-/* Copyright (c) 2006-2019. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2006-2022. 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_ENGINE_HPP
#include <xbt/base.h>
-#include <xbt/functional.hpp>
#include <simgrid/forward.h>
-#include <simgrid/simix.hpp>
+#include <simgrid/kernel/resource/Model.hpp>
#include <simgrid/s4u/NetZone.hpp>
+#include <set>
#include <string>
#include <utility>
#include <vector>
namespace s4u {
/** @brief Simulation engine
*
- * This class is an interface to the simulation engine.
+ * This is a singleton containing all the main functions of the simulation.
*/
class XBT_PUBLIC Engine {
+#ifndef DOXYGEN
+ friend simgrid::kernel::EngineImpl;
+#endif
+
public:
+ /** Constructor, taking only the name of your main function */
+ explicit Engine(std::string name);
/** Constructor, taking the command line parameters of your main function */
explicit Engine(int* argc, char** argv);
- /** Currently, only one instance is allowed to exist. This is why you can't copy or move it */
+ /* Currently, only one instance is allowed to exist. This is why you can't copy or move it */
+#ifndef DOXYGEN
Engine(const Engine&) = delete;
Engine(Engine&&) = delete;
-
~Engine();
+#endif
+
/** Finalize the default engine and all its dependencies */
- static void shutdown();
+ void shutdown();
+
+ /** Run the simulation until its end */
+ void run() const;
- /** @brief Run the simulation */
- void run();
+ /** Run the simulation until the specified date */
+ void run_until(double max_date) const;
/** @brief Retrieve the simulation time (in seconds) */
static double get_clock();
/** @brief Retrieve the engine singleton */
static s4u::Engine* get_instance();
+ static s4u::Engine* get_instance(int* argc, char** argv);
+ static bool has_instance() { return instance_ != nullptr; }
- /** @brief Load a platform file describing the environment
- *
- * The environment is either a XML file following the simgrid.dtd formalism, or a lua file.
- * Some examples can be found in the directory examples/platforms.
- */
- void load_platform(const std::string& platf);
+ void load_platform(const std::string& platf) const;
+ void seal_platform() const;
- /** Registers the main function of an actor that will be launched from the deployment file */
- void register_function(const std::string& name, int (*code)(int, char**));
- /** Registers the main function of an actor that will be launched from the deployment file */
- void register_function(const std::string& name, void (*code)(std::vector<std::string>));
+ void register_function(const std::string& name, const std::function<void(int, char**)>& code);
+ void register_function(const std::string& name, const std::function<void(std::vector<std::string>)>& code);
+ void register_function(const std::string& name, const kernel::actor::ActorCodeFactory& factory);
- /** Registers a function as the default main function of actors
- *
- * It will be used as fallback when the function requested from the deployment file was not registered.
- * It is used for trace-based simulations (see examples/s4u/replay-comms and similar).
- */
- void register_default(int (*code)(int, char**));
+ void register_default(const std::function<void(int, char**)>& code);
+ void register_default(const kernel::actor::ActorCodeFactory& factory);
template <class F> void register_actor(const std::string& name)
{
- simix::register_function(name, [](std::vector<std::string> args) {
- return simix::ActorCode([args] {
+ kernel::actor::ActorCodeFactory code_factory = [](std::vector<std::string> args) {
+ return kernel::actor::ActorCode([args = std::move(args)]() mutable {
F code(std::move(args));
code();
});
- });
+ };
+ register_function(name, code_factory);
}
-
template <class F> void register_actor(const std::string& name, F code)
{
- simix::register_function(name, [code](std::vector<std::string> args) {
- return simix::ActorCode([code, args] { code(std::move(args)); });
- });
+ kernel::actor::ActorCodeFactory code_factory = [code](std::vector<std::string> args) {
+ return kernel::actor::ActorCode([code, args = std::move(args)]() mutable { code(std::move(args)); });
+ };
+ register_function(name, code_factory);
}
- /** @brief Load a deployment file and launch the actors that it contains */
- void load_deployment(const std::string& deploy);
+ /** If non-null, the provided set will be filled with all activities that fail to start because of a veto */
+ void track_vetoed_activities(std::set<Activity*>* vetoed_activities) const;
+
+ void load_deployment(const std::string& deploy) const;
protected:
#ifndef DOXYGEN
friend Host;
friend Link;
friend Disk;
- friend Storage;
friend kernel::routing::NetPoint;
friend kernel::routing::NetZoneImpl;
- friend kernel::resource::LinkImpl;
+ friend kernel::resource::HostImpl;
+ friend kernel::resource::StandardLinkImpl;
void host_register(const std::string& name, Host* host);
void host_unregister(const std::string& name);
- void link_register(const std::string& name, Link* link);
+ void link_register(const std::string& name, const Link* link);
void link_unregister(const std::string& name);
- void storage_register(const std::string& name, Storage* storage);
- void storage_unregister(const std::string& name);
void netpoint_register(simgrid::kernel::routing::NetPoint* card);
void netpoint_unregister(simgrid::kernel::routing::NetPoint* card);
#endif /*DOXYGEN*/
public:
- size_t get_host_count();
- /** @brief Returns the list of all hosts found in the platform */
- std::vector<Host*> get_all_hosts();
- std::vector<Host*> get_filtered_hosts(const std::function<bool(Host*)>& filter);
- Host* host_by_name(const std::string& name);
- Host* host_by_name_or_null(const std::string& name);
+ /** Returns the amount of hosts existing in the platform. */
+ size_t get_host_count() const;
+ /** Returns a vector of all hosts found in the platform.
