{
SwappedContext::finalize();
}
-/** Maestro wants to run all ready actors */
-void SwappedContextFactory::run_all()
-{
- /* This function is called by maestro at the beginning of a scheduling round to get all working threads executing some
- * stuff It is much easier to understand what happens if you see the working threads as bodies that swap their soul
- * for the ones of the simulated processes that must run.
- */
- if (parallel_) {
- SwappedContext::threads_working_ = 0;
-
- // We lazily create the parmap so that all options are actually processed when doing so.
- if (SwappedContext::parmap_ == nullptr)
- SwappedContext::parmap_ =
- new simgrid::xbt::Parmap<smx_actor_t>(SIMIX_context_get_nthreads(), SIMIX_context_get_parallel_mode());
-
- // Usually, Parmap::apply() executes the provided function on all elements of the array.
- // Here, the executed function does not return the control to the parmap before all the array is processed:
- // - suspend() should switch back to the worker_context (either maestro or one of its minions) to return
- // the control to the parmap. Instead, it uses parmap_->next() to steal another work, and does it directly.
- // It only yields back to worker_context when the work array is exhausted.
- // - So, resume() is only launched from the parmap for the first job of each minion.
- SwappedContext::parmap_->apply(
- [](smx_actor_t process) {
- SwappedContext* context = static_cast<SwappedContext*>(process->context_);
- context->resume();
- },
- simix_global->process_to_run);
- } else { // sequential execution
- if (simix_global->process_to_run.empty())
- return;
- smx_actor_t first_actor = simix_global->process_to_run.front();
- process_index_ = 1;
- /* execute the first actor; it will chain to the others when using suspend() */
- static_cast<SwappedContext*>(first_actor->context_)->resume();
- }
-}
void SwappedContext::initialize(bool parallel)
{
xbt_free(stack_);
}
-/** Maestro wants to yield back to a given actor */
+void SwappedContext::stop()
+{
+ Context::stop();
+ throw StopRequest();
+}
+
+/** Maestro wants to run all ready actors */
+void SwappedContextFactory::run_all()
+{
+ /* This function is called by maestro at the beginning of a scheduling round to get all working threads executing some
+ * stuff It is much easier to understand what happens if you see the working threads as bodies that swap their soul
+ * for the ones of the simulated processes that must run.
+ */
+ if (parallel_) {
+ SwappedContext::threads_working_ = 0;
+
+ // We lazily create the parmap so that all options are actually processed when doing so.
+ if (SwappedContext::parmap_ == nullptr)
+ SwappedContext::parmap_ =
+ new simgrid::xbt::Parmap<smx_actor_t>(SIMIX_context_get_nthreads(), SIMIX_context_get_parallel_mode());
+
+ // Usually, Parmap::apply() executes the provided function on all elements of the array.
+ // Here, the executed function does not return the control to the parmap before all the array is processed:
+ // - suspend() should switch back to the worker_context (either maestro or one of its minions) to return
+ // the control to the parmap. Instead, it uses parmap_->next() to steal another work, and does it directly.
+ // It only yields back to worker_context when the work array is exhausted.
+ // - So, resume() is only launched from the parmap for the first job of each minion.
+ SwappedContext::parmap_->apply(
+ [](smx_actor_t process) {
+ SwappedContext* context = static_cast<SwappedContext*>(process->context_);
+ context->resume();
+ },
+ simix_global->process_to_run);
+ } else { // sequential execution
+ if (simix_global->process_to_run.empty())
+ return;
+ smx_actor_t first_actor = simix_global->process_to_run.front();
+ process_index_ = 1;
+ /* execute the first actor; it will chain to the others when using suspend() */
+ static_cast<SwappedContext*>(first_actor->context_)->resume();
+ }
+}
+
+/** Maestro wants to yield back to a given actor, so awake it on the current thread
+ *
+ * In parallel, it is only applied to the N first elements of the parmap array,
+ * where N is the amount of worker threads in the parmap.
+ * See SwappedContextFactory::run_all for details.
+ */
void SwappedContext::resume()
{
if (factory_->parallel_) {
- THROW_IMPOSSIBLE;
+ // Save the thread number (my body) in an os-thread-specific area
+ worker_id_ = threads_working_.fetch_add(1, std::memory_order_relaxed);
+ // Save my current soul (either maestro, or one of the minions) in a permanent area
+ SwappedContext* worker_context = static_cast<SwappedContext*>(self());
+ workers_context_[worker_id_] = worker_context;
+ // Switch my soul and the actor's one
+ Context::set_current(this);
+ worker_context->swap_into(this);
+ // No body runs that soul anymore at this point, but it is stored in a safe place.
+ // When the executed actor will do a blocking action, SIMIX_process_yield() will call suspend(), below.
