FuncNode::FuncNode(ModelHistory * history) :
history(history),
exit_count(0),
- marker(1),
inst_counter(1),
+ marker(1),
+ thrd_marker(),
func_inst_map(),
inst_list(),
entry_insts(),
thrd_inst_pred_map(),
thrd_inst_id_map(),
- thrd_loc_act_map(),
- predicate_tree_position(),
- predicate_leaves(),
- leaves_tmp_storage(),
- weight_debug_vec(),
+ thrd_loc_inst_map(),
+ thrd_predicate_tree_position(),
+ thrd_predicate_trace(),
failed_predicates(),
edge_table(32),
out_edges()
void FuncNode::function_entry_handler(thread_id_t tid)
{
- marker++;
-
- init_predicate_tree_position(tid);
+ set_marker(tid);
init_inst_act_map(tid);
- init_maps(tid);
+ init_local_maps(tid);
+ init_predicate_tree_data_structure(tid);
}
void FuncNode::function_exit_handler(thread_id_t tid)
exit_count++;
reset_inst_act_map(tid);
- reset_maps(tid);
+ reset_local_maps(tid);
Predicate * exit_pred = get_predicate_tree_position(tid);
if (exit_pred->get_exit() == NULL) {
exit_pred->set_exit(predicate_tree_exit);
}
- set_predicate_tree_position(tid, NULL);
+ update_predicate_tree_weight(tid);
+ reset_predicate_tree_data_structure(tid);
}
/**
*/
void FuncNode::update_tree(ModelAction * act)
{
+ bool should_process = act->is_read() || act->is_write();
+ if (!should_process)
+ return;
+
HashTable<void *, value_set_t *, uintptr_t, 0> * write_history = history->getWriteHistory();
- HashSet<ModelAction *, uintptr_t, 2> write_actions;
/* build inst_list from act_list for later processing */
// func_inst_list_t inst_list;
{
thread_id_t tid = next_act->get_tid();
int thread_id = id_to_int(tid);
+ int this_marker = thrd_marker[thread_id];
- // Clear hashtables
- loc_act_map_t * loc_act_map = thrd_loc_act_map[thread_id];
+ loc_inst_map_t * loc_inst_map = thrd_loc_inst_map[thread_id];
inst_pred_map_t * inst_pred_map = thrd_inst_pred_map[thread_id];
inst_id_map_t * inst_id_map = thrd_inst_id_map[thread_id];
- // Clear the set of leaves encountered in this path
- // leaves_tmp_storage.clear();
-
Predicate * curr_pred = get_predicate_tree_position(tid);
while (true) {
FuncInst * next_inst = get_inst(next_act);
- next_inst->set_associated_act(next_act, marker);
+ next_inst->set_associated_read(tid, next_act->get_reads_from_value(), this_marker);
Predicate * unset_predicate = NULL;
bool branch_found = follow_branch(&curr_pred, next_inst, next_act, &unset_predicate);
Predicate * old_pred = inst_pred_map->get(next_inst);
Predicate * back_pred = old_pred->get_parent();
- // For updating weights
- leaves_tmp_storage.push_back(curr_pred);
-
// Add to the set of backedges
curr_pred->add_backedge(back_pred);
curr_pred = back_pred;
+
continue;
}
}
if (next_act->is_read()) {
/* Only need to store the locations of read actions */
- loc_act_map->put(next_act->get_location(), next_act);
+ loc_inst_map->put(next_inst->get_location(), next_inst);
}
inst_pred_map->put(next_inst, curr_pred);
inst_id_map->put(next_inst, inst_counter++);
curr_pred->incr_expl_count();
+ add_predicate_to_trace(tid, curr_pred);
break;
}
-
-// leaves_tmp_storage.push_back(curr_pred);
-// update_predicate_tree_weight();
}
/* Given curr_pred and next_inst, find the branch following curr_pred that
{
/* Check if a branch with func_inst and corresponding predicate exists */
bool branch_found = false;
+ thread_id_t tid = next_act->get_tid();
+ int this_marker = thrd_marker[id_to_int(tid)];
+
ModelVector<Predicate *> * branches = (*curr_pred)->get_children();
for (uint i = 0;i < branches->size();i++) {
Predicate * branch = (*branches)[i];
break;
case EQUALITY:
FuncInst * to_be_compared;
- ModelAction * last_act;
-
to_be_compared = pred_expression->func_inst;
- last_act = to_be_compared->get_associated_act(marker);
