//model_print("the %d read action of thread %d at %p is unsuccessful\n", read->get_seq_number(), read_thread->get_id(), read->get_location());
SnapVector<ModelAction *> * pruned_writes = thrd_pruned_writes[thread_id];
- for (uint i = 0; i < pruned_writes->size(); i++) {
+ for (uint i = 0;i < pruned_writes->size();i++) {
rf_set->push_back( (*pruned_writes)[i] );
}
}
void NewFuzzer::check_store_visibility(Predicate * curr_pred, FuncInst * read_inst,
- inst_act_map_t * inst_act_map, SnapVector<ModelAction *> * rf_set)
+ inst_act_map_t * inst_act_map, SnapVector<ModelAction *> * rf_set)
{
ASSERT(!rf_set->empty());
if (curr_pred == NULL || read_inst == NULL)
ModelVector<Predicate *> * children = curr_pred->get_children();
/* Iterate over all predicate children */
- for (uint i = 0; i < children->size(); i++) {
+ for (uint i = 0;i < children->size();i++) {
Predicate * branch = (*children)[i];
/* The children predicates may have different FuncInsts */
branch->incr_total_checking_count();
/* Iterate over all write actions */
- for (uint j = 0; j < rf_set->size(); j++) {
+ for (uint j = 0;j < rf_set->size();j++) {
ModelAction * write_act = (*rf_set)[j];
uint64_t write_val = write_act->get_write_value();
bool dummy = true;
}
-/* Select a random branch from the children of curr_pred
+/* Select a random branch from the children of curr_pred
* @return The selected branch
*/
Predicate * NewFuzzer::selectBranch(thread_id_t tid, Predicate * curr_pred, FuncInst * read_inst)
ModelVector<Predicate *> * children = curr_pred->get_children();
SnapVector<Predicate *> branches;
- for (uint i = 0; i < children->size(); i++) {
+ for (uint i = 0;i < children->size();i++) {
Predicate * child = (*children)[i];
if (child->get_func_inst() == read_inst && !failed_predicates.contains(child)) {
branches.push_back(child);
*
* Note: (1) c_i + 1 is used because counts may be 0.
* (2) The numerator of f_i is chosen to reduce the effect of underflow
- *
+ *
* @param numerator is M defined above
*/
int NewFuzzer::choose_index(SnapVector<Predicate *> * branches, uint32_t numerator)
{
return random() % branches->size();
/*--
- if (branches->size() == 1)
- return 0;
-
- double total_factor = 0;
- SnapVector<double> factors = SnapVector<double>( branches->size() + 1 );
- for (uint i = 0; i < branches->size(); i++) {
- Predicate * branch = (*branches)[i];
- double factor = (double) numerator / (branch->get_expl_count() + 5 * branch->get_fail_count() + 1);
- total_factor += factor;
- factors.push_back(factor);
- }
-
- double prob = (double) random() / RAND_MAX;
- double prob_sum = 0;
- int index = 0;
-
- for (uint i = 0; i < factors.size(); i++) {
- index = i;
- prob_sum += (double) (factors[i] / total_factor);
- if (prob_sum > prob) {
- break;
- }
- }
-
- return index;
-*/
+ if (branches->size() == 1)
+ return 0;
+
+ double total_factor = 0;
+ SnapVector<double> factors = SnapVector<double>( branches->size() + 1 );
+ for (uint i = 0; i < branches->size(); i++) {
+ Predicate * branch = (*branches)[i];
+ double factor = (double) numerator / (branch->get_expl_count() + 5 * branch->get_fail_count() + 1);
+ total_factor += factor;
+ factors.push_back(factor);
+ }
+
+ double prob = (double) random() / RAND_MAX;
+ double prob_sum = 0;
+ int index = 0;
+
+ for (uint i = 0; i < factors.size(); i++) {
+ index = i;
+ prob_sum += (double) (factors[i] / total_factor);
+ if (prob_sum > prob) {
+ break;
+ }
+ }
+
+ return index;
+ */
}
Predicate * NewFuzzer::get_selected_child_branch(thread_id_t tid)
return thrd_selected_child_branch[thread_id];
}
-/* Remove writes from the rf_set that do not satisfie the selected predicate,
+/* Remove writes from the rf_set that do not satisfie the selected predicate,
* and store them in thrd_pruned_writes
*
* @return true if rf_set is pruned
*/
bool NewFuzzer::prune_writes(thread_id_t tid, Predicate * pred,
- SnapVector<ModelAction *> * rf_set, inst_act_map_t * inst_act_map)
+ SnapVector<ModelAction *> * rf_set, inst_act_map_t * inst_act_map)
{
if (pred == NULL)
return false;
if (thrd_pruned_writes.size() <= (uint) thread_id) {
uint new_size = thread_id + 1;
thrd_pruned_writes.resize(new_size);
- for (uint i = old_size; i < new_size; i++)
+ for (uint i = old_size;i < new_size;i++)
thrd_pruned_writes[i] = new SnapVector<ModelAction *>();
}
SnapVector<ModelAction *> * pruned_writes = thrd_pruned_writes[thread_id];
return pruned;
}
-/* @brief Put a thread to sleep because no writes in rf_set satisfies the selected predicate.
+/* @brief Put a thread to sleep because no writes in rf_set satisfies the selected predicate.
