#include "src/mc/explo/udpor/udpor_forward.hpp"
#include <optional>
+#include <string>
+#include <unordered_map>
namespace simgrid::mc::udpor {
auto cend() const { return this->events_.cend(); }
bool contains(const UnfoldingEvent* e) const { return this->events_.contains(e); }
+ bool contains(const EventSet& events) const { return events.is_subset_of(this->events_); }
const EventSet& get_events() const { return this->events_; }
const UnfoldingEvent* get_latest_event() const { return this->newest_event; }
+ std::string to_string() const { return this->events_.to_string(); }
/**
* @brief Insert a new event into the configuration
/**
* @brief Whether or not the given event can be added to
- * this configuration while keeping the set of events causally closed
- * and conflict-free
+ * this configuration while preserving that the configuration
+ * is causally closed and conflict-free
+ *
+ * A configuration `C` is compatible with an event iff
+ * the event can be added to `C` while preserving that
+ * the configuration is causally closed and conflict-free.
+ *
+ * The method effectively answers the following question:
+ *
+ * "Is `C + {e}` a valid configuration?"
*/
bool is_compatible_with(const UnfoldingEvent* e) const;
* @brief Whether or not the events in the given history can be added to
* this configuration while keeping the set of events causally closed
* and conflict-free
+ *
+ * A configuration `C` is compatible with a history iff all
+ * events of the history can be added to `C` while preserving
+ * that the configuration is causally closed and conflict-free.
+ *
+ * The method effectively answers the following question:
+ *
+ * "Is `C + (U_i [e_i])` a valid configuration?"
*/
bool is_compatible_with(const History& history) const;
*/
EventSet get_minimally_reproducible_events() const;
+ /**
+ * @brief Determines the event in the configuration whose associated
+ * transition is the latest of the given actor
+ *
+ * @invariant: At most one event in the configuration will correspond
+ * to `preEvt(C, a)` for any action `a`. This can be argued by contradiction.
+ *
+ * If there were more than one event (`e` and `e'`) in any configuration whose
+ * associated transitions `a` were run by the same actor at the same step, then they
+ * could not be causally related (`<`) since `a` could not be enabled in
+ * both subconfigurations C' and C'' containing the hypothetical events
+ * `e` and `e` + `e'`. Since they would not be contained in each other's histories,
+ * they would be in conflict, which cannot happen between any pair of events
+ * in a configuration. Thus `e` and `e'` cannot exist simultaneously
+ */
+ std::optional<const UnfoldingEvent*> get_latest_event_of(aid_t) const;
+ /**
+ * @brief Determines the most recent transition of the given actor
+ * in this configuration, or `pre(a)` as denoted in the thesis of
+ * The Anh Pham
+ *
+ * Conceptually, the execution of an interleaving of the transitions
+ * (i.e. a topological ordering) of a configuration yields a unique
+ * state `state(C)`. Since actions taken by the same actor are always
+ * dependent with one another, any such interleaving always yields a
+ * unique
+ *
+ * @returns the most recent transition of the given actor
+ * in this configuration, or `std::nullopt` if there are no transitions
+ * in this configuration run by the given actor
+ */
+ std::optional<const Transition*> get_latest_action_of(aid_t aid) const;
+ std::optional<const UnfoldingEvent*> pre_event(aid_t aid) const { return get_latest_event_of(aid); }
+
private:
/**
* @brief The most recent event added to the configuration
*
* @invariant For each event `e` in `events_`, the set of
* dependencies of `e` is also contained in `events_`
+ *
+ * @invariant For each pair of events `e` and `e'` in
+ * `events_`, `e` and `e'` are not in conflict
*/
EventSet events_;
+
+ /**
+ * @brief Maps actors to the latest events which
+ * are executed by the actor
+ *
+ * @invariant: The events that are contained in the map
+ * are also contained in the set `events_`
+ */
+ std::unordered_map<aid_t, const UnfoldingEvent*> latest_event_mapping;
};
} // namespace simgrid::mc::udpor