#ifndef __NODESTACK_H__
#define __NODESTACK_H__
-#include <list>
-#include <vector>
#include <cstddef>
#include <inttypes.h>
#include "mymemory.h"
-#include "modeltypes.h"
#include "schedule.h"
+#include "promise.h"
+#include "stl-model.h"
class ModelAction;
class Thread;
-/**
- * A flag used for the promise counting/combination problem within a node,
- * denoting whether a particular Promise is
- * <ol><li>@b applicable: can be satisfied by this Node's ModelAction and</li>
- * <li>@b fulfilled: satisfied by this Node's ModelAction under the current
- * configuration.</li></ol>
- */
-typedef enum {
- PROMISE_IGNORE = 0, /**< This promise is inapplicable; ignore it */
- PROMISE_UNFULFILLED, /**< This promise is applicable but unfulfilled */
- PROMISE_FULFILLED /**< This promise is applicable and fulfilled */
-} promise_t;
-
-struct future_value {
- uint64_t value;
- modelclock_t expiration;
-};
-
struct fairness_info {
unsigned int enabled_count;
unsigned int turns;
bool priority;
};
+/**
+ * @brief Types of read-from relations
+ *
+ * Our "may-read-from" set is composed of multiple types of reads, and we have
+ * to iterate through all of them in the backtracking search. This enumeration
+ * helps to identify which type of read-from we are currently observing.
+ */
+typedef enum {
+ READ_FROM_PAST, /**< @brief Read from a prior, existing store */
+ READ_FROM_PROMISE, /**< @brief Read from an existing promised future value */
+ READ_FROM_FUTURE, /**< @brief Read from a newly-asserted future value */
+ READ_FROM_NONE, /**< @brief A NULL state, which should not be reached */
+} read_from_type_t;
+
+#define YIELD_E 1
+#define YIELD_D 2
+#define YIELD_S 4
+#define YIELD_P 8
+#define YIELD_INDEX(tid1, tid2, num_threads) (tid1*num_threads+tid2)
+
/**
* @brief A single node in a NodeStack
*/
class Node {
public:
- Node(ModelAction *act = NULL, Node *par = NULL, int nthreads = 2, Node *prevfairness = NULL);
+ Node(ModelAction *act, Node *par, int nthreads, Node *prevfairness);
~Node();
/* return true = thread choice has already been explored */
- bool has_been_explored(thread_id_t tid);
+ bool has_been_explored(thread_id_t tid) const;
/* return true = backtrack set is empty */
- bool backtrack_empty();
+ bool backtrack_empty() const;
- void explore_child(ModelAction *act, enabled_type_t * is_enabled);
+ void clear_backtracking();
+ void explore_child(ModelAction *act, enabled_type_t *is_enabled);
/* return false = thread was already in backtrack */
bool set_backtrack(thread_id_t id);
thread_id_t get_next_backtrack();
- bool is_enabled(Thread *t);
- bool is_enabled(thread_id_t tid);
- ModelAction * get_action() { return action; }
- bool has_priority(thread_id_t tid);
- int get_num_threads() {return num_threads;}
+ bool is_enabled(Thread *t) const;
+ bool is_enabled(thread_id_t tid) const;
+ enabled_type_t enabled_status(thread_id_t tid) const;
+
+ ModelAction * get_action() const { return action; }
+ void set_uninit_action(ModelAction *act) { uninit_action = act; }
+ ModelAction * get_uninit_action() const { return uninit_action; }
+
+ bool has_priority(thread_id_t tid) const;
+ void update_yield(Scheduler *);
+ bool has_priority_over(thread_id_t tid, thread_id_t tid2) const;
+ int get_num_threads() const { return num_threads; }
/** @return the parent Node to this Node; that is, the action that
* occurred previously in the stack. */
Node * get_parent() const { return parent; }
- bool add_future_value(uint64_t value, modelclock_t expiration);
- uint64_t get_future_value();
- modelclock_t get_future_value_expiration();
- bool increment_future_value();
- bool future_value_empty();
-
- void add_read_from(const ModelAction *act);
- const ModelAction * get_read_from();
+ read_from_type_t get_read_from_status();
bool increment_read_from();
- bool read_from_empty();
- int get_read_from_size();
- const ModelAction * get_read_from_at(int i);
+ bool read_from_empty() const;
+ unsigned int read_from_size() const;
+
+ void print_read_from_past();
+ void add_read_from_past(const ModelAction *act);
