#include "history.h"
#include "action.h"
#include "funcnode.h"
+#include "funcinst.h"
#include "common.h"
+#include "concretepredicate.h"
+#include "waitobj.h"
#include "model.h"
#include "execution.h"
func_counter(1), /* function id starts with 1 */
func_map(),
func_map_rev(),
- func_nodes(),
- write_history(), // snapshot data structure
- loc_func_nodes_map() // shapshot data structure
-{}
+ func_nodes()
+{
+ /* The following are snapshot data structures */
+ write_history = new HashTable<void *, value_set_t *, uintptr_t, 0>();
+ loc_rd_func_nodes_map = new HashTable<void *, SnapVector<FuncNode *> *, uintptr_t, 0>();
+ loc_wr_func_nodes_map = new HashTable<void *, SnapVector<FuncNode *> *, uintptr_t, 0>();
+ loc_waiting_writes_map = new HashTable<void *, SnapVector<ConcretePredicate *> *, uintptr_t, 0>();
+ thrd_waiting_write = new SnapVector<ConcretePredicate *>();
+ thrd_wait_obj = new SnapVector<WaitObj *>();
+ func_inst_act_maps = new HashTable<uint32_t, SnapVector<inst_act_map_t *> *, int, 0>(128);
+}
+
+ModelHistory::~ModelHistory()
+{
+ // TODO: complete deconstructor; maybe not needed
+ for (uint i = 0;i < thrd_wait_obj->size();i++)
+ delete (*thrd_wait_obj)[i];
+}
void ModelHistory::enter_function(const uint32_t func_id, thread_id_t tid)
{
//model_print("thread %d entering func %d\n", tid, func_id);
+ ModelExecution * execution = model->get_execution();
uint id = id_to_int(tid);
- SnapVector<func_id_list_t> * thrd_func_list = model->get_execution()->get_thrd_func_list();
+
+ SnapVector<func_id_list_t> * thrd_func_list = execution->get_thrd_func_list();
SnapVector< SnapList<action_list_t *> *> *
- thrd_func_act_lists = model->get_execution()->get_thrd_func_act_lists();
+ thrd_func_act_lists = execution->get_thrd_func_act_lists();
+ SnapVector<uint32_t> * thrd_last_entered_func = execution->get_thrd_last_entered_func();
if ( thrd_func_list->size() <= id ) {
uint oldsize = thrd_func_list->size();
thrd_func_list->resize( id + 1 );
- for (uint i = oldsize; i < id + 1; i++) {
- new (&(*thrd_func_list)[i]) func_id_list_t();
+ thrd_func_act_lists->resize( id + 1 );
+
+ for (uint i = oldsize;i < id + 1;i++) {
// push 0 as a dummy function id to a void seg fault
+ new (&(*thrd_func_list)[i]) func_id_list_t();
(*thrd_func_list)[i].push_back(0);
- }
- thrd_func_act_lists->resize( id + 1 );
- for (uint i = oldsize; i < id + 1; i++) {
(*thrd_func_act_lists)[i] = new SnapList<action_list_t *>();
+ thrd_last_entered_func->push_back(0);
}
}
SnapList<action_list_t *> * func_act_lists = (*thrd_func_act_lists)[id];
+ func_act_lists->push_back( new action_list_t() );
+ uint32_t last_entered_func_id = (*thrd_last_entered_func)[id];
+ (*thrd_last_entered_func)[id] = func_id;
(*thrd_func_list)[id].push_back(func_id);
- func_act_lists->push_back( new action_list_t() );
if ( func_nodes.size() <= func_id )
resize_func_nodes( func_id + 1 );
FuncNode * func_node = func_nodes[func_id];
func_node->init_predicate_tree_position(tid);
func_node->init_inst_act_map(tid);
+
+ /* Add edges between FuncNodes */
+ if (last_entered_func_id != 0) {
+ FuncNode * last_func_node = func_nodes[last_entered_func_id];
+ last_func_node->add_out_edge(func_node);
+ }
+
+ /* Monitor the statuses of threads waiting for tid */
