#include "concretepredicate.h"
#include "model.h"
+#include <cmath>
FuncNode::FuncNode(ModelHistory * history) :
history(history),
{
predicate_tree_entry = new Predicate(NULL, true);
predicate_tree_entry->add_predicate_expr(NOPREDICATE, NULL, true);
+
predicate_tree_exit = new Predicate(NULL, false, true);
+ predicate_tree_exit->alloc_pre_exit_predicates();
+ predicate_tree_exit->set_depth(MAX_DEPTH);
/* Snapshot data structures below */
action_list_buffer = new SnapList<action_list_t *>();
/* Check whether FuncInst with the same type, position, and location
* as act has been added to func_inst_map or not. If not, add it.
- *
- * 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)
{
if (position == NULL)
return;
- if ( func_inst_map.contains(position) ) {
- FuncInst * inst = func_inst_map.get(position);
+ FuncInst * func_inst = func_inst_map.get(position);
+
+ /* This position has not been inserted into hashtable before */
+ if (func_inst == NULL) {
+ func_inst = create_new_inst(act);
+ func_inst_map.put(position, func_inst);
+ return;
+ }
- ASSERT(inst->get_type() == act->get_type());
- int curr_execution_number = model->get_execution_number();
+ /* Volatile variables that use ++ or -- syntax may result in read and write actions with the same position */
+ if (func_inst->get_type() != act->get_type()) {
+ FuncInst * collision_inst = func_inst->search_in_collision(act);
- /* Reset locations when new executions start */
- if (inst->get_execution_number() != curr_execution_number) {
- inst->set_location(act->get_location());
- inst->set_execution_number(curr_execution_number);
+ if (collision_inst == NULL) {
+ collision_inst = create_new_inst(act);
+ func_inst->add_to_collision(collision_inst);
+ return;
+ } else {
+ func_inst = collision_inst;
}
+ }
- if (inst->get_location() != act->get_location())
- inst->not_single_location();
+ ASSERT(func_inst->get_type() == act->get_type());
+ int curr_execution_number = model->get_execution_number();
- return;
+ /* Reset locations when new executions start */
+ if (func_inst->get_execution_number() != curr_execution_number) {
+ func_inst->set_location(act->get_location());
+ func_inst->set_execution_number(curr_execution_number);
}
+ /* Mark the memory location of such inst as not unique */
+ if (func_inst->get_location() != act->get_location())
+ func_inst->not_single_location();
+}
+
+FuncInst * FuncNode::create_new_inst(ModelAction * act)
+{
FuncInst * func_inst = new FuncInst(act, this);
+ int exec_num = model->get_execution_number();
+ func_inst->set_execution_number(exec_num);
- func_inst_map.put(position, func_inst);
inst_list.push_back(func_inst);
+
+ return func_inst;
}
+
/* Get the FuncInst with the same type, position, and location
* as act
*
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)
+ if (inst_type == act_type) {
return inst;
+ }
+ /* RMWRCAS actions are converted to RMW or READ actions */
else if (inst_type == ATOMIC_RMWRCAS &&
- (act_type == ATOMIC_RMW || act_type == ATOMIC_READ))
+ (act_type == ATOMIC_RMW || act_type == ATOMIC_READ)) {
return inst;
-
- return NULL;
+ }
+ /* Return the FuncInst in the collision list */
+ else {
+ return inst->search_in_collision(act);
+ }
}
return;
mllnode<FuncInst *> * it;
- for (it = entry_insts.begin(); it != NULL; it = it->getNext()) {
+ for (it = entry_insts.begin();it != NULL;it = it->getNext()) {
if (inst == it->getVal())
return;
}
}
/**
- * @brief Convert ModelAdtion list to FuncInst list
+ * @brief Convert ModelAdtion list to FuncInst list
* @param act_list A list of ModelActions
*/
void FuncNode::update_tree(action_list_t * act_list)
func_inst_list_t inst_list;
action_list_t rw_act_list;
- for (sllnode<ModelAction *> * it = act_list->begin(); it != NULL; it = it->getNext()) {
+ for (sllnode<ModelAction *> * it = act_list->begin();it != NULL;it = it->getNext()) {
ModelAction * act = it->getVal();
FuncInst * func_inst = get_inst(act);
void * loc = act->get_location();
// print_predicate_tree();
}
-/**
+/**
* @brief Link FuncInsts in inst_list - add one FuncInst to another's predecessors and successors
* @param inst_list A list of FuncInsts
*/
inst_id_map.put(next_inst, inst_counter++);
it = it->getNext();
- /*-- curr_pred->incr_expl_count(); */
+ curr_pred->incr_expl_count();
}
- curr_pred->set_exit(predicate_tree_exit);
+ if (curr_pred->get_exit() == NULL) {
+ // Exit predicate is unset yet
+ curr_pred->set_exit(predicate_tree_exit);
+ }
}
/* Given curr_pred and next_inst, find the branch following curr_pred that
- * contains next_inst and the correct predicate.
+ * contains next_inst and the correct predicate.
* @return true if branch found, false otherwise.
