* @param nthreads The number of threads which exist at this point in the
* execution trace.
*/
-Node::Node(ModelAction *act, Node *par, int nthreads)
+Node::Node(ModelAction *act, Node *par, int nthreads, bool *enabled)
: action(act),
parent(par),
num_threads(nthreads),
explored_children(num_threads),
backtrack(num_threads),
numBacktracks(0),
- may_read_from()
+ may_read_from(),
+ read_from_index(0),
+ future_values(),
+ future_index(-1)
{
if (act)
act->set_node(this);
+ enabled_array=(bool *)MYMALLOC(sizeof(bool)*num_threads);
+ if (enabled != NULL)
+ memcpy(enabled_array, enabled, sizeof(bool)*num_threads);
+ else {
+ for(int i=0;i<num_threads;i++)
+ enabled_array[i]=false;
+ }
}
/** @brief Node desctructor */
{
if (action)
delete action;
+ MYFREE(enabled_array);
}
/** Prints debugging info for the ModelAction associated with this Node */
printf("******** empty action ********\n");
}
+/** @brief Prints info about may_read_from set */
+void Node::print_may_read_from()
+{
+ for (unsigned int i = 0; i < may_read_from.size(); i++)
+ may_read_from[i]->print();
+}
+
+/**
+ * Sets a promise to explore meeting with the given node.
+ * @param i is the promise index.
+ */
+void Node::set_promise(unsigned int i) {
+ if (i >= promises.size())
+ promises.resize(i + 1, PROMISE_IGNORE);
+ if (promises[i] == PROMISE_IGNORE)
+ promises[i] = PROMISE_UNFULFILLED;
+}
+
+/**
+ * Looks up whether a given promise should be satisfied by this node.
+ * @param i The promise index.
+ * @return true if the promise should be satisfied by the given model action.
+ */
+bool Node::get_promise(unsigned int i) {
+ return (i < promises.size()) && (promises[i] == PROMISE_FULFILLED);
+}
+
+/**
+ * Increments to the next combination of promises.
+ * @return true if we have a valid combination.
+ */
+bool Node::increment_promise() {
+ for (unsigned int i = 0; i < promises.size(); i++) {
+ if (promises[i] == PROMISE_UNFULFILLED) {
+ promises[i] = PROMISE_FULFILLED;
+ while (i > 0) {
+ i--;
+ if (promises[i] == PROMISE_FULFILLED)
+ promises[i] = PROMISE_UNFULFILLED;
+ }
+ return true;
+ }
+ }
+ return false;
+}
+
+/**
+ * Returns whether the promise set is empty.
+ * @return true if we have explored all promise combinations.
+ */
+bool Node::promise_empty() {
+ for (unsigned int i = 0; i < promises.size();i++)
+ if (promises[i] == PROMISE_UNFULFILLED)
+ return false;
+ return true;
+}
+
+/**
+ * Adds a value from a weakly ordered future write to backtrack to.
+ * @param value is the value to backtrack to.
+ */
+bool Node::add_future_value(uint64_t value, modelclock_t expiration) {
+ int suitableindex=-1;
+ for (unsigned int i = 0; i < future_values.size(); i++) {
+ if (future_values[i].value == value) {
+ if (future_values[i].expiration>=expiration)
+ return false;
+ if (future_index < i) {
+ suitableindex=i;
+ }
+ }
+ }
+
+ if (suitableindex!=-1) {
+ future_values[suitableindex].expiration=expiration;
+ return true;
+ }
+ struct future_value newfv={value, expiration};
+ future_values.push_back(newfv);
+ return true;
+}
+
+/**
+ * Checks whether the future_values set for this node is empty.
+ * @return true if the future_values set is empty.
+ */
+bool Node::future_value_empty() {
+ return ((future_index + 1) >= future_values.size());
+}
+
/**
* Checks if the Thread associated with this thread ID has been explored from
* this Node already.
*/
bool Node::backtrack_empty()
{
- return numBacktracks == 0;
+ return (numBacktracks == 0);
}
/**
- * Mark the appropriate backtracking infromation for exploring a thread choice.
+ * Checks whether the readsfrom set for this node is empty.
+ * @return true if the readsfrom set is empty.