+ monitor_waiting_thread(func_id, tid);
}
/* @param func_id a non-zero value */
void ModelHistory::exit_function(const uint32_t func_id, thread_id_t tid)
{
+ ModelExecution * execution = model->get_execution();
uint32_t id = id_to_int(tid);
- SnapVector<func_id_list_t> * thrd_func_list = model->get_execution()->get_thrd_func_list();
+ SnapVector<func_id_list_t> * thrd_func_list = execution->get_thrd_func_list();
SnapVector< SnapList<action_list_t *> *> *
- thrd_func_act_lists = model->get_execution()->get_thrd_func_act_lists();
+ thrd_func_act_lists = execution->get_thrd_func_act_lists();
SnapList<action_list_t *> * func_act_lists = (*thrd_func_act_lists)[id];
uint32_t last_func_id = (*thrd_func_list)[id].back();
FuncNode * func_node = func_nodes[func_id];
func_node->set_predicate_tree_position(tid, NULL);
func_node->reset_inst_act_map(tid);
- //func_node->clear_read_map(tid);
action_list_t * curr_act_list = func_act_lists->back();
- /* defer the processing of curr_act_list until the function has exits a few times
+ /* defer the processing of curr_act_list until the function has exits a few times
* (currently twice) so that more information can be gathered to infer nullity predicates.
*/
func_node->incr_exit_count();
if (func_node->get_exit_count() >= 2) {
- ModelList<action_list_t *> * action_list_buffer = func_node->get_action_list_buffer();
+ SnapList<action_list_t *> * action_list_buffer = func_node->get_action_list_buffer();
while (action_list_buffer->size() > 0) {
action_list_t * act_list = action_list_buffer->back();
action_list_buffer->pop_back();
if ( old_size < new_size )
func_nodes.resize(new_size);
- for (uint32_t id = old_size; id < new_size; id++) {
+ for (uint32_t id = old_size;id < new_size;id++) {
const char * func_name = func_map_rev[id];
FuncNode * func_node = new FuncNode(this);
func_node->set_func_id(id);
void ModelHistory::process_action(ModelAction *act, thread_id_t tid)
{
- /* return if thread i has not entered any function or has exited
- from all functions */
- SnapVector<func_id_list_t> * thrd_func_list = model->get_execution()->get_thrd_func_list();
+ ModelExecution * execution = model->get_execution();
+ SnapVector<func_id_list_t> * thrd_func_list = execution->get_thrd_func_list();
SnapVector< SnapList<action_list_t *> *> *
- thrd_func_act_lists = model->get_execution()->get_thrd_func_act_lists();
+ thrd_func_act_lists = execution->get_thrd_func_act_lists();
- uint32_t id = id_to_int(tid);
- if ( thrd_func_list->size() <= id )
+ uint32_t thread_id = id_to_int(tid);
+ /* Return if thread tid has not entered any function that contains atomics */
+ if ( thrd_func_list->size() <= thread_id )
return;
- /* get the function id that thread i is currently in */
- uint32_t func_id = (*thrd_func_list)[id].back();
- SnapList<action_list_t *> * func_act_lists = (*thrd_func_act_lists)[id];
+ /* Monitor the statuses of threads waiting for tid */
+ monitor_waiting_thread_counter(tid);
+ /* Every write action should be processed, including
+ * nonatomic writes (which have no position) */
if (act->is_write()) {
void * location = act->get_location();
uint64_t value = act->get_write_value();
- add_to_write_history(location, value);
-
- /* update FuncNodes */
