#include "funcnode.h"
+#include <fcntl.h>
FuncNode::FuncNode() :
predicate_tree_initialized(false),
inst_list(),
entry_insts(),
thrd_read_map(),
- predicate_tree_entry()
+ predicate_tree_entry(),
+ inst_pred_map()
{}
/* Check whether FuncInst with the same type, position, and location
- * as act has been added to func_inst_map or not. If so, return it;
- * if not, add it and return it.
+ * as act has been added to func_inst_map or not. If not, add it.
*
- * @return FuncInst with the same type, position, and location as act */
-FuncInst * FuncNode::get_or_add_inst(ModelAction *act)
+ * Note: currently, actions with the same position are filtered out by process_action,
+ * so the collision list of FuncInst is not used. May remove it later.
+ */
+void FuncNode::add_inst(ModelAction *act)
{
ASSERT(act);
const char * position = act->get_position();
* actions are not tagged with their source line numbers
*/
if (position == NULL)
- return NULL;
+ return;
if ( func_inst_map.contains(position) ) {
FuncInst * inst = func_inst_map.get(position);
// model_print("action with a different type occurs at line number %s\n", position);
FuncInst * func_inst = inst->search_in_collision(act);
- if (func_inst != NULL) {
- // return the FuncInst found in the collision list
- return func_inst;
- }
+ if (func_inst != NULL)
+ return;
func_inst = new FuncInst(act, this);
inst->get_collisions()->push_back(func_inst);
inst_list.push_back(func_inst); // delete?
-
- return func_inst;
}
- return inst;
+ return;
}
FuncInst * func_inst = new FuncInst(act, this);
func_inst_map.put(position, func_inst);
inst_list.push_back(func_inst);
+}
+
+/* Get the FuncInst with the same type, position, and location
+ * as act
+ *
+ * @return FuncInst with the same type, position, and location as act */
+FuncInst * FuncNode::get_inst(ModelAction *act)
+{
+ ASSERT(act);
+ const char * position = act->get_position();
- return func_inst;
+ /* THREAD* actions, ATOMIC_LOCK, ATOMIC_TRYLOCK, and ATOMIC_UNLOCK
+ * actions are not tagged with their source line numbers
+ */
+ if (position == NULL)
+ return NULL;
+
+ FuncInst * inst = func_inst_map.get(position);
+ if (inst == NULL)
+ return NULL;
+
+ action_type inst_type = inst->get_type();
+ action_type act_type = act->get_type();
+
+ // else if branch: an RMWRCAS action is converted to a RMW or READ action
+ if (inst_type == act_type)
+ return inst;
+ else if (inst_type == ATOMIC_RMWRCAS &&
+ (act_type == ATOMIC_RMW || act_type == ATOMIC_READ))
+ return inst;
+
+ return NULL;
}
+
void FuncNode::add_entry_inst(FuncInst * inst)
{
if (inst == NULL)
for (sllnode<ModelAction *> * it = act_list->begin(); it != NULL; it = it->getNext()) {
ModelAction * act = it->getVal();
- FuncInst * func_inst = get_or_add_inst(act);
+ FuncInst * func_inst = get_inst(act);
if (func_inst == NULL)
continue;
inst_list.push_back(func_inst);
- if (!predicate_tree_initialized) {
- model_print("position: %s ", act->get_position());
- act->print();
- }
+// model_print("position: %s ", act->get_position());
+// act->print();
if (func_inst->is_read()) {
read_inst_list.push_back(func_inst);
}
update_inst_tree(&inst_list);
- model_print("line break\n");
- init_predicate_tree(&read_inst_list, &read_val_map);
+ update_predicate_tree(&read_inst_list, &read_val_map);
}
/**
thrd_read_map[tid]->reset();
}
-void FuncNode::init_predicate_tree(func_inst_list_t * inst_list, HashTable<FuncInst *, uint64_t, uintptr_t, 4> * read_val_map)
+void FuncNode::update_predicate_tree(func_inst_list_t * inst_list, HashTable<FuncInst *, uint64_t, uintptr_t, 4> * read_val_map)
{
if (inst_list == NULL || inst_list->size() == 0)
return;
-
+/*
if (predicate_tree_initialized) {
- model_print("function %s\n", func_name);
- print_predicate_tree();
return;
}
-
predicate_tree_initialized = true;
-
+*/
// maybe restrict the size of hashtable to save calloc time
- HashTable<void *, FuncInst *, uintptr_t, 4> loc_inst_map;
+ HashTable<void *, FuncInst *, uintptr_t, 4> loc_inst_map(64);
sllnode<FuncInst *> *it = inst_list->begin();
- sllnode<FuncInst *> *prev;
-
FuncInst * entry_inst = it->getVal();
- /* entry instruction has no predicate expression */
- Predicate * curr_pred = new Predicate(entry_inst);
- predicate_tree_entry.add(curr_pred);
+ /* get the unique Predicate pointer, assuming entry instructions have no predicate expression */
+ Predicate * curr_pred = NULL;
+ PredSetIter * pit = predicate_tree_entry.iterator();
+ while (pit->hasNext()) {
+ Predicate * p = pit->next();
