exit_predicate(is_exit),
does_write(false),
depth(0),
- weight(0),
+ weight(100),
exploration_count(0),
store_visible_count(0),
total_checking_count(0),
struct pred_expr * copy = new pred_expr(ptr->token, ptr->func_inst, ptr->value);
pred_expressions.add(copy);
}
-}
-
-/* Follow the child if any child whose FuncInst matches with inst
- *
- * @param inst must be an ATOMIC_WRITE FuncInst
- * @return NULL if no such child is found.
- */
-Predicate * Predicate::follow_write_child(FuncInst * inst)
-{
- ASSERT(inst->get_type() == ATOMIC_WRITE);
-
- for (uint i = 0; i < children.size(); i++) {
- Predicate * child = children[i];
- if (child->get_func_inst() == inst)
- return child;
- }
- return NULL;
+ delete it;
}
/* Evaluate predicate expressions against the given inst_act_map */
-ConcretePredicate * Predicate::evaluate(inst_act_map_t * inst_act_map, thread_id_t tid)
+ConcretePredicate * Predicate::evaluate(thread_id_t tid)
{
+ /*
ConcretePredicate * concrete = new ConcretePredicate(tid);
PredExprSetIter * it = pred_expressions.iterator();
concrete->add_expression(ptr->token, value, ptr->value);
}
+ delete it;
return concrete;
+ */
+
+ return NULL;
}
void Predicate::print_predicate()
double prob = (double) store_visible_count / total_checking_count;
model_print("Total checks: %d, visible count: %d; prob: %f\n", total_checking_count, store_visible_count, prob);
- model_print("Exploration count: %d", exploration_count);
+ model_print("Exploration count: %d, failure count: %d", exploration_count, failure_count);
model_print("\"];\n");
+
+ delete it;
}
void Predicate::print_pred_subtree()
if (exit) {
model_print("\"%p\" -> \"%p\"[style=dashed, color=red]\n", this, exit);
}
+
+ delete it;
}