- SnapList<FuncNode *> * func_nodes = loc_func_nodes_map.get(location);
- sllnode<FuncNode *> * it = NULL;
- if (func_nodes != NULL)
- it = func_nodes->begin();
+ update_write_history(location, value);
- for (; it != NULL; it = it->getNext()) {
- FuncNode * func_node = it->getVal();
+ /* Notify FuncNodes that may read from this location */
+ SnapVector<FuncNode *> * func_node_list = getRdFuncNodes(location);
+ for (uint i = 0;i < func_node_list->size();i++) {
+ FuncNode * func_node = (*func_node_list)[i];
func_node->add_to_val_loc_map(value, location);
}
+
+ check_waiting_write(act);
}
- /* the following does not care about actions without a position */
+ uint32_t func_id = (*thrd_func_list)[thread_id].back();
+
+ /* The following does not care about actions that are not inside
+ * any function that contains atomics or actions without a position */
if (func_id == 0 || act->get_position() == NULL)
return;
- bool second_part_of_rmw = act->is_rmwc() || act->is_rmw();
+ SnapList<action_list_t *> * func_act_lists = (*thrd_func_act_lists)[thread_id];
+ /* The list of actions that thread tid has taken in its current function */
action_list_t * curr_act_list = func_act_lists->back();
- ASSERT(curr_act_list != NULL);
-
- ModelAction * last_act = NULL;
- if (curr_act_list->size() != 0)
- last_act = curr_act_list->back();
- // skip actions that are second part of a read modify write or actions with the same sequence number
- if (second_part_of_rmw ||
- (last_act != NULL && last_act->get_seq_number() == act->get_seq_number()) )
+ if (skip_action(act, curr_act_list))
return;
- if ( func_nodes.size() <= func_id )
- resize_func_nodes( func_id + 1 );
+ /* Add to curr_inst_list */
+ curr_act_list->push_back(act);
FuncNode * func_node = func_nodes[func_id];
-
- /* add to curr_inst_list */
- curr_act_list->push_back(act);
func_node->add_inst(act);
if (act->is_read()) {
func_node->update_inst_act_map(tid, act);
-
- Fuzzer * fuzzer = model->get_execution()->getFuzzer();
- Predicate * selected_branch = fuzzer->get_selected_child_branch(tid);
- func_node->set_predicate_tree_position(tid, selected_branch);
- //func_node->store_read(act, tid);
}
}
-/* return the FuncNode given its func_id */
+/* Return the FuncNode given its func_id */
FuncNode * ModelHistory::get_func_node(uint32_t func_id)
{
- if (func_nodes.size() <= func_id) // this node has not been added to func_nodes
+ if (func_id == 0)
+ return NULL;
+
+ // This node has not been added to func_nodes
+ if (func_nodes.size() <= func_id)
return NULL;
return func_nodes[func_id];
}
-/*
-uint64_t ModelHistory::query_last_read(void * location, thread_id_t tid)
+/* Return the current FuncNode when given a thread id */
+FuncNode * ModelHistory::get_curr_func_node(thread_id_t tid)
{
- SnapVector<func_id_list_t> * thrd_func_list = model->get_execution()->get_thrd_func_list();
- uint32_t id = id_to_int(tid);
+ int thread_id = id_to_int(tid);
+ SnapVector<func_id_list_t> * thrd_func_list = model->get_execution()->get_thrd_func_list();
+ uint32_t func_id = (*thrd_func_list)[thread_id].back();
- ASSERT( thrd_func_list->size() > id );
- uint32_t func_id = (*thrd_func_list)[id].back();
- FuncNode * func_node = func_nodes[func_id];
-
- uint64_t last_read_val = 0xdeadbeef;