- last_read = last_act->get_reads_from_value();
+ last_read = to_be_compared->get_associated_read(tid, this_marker);
+ ASSERT(last_read != VALUE_NONE);
+
next_read = next_act->get_reads_from_value();
equality = (last_read == next_read);
if (equality != pred_expression->value)
{
void * loc = next_act->get_location();
int thread_id = id_to_int(next_act->get_tid());
- loc_act_map_t * loc_act_map = thrd_loc_act_map[thread_id];
+ loc_inst_map_t * loc_inst_map = thrd_loc_inst_map[thread_id];
if (next_inst->is_read()) {
/* read + rmw */
- if ( loc_act_map->contains(loc) ) {
- ModelAction * last_act = loc_act_map->get(loc);
- FuncInst * last_inst = get_inst(last_act);
+ if ( loc_inst_map->contains(loc) ) {
+ FuncInst * last_inst = loc_inst_map->get(loc);
struct half_pred_expr * expression = new half_pred_expr(EQUALITY, last_inst);
half_pred_expressions->push_back(expression);
} else if ( next_inst->is_single_location() ) {
loc_set_iter * loc_it = loc_may_equal->iterator();
while (loc_it->hasNext()) {
void * neighbor = loc_it->next();
- if (loc_act_map->contains(neighbor)) {
- ModelAction * last_act = loc_act_map->get(neighbor);
- FuncInst * last_inst = get_inst(last_act);
+ if (loc_inst_map->contains(neighbor)) {
+ FuncInst * last_inst = loc_inst_map->get(neighbor);
struct half_pred_expr * expression = new half_pred_expr(EQUALITY, last_inst);
half_pred_expressions->push_back(expression);
curr_pred->add_child(new_pred);
new_pred->set_parent(curr_pred);
- /* Maintain predicate leaves */
- predicate_leaves.add(new_pred);
- predicate_leaves.remove(curr_pred);
-
/* entry predicates and predicates containing pure write actions
* have no predicate expressions */
if ( curr_pred->is_entry_predicate() )
Predicate * pred= predicates[i];
curr_pred->add_child(pred);
pred->set_parent(curr_pred);
-
- /* Add new predicate leaves */
- predicate_leaves.add(pred);
}
- /* Remove predicate node that has children */
- predicate_leaves.remove(curr_pred);
-
/* Free memories allocated by infer_predicate */
for (uint i = 0;i < half_pred_expressions->size();i++) {
struct half_pred_expr * tmp = (*half_pred_expressions)[i];
delete loc_it;
}
-/* Every time a thread enters a function, set its position to the predicate tree entry */
-void FuncNode::init_predicate_tree_position(thread_id_t tid)
+void FuncNode::set_predicate_tree_position(thread_id_t tid, Predicate * pred)
{
int thread_id = id_to_int(tid);
- if (predicate_tree_position.size() <= (uint) thread_id)
- predicate_tree_position.resize(thread_id + 1);
-
- predicate_tree_position[thread_id] = predicate_tree_entry;
+ ModelVector<Predicate *> * stack = thrd_predicate_tree_position[thread_id];
+ (*stack)[stack->size() - 1] = pred;
}
-void FuncNode::set_predicate_tree_position(thread_id_t tid, Predicate * pred)
+/* @return The position of a thread in a predicate tree */
+Predicate * FuncNode::get_predicate_tree_position(thread_id_t tid)
{
int thread_id = id_to_int(tid);
- predicate_tree_position[thread_id] = pred;
+ return thrd_predicate_tree_position[thread_id]->back();
}
-/* @return The position of a thread in a predicate tree */
-Predicate * FuncNode::get_predicate_tree_position(thread_id_t tid)
+void FuncNode::add_predicate_to_trace(thread_id_t tid, Predicate * pred)
{
int thread_id = id_to_int(tid);
- return predicate_tree_position[thread_id];
+ thrd_predicate_trace[thread_id]->back()->push_back(pred);
}
/* Make sure elements of thrd_inst_act_map are initialized properly when threads enter functions */
return (*thrd_inst_act_map)[thread_id];
}
-/* Make sure elements of thrd_loc_act_map are initialized properly when threads enter functions */
-void FuncNode::init_maps(thread_id_t tid)
