
+ Threads::ThreadManager thread_manager;
for (unsigned int i=0; i<n_threads; ++i)
Threads::spawn (thread_manager,
Threads::encapsulate (&GradientEstimator::
// if multithreading is used
#ifdef DEAL_II_USE_MT
- ACE_Thread_Manager thread_manager;
+ Threads::ThreadManager thread_manager;
for (unsigned int i=0;i<data.n_threads; ++i)
Threads::spawn (thread_manager,
Threads::encapsulate (&KellyErrorEstimator<dim>::estimate_some)
vector<IndexInterval> index_intervals
= Threads::split_interval (0, dof_handler.get_tria().n_active_cells(),
n_threads);
- ACE_Thread_Manager thread_manager;
+ Threads::ThreadManager thread_manager;
for (unsigned int i=0; i<n_threads; ++i)
Threads::spawn (thread_manager,
Threads::encapsulate (&GradientEstimator::
{
#ifdef DEAL_II_USE_MT
const unsigned int stride = timesteps.size() / n_threads;
- ACE_Thread_Manager thread_manager;
+ Threads::ThreadManager thread_manager;
for (unsigned int i=0; i<n_threads; ++i)
Threads::spawn (thread_manager,
Threads::encapsulate (&TimeDependent::end_sweep)