- if (func_node != NULL) {
- last_read_val = func_node->query_last_read(location, tid);
+ if (func_id != 0) {
+ return func_nodes[func_id];
}
- return last_read_val;
+ return NULL;
}
-*/
-void ModelHistory::add_to_write_history(void * location, uint64_t write_val)
+void ModelHistory::update_write_history(void * location, uint64_t write_val)
{
- value_set_t * write_set = write_history.get(location);
+ value_set_t * write_set = write_history->get(location);
if (write_set == NULL) {
write_set = new value_set_t();
- write_history.put(location, write_set);
+ write_history->put(location, write_set);
}
write_set->add(write_val);
}
-void ModelHistory::add_to_loc_func_nodes_map(void * location, FuncNode * node)
+void ModelHistory::update_loc_rd_func_nodes_map(void * location, FuncNode * node)
+{
+ SnapVector<FuncNode *> * func_node_list = getRdFuncNodes(location);
+ func_node_list->push_back(node);
+}
+
+void ModelHistory::update_loc_wr_func_nodes_map(void * location, FuncNode * node)
+{
+ SnapVector<FuncNode *> * func_node_list = getWrFuncNodes(location);
+ func_node_list->push_back(node);
+}
+
+SnapVector<FuncNode *> * ModelHistory::getRdFuncNodes(void * location)
{
- SnapList<FuncNode *> * func_node_list = loc_func_nodes_map.get(location);
+ SnapVector<FuncNode *> * func_node_list = loc_rd_func_nodes_map->get(location);
if (func_node_list == NULL) {
- func_node_list = new SnapList<FuncNode *>();
- loc_func_nodes_map.put(location, func_node_list);
+ func_node_list = new SnapVector<FuncNode *>();
+ loc_rd_func_nodes_map->put(location, func_node_list);
}
- func_node_list->push_back(node);
+ return func_node_list;
+}
+
+SnapVector<FuncNode *> * ModelHistory::getWrFuncNodes(void * location)
+{
+ SnapVector<FuncNode *> * func_node_list = loc_wr_func_nodes_map->get(location);
+ if (func_node_list == NULL) {
+ func_node_list = new SnapVector<FuncNode *>();
+ loc_wr_func_nodes_map->put(location, func_node_list);
+ }
+
+ return func_node_list;
+}
+
+/* When a thread is paused by Fuzzer, keep track of the condition it is waiting for */
+void ModelHistory::add_waiting_write(ConcretePredicate * concrete)
+{
+ void * location = concrete->get_location();
+ SnapVector<ConcretePredicate *> * waiting_conditions = loc_waiting_writes_map->get(location);
+ if (waiting_conditions == NULL) {
+ waiting_conditions = new SnapVector<ConcretePredicate *>();
+ loc_waiting_writes_map->put(location, waiting_conditions);
+ }
+
+ /* waiting_conditions should not have duplications */
+ waiting_conditions->push_back(concrete);
+
+ int thread_id = id_to_int(concrete->get_tid());
+ if (thrd_waiting_write->size() <= (uint) thread_id) {
+ thrd_waiting_write->resize(thread_id + 1);
+ }
+
+ (*thrd_waiting_write)[thread_id] = concrete;
+}
+
+void ModelHistory::remove_waiting_write(thread_id_t tid)
+{
+ ConcretePredicate * concrete = (*thrd_waiting_write)[ id_to_int(tid) ];
+ void * location = concrete->get_location();
+ SnapVector<ConcretePredicate *> * concrete_preds = loc_waiting_writes_map->get(location);
+
+ /* Linear search should be fine because presumably not many ConcretePredicates
+ * are at the same memory location */
+ for (uint i = 0;i < concrete_preds->size();i++) {
+ ConcretePredicate * current = (*concrete_preds)[i];
