// ***** Actor creation *****
Actor* Actor::self()
{
- kernel::context::Context* self_context = kernel::context::Context::self();
+ const kernel::context::Context* self_context = kernel::context::Context::self();
if (self_context == nullptr)
return nullptr;
return actor->iface();
}
+/** Set a non-default stack size for this context (in Kb)
+ *
+ * This must be done before starting the actor, and it won't work with the thread factory. */
+ActorPtr Actor::set_stacksize(unsigned stacksize)
+{
+ pimpl_->set_stacksize(stacksize * 1024);
+ return this;
+}
+
ActorPtr Actor::start(const std::function<void()>& code)
{
simgrid::kernel::actor::simcall([this, &code] { pimpl_->start(code); });
{
intrusive_ptr_release(actor->pimpl_);
}
-int Actor::get_refcount()
+int Actor::get_refcount() const
{
return pimpl_->get_refcount();
}
issuer->simcall_answer();
} else {
kernel::activity::ActivityImplPtr sync = issuer->join(target, timeout);
- sync->register_simcall(&issuer->simcall);
+ sync->register_simcall(&issuer->simcall_);
}
});
}
const s4u::Host* previous_location = get_host();
kernel::actor::simcall([this, new_host]() {
- if (pimpl_->waiting_synchro != nullptr) {
+ if (pimpl_->waiting_synchro_ != nullptr) {
// The actor is blocked on an activity. If it's an exec, migrate it too.
// FIXME: implement the migration of other kinds of activities
kernel::activity::ExecImplPtr exec =
- boost::dynamic_pointer_cast<kernel::activity::ExecImpl>(pimpl_->waiting_synchro);
+ boost::dynamic_pointer_cast<kernel::activity::ExecImpl>(pimpl_->waiting_synchro_);
xbt_assert(exec.get() != nullptr, "We can only migrate blocked actors when they are blocked on executions.");
exec->migrate(new_host);
}
s4u::Actor::on_resume(*this);
}
-bool Actor::is_suspended()
+bool Actor::is_suspended() const
{
return pimpl_->is_suspended();
}
}
/** @brief Get the kill time of an actor(or 0 if unset). */
-double Actor::get_kill_time()
+double Actor::get_kill_time() const
{
return pimpl_->get_kill_time();
}
return;
}
kernel::activity::ActivityImplPtr sync = issuer->sleep(duration);
- sync->register_simcall(&issuer->simcall);
+ sync->register_simcall(&issuer->simcall_);
});
Actor::on_wake_up(*issuer->ciface());
ExecPtr exec_init(double flops_amount)
{
- return ExecPtr(new ExecSeq(get_host(), flops_amount));
+ ExecPtr exec = ExecPtr(new Exec());
+ exec->set_flops_amount(flops_amount)->set_host(get_host());
+ return exec;
}
ExecPtr exec_init(const std::vector<s4u::Host*>& hosts, const std::vector<double>& flops_amounts,
xbt_assert(std::all_of(bytes_amounts.begin(), bytes_amounts.end(), [](double elm) { return std::isfinite(elm); }),
"flops_amounts comprises infinite values!");
- return ExecPtr(new ExecPar(hosts, flops_amounts, bytes_amounts));
+ ExecPtr exec = ExecPtr(new Exec());
+ exec->set_flops_amounts(flops_amounts)->set_bytes_amounts(bytes_amounts)->set_hosts(hosts);
+ return exec;
}
ExecPtr exec_async(double flops)
} // namespace simgrid
/* **************************** Public C interface *************************** */
+size_t sg_actor_count()
+{
+ return simgrid::s4u::Engine::get_instance()->get_actor_count();
+}
+
+sg_actor_t* sg_actor_list()
+{
+ const simgrid::s4u::Engine* e = simgrid::s4u::Engine::get_instance();
+ size_t actor_count = e->get_actor_count();
+ xbt_assert(actor_count > 0, "There is no actor!");
+ std::vector<simgrid::s4u::ActorPtr> actors = e->get_all_actors();
+
+ sg_actor_t* res = xbt_new(sg_actor_t, actors.size());
+ for (size_t i = 0; i < actor_count; i++)
+ res[i] = actors[i].get();
+ return res;
+}
sg_actor_t sg_actor_init(const char* name, sg_host_t host)
{
actor->start(std::move(function));
}
+sg_actor_t sg_actor_create(const char* name, sg_host_t host, xbt_main_func_t code, int argc, const char* const* argv)
+{
+ simgrid::kernel::actor::ActorCode function = simgrid::xbt::wrap_main(code, argc, argv);
+ return simgrid::s4u::Actor::init(name, host)->start(std::move(function)).get();
+}
+
+void sg_actor_set_stacksize(sg_actor_t actor, unsigned size)
+{
+ actor->set_stacksize(size);
+}
+
void sg_actor_exit()
{
simgrid::s4u::this_actor::exit();
*
* This checks whether an actor is suspended or not by inspecting the task on which it was waiting for the completion.