+void FuncNode::set_marker(thread_id_t tid)
+{
+ marker++;
+ uint thread_id = id_to_int(tid);
+ for (uint i = thrd_marker.size(); i < thread_id + 1; i++) {
+ thrd_marker.push_back(0);
+ }
+
+ thrd_marker[thread_id] = marker;
+}
+
+/* Make sure elements of maps are initialized properly when threads enter functions */
+void FuncNode::init_local_maps(thread_id_t tid)
{
int thread_id = id_to_int(tid);
- uint old_size = thrd_loc_act_map.size();
+ uint old_size = thrd_loc_inst_map.size();
if (old_size <= (uint) thread_id) {
uint new_size = thread_id + 1;
- thrd_loc_act_map.resize(new_size);
+
+ thrd_loc_inst_map.resize(new_size);
thrd_inst_id_map.resize(new_size);
thrd_inst_pred_map.resize(new_size);
- for (uint i = old_size; i < new_size;i++) {
- thrd_loc_act_map[i] = new loc_act_map_t(128);
+ for (uint i = old_size; i < new_size; i++) {
+ thrd_loc_inst_map[i] = new loc_inst_map_t(128);
thrd_inst_id_map[i] = new inst_id_map_t(128);
thrd_inst_pred_map[i] = new inst_pred_map_t(128);
}
}
}
-/* Reset elements of thrd_loc_act_map when threads exit functions */
-void FuncNode::reset_maps(thread_id_t tid)
+/* Reset elements of maps when threads exit functions */
+void FuncNode::reset_local_maps(thread_id_t tid)
{
int thread_id = id_to_int(tid);
- thrd_loc_act_map[thread_id]->reset();
+ thrd_loc_inst_map[thread_id]->reset();
thrd_inst_id_map[thread_id]->reset();
thrd_inst_pred_map[thread_id]->reset();
}
+void FuncNode::init_predicate_tree_data_structure(thread_id_t tid)
+{
+ int thread_id = id_to_int(tid);
+ int old_size = thrd_predicate_tree_position.size();
+
+ if (old_size <= thread_id + 1) {
+ thrd_predicate_tree_position.resize(thread_id + 1);
+ thrd_predicate_trace.resize(thread_id + 1);
+
+ for (int i = old_size; i < thread_id + 1; i++) {
+ thrd_predicate_tree_position[i] = new ModelVector<Predicate *>();
+ thrd_predicate_trace[i] = new ModelVector<predicate_trace_t *>();
+ }
+ }
+
+ thrd_predicate_tree_position[thread_id]->push_back(predicate_tree_entry);
+ thrd_predicate_trace[thread_id]->push_back(new predicate_trace_t());
+}
+
+void FuncNode::reset_predicate_tree_data_structure(thread_id_t tid)
+{
+ int thread_id = id_to_int(tid);
+ thrd_predicate_tree_position[thread_id]->pop_back();
+
+ predicate_trace_t * trace = thrd_predicate_trace[thread_id]->back();
+ delete trace;
+ thrd_predicate_trace[thread_id]->pop_back();
+}
+
/* Add FuncNodes that this node may follow */
void FuncNode::add_out_edge(FuncNode * other)
{
failed_predicates.add(pred);
}
-/* Implement quick sort to sort leaves before assigning base scores */
-template<typename _Tp>
-static int partition(ModelVector<_Tp *> * arr, int low, int high)
-{
- unsigned int pivot = (*arr)[high] -> get_depth();
- int i = low - 1;
-
- for (int j = low;j <= high - 1;j ++) {
- if ( (*arr)[j] -> get_depth() < pivot ) {
- i ++;
- _Tp * tmp = (*arr)[i];
- (*arr)[i] = (*arr)[j];
- (*arr)[j] = tmp;
- }
- }
-
- _Tp * tmp = (*arr)[i + 1];
- (*arr)[i + 1] = (*arr)[high];
- (*arr)[high] = tmp;
-
- return i + 1;
-}
-
-/* Implement quick sort to sort leaves before assigning base scores */
-template<typename _Tp>
-static void quickSort(ModelVector<_Tp *> * arr, int low, int high)
+void FuncNode::update_predicate_tree_weight(thread_id_t tid)
{
- if (low < high) {
- int pi = partition(arr, low, high);
-
- quickSort(arr, low, pi - 1);
- quickSort(arr, pi + 1, high);
- }
-}
-
-void FuncNode::assign_initial_weight()
-{
- PredSetIter * it = predicate_leaves.iterator();
- leaves_tmp_storage.clear();
-
- while (it->hasNext()) {
- Predicate * pred = it->next();
- double weight = 100.0 / sqrt(pred->get_expl_count() + pred->get_fail_count() + 1);
- pred->set_weight(weight);