+ if (concrete == current) {
+ (*concrete_preds)[i] = concrete_preds->back();
+ concrete_preds->pop_back();
+ break;
+ }
+ }
+
+ int thread_id = id_to_int( concrete->get_tid() );
+ (*thrd_waiting_write)[thread_id] = NULL;
+ delete concrete;
+}
+
+/* Check if any other thread is waiting for this write action. If so, "notify" them */
+void ModelHistory::check_waiting_write(ModelAction * write_act)
+{
+ void * location = write_act->get_location();
+ uint64_t value = write_act->get_write_value();
+ SnapVector<ConcretePredicate *> * concrete_preds = loc_waiting_writes_map->get(location);
+ if (concrete_preds == NULL)
+ return;
+
+ uint index = 0;
+ while (index < concrete_preds->size()) {
+ ConcretePredicate * concrete_pred = (*concrete_preds)[index];
+ SnapVector<struct concrete_pred_expr> * concrete_exprs = concrete_pred->getExpressions();
+ bool satisfy_predicate = true;
+ /* Check if the written value satisfies every predicate expression */
+ for (uint i = 0;i < concrete_exprs->size();i++) {
+ struct concrete_pred_expr concrete = (*concrete_exprs)[i];
+ bool equality = false;
+ switch (concrete.token) {
+ case EQUALITY:
+ equality = (value == concrete.value);
+ break;
+ case NULLITY:
+ equality = ((void*)value == NULL);
+ break;
+ default:
+ model_print("unknown predicate token");
+ break;
+ }
+
+ if (equality != concrete.equality) {
+ satisfy_predicate = false;
+ break;
+ }
+ }
+
+ if (satisfy_predicate) {
+ /* Wake up threads */
+ thread_id_t tid = concrete_pred->get_tid();
+ Thread * thread = model->get_thread(tid);
+
+ //model_print("** thread %d is woken up\n", thread->get_id());
+ model->get_execution()->getFuzzer()->notify_paused_thread(thread);
+ }
+
+ index++;
+ }
+}
+
+WaitObj * ModelHistory::getWaitObj(thread_id_t tid)
+{
+ int thread_id = id_to_int(tid);
+ int old_size = thrd_wait_obj->size();
+ if (old_size <= thread_id) {
+ thrd_wait_obj->resize(thread_id + 1);
+ for (int i = old_size;i < thread_id + 1;i++) {
+ (*thrd_wait_obj)[i] = new WaitObj( int_to_id(i) );
+ }
+ }
+
+ return (*thrd_wait_obj)[thread_id];
+}
+
+void ModelHistory::add_waiting_thread(thread_id_t self_id,
+ thread_id_t waiting_for_id, FuncNode * target_node, int dist)
+{
+ WaitObj * self_wait_obj = getWaitObj(self_id);
+ self_wait_obj->add_waiting_for(waiting_for_id, target_node, dist);
+
+ /* Update waited-by relation */
+ WaitObj * other_wait_obj = getWaitObj(waiting_for_id);
+ other_wait_obj->add_waited_by(self_id);
+}
+
+/* Thread tid is woken up (or notified), so it is not waiting for others anymore */
+void ModelHistory::remove_waiting_thread(thread_id_t tid)
+{
+ WaitObj * self_wait_obj = getWaitObj(tid);
+ thrd_id_set_t * waiting_for = self_wait_obj->getWaitingFor();
+
+ /* Remove tid from waited_by's */
+ thrd_id_set_iter * iter = waiting_for->iterator();
+ while (iter->hasNext()) {
+ thread_id_t other_id = iter->next();
+ WaitObj * other_wait_obj = getWaitObj(other_id);
+ other_wait_obj->remove_waited_by(tid);
+ }
+
+ self_wait_obj->clear_waiting_for();
+}
+
+void ModelHistory::stop_waiting_for_node(thread_id_t self_id,
+ thread_id_t waiting_for_id, FuncNode * target_node)
+{
+ WaitObj * self_wait_obj = getWaitObj(self_id);
+ bool thread_removed = self_wait_obj->remove_waiting_for_node(waiting_for_id, target_node);
