if (prevfi) {
*fi=*prevfi;
}
- if (parent->is_enabled(i)) {
+ if (parent->is_enabled(int_to_id(i))) {
fi->enabled_count++;
}
if (i==currtid) {
}
//Do window processing
if (prevfairness != NULL) {
- if (prevfairness -> parent->is_enabled(i))
+ if (prevfairness -> parent->is_enabled(int_to_id(i)))
fi->enabled_count--;
if (i==prevtid) {
fi->turns--;
bool Node::set_backtrack(thread_id_t id)
{
int i = id_to_int(id);
+ ASSERT(i<((int)backtrack.size()));
if (backtrack[i])
return false;
backtrack[i] = true;
return thread_id < num_threads && (enabled_array[thread_id] != THREAD_DISABLED);
}
+enabled_type_t Node::enabled_status(thread_id_t tid) {
+ int thread_id=id_to_int(tid);
+ if (thread_id < num_threads)
+ return enabled_array[thread_id];
+ else
+ return THREAD_DISABLED;
+}
+
bool Node::is_enabled(thread_id_t tid)
{
int thread_id=id_to_int(tid);
* @return The first element in future_values
*/
uint64_t Node::get_future_value() {
- ASSERT(future_index<((int)future_values.size()));
+ ASSERT(future_index >= 0 && future_index<((int)future_values.size()));
return future_values[future_index].value;
}
modelclock_t Node::get_future_value_expiration() {
- ASSERT(future_index<((int)future_values.size()));
+ ASSERT(future_index >= 0 && future_index<((int)future_values.size()));
return future_values[future_index].expiration;
}
void Node::explore(thread_id_t tid)
{
int i = id_to_int(tid);
+ ASSERT(i<((int)backtrack.size()));
if (backtrack[i]) {
backtrack[i] = false;
numBacktracks--;