+ const ModelAction * get_read_from_past() const;
+ const ModelAction * get_read_from_past(int i) const;
+ int get_read_from_past_size() const;
+
+ void add_read_from_promise(const ModelAction *reader);
+ Promise * get_read_from_promise() const;
+ Promise * get_read_from_promise(int i) const;
+ int get_read_from_promise_size() const;
+
+ bool add_future_value(struct future_value fv);
+ struct future_value get_future_value() const;
void set_promise(unsigned int i);
- bool get_promise(unsigned int i);
+ bool get_promise(unsigned int i) const;
bool increment_promise();
- bool promise_empty();
+ bool promise_empty() const;
+ void clear_promise_resolutions();
+
enabled_type_t *get_enabled_array() {return enabled_array;}
void set_misc_max(int i);
- int get_misc();
+ int get_misc() const;
bool increment_misc();
- bool misc_empty();
+ bool misc_empty() const;
void add_relseq_break(const ModelAction *write);
- const ModelAction * get_relseq_break();
+ const ModelAction * get_relseq_break() const;
bool increment_relseq_break();
- bool relseq_break_empty();
+ bool relseq_break_empty() const;
+
+ bool increment_behaviors();
- void print();
- void print_may_read_from();
+ void print() const;
MEMALLOC
private:
void explore(thread_id_t tid);
+ int get_yield_data(int tid1, int tid2) const;
+ bool read_from_past_empty() const;
+ bool increment_read_from_past();
+ bool read_from_promise_empty() const;
+ bool increment_read_from_promise();
+ bool future_value_empty() const;
+ bool increment_future_value();
+ read_from_type_t read_from_status;
+
+ ModelAction * const action;
+
+ /** @brief ATOMIC_UNINIT action which was created at this Node */
+ ModelAction *uninit_action;
- ModelAction *action;
- Node *parent;
- int num_threads;
- std::vector< bool, ModelAlloc<bool> > explored_children;
- std::vector< bool, ModelAlloc<bool> > backtrack;
- std::vector< struct fairness_info, ModelAlloc< struct fairness_info> > fairness;
+ Node * const parent;
+ const int num_threads;
+ ModelVector<bool> explored_children;
+ ModelVector<bool> backtrack;
+ ModelVector<struct fairness_info> fairness;
int numBacktracks;
enabled_type_t *enabled_array;
- /** The set of ModelActions that this the action at this Node may read
- * from. Only meaningful if this Node represents a 'read' action. */
- std::vector< const ModelAction *, ModelAlloc< const ModelAction * > > may_read_from;
+ /**
+ * The set of past ModelActions that this the action at this Node may
+ * read from. Only meaningful if this Node represents a 'read' action.
+ */
+ ModelVector<const ModelAction *> read_from_past;
+ unsigned int read_from_past_idx;
- unsigned int read_from_index;
+ ModelVector<const ModelAction *> read_from_promises;
+ int read_from_promise_idx;
- std::vector< struct future_value, ModelAlloc<struct future_value> > future_values;
- std::vector< promise_t, ModelAlloc<promise_t> > promises;
+ ModelVector<struct future_value> future_values;
int future_index;
- std::vector< const ModelAction *, ModelAlloc<const ModelAction *> > relseq_break_writes;
+ ModelVector<bool> resolve_promise;
+ int resolve_promise_idx;
+
+ ModelVector<const ModelAction *> relseq_break_writes;
int relseq_break_index;
int misc_index;
int misc_max;
+ int * yield_data;
};
-typedef std::vector< Node *, ModelAlloc< Node * > > node_list_t;
+typedef ModelVector<Node *> node_list_t;
/**
* @brief A stack of nodes
NodeStack();
~NodeStack();
ModelAction * explore_action(ModelAction *act, enabled_type_t * is_enabled);
- Node * get_head();
- Node * get_next();
+ Node * get_head() const;
+ Node * get_next() const;
void reset_execution();
void pop_restofstack(int numAhead);
int get_total_nodes() { return total_nodes; }
- void print();
+ void print() const;
MEMALLOC
private:
node_list_t node_list;
- unsigned int iter;
+
+ /**
+ * @brief the index position of the current head Node
+ *
+ * This index is relative to node_list. The index should point to the
+ * current head Node. It is negative when the list is empty.
+ */
+ int head_idx;
int total_nodes;
};