*/
bool FuncNode::follow_branch(Predicate ** curr_pred, FuncInst * next_inst,
-
ModelAction * next_act, SnapVector<Predicate *> * unset_predicates)
+ModelAction * next_act, SnapVector<Predicate *> * unset_predicates)
{
/* 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++) {
+ for (uint i = 0;i < branches->size();i++) {
Predicate * branch = (*branches)[i];
if (branch->get_func_inst() != next_inst)
continue;
break;
case NULLITY:
next_read = next_act->get_reads_from_value();
- equality = ((void*)next_read == NULL);
+ // TODO: implement likely to be null
+ equality = ( (void*) (next_read & 0xffffffff) == NULL);
if (equality != pred_expression->value)
predicate_correct = false;
break;
/* Infer predicate expressions, which are generated in FuncNode::generate_predicates */
void FuncNode::infer_predicates(FuncInst * next_inst, ModelAction * next_act,
- HashTable<void *, ModelAction *, uintptr_t, 0> * loc_act_map,
- SnapVector<struct half_pred_expr *> * half_pred_expressions)
+HashTable<void *, ModelAction *, uintptr_t, 0> * loc_act_map,
+SnapVector<struct half_pred_expr *> * half_pred_expressions)
{
void * loc = next_act->get_location();
FuncInst * last_inst = get_inst(last_act);
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() ){
+ } else if ( next_inst->is_single_location() ) {
loc_set_t * loc_may_equal = loc_may_equal_map->get(loc);
if (loc_may_equal != NULL) {
/* Able to generate complex predicates when there are multiple predciate expressions */
void FuncNode::generate_predicates(Predicate ** curr_pred, FuncInst * next_inst,
- SnapVector<struct half_pred_expr *> * half_pred_expressions)
+SnapVector<struct half_pred_expr *> * half_pred_expressions)
{
if (half_pred_expressions->size() == 0) {
Predicate * new_pred = new Predicate(next_inst);
predicates[0]->add_predicate_expr(half_expr->token, half_expr->func_inst, true);
predicates[1]->add_predicate_expr(half_expr->token, half_expr->func_inst, false);
- for (uint i = 1; i < half_pred_expressions->size(); i++) {
+ for (uint i = 1;i < half_pred_expressions->size();i++) {
half_expr = (*half_pred_expressions)[i];
uint old_size = predicates.size();
- for (uint j = 0; j < old_size; j++) {
+ for (uint j = 0;j < old_size;j++) {
Predicate * pred = predicates[j];
Predicate * new_pred = new Predicate(next_inst);
new_pred->copy_predicate_expr(pred);
}
}
- for (uint i = 0; i < predicates.size(); i++) {
+ for (uint i = 0;i < predicates.size();i++) {
Predicate * pred= predicates[i];
(*curr_pred)->add_child(pred);
pred->set_parent(*curr_pred);
}
/* Free memories allocated by infer_predicate */
- for (uint i = 0; i < half_pred_expressions->size(); i++) {
+ for (uint i = 0;i < half_pred_expressions->size();i++) {
struct half_pred_expr * tmp = (*half_pred_expressions)[i];
snapshot_free(tmp);
}
uint new_size = thread_id + 1;
thrd_inst_act_map->resize(new_size);
- for (uint i = old_size; i < new_size; i++)
+ for (uint i = old_size;i < new_size;i++)
(*thrd_inst_act_map)[i] = new inst_act_map_t(128);
}
}
ModelList<FuncNode *> * outEdges = curr->get_out_edges();
mllnode<FuncNode *> * it;
- for (it = outEdges->begin(); it != NULL; it = it->getNext()) {
+ for (it = outEdges->begin();it != NULL;it = it->getNext()) {
FuncNode * out_node = it->getVal();
/* This node has not been visited before */
return -1;
}
+void FuncNode::assign_base_score()
+{
+ SnapVector<Predicate *> leaves;
+ SnapList<Predicate *> queue;
+ queue.push_front(predicate_tree_entry);
+
+ // assign leaf score
+ while ( !queue.empty() ) {
+ Predicate * node = queue.back();
+ queue.pop_back();
+
+ ModelVector<Predicate *> * children = node->get_children();
+ if (children->empty()) {
+ node->set_weight(1);
+ leaves.push_back(node);
+ }
+
+ for (uint i = 0; i < children->size(); i++)
+ queue.push_front( (*children)[i] );
+ }
+
+ // assign scores for internal nodes;
+ while ( !leaves.empty() ) {
+ Predicate * leaf = leaves.back();
+ leaves.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::print_predicate_tree()
{
model_print("digraph function_%s {\n", func_name);
predicate_tree_exit->print_predicate();
model_print("}\n"); // end of graph
}
-
-void FuncNode::print_val_loc_map()
-{
-/*
- value_set_iter * val_it = values_may_read_from->iterator();
- while (val_it->hasNext()) {
- uint64_t value = val_it->next();
- model_print("val %llx: ", value);
-
- loc_set_t * locations = val_loc_map->get(value);
- loc_set_iter * loc_it = locations->iterator();
- while (loc_it->hasNext()) {
- void * location = loc_it->next();
- model_print("%p ", location);
- }
- model_print("\n");
- }
-*/
-}
projects / c11tester.git / blobdiff