+ *
+ * The order is generally different from the creation/declaration order in the XML platform because we use a hash
+ * table internally.
+ */
+ std::vector<Host*> get_all_hosts() const;
+ std::vector<Host*> get_filtered_hosts(const std::function<bool(Host*)>& filter) const;
+ Host* host_by_name(const std::string& name) const;
+ Host* host_by_name_or_null(const std::string& name) const;
+
+ size_t get_link_count() const;
+ std::vector<Link*> get_all_links() const;
+ std::vector<Link*> get_filtered_links(const std::function<bool(Link*)>& filter) const;
+ Link* link_by_name(const std::string& name) const;
+ /**
+ * @brief Find a split-duplex link from its name.
+ * @throw std::invalid_argument if the searched link does not exist.
+ */
+ SplitDuplexLink* split_duplex_link_by_name(const std::string& name) const;
+ Link* link_by_name_or_null(const std::string& name) const;
- size_t get_link_count();
- std::vector<Link*> get_all_links();
- std::vector<Link*> get_filtered_links(const std::function<bool(Link*)>& filter);
- Link* link_by_name(const std::string& name);
- Link* link_by_name_or_null(const std::string& name);
+ Mailbox* mailbox_by_name_or_create(const std::string& name) const;
- size_t get_actor_count();
- std::vector<ActorPtr> get_all_actors();
- std::vector<ActorPtr> get_filtered_actors(const std::function<bool(ActorPtr)>& filter);
+ size_t get_actor_count() const;
+ std::vector<ActorPtr> get_all_actors() const;
+ std::vector<ActorPtr> get_filtered_actors(const std::function<bool(ActorPtr)>& filter) const;
+
+ std::vector<kernel::routing::NetPoint*> get_all_netpoints() const;
+ kernel::routing::NetPoint* netpoint_by_name_or_null(const std::string& name) const;
+ /**
+ * @brief Get netpoint by its name
+ *
+ * @param name Netpoint name
+ * @throw std::invalid_argument if netpoint doesn't exist
+ */
+ kernel::routing::NetPoint* netpoint_by_name(const std::string& name) const;
- size_t get_storage_count();
- std::vector<Storage*> get_all_storages();
- Storage* storage_by_name(const std::string& name);
- Storage* storage_by_name_or_null(const std::string& name);
+ NetZone* get_netzone_root() const;
+ void set_netzone_root(const NetZone* netzone);
- std::vector<kernel::routing::NetPoint*> get_all_netpoints();
- kernel::routing::NetPoint* netpoint_by_name_or_null(const std::string& name);
+ NetZone* netzone_by_name_or_null(const std::string& name) const;
- NetZone* get_netzone_root();
- void set_netzone_root(NetZone* netzone);
+ /**
+ * @brief Add a model to engine list
+ *
+ * @param model Pointer to model
+ * @param dependencies List of dependencies for this model (optional)
+ */
+ void add_model(std::shared_ptr<simgrid::kernel::resource::Model> model,
+ const std::vector<kernel::resource::Model*>& dependencies = {});
- NetZone* netzone_by_name_or_null(const std::string& name);
+ /** @brief Get list of all models managed by this engine */
+ const std::vector<simgrid::kernel::resource::Model*>& get_all_models() const;
/** @brief Retrieves all netzones of the type indicated by the template argument */
- template <class T> std::vector<T*> get_filtered_netzones()
+ template <class T> std::vector<T*> get_filtered_netzones() const
{
static_assert(std::is_base_of<kernel::routing::NetZoneImpl, T>::value,
"Filtering netzones is only possible for subclasses of kernel::routing::NetZoneImpl");
return res;
}
+ kernel::EngineImpl* get_impl() const { return pimpl; }
+
/** Returns whether SimGrid was initialized yet -- mostly for internal use */
static bool is_initialized();
/** @brief set a configuration variable
*
- * Do --help on any simgrid binary to see the list of currently existing configuration variables (see also @ref
- * options).
