THROW_UNIMPLEMENTED;
}
+int Exec::wait_any_for(std::vector<ExecPtr>* execs, double timeout)
+{
+ std::unique_ptr<kernel::activity::ExecImpl* []> rexecs(new kernel::activity::ExecImpl*[execs->size()]);
+ std::transform(begin(*execs), end(*execs), rexecs.get(),
+ [](const ExecPtr& exec) { return static_cast<kernel::activity::ExecImpl*>(exec->pimpl_.get()); });
+ return simcall_execution_waitany_for(rexecs.get(), execs->size(), timeout);
+}
+
Exec* Exec::cancel()
{
- simix::simcall([this] { boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->cancel(); });
+ kernel::actor::simcall([this] { boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->cancel(); });
state_ = State::CANCELED;
return this;
}
Exec* ExecSeq::start()
{
- simix::simcall([this] {
- boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)
- ->set_name(name_)
- ->set_tracing_category(tracing_category_)
- ->start(flops_amount_, 1. / priority_, bound_);
+ kernel::actor::simcall([this] {
+ (*boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_))
+ .set_name(name_)
+ .set_tracing_category(tracing_category_)
+ .set_sharing_penalty(1. / priority_)
+ .set_bound(bound_)
+ .set_flops_amount(flops_amount_)
+ .start();
});
state_ = State::STARTED;
on_start(*Actor::self());
if (state_ == State::STARTED)
boost::static_pointer_cast<simgrid::kernel::activity::ExecImpl>(pimpl_)->migrate(host);
host_ = host;
- boost::static_pointer_cast<simgrid::kernel::activity::ExecImpl>(pimpl_)->host_ = host;
+ boost::static_pointer_cast<simgrid::kernel::activity::ExecImpl>(pimpl_)->set_host(host);
return this;
}
/** @brief Returns the amount of flops that remain to be done */
double ExecSeq::get_remaining()
{
- return simgrid::simix::simcall(
+ return simgrid::kernel::actor::simcall(
[this]() { return boost::static_pointer_cast<simgrid::kernel::activity::ExecImpl>(pimpl_)->get_remaining(); });
}
-/** @brief Returns the ratio of elements that are still to do
+/** @brief Returns the ratio of elements that are still to do
*
* The returned value is between 0 (completely done) and 1 (nothing done yet).
*/
double ExecSeq::get_remaining_ratio()
{
- return simgrid::simix::simcall([this]() {
+ return simgrid::kernel::actor::simcall([this]() {
return boost::static_pointer_cast<simgrid::kernel::activity::ExecImpl>(pimpl_)->get_seq_remaining_ratio();
});
}
const std::vector<double>& bytes_amounts)
: Exec(), hosts_(hosts), flops_amounts_(flops_amounts), bytes_amounts_(bytes_amounts)
{
- // For parallel executions, we need a special host to run the timeout detector.
- host_ = hosts.front();
- boost::static_pointer_cast<simgrid::kernel::activity::ExecImpl>(pimpl_)->host_ = host_;
}
Exec* ExecPar::start()
{
- simix::simcall([this] {
- boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->set_timeout(timeout_);
- boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->start(hosts_, flops_amounts_, bytes_amounts_);
+ kernel::actor::simcall([this] {
+ (*boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_))
+ .set_hosts(hosts_)
+ .set_timeout(timeout_)
+ .set_flops_amounts(flops_amounts_)
+ .set_bytes_amounts(bytes_amounts_)
+ .start();
});
state_ = State::STARTED;
on_start(*Actor::self());
return this;
}
+
double ExecPar::get_remaining_ratio()
{
- return simix::simcall(
+ return kernel::actor::simcall(
[this]() { return boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->get_par_remaining_ratio(); });
}