- leaves_tmp_storage.push_back(pred);
- }
- delete it;
-
- quickSort(&leaves_tmp_storage, 0, leaves_tmp_storage.size() - 1);
-
- // assign scores for internal nodes;
- while ( !leaves_tmp_storage.empty() ) {
- Predicate * leaf = leaves_tmp_storage.back();
- leaves_tmp_storage.pop_back();
-
- Predicate * curr = leaf->get_parent();
- while (curr != NULL) {
- if (curr->get_weight() != 0) {
- // Has been exlpored
- break;
- }
-
- ModelVector<Predicate *> * children = curr->get_children();
- double weight_sum = 0;
- bool has_unassigned_node = false;
-
- for (uint i = 0;i < children->size();i++) {
- Predicate * child = (*children)[i];
-
- // If a child has unassigned weight
- double weight = child->get_weight();
- if (weight == 0) {
- has_unassigned_node = true;
- break;
- } else
- weight_sum += weight;
- }
-
- if (!has_unassigned_node) {
- double average_weight = (double) weight_sum / (double) children->size();
- double weight = average_weight * pow(0.9, curr->get_depth());
- curr->set_weight(weight);
- } else
- break;
-
- curr = curr->get_parent();
- }
- }
-}
-
-void FuncNode::update_predicate_tree_weight()
-{
- if (marker == 2) {
- // Predicate tree is initially built
- assign_initial_weight();
- return;
- }
-
- weight_debug_vec.clear();
-
- PredSetIter * it = failed_predicates.iterator();
- while (it->hasNext()) {
- Predicate * pred = it->next();
- leaves_tmp_storage.push_back(pred);
- }
- delete it;
failed_predicates.reset();
- quickSort(&leaves_tmp_storage, 0, leaves_tmp_storage.size() - 1);
- for (uint i = 0;i < leaves_tmp_storage.size();i++) {
- Predicate * pred = leaves_tmp_storage[i];
- double weight = 100.0 / sqrt(pred->get_expl_count() + pred->get_fail_count() + 1);
- pred->set_weight(weight);
- }
-
- // Update weights in internal nodes
- while ( !leaves_tmp_storage.empty() ) {
- Predicate * leaf = leaves_tmp_storage.back();
- leaves_tmp_storage.pop_back();
+ predicate_trace_t * trace = thrd_predicate_trace[id_to_int(tid)]->back();
- Predicate * curr = leaf->get_parent();
- while (curr != NULL) {
- ModelVector<Predicate *> * children = curr->get_children();
- double weight_sum = 0;
- bool has_unassigned_node = false;
+ // Update predicate weights based on prediate trace
+ for (mllnode<Predicate *> * rit = trace->end(); rit != NULL; rit = rit->getPrev()) {
+ Predicate * node = rit->getVal();
+ ModelVector<Predicate *> * children = node->get_children();
+ if (children->size() == 0) {
+ double weight = 100.0 / sqrt(node->get_expl_count() + node->get_fail_count() + 1);
+ node->set_weight(weight);
+ } else {
+ double weight_sum = 0.0;
for (uint i = 0;i < children->size();i++) {
Predicate * child = (*children)[i];
-
double weight = child->get_weight();
- if (weight != 0)
- weight_sum += weight;
- else if ( predicate_leaves.contains(child) ) {
- // If this child is a leaf
- double weight = 100.0 / sqrt(child->get_expl_count() + 1);
- child->set_weight(weight);
- weight_sum += weight;
- } else {
- has_unassigned_node = true;
- weight_debug_vec.push_back(child); // For debugging purpose
- break;
- }
+ weight_sum += weight;
}
- if (!has_unassigned_node) {
- double average_weight = (double) weight_sum / (double) children->size();
- double weight = average_weight * pow(0.9, curr->get_depth());
- curr->set_weight(weight);
- } else
- break;
-
- curr = curr->get_parent();
+ double average_weight = (double) weight_sum / (double) children->size();
+ double weight = average_weight * pow(0.9, node->get_depth());
+ node->set_weight(weight);
}
}
-
- for (uint i = 0;i < weight_debug_vec.size();i++) {
- Predicate * tmp = weight_debug_vec[i];
- ASSERT( tmp->get_weight() != 0 );
- }
}
void FuncNode::print_predicate_tree()