+
+ // model_print("\t%d gives up %d on node %d\n", self_id, waiting_for_id, target_node->get_func_id());
+
+ /* If thread self_id is not waiting for waiting_for_id anymore */
+ if (thread_removed) {
+ WaitObj * other_wait_obj = getWaitObj(waiting_for_id);
+ other_wait_obj->remove_waited_by(self_id);
+
+ thrd_id_set_t * self_waiting_for = self_wait_obj->getWaitingFor();
+ if ( self_waiting_for->isEmpty() ) {
+ // model_print("\tthread %d waits for nobody, wake up\n", self_id);
+ ModelExecution * execution = model->get_execution();
+ Thread * thread = execution->get_thread(self_id);
+ execution->getFuzzer()->notify_paused_thread(thread);
+ }
+ }
+}
+
+SnapVector<inst_act_map_t *> * ModelHistory::getThrdInstActMap(uint32_t func_id)
+{
+ ASSERT(func_id != 0);
+
+ SnapVector<inst_act_map_t *> * maps = func_inst_act_maps->get(func_id);
+ if (maps == NULL) {
+ maps = new SnapVector<inst_act_map_t *>();
+ func_inst_act_maps->put(func_id, maps);
+ }
+
+ return maps;
+}
+
+bool ModelHistory::skip_action(ModelAction * act, SnapList<ModelAction *> * curr_act_list)
+{
+ ASSERT(curr_act_list != NULL);
+
+ bool second_part_of_rmw = act->is_rmwc() || act->is_rmw();
+ modelclock_t curr_seq_number = act->get_seq_number();
+
+ /* Skip actions that are second part of a read modify write */
+ if (second_part_of_rmw)
+ return true;
+
+ /* Skip actions with the same sequence number */
+ if (curr_act_list->size() != 0) {
+ ModelAction * last_act = curr_act_list->back();
+ if (last_act->get_seq_number() == curr_seq_number)
+ return true;
+ }
+
+ /* Skip actions that are paused by fuzzer (sequence number is 0) */
+ if (curr_seq_number == 0)
+ return true;
+
+ return false;
+}
+
+/* Monitor thread tid and decide whether other threads (that are waiting for tid)
+ * should keep waiting for this thread or not. Shall only be called when a thread
+ * enters a function.
+ *
+ * Heuristics: If the distance from the current FuncNode to some target node
+ * ever increases, stop waiting for this thread on this target node.
+ */
+void ModelHistory::monitor_waiting_thread(uint32_t func_id, thread_id_t tid)
+{
+ WaitObj * wait_obj = getWaitObj(tid);
+ thrd_id_set_t * waited_by = wait_obj->getWaitedBy();
+ FuncNode * curr_node = func_nodes[func_id];
+
+ /* For each thread waiting for tid */
+ thrd_id_set_iter * tid_iter = waited_by->iterator();
+ while (tid_iter->hasNext()) {
+ thread_id_t waited_by_id = tid_iter->next();
+ WaitObj * other_wait_obj = getWaitObj(waited_by_id);
+
+ node_set_t * target_nodes = other_wait_obj->getTargetNodes(tid);
+ node_set_iter * node_iter = target_nodes->iterator();
+ while (node_iter->hasNext()) {
+ FuncNode * target = node_iter->next();
+ int old_dist = other_wait_obj->lookup_dist(tid, target);
+ int new_dist = curr_node->compute_distance(target, old_dist);
+
+ if (new_dist == -1) {
+ stop_waiting_for_node(waited_by_id, tid, target);
+ }
+ }
+ }
+}
+
+void ModelHistory::monitor_waiting_thread_counter(thread_id_t tid)
+{
+ WaitObj * wait_obj = getWaitObj(tid);
+ thrd_id_set_t * waited_by = wait_obj->getWaitedBy();
+
+ // Thread tid has taken an action, update the counter for threads waiting for tid
+ thrd_id_set_iter * tid_iter = waited_by->iterator();