+ */
+bool Node::read_from_empty() {
+ return ((read_from_index+1) >= may_read_from.size());
+}
+
+/**
+ * Mark the appropriate backtracking information for exploring a thread choice.
* @param act The ModelAction to explore
*/
void Node::explore_child(ModelAction *act)
thread_id_t Node::get_next_backtrack()
{
- /* TODO: find next backtrack */
+ /** @todo Find next backtrack */
unsigned int i;
for (i = 0; i < backtrack.size(); i++)
if (backtrack[i] == true)
break;
- if (i >= backtrack.size())
- return THREAD_ID_T_NONE;
+ /* Backtrack set was empty? */
+ ASSERT(i != backtrack.size());
+
backtrack[i] = false;
numBacktracks--;
return int_to_id(i);
bool Node::is_enabled(Thread *t)
{
- return id_to_int(t->get_id()) < num_threads;
+ int thread_id=id_to_int(t->get_id());
+ return thread_id < num_threads && enabled_array[thread_id];
}
/**
may_read_from.push_back(act);
}
+/**
+ * Gets the next 'future_value' value from this Node. Only valid for a node
+ * where this->action is a 'read'.
+ * @return The first element in future_values
+ */
+uint64_t Node::get_future_value() {
+ ASSERT(future_index<future_values.size());
+ return future_values[future_index].value;
+}
+
+modelclock_t Node::get_future_value_expiration() {
+ ASSERT(future_index<future_values.size());
+ return future_values[future_index].expiration;
+}
+
+
+int Node::get_read_from_size() {
+ return may_read_from.size();
+}
+
+const ModelAction * Node::get_read_from_at(int i) {
+ return may_read_from[i];
+}
+
+/**
+ * Gets the next 'may_read_from' action from this Node. Only valid for a node
+ * where this->action is a 'read'.
+ * @return The first element in may_read_from
+ */
+const ModelAction * Node::get_read_from() {
+ if (read_from_index < may_read_from.size())
+ return may_read_from[read_from_index];
+ else
+ return NULL;
+}
+
+/**
+ * Increments the index into the readsfrom set to explore the next item.
+ * @return Returns false if we have explored all items.
+ */
+bool Node::increment_read_from() {
+ read_from_index++;
+ return (read_from_index < may_read_from.size());
+}
+
+/**
+ * Increments the index into the future_values set to explore the next item.
+ * @return Returns false if we have explored all values.
+ */
+bool Node::increment_future_value() {
+ future_index++;
+ return (future_index < future_values.size());
+}
+
void Node::explore(thread_id_t tid)
{
int i = id_to_int(tid);
}
static void clear_node_list(node_list_t *list, node_list_t::iterator start,
- node_list_t::iterator end)
+ node_list_t::iterator end)
{
node_list_t::iterator it;
printf("............................................\n");
}
-ModelAction * NodeStack::explore_action(ModelAction *act)
+ModelAction * NodeStack::explore_action(ModelAction *act, bool * is_enabled)
{
DBG();
ASSERT(!node_list.empty());
+ node_list_t::iterator it=iter;
+ it++;
- if (get_head()->has_been_explored(act->get_tid())) {
+ if (it != node_list.end()) {
iter++;
return (*iter)->get_action();
}
- /* Diverging from previous execution; clear out remainder of list */
- node_list_t::iterator it = iter;
- it++;
- clear_node_list(&node_list, it, node_list.end());
-
/* Record action */
get_head()->explore_child(act);
- node_list.push_back(new Node(act, get_head(), model->get_num_threads()));
+ node_list.push_back(new Node(act, get_head(), model->get_num_threads(), is_enabled));
total_nodes++;
iter++;
return NULL;
}
+/**
+ * Empties the stack of all trailing nodes after a given position and calls the
+ * destructor for each. This function is provided an offset which determines
+ * how many nodes (relative to the current replay state) to save before popping
+ * the stack.
+ * @param numAhead gives the number of Nodes (including this Node) to skip over
+ * before removing nodes.
+ */
+void NodeStack::pop_restofstack(int numAhead)
+{
+ /* Diverging from previous execution; clear out remainder of list */
+ node_list_t::iterator it = iter;
+ while (numAhead--)
+ it++;
+ clear_node_list(&node_list, it, node_list.end());
+}
+
Node * NodeStack::get_head()
{
if (node_list.empty())
projects / model-checker.git / blobdiff