} else { // sequential execution
// Maestro is always the calling thread of this function (ie, self() == maestro)
SwappedContext* old = static_cast<SwappedContext*>(self());
}
}
-/** The actor wants to yield back to maestro */
+/** The actor wants to yield back to maestro, because it is blocked in a simcall (ie in SIMIX_process_yield())
+ *
+ * Actually, it does not really yield back to maestro, but directly into the next executable actor.
+ *
+ * This makes the parmap::apply awkward (see ParallelUContext::run_all()) because it only apply regularly
+ * on the few first elements of the array, but it saves a lot of context switches back to maestro,
+ * and directly forth to the next executable actor.
+ */
void SwappedContext::suspend()
{
if (factory_->parallel_) {
- THROW_IMPOSSIBLE;
+ // Get some more work to directly swap into the next executable actor instead of yielding back to the parmap
+ boost::optional<smx_actor_t> next_work = parmap_->next();
+ SwappedContext* next_context;
+ if (next_work) {
+ // There is a next soul to embody (ie, another executable actor)
+ XBT_DEBUG("Run next process");
+ next_context = static_cast<SwappedContext*>(next_work.get()->context_);
+ } else {
+ // All actors were run, go back to the parmap context
+ XBT_DEBUG("No more processes to run");
+ // worker_id_ is the identity of my body, stored in thread_local when starting the scheduling round
+ next_context = workers_context_[worker_id_];
+ // When given that soul, the body will wait for the next scheduling round
+ }
+
+ // Get the next soul to run, either from another actor or the initial minion's one
+ Context::set_current(next_context);
+ this->swap_into(next_context);
} else { // sequential execution
/* determine the next context */
SwappedContext* next_context;
}
}
-void SwappedContext::stop()
-{
- Context::stop();
- throw StopRequest();
-}
-
} // namespace context
} // namespace kernel
} // namespace simgrid
// UContextFactory
Context* UContextFactory::create_context(std::function<void()> code, void_pfn_smxprocess_t cleanup, smx_actor_t process)
{
- if (parallel_)
- return new_context<ParallelUContext>(std::move(code), cleanup, process, this);
- else
- return new_context<UContext>(std::move(code), cleanup, process, this);
+ return new_context<UContext>(std::move(code), cleanup, process, this);
}
ASAN_FINISH_SWITCH(fake_stack, &from->asan_ctx_->asan_stack_, &from->asan_ctx_->asan_stack_size_);
}
-// ParallelUContext
-
-/** Run one particular simulated process on the current thread.
- *
- * Only applied to the N first elements of the parmap array, where N is the amount of worker threads in the parmap.
- * See ParallelUContext::run_all for details.
- */
-void ParallelUContext::resume()
-{
- // Save the thread number (my body) in an os-thread-specific area
- worker_id_ = threads_working_.fetch_add(1, std::memory_order_relaxed);
- // Save my current soul (either maestro, or one of the minions) in a permanent area
- SwappedContext* worker_context = static_cast<SwappedContext*>(self());
- workers_context_[worker_id_] = worker_context;
- // Switch my soul and the actor's one
- Context::set_current(this);
- worker_context->swap_into(this);
- // No body runs that soul anymore at this point, but it is stored in a safe place.
- // When the executed actor will do a blocking action, SIMIX_process_yield() will call suspend(), below.
-}
-
-/** Yield
- *
- * This function is called when a simulated process wants to yield back to the maestro in a blocking simcall,
- * ie in SIMIX_process_yield().
- *
- * Actually, it does not really yield back to maestro, but directly into the next executable actor.
- *
- * This makes the parmap::apply awkward (see ParallelUContext::run_all()) because it only apply regularly
- * on the few first elements of the array, but it saves a lot of context switches back to maestro,
- * and directly forth to the next executable actor.
- */
-void ParallelUContext::suspend()
-{
- // Get some more work to directly swap into the next executable actor instead of yielding back to the parmap
- boost::optional<smx_actor_t> next_work = parmap_->next();
- SwappedContext* next_context;
- if (next_work) {
- // There is a next soul to embody (ie, another executable actor)
- XBT_DEBUG("Run next process");
- next_context = static_cast<ParallelUContext*>(next_work.get()->context_);
- } else {
- // All actors were run, go back to the parmap context
- XBT_DEBUG("No more processes to run");
- // worker_id_ is the identity of my body, stored in thread_local when starting the scheduling round
- next_context = workers_context_[worker_id_];
- // When given that soul, the body will wait for the next scheduling round
- }
-
- // Get the next soul to run, either from another actor or the initial minion's one
- Context::set_current(next_context);
- this->swap_into(next_context);
-}
XBT_PRIVATE ContextFactory* sysv_factory()
{
