-/* Copyright (c) 2006-2020. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2006-2021. The SimGrid Team. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
+#include "simgrid/Exception.hpp"
+#include "simgrid/exec.h"
#include "simgrid/s4u/Actor.hpp"
#include "simgrid/s4u/Exec.hpp"
#include "src/kernel/activity/ExecImpl.hpp"
namespace simgrid {
namespace s4u {
-xbt::signal<void(Actor const&, Exec const&)> Exec::on_start;
-xbt::signal<void(Actor const&, Exec const&)> Exec::on_completion;
+xbt::signal<void(Exec const&)> Exec::on_start;
+xbt::signal<void(Exec const&)> Exec::on_completion;
Exec::Exec()
{
pimpl_ = kernel::activity::ExecImplPtr(new kernel::activity::ExecImpl());
}
-bool Exec::test()
+ExecPtr Exec::init()
{
- xbt_assert(state_ == State::INITED || state_ == State::STARTED || state_ == State::STARTING ||
- state_ == State::FINISHED);
-
- if (state_ == State::FINISHED)
- return true;
-
- if (state_ == State::INITED || state_ == State::STARTING)
- this->vetoable_start();
-
- if (simcall_execution_test(pimpl_)) {
- state_ = State::FINISHED;
- return true;
- }
-
- return false;
+ return ExecPtr(new Exec());
}
Exec* Exec::wait()
{
if (state_ == State::INITED)
vetoable_start();
- simcall_execution_wait(pimpl_, timeout);
+
+ kernel::actor::ActorImpl* issuer = Actor::self()->get_impl();
+ kernel::actor::simcall_blocking<void>([this, issuer, timeout] { this->get_impl()->wait_for(issuer, timeout); });
state_ = State::FINISHED;
- on_completion(*Actor::self(), *this);
+ on_completion(*this);
this->release_dependencies();
return this;
}
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(),
+ std::vector<kernel::activity::ExecImpl*> rexecs(execs->size());
+ std::transform(begin(*execs), end(*execs), begin(rexecs),
[](const ExecPtr& exec) { return static_cast<kernel::activity::ExecImpl*>(exec->pimpl_.get()); });
- int changed_pos = simcall_execution_waitany_for(rexecs.get(), execs->size(), timeout);
+ int changed_pos = simcall_execution_waitany_for(rexecs.data(), rexecs.size(), timeout);
if (changed_pos != -1)
execs->at(changed_pos)->release_dependencies();
return changed_pos;
return this;
}
+ExecPtr Exec::set_flops_amount(double flops_amount)
+{
+ xbt_assert(state_ == State::INITED, "Cannot change the flop_amount of an exec after its start");
+ flops_amounts_.assign(1, flops_amount);
+ Activity::set_remaining(flops_amounts_.front());
+ return this;
+}
+
+ExecPtr Exec::set_flops_amounts(const std::vector<double>& flops_amounts)
+{
+ xbt_assert(state_ == State::INITED, "Cannot change the flops_amounts of an exec after its start");
+ flops_amounts_ = flops_amounts;
+ parallel_ = true;
+ return this;
+}
+
+ExecPtr Exec::set_bytes_amounts(const std::vector<double>& bytes_amounts)
+{
+ xbt_assert(state_ == State::INITED, "Cannot change the bytes_amounts of an exec after its start");
+ bytes_amounts_ = bytes_amounts;
+ parallel_ = true;
+ return this;
+}
+
/** @brief Retrieve the host on which this activity takes place.
* If it runs on more than one host, only the first host is returned.
*/
return this;
}
-///////////// SEQUENTIAL EXECUTIONS ////////
-ExecSeq::ExecSeq(sg_host_t host, double flops_amount) : Exec(), flops_amount_(flops_amount)
-{
- Activity::set_remaining(flops_amount_);
- boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->set_host(host);
-}
-
-Exec* ExecSeq::start()
-{
- kernel::actor::simcall([this] {
- (*boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_))
- .set_name(get_name())
- .set_tracing_category(get_tracing_category())
- .set_sharing_penalty(1. / priority_)
- .set_bound(bound_)
- .set_flops_amount(flops_amount_)
- .start();
- });
- state_ = State::STARTED;
- on_start(*Actor::self(), *this);
- return this;
-}
-
-/** @brief Returns whether the state of the exec is finished */
/** @brief Change the host on which this activity takes place.