*/
-int sg_actor_is_suspended(sg_actor_t actor)
+int sg_actor_is_suspended(const_sg_actor_t actor)
{
return actor->is_suspended();
}
}
/** Returns whether or not this actor has been daemonized or not */
-int sg_actor_is_daemon(sg_actor_t actor)
+int sg_actor_is_daemon(const_sg_actor_t actor)
{
return actor->is_daemon();
}
return simgrid::s4u::Actor::self();
}
-void sg_actor_self_execute(double flops)
+void sg_actor_self_execute(double flops) // XBT_DEPRECATED_v330
+{
+ simgrid::s4u::this_actor::execute(flops);
+}
+
+void sg_actor_execute(double flops)
{
simgrid::s4u::this_actor::execute(flops);
}
+void sg_actor_execute_with_priority(double flops, double priority)
+{
+ simgrid::s4u::this_actor::exec_init(flops)->set_priority(priority)->wait();
+}
+
+void sg_actor_parallel_execute(int host_nb, sg_host_t* host_list, double* flops_amount, double* bytes_amount)
+{
+ std::vector<simgrid::s4u::Host*> hosts(host_list, host_list + host_nb);
+ std::vector<double> flops;
+ std::vector<double> bytes;
+ if (flops_amount != nullptr)
+ flops = std::vector<double>(flops_amount, flops_amount + host_nb);
+ if (bytes_amount != nullptr)
+ bytes = std::vector<double>(bytes_amount, bytes_amount + host_nb * host_nb);
+
+ simgrid::s4u::this_actor::parallel_execute(hosts, flops, bytes);
+}
/** @brief Take an extra reference on that actor to prevent it to be garbage-collected */
void sg_actor_ref(const_sg_actor_t actor)
* The on_exit functions are the functions executed when your process is killed.
* You should use them to free the data used by your process.
*/
-void sg_actor_on_exit(int_f_int_pvoid_t fun, void* data)
+void sg_actor_on_exit(void_f_int_pvoid_t fun, void* data)
{
simgrid::s4u::this_actor::on_exit([fun, data](bool failed) { fun(failed ? 1 /*FAILURE*/ : 0 /*SUCCESS*/, data); });
}
+
+sg_exec_t sg_actor_exec_init(double computation_amount)
+{
+ simgrid::s4u::ExecPtr exec = simgrid::s4u::this_actor::exec_init(computation_amount);
+ exec->add_ref();
+ return exec.get();
+}
+
+sg_exec_t sg_actor_parallel_exec_init(int host_nb, const sg_host_t* host_list, double* flops_amount,
+ double* bytes_amount)
+{
+ std::vector<simgrid::s4u::Host*> hosts(host_list, host_list + host_nb);
+ std::vector<double> flops;
+ std::vector<double> bytes;
+ if (flops_amount != nullptr)
+ flops = std::vector<double>(flops_amount, flops_amount + host_nb);
+ if (bytes_amount != nullptr)
+ bytes = std::vector<double>(bytes_amount, bytes_amount + host_nb * host_nb);
+
+ simgrid::s4u::ExecPtr exec = simgrid::s4u::ExecPtr(new simgrid::s4u::Exec());
+ exec->set_flops_amounts(flops)->set_bytes_amounts(bytes)->set_hosts(hosts);
+ exec->add_ref();
+ return exec.get();
+}
+
+sg_exec_t sg_actor_exec_async(double computation_amount)
+{
+ simgrid::s4u::ExecPtr exec = simgrid::s4u::this_actor::exec_async(computation_amount);
+ exec->add_ref();
+ return exec.get();
+}