*
* @param thread A thread whose last action is a read
*/
{
return false;
/*
- int sleep_score = predicate->get_sleep_score();
- int random_num = random() % 100;
+ int sleep_score = predicate->get_sleep_score();
+ int random_num = random() % 100;
- // should sleep if random_num falls within [0, sleep_score)
- if (random_num < sleep_score)
- return true;
+ // should sleep if random_num falls within [0, sleep_score)
+ if (random_num < sleep_score)
+ return true;
- return false;
- */
+ return false;
+ */
}
bool NewFuzzer::has_paused_threads()
(*numthreads)++;
/*--
- Predicate * selected_branch = get_selected_child_branch(tid);
- update_predicate_score(selected_branch, SLEEP_FAIL_TYPE3);
-*/
+ Predicate * selected_branch = get_selected_child_branch(tid);
+ update_predicate_score(selected_branch, SLEEP_FAIL_TYPE3);
+ */
model_print("thread %d is woken up\n", tid);
}
history->remove_waiting_thread(tid);
/*--
- Predicate * selected_branch = get_selected_child_branch(tid);
- update_predicate_score(selected_branch, SLEEP_SUCCESS);
-*/
+ Predicate * selected_branch = get_selected_child_branch(tid);
+ update_predicate_score(selected_branch, SLEEP_SUCCESS);
+ */
model_print("** thread %d is woken up\n", tid);
}
bool finds_waiting_for = false;
SnapVector<FuncNode *> * func_node_list = history->getWrFuncNodes(location);
- for (uint i = 0; i < func_node_list->size(); i++) {
+ for (uint i = 0;i < func_node_list->size();i++) {
FuncNode * target_node = (*func_node_list)[i];
- for (uint i = 1; i < execution->get_num_threads(); i++) {
+ for (uint i = 1;i < execution->get_num_threads();i++) {
thread_id_t tid = int_to_id(i);
if (tid == self_id)
continue;
*/
/*--
-void NewFuzzer::update_predicate_score(Predicate * predicate, sleep_result_t type)
-{
- switch (type) {
- case SLEEP_FAIL_TYPE1:
- predicate->incr_fail_count();
-
- // Do not choose this predicate when reselecting a new branch
- failed_predicates.put(predicate, true);
- break;
- case SLEEP_FAIL_TYPE2:
- predicate->incr_fail_count();
- predicate->incr_sleep_score(1);
- failed_predicates.put(predicate, true);
- break;
- case SLEEP_FAIL_TYPE3:
- predicate->incr_fail_count();
- predicate->decr_sleep_score(10);
- break;
- case SLEEP_SUCCESS:
- predicate->incr_sleep_score(10);
- break;
- default:
- model_print("unknown predicate result type.\n");
- break;
- }
-}
-*/
+ void NewFuzzer::update_predicate_score(Predicate * predicate, sleep_result_t type)
+ {
+ switch (type) {
+ case SLEEP_FAIL_TYPE1:
+ predicate->incr_fail_count();
+
+ // Do not choose this predicate when reselecting a new branch
+ failed_predicates.put(predicate, true);
+ break;
+ case SLEEP_FAIL_TYPE2:
+ predicate->incr_fail_count();
+ predicate->incr_sleep_score(1);
+ failed_predicates.put(predicate, true);
+ break;
+ case SLEEP_FAIL_TYPE3:
+ predicate->incr_fail_count();
+ predicate->decr_sleep_score(10);
+ break;
+ case SLEEP_SUCCESS:
+ predicate->incr_sleep_score(10);
+ break;
+ default:
+ model_print("unknown predicate result type.\n");
+ break;
+ }
+ }
+ */
bool NewFuzzer::check_predicate_expressions(PredExprSet * pred_expressions,
- inst_act_map_t * inst_act_map, uint64_t write_val, bool * no_predicate)
+ inst_act_map_t * inst_act_map, uint64_t write_val, bool * no_predicate)
{
bool satisfy_predicate = true;
bool equality;
switch (expression->token) {
- case NOPREDICATE:
- *no_predicate = true;
- break;
- case EQUALITY:
- FuncInst * to_be_compared;
- ModelAction * last_act;
- uint64_t last_read;
-
- to_be_compared = expression->func_inst;
- last_act = inst_act_map->get(to_be_compared);
- last_read = last_act->get_reads_from_value();
-
- equality = (write_val == last_read);
- if (equality != expression->value)
- satisfy_predicate = false;
- break;
- case NULLITY:
- equality = ((void*)write_val == NULL);
- if (equality != expression->value)
- satisfy_predicate = false;
- break;
- default:
- model_print("unknown predicate token\n");
- break;
+ case NOPREDICATE:
+ *no_predicate = true;
+ break;
+ case EQUALITY:
+ FuncInst * to_be_compared;
+ ModelAction * last_act;
+ uint64_t last_read;
+
+ to_be_compared = expression->func_inst;
+ last_act = inst_act_map->get(to_be_compared);
+ last_read = last_act->get_reads_from_value();
+
+ equality = (write_val == last_read);
+ if (equality != expression->value)
+ satisfy_predicate = false;
+ break;
+ case NULLITY:
+ equality = ((void*)write_val == NULL);
+ if (equality != expression->value)
+ satisfy_predicate = false;
+ break;
+ default:
+ model_print("unknown predicate token\n");
+ break;
}
if (!satisfy_predicate)