#define MAX_DIST 10
typedef ModelList<FuncInst *> func_inst_list_mt;
+typedef ModelList<Predicate *> predicate_trace_t;
+
typedef HashTable<void *, FuncInst *, uintptr_t, 0, model_malloc, model_calloc, model_free> loc_inst_map_t;
typedef HashTable<FuncInst *, uint32_t, uintptr_t, 0, model_malloc, model_calloc, model_free> inst_id_map_t;
typedef HashTable<FuncInst *, Predicate *, uintptr_t, 0, model_malloc, model_calloc, model_free> inst_pred_map_t;
void update_predicate_tree(ModelAction * act);
bool follow_branch(Predicate ** curr_pred, FuncInst * next_inst, ModelAction * next_act, Predicate ** unset_predicate);
- uint32_t get_exit_count() { return exit_count; }
-
void add_to_val_loc_map(uint64_t val, void * loc);
void add_to_val_loc_map(value_set_t * values, void * loc);
void update_loc_may_equal_map(void * new_loc, loc_set_t * old_locations);
void set_predicate_tree_position(thread_id_t tid, Predicate * pred);
Predicate * get_predicate_tree_position(thread_id_t tid);
+ void add_predicate_to_trace(thread_id_t tid, Predicate *pred);
+
void init_inst_act_map(thread_id_t tid);
void reset_inst_act_map(thread_id_t tid);
void update_inst_act_map(thread_id_t tid, ModelAction * read_act);
ModelList<FuncNode *> * get_out_edges() { return &out_edges; }
int compute_distance(FuncNode * target, int max_step = MAX_DIST);
- void add_failed_predicate(Predicate * pred);
-
void print_predicate_tree();
MEMALLOC
Predicate * predicate_tree_entry; // A dummy node whose children are the real entries
Predicate * predicate_tree_exit; // A dummy node
- uint32_t exit_count;
uint32_t inst_counter;
uint32_t marker;
- ModelVector<uint32_t> thrd_marker;
+ ModelVector< ModelVector<uint32_t> *> thrd_markers;
+ ModelVector<int> thrd_recursion_depth;
- void set_marker(thread_id_t tid);
+ void init_marker(thread_id_t tid);
/* Use source line number as the key of hashtable, to check if
* atomic operation with this line number has been added or not
/* Number FuncInsts to detect loops when updating predicate trees */
ModelVector<inst_id_map_t *> thrd_inst_id_map;
- /* Delect read actions at the same locations when updating predicate trees */
+ /* Detect read actions at the same locations when updating predicate trees */
ModelVector<loc_inst_map_t *> thrd_loc_inst_map;
- void init_maps(thread_id_t tid);
- void reset_maps(thread_id_t tid);
+ void init_local_maps(thread_id_t tid);
+ void reset_local_maps(thread_id_t tid);
void infer_predicates(FuncInst * next_inst, ModelAction * next_act, SnapVector<struct half_pred_expr *> * half_pred_expressions);
void generate_predicates(Predicate * curr_pred, FuncInst * next_inst, SnapVector<struct half_pred_expr *> * half_pred_expressions);
// value_set_t * values_may_read_from;
- /* Run-time position in the predicate tree for each thread */
- ModelVector<Predicate *> predicate_tree_position;
+ /* Run-time position in the predicate tree for each thread
+ * The inner vector is used to deal with recursive functions. */
+ ModelVector< ModelVector<Predicate *> * > thrd_predicate_tree_position;
+
+ ModelVector< ModelVector<predicate_trace_t *> * > thrd_predicate_trace;
- PredSet predicate_leaves;
- ModelVector<Predicate *> leaves_tmp_storage;
- ModelVector<Predicate *> weight_debug_vec;
- PredSet failed_predicates;
+ void init_predicate_tree_data_structure(thread_id_t tid);
+ void reset_predicate_tree_data_structure(thread_id_t tid);
/* Store the relation between this FuncNode and other FuncNodes */
HashTable<FuncNode *, edge_type_t, uintptr_t, 0, model_malloc, model_calloc, model_free> edge_table;
/* FuncNodes that follow this node */
ModelList<FuncNode *> out_edges;
- void assign_initial_weight();
- void update_predicate_tree_weight();
+ void update_predicate_tree_weight(thread_id_t tid);
};
#endif /* __FUNCNODE_H__ */