+ * @beginrst
+ * Do --help on any simgrid binary to see the list of currently existing configuration variables
+ * (see also :ref:`options`).
+ * @endrst
*
* Example:
- * e->set_config("host/model:ptask_L07");
+ * simgrid::s4u::Engine::set_config("host/model:ptask_L07");
*/
- void set_config(const std::string& str);
+ static void set_config(const std::string& str);
+ static void set_config(const std::string& name, int value);
+ static void set_config(const std::string& name, bool value);
+ static void set_config(const std::string& name, double value);
+ static void set_config(const std::string& name, const std::string& value);
- /** Callback fired when the platform is created (ie, the xml file parsed),
- * right before the actual simulation starts. */
- static xbt::signal<void()> on_platform_created;
+ Engine* set_default_comm_data_copy_callback(void (*callback)(kernel::activity::CommImpl*, void*, size_t));
- /** Callback fired when the platform is about to be created
+ /** Add a callback fired when the platform is created (ie, the xml file parsed),
+ * right before the actual simulation starts. */
+ static void on_platform_created_cb(const std::function<void()>& cb) { on_platform_created.connect(cb); }
+ /** Add a callback fired when the platform is about to be created
* (ie, after any configuration change and just before the resource creation) */
- static xbt::signal<void()> on_platform_creation;
+ static void on_platform_creation_cb(const std::function<void()>& cb) { on_platform_creation.connect(cb); }
+ /** Add a callback fired when the main simulation loop ends, just before the end of Engine::run() */
+ static void on_simulation_end_cb(const std::function<void()>& cb) { on_simulation_end.connect(cb); }
- /** Callback fired when the main simulation loop ends, just before the end of Engine::run() */
- static xbt::signal<void()> on_simulation_end;
+ /** Add a callback fired when the time jumps into the future */
+ static void on_time_advance_cb(const std::function<void(double)>& cb) { on_time_advance.connect(cb); }
- /** Callback fired when the time jumps into the future */
- static xbt::signal<void(double)> on_time_advance;
+ /** Add a callback fired when the time cannot advance because of inter-actors deadlock. Note that the on_exit of each
+ * actor is also executed on deadlock. */
+ static void on_deadlock_cb(const std::function<void(void)>& cb) { on_deadlock.connect(cb); }
- /** Callback fired when the time cannot advance because of inter-actors deadlock */
- static xbt::signal<void(void)> on_deadlock;
+#ifndef DOXYGEN
+ /* FIXME signals should be private */
+ static xbt::signal<void()> on_platform_created;
+ static xbt::signal<void()> on_platform_creation;
+#endif
private:
+ static xbt::signal<void()> on_simulation_end;
+ static xbt::signal<void(double)> on_time_advance;
+ static xbt::signal<void(void)> on_deadlock;
kernel::EngineImpl* const pimpl;
static Engine* instance_;
+ void initialize(int* argc, char** argv);
};
+std::vector<ActivityPtr> create_DAG_from_dot(const std::string& filename);
+std::vector<ActivityPtr> create_DAG_from_DAX(const std::string& filename);
+
#ifndef DOXYGEN /* Internal use only, no need to expose it */
-template <class T> XBT_PRIVATE void get_filtered_netzones_recursive(s4u::NetZone* current, std::vector<T*>* whereto)
+template <class T>
+XBT_PRIVATE void get_filtered_netzones_recursive(const s4u::NetZone* current, std::vector<T*>* whereto)
{
static_assert(std::is_base_of<kernel::routing::NetZoneImpl, T>::value,
"Filtering netzones is only possible for subclasses of kernel::routing::NetZoneImpl");
for (auto const& elem : current->get_children()) {
get_filtered_netzones_recursive(elem, whereto);
- T* elem_impl = dynamic_cast<T*>(elem->get_impl());
+ auto* elem_impl = dynamic_cast<T*>(elem->get_impl());
if (elem_impl != nullptr)
whereto->push_back(elem_impl);
}