+ while (tid_iter->hasNext()) {
+ thread_id_t waited_by_id = tid_iter->next();
+ WaitObj * other_wait_obj = getWaitObj(waited_by_id);
+
+ bool expire = other_wait_obj->incr_counter(tid);
+ if (expire) {
+// model_print("thread %d stops waiting for thread %d\n", waited_by_id, tid);
+ wait_obj->remove_waited_by(waited_by_id);
+ other_wait_obj->remove_waiting_for(tid);
+
+ thrd_id_set_t * other_waiting_for = other_wait_obj->getWaitingFor();
+ if ( other_waiting_for->isEmpty() ) {
+ // model_print("\tthread %d waits for nobody, wake up\n", self_id);
+ ModelExecution * execution = model->get_execution();
+ Thread * thread = execution->get_thread(waited_by_id);
+ execution->getFuzzer()->notify_paused_thread(thread);
+ }
+ }
+ }
}
/* Reallocate some snapshotted memories when new executions start */
void ModelHistory::set_new_exec_flag()
{
- for (uint i = 1; i < func_nodes.size(); i++) {
+ for (uint i = 1;i < func_nodes.size();i++) {
FuncNode * func_node = func_nodes[i];
func_node->set_new_exec_flag();
}
}
-void ModelHistory::print_write()
+void ModelHistory::dump_func_node_graph()
{
+ model_print("digraph func_node_graph {\n");
+ for (uint i = 1;i < func_nodes.size();i++) {
+ FuncNode * node = func_nodes[i];
+ ModelList<FuncNode *> * out_edges = node->get_out_edges();
+
+ model_print("\"%p\" [label=\"%s\"]\n", node, node->get_func_name());
+ mllnode<FuncNode *> * it;
+ for (it = out_edges->begin();it != NULL;it = it->getNext()) {
+ FuncNode * other = it->getVal();
+ model_print("\"%p\" -> \"%p\"\n", node, other);
+ }
+ }
+ model_print("}\n");
}
void ModelHistory::print_func_node()
{
/* function id starts with 1 */
- for (uint32_t i = 1; i < func_nodes.size(); i++) {
+ for (uint32_t i = 1;i < func_nodes.size();i++) {
FuncNode * func_node = func_nodes[i];
- func_inst_list_mt * entry_insts = func_node->get_entry_insts();
- model_print("function %s has entry actions\n", func_node->get_func_name());
-
- mllnode<FuncInst*>* it;
- for (it = entry_insts->begin();it != NULL;it=it->getNext()) {
- FuncInst *inst = it->getVal();
- model_print("type: %d, at: %s\n", inst->get_type(), inst->get_position());
- }
+ func_node->print_predicate_tree();
/*
- func_inst_list_mt * inst_list = funcNode->get_inst_list();
+ func_inst_list_mt * entry_insts = func_node->get_entry_insts();
+ model_print("function %s has entry actions\n", func_node->get_func_name());
- model_print("function %s has following actions\n", funcNode->get_func_name());
- func_inst_list_mt::iterator it;
- for (it = inst_list->begin(); it != inst_list->end(); it++) {
- FuncInst *inst = *it;
+ mllnode<FuncInst*>* it;
+ for (it = entry_insts->begin();it != NULL;it=it->getNext()) {
+ FuncInst *inst = it->getVal();
model_print("type: %d, at: %s\n", inst->get_type(), inst->get_position());
}
-*/
+ */
+ }
+}
+
+void ModelHistory::print_waiting_threads()
+{
+ ModelExecution * execution = model->get_execution();
+ for (unsigned int i = 0;i < execution->get_num_threads();i++) {
+ thread_id_t tid = int_to_id(i);
+ WaitObj * wait_obj = getWaitObj(tid);
+ wait_obj->print_waiting_for();
+ }
+
+ for (unsigned int i = 0;i < execution->get_num_threads();i++) {
+ thread_id_t tid = int_to_id(i);
+ WaitObj * wait_obj = getWaitObj(tid);
+ wait_obj->print_waited_by();
}
}