-/* Copyright (c) 2006-2019. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2006-2020. 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. */
#define SIMGRID_S4U_ACTIVITY_HPP
#include "xbt/asserts.h"
-#include "xbt/log.h"
#include <atomic>
#include <set>
#include <simgrid/forward.h>
#include <vector>
#include <xbt/signal.hpp>
+XBT_LOG_EXTERNAL_CATEGORY(s4u_activity);
+
namespace simgrid {
namespace s4u {
*/
class XBT_PUBLIC Activity {
friend Comm;
- friend XBT_PUBLIC void intrusive_ptr_release(Comm * c);
- friend XBT_PUBLIC void intrusive_ptr_add_ref(Comm * c);
-
friend Exec;
friend ExecSeq;
friend ExecPar;
- friend XBT_PUBLIC void intrusive_ptr_release(Exec * e);
- friend XBT_PUBLIC void intrusive_ptr_add_ref(Exec * e);
-
friend Io;
- friend XBT_PUBLIC void intrusive_ptr_release(Io* i);
- friend XBT_PUBLIC void intrusive_ptr_add_ref(Io* i);
protected:
Activity() = default;
virtual ~Activity() = default;
+
+ void release_dependencies()
+ {
+ while (not successors_.empty()) {
+ ActivityPtr b = successors_.back();
+ XBT_CDEBUG(s4u_activity, "Remove a dependency from '%s' on '%s'", get_cname(), b->get_cname());
+ b->dependencies_.erase(this);
+ if (b->dependencies_.empty()) {
+ b->vetoable_start();
+ }
+ successors_.pop_back();
+ }
+ }
+
+ void add_successor(ActivityPtr a)
+ {
+ successors_.push_back(a);
+ a->dependencies_.insert({this});
+ }
+
public:
+ void vetoable_start()
+ {
+ state_ = State::STARTING;
+ if (dependencies_.empty()) {
+ XBT_CDEBUG(s4u_activity, "All dependencies are solved, let's start '%s'", get_cname());
+ start();
+ }
+ }
+
#ifndef DOXYGEN
Activity(Activity const&) = delete;
Activity& operator=(Activity const&) = delete;
void set_state(Activity::State state) { state_ = state; }
/** Tests whether the given activity is terminated yet. This is a pure function. */
virtual bool test() = 0;
+ virtual const char* get_cname() = 0;
+ virtual const std::string& get_name() = 0;
/** Get the remaining amount of work that this Activity entails. When it's 0, it's done. */
virtual double get_remaining();
-
/** Set the [remaining] amount of work that this Activity will entail
*
* It is forbidden to change the amount of work once the Activity is started */
/** Returns the internal implementation of this Activity */
kernel::activity::ActivityImpl* get_impl() const { return pimpl_.get(); }
-private:
- kernel::activity::ActivityImplPtr pimpl_ = nullptr;
- Activity::State state_ = Activity::State::INITED;
- double remains_ = 0;
-};
-
-// template <class AnyActivity> class DependencyGuard {
-// public:
-// static bool activity_start_vetoer(AnyActivity* a) { return not a->has_dependencies(); }
-// static void on_activity_done(AnyActivity* a);
-//// {
-//// while (a->has_successors()) {
-//// AnyActivity* b = a->get_successor();
-//// b->remove_dependency_on(a);
-//// if (not b->has_dependencies()) {
-//// XBT_INFO("Activity is done and a successor can start");
-//// b->vetoable_start();
-//// }
-//// a->remove_successor();
-//// }
-//// }
-//};
-
-template <class AnyActivity> class Activity_T : public Activity {
-private:
- std::string name_ = "";
- std::string tracing_category_ = "";
- void* user_data_ = nullptr;
- std::atomic_int_fast32_t refcount_{0};
- std::vector<AnyActivity*> successors_;
- std::set<AnyActivity*> dependencies_;
-
-public:
#ifndef DOXYGEN
- friend void intrusive_ptr_release(AnyActivity* a)
+ friend void intrusive_ptr_release(Activity* a)
{
if (a->refcount_.fetch_sub(1, std::memory_order_release) == 1) {
std::atomic_thread_fence(std::memory_order_acquire);
delete a;
}
}
- friend void intrusive_ptr_add_ref(AnyActivity* a) { a->refcount_.fetch_add(1, std::memory_order_relaxed); }
+ friend void intrusive_ptr_add_ref(Activity* a) { a->refcount_.fetch_add(1, std::memory_order_relaxed); }
#endif
- void add_successor(AnyActivity* a)
- {
- successors_.push_back(a);
- a->add_dependency_on(static_cast<AnyActivity*>(this));
- }
- void remove_successor() { successors_.pop_back(); }
- AnyActivity* get_successor() { return successors_.back(); }
- bool has_successors() { return not successors_.empty(); }
+private:
+ kernel::activity::ActivityImplPtr pimpl_ = nullptr;
+ Activity::State state_ = Activity::State::INITED;
+ double remains_ = 0;
+ std::vector<ActivityPtr> successors_;
+ std::set<ActivityPtr> dependencies_;
+ std::atomic_int_fast32_t refcount_{0};
+};
- void add_dependency_on(AnyActivity* a) { dependencies_.insert({a}); }
- void remove_dependency_on(AnyActivity* a) { dependencies_.erase(a); }
- bool has_dependencies() { return not dependencies_.empty(); }
- void release_dependencies()
- {
- while (has_successors()) {
- AnyActivity* b = get_successor();
- b->remove_dependency_on(static_cast<AnyActivity*>(this));
- if (not b->has_dependencies()) {
- // XBT_INFO("Activity is done and a successor can start");
- b->vetoable_start();
- }
- remove_successor();
- }
- }
+template <class AnyActivity> class Activity_T : public Activity {
+ std::string name_ = "unnamed";
+ std::string tracing_category_ = "";
+ void* user_data_ = nullptr;
- AnyActivity* vetoable_start()
+public:
+ AnyActivity* add_successor(ActivityPtr a)
{
- set_state(State::STARTING);
- if (has_dependencies())
- return static_cast<AnyActivity*>(this);
- // XBT_INFO("No veto, Activity can start");
- set_state(State::STARTED);
- static_cast<AnyActivity*>(this)->start();
+ Activity::add_successor(a);
return static_cast<AnyActivity*>(this);
}
}
void* get_user_data() { return user_data_; }
+#ifndef DOXYGEN
+ /* The refcounting is done in the ancestor class, Activity, but we want each of the classes benefiting of the CRTP
+ * (Exec, Comm, etc) to have smart pointers too, so we define these methods here, that forward the ptr_release and
+ * add_ref to the Activity class. Hopefully, the "inline" helps to not hinder the perf here.
+ */
+ friend void inline intrusive_ptr_release(AnyActivity* a) { intrusive_ptr_release(static_cast<Activity*>(a)); }
+ friend void inline intrusive_ptr_add_ref(AnyActivity* a) { intrusive_ptr_add_ref(static_cast<Activity*>(a)); }
+#endif
};
} // namespace s4u