*
* The activity cannot be terminated already (but it may be started). */
-ExecPtr ExecSeq::set_host(Host* host)
+ExecPtr Exec::set_host(Host* host)
{
xbt_assert(state_ == State::INITED || state_ == State::STARTED,
"Cannot change the host of an exec once it's done (state: %d)", (int)state_);
return this;
}
-/** @brief Returns the amount of flops that remain to be done */
-double ExecSeq::get_remaining()
+ExecPtr Exec::set_hosts(const std::vector<Host*>& hosts)
+{
+ xbt_assert(state_ == State::INITED, "Cannot change the hosts of an exec once it's done (state: %d)", (int)state_);
+ hosts_ = hosts;
+ parallel_ = true;
+ return this;
+}
+
+///////////// SEQUENTIAL EXECUTIONS ////////
+Exec* Exec::start()
+{
+ if (is_parallel())
+ 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();
+ });
+ else
+ kernel::actor::simcall([this] {
+ (*boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_))
+ .set_name(get_name())
+ .set_tracing_category(get_tracing_category())
+ .set_sharing_penalty(1. / priority_)
+ .set_bound(bound_)
+ .set_flops_amount(flops_amounts_.front())
+ .start();
+ });
+
+ if (suspended_)
+ pimpl_->suspend();
+
+ state_ = State::STARTED;
+ on_start(*this);
+ return this;
+}
+
+double Exec::get_remaining() const
{
- return kernel::actor::simcall(
- [this]() { return boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->get_remaining(); });
+ if (is_parallel()) {
+ XBT_WARN("Calling get_remaining() on a parallel execution is not allowed. Call get_remaining_ratio() instead.");
+ return get_remaining_ratio();
+ } else
+ return kernel::actor::simcall(
+ [this]() { return boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->get_remaining(); });
}
/** @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()
+double Exec::get_remaining_ratio() const
{
- return kernel::actor::simcall(
- [this]() { return boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->get_seq_remaining_ratio(); });
+ if (is_parallel())
+ return kernel::actor::simcall(
+ [this]() { return boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->get_par_remaining_ratio(); });
+ else
+ return kernel::actor::simcall(
+ [this]() { return boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->get_seq_remaining_ratio(); });
}
-///////////// PARALLEL EXECUTIONS ////////
-ExecPar::ExecPar(const std::vector<s4u::Host*>& hosts, const std::vector<double>& flops_amounts,
- const std::vector<double>& bytes_amounts)
- : Exec(), hosts_(hosts), flops_amounts_(flops_amounts), bytes_amounts_(bytes_amounts)
+} // namespace s4u
+} // namespace simgrid
+/* **************************** Public C interface *************************** */
+void sg_exec_set_bound(sg_exec_t exec, double bound)
{
+ exec->set_bound(bound);
}
-Exec* ExecPar::start()
+const char* sg_exec_get_name(const_sg_exec_t exec)
{
- 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(), *this);
- return this;
+ return exec->get_cname();
}
-double ExecPar::get_remaining_ratio()
+void sg_exec_set_name(sg_exec_t exec, const char* name)
{
- return kernel::actor::simcall(
- [this]() { return boost::static_pointer_cast<kernel::activity::ExecImpl>(pimpl_)->get_par_remaining_ratio(); });
+ exec->set_name(name);
}
-double ExecPar::get_remaining()
+void sg_exec_set_host(sg_exec_t exec, sg_host_t new_host)
{
- XBT_WARN("Calling get_remaining() on a parallel execution is not allowed. Call get_remaining_ratio() instead.");
- return get_remaining_ratio();
+ exec->set_host(new_host);
+}
+
+double sg_exec_get_remaining(const_sg_exec_t exec)
+{
+ return exec->get_remaining();
+}
+
+double sg_exec_get_remaining_ratio(const_sg_exec_t exec)
+{
+ return exec->get_remaining_ratio();
+}
+
+void sg_exec_start(sg_exec_t exec)
+{
+ exec->start();
+}
+
+void sg_exec_cancel(sg_exec_t exec)
+{
+ exec->cancel();
+ exec->unref();
+}
+
+int sg_exec_test(sg_exec_t exec)
+{
+ bool finished = exec->test();
+ if (finished)
+ exec->unref();
+ return finished;
+}
+
+sg_error_t sg_exec_wait(sg_exec_t exec)
+{
+ sg_error_t status = SG_OK;
+
+ simgrid::s4u::ExecPtr s4u_exec(exec, false);
+ try {
+ s4u_exec->wait_for(-1);
+ } catch (const simgrid::TimeoutException&) {
+ status = SG_ERROR_TIMEOUT;
+ } catch (const simgrid::CancelException&) {
+ status = SG_ERROR_CANCELED;
+ } catch (const simgrid::HostFailureException&) {
+ status = SG_ERROR_HOST;
+ }
+ return status;
+}
+
+sg_error_t sg_exec_wait_for(sg_exec_t exec, double timeout)
+{
+ sg_error_t status = SG_OK;
+
+ simgrid::s4u::ExecPtr s4u_exec(exec, false);
+ try {
+ s4u_exec->wait_for(timeout);
+ } catch (const simgrid::TimeoutException&) {
+ status = SG_ERROR_TIMEOUT;
+ } catch (const simgrid::CancelException&) {
+ status = SG_ERROR_CANCELED;
+ } catch (const simgrid::HostFailureException&) {
+ status = SG_ERROR_HOST;
+ }
+ return status;
+}
+
+int sg_exec_wait_any(sg_exec_t* execs, size_t count)
+{
+ return sg_exec_wait_any_for(execs, count, -1);
+}
+
+int sg_exec_wait_any_for(sg_exec_t* execs, size_t count, double timeout)
+{
+ std::vector<simgrid::s4u::ExecPtr> s4u_execs;
+ for (unsigned int i = 0; i < count; i++)
+ s4u_execs.emplace_back(execs[i], false);
+
+ int pos = simgrid::s4u::Exec::wait_any_for(&s4u_execs, timeout);
+ for (unsigned i = 0; i < count; i++) {
+ if (pos != -1 && static_cast<unsigned>(pos) != i)
+ s4u_execs[i]->add_ref();
+ }
+ return pos;
}
-} // namespace s4u
-} // namespace simgrid