+ if (p->get_func_inst() == entry_inst) {
+ curr_pred = p;
+ break;
+ }
+ }
+ if (curr_pred == NULL) {
+ curr_pred = new Predicate(entry_inst);
+ curr_pred->set_entry_predicate();
+ predicate_tree_entry.add(curr_pred);
+ }
+
loc_inst_map.put(entry_inst->get_location(), entry_inst);
it = it->getNext();
while (it != NULL) {
- prev = it->getPrev();
-
FuncInst * curr_inst = it->getVal();
- FuncInst * prev_inst = prev->getVal();
-
- if ( loc_inst_map.contains(curr_inst->get_location()) ) {
-// model_print("new predicate created at location: %p\n", curr_inst->get_location());
- Predicate * new_pred1 = new Predicate(curr_inst);
- new_pred1->add_predicate(EQUALITY, curr_inst->get_location(), true);
-
- Predicate * new_pred2 = new Predicate(curr_inst);
- new_pred2->add_predicate(EQUALITY, curr_inst->get_location(), false);
-
- curr_pred->add_child(new_pred1);
- curr_pred->add_child(new_pred2);
-
- uint64_t last_read = read_val_map->get(prev_inst);
- if ( last_read == read_val_map->get(curr_inst) )
- curr_pred = new_pred1;
- else
- curr_pred = new_pred2;
- } else {
- Predicate * new_pred = new Predicate(curr_inst);
- curr_pred->add_child(new_pred);
- curr_pred = new_pred;
+ bool branch_found = follow_branch(&curr_pred, curr_inst, read_val_map, &loc_inst_map);
+
+ if (!branch_found) {
+ if ( loc_inst_map.contains(curr_inst->get_location()) ) {
+ Predicate * new_pred1 = new Predicate(curr_inst);
+ new_pred1->add_predicate(EQUALITY, curr_inst->get_location(), true);
+
+ Predicate * new_pred2 = new Predicate(curr_inst);
+ new_pred2->add_predicate(EQUALITY, curr_inst->get_location(), false);
+
+ /* TODO: add to inst_pred_map */
+ curr_pred->add_child(new_pred1);
+ curr_pred->add_child(new_pred2);
+
+ FuncInst * last_inst = loc_inst_map.get(curr_inst->get_location());
+ uint64_t last_read = read_val_map->get(last_inst);
+ if ( last_read == read_val_map->get(curr_inst) )
+ curr_pred = new_pred1;
+ else
+ curr_pred = new_pred2;
+ } else {
+ Predicate * new_pred = new Predicate(curr_inst);
+ curr_pred->add_child(new_pred);
+ curr_pred = new_pred;
+ }
}
loc_inst_map.put(curr_inst->get_location(), curr_inst);
it = it->getNext();
}
+
+// model_print("function %s\n", func_name);
+// print_predicate_tree();
}
+/* Given curr_pred and next_inst, find the branch following curr_pred that contains next_inst and the correct predicate
+ * @return true if branch found, false otherwise.
+ */
+bool FuncNode::follow_branch(Predicate ** curr_pred, FuncInst * next_inst,
+ HashTable<FuncInst *, uint64_t, uintptr_t, 4> * read_val_map, HashTable<void *, FuncInst *, uintptr_t, 4> * loc_inst_map)
+{
+ /* check if a branch with func_inst and corresponding predicate exists */
+ bool branch_found = false;
+ ModelVector<Predicate *> * branches = (*curr_pred)->get_children();
+ for (uint i = 0; i < branches->size(); i++) {
+ Predicate * branch = (*branches)[i];
+ if (branch->get_func_inst() != next_inst)
+ continue;
+
+ PredExprSet * pred_expressions = branch->get_pred_expressions();
+
+ /* no predicate, follow the only branch */
+ if (pred_expressions->getSize() == 0) {
+// model_print("no predicate exists: "); next_inst->print();
+ *curr_pred = branch;
+ branch_found = true;
+ break;
+ }
+
+ PredExprSetIter * pred_expr_it = pred_expressions->iterator();
+ while (pred_expr_it->hasNext()) {
+ pred_expr * pred_expression = pred_expr_it->next();
+ uint64_t last_read, curr_read;
+ FuncInst * last_inst;
+ bool equality;
+
+ switch(pred_expression->token) {
+ case EQUALITY:
+ last_inst = loc_inst_map->get(next_inst->get_location());
+ last_read = read_val_map->get(last_inst);
+ curr_read = read_val_map->get(next_inst);
+ equality = (last_read == curr_read);
+ if (equality == pred_expression->value) {
+ *curr_pred = branch;
+// model_print("predicate: token: %d, location: %p, value: %d - ", pred_expression->token, pred_expression->location, pred_expression->value); next_inst->print();
+ branch_found = true;
+ }
+ break;
+ case NULLITY:
+ break;
+ default:
+ model_print("unkown predicate token\n");
+ break;
+ }
+ }
+
+ }
+
+ return branch_found;
+}
void FuncNode::print_predicate_tree()
{
- HSIterator<Predicate *, uintptr_t, 0, model_malloc, model_calloc, model_free> * it;
- it = predicate_tree_entry.iterator();
+ model_print("digraph function_%s {\n", func_name);
+ PredSetIter * it = predicate_tree_entry.iterator();
while (it->hasNext()) {
Predicate * p = it->next();
p->print_pred_subtree();
}
+ model_print("}\n"); // end of graph
}
/* @param tid thread id