3 FuncNode::FuncNode(ModelHistory * history) :
5 predicate_tree_initialized(false),
12 predicate_tree_position()
14 predicate_tree_entry = new Predicate(NULL, true);
15 predicate_tree_entry->add_predicate_expr(NOPREDICATE, NULL, true);
17 // memories that are reclaimed after each execution
18 read_locations = new loc_set_t();
19 val_loc_map = new HashTable<uint64_t, loc_set_t *, uint64_t, 0>();
20 loc_may_equal_map = new HashTable<void *, loc_set_t *, uintptr_t, 0>();
21 //values_may_read_from = new value_set_t();
24 /* Reallocate snapshotted memories when new executions start */
25 void FuncNode::set_new_exec_flag()
27 // for (uint i = 0; i < thrd_read_map.size(); i++)
28 // thrd_read_map[i] = new read_map_t();
30 for (mllnode<FuncInst *> * it = inst_list.begin(); it != NULL; it = it->getNext()) {
31 FuncInst * inst = it->getVal();
32 inst->unset_location();
35 read_locations = new loc_set_t();
36 val_loc_map = new HashTable<uint64_t, loc_set_t *, uint64_t, 0>();
37 loc_may_equal_map = new HashTable<void *, loc_set_t *, uintptr_t, 0>();
38 //values_may_read_from = new value_set_t();
41 /* Check whether FuncInst with the same type, position, and location
42 * as act has been added to func_inst_map or not. If not, add it.
44 * Note: currently, actions with the same position are filtered out by process_action,
45 * so the collision list of FuncInst is not used. May remove it later.
47 void FuncNode::add_inst(ModelAction *act)
50 const char * position = act->get_position();
52 /* THREAD* actions, ATOMIC_LOCK, ATOMIC_TRYLOCK, and ATOMIC_UNLOCK
53 * actions are not tagged with their source line numbers
58 if ( func_inst_map.contains(position) ) {
59 FuncInst * inst = func_inst_map.get(position);
61 ASSERT(inst->get_type() == act->get_type());
63 // locations are set to NULL when new executions start
64 if (inst->get_location() == NULL)
65 inst->set_location(act->get_location());
67 if (inst->get_location() != act->get_location())
68 inst->not_single_location();
73 FuncInst * func_inst = new FuncInst(act, this);
75 func_inst_map.put(position, func_inst);
76 inst_list.push_back(func_inst);
79 /* Get the FuncInst with the same type, position, and location
82 * @return FuncInst with the same type, position, and location as act */
83 FuncInst * FuncNode::get_inst(ModelAction *act)
86 const char * position = act->get_position();
88 /* THREAD* actions, ATOMIC_LOCK, ATOMIC_TRYLOCK, and ATOMIC_UNLOCK
89 * actions are not tagged with their source line numbers
94 FuncInst * inst = func_inst_map.get(position);
98 action_type inst_type = inst->get_type();
99 action_type act_type = act->get_type();
101 // else if branch: an RMWRCAS action is converted to a RMW or READ action
102 if (inst_type == act_type)
104 else if (inst_type == ATOMIC_RMWRCAS &&
105 (act_type == ATOMIC_RMW || act_type == ATOMIC_READ))
112 void FuncNode::add_entry_inst(FuncInst * inst)
117 mllnode<FuncInst *> * it;
118 for (it = entry_insts.begin(); it != NULL; it = it->getNext()) {
119 if (inst == it->getVal())
123 entry_insts.push_back(inst);
127 * @brief Convert ModelAdtion list to FuncInst list
128 * @param act_list A list of ModelActions
130 void FuncNode::update_tree(action_list_t * act_list)
132 if (act_list == NULL || act_list->size() == 0)
135 HashTable<void *, value_set_t *, uintptr_t, 4> * write_history = history->getWriteHistory();
137 /* build inst_list from act_list for later processing */
138 func_inst_list_t inst_list;
139 action_list_t read_act_list;
141 for (sllnode<ModelAction *> * it = act_list->begin(); it != NULL; it = it->getNext()) {
142 ModelAction * act = it->getVal();
143 FuncInst * func_inst = get_inst(act);
145 if (func_inst == NULL)
148 inst_list.push_back(func_inst);
150 if (func_inst->is_read()) {
151 read_act_list.push_back(act);
153 /* If func_inst may only read_from a single location, then:
155 * The first time an action reads from some location, import all the values that have
156 * been written to this location from ModelHistory and notify ModelHistory that this
157 * FuncNode may read from this location
159 void * loc = act->get_location();
160 if (!read_locations->contains(loc) && func_inst->is_single_location()) {
161 read_locations->add(loc);
162 value_set_t * write_values = write_history->get(loc);
163 add_to_val_loc_map(write_values, loc);
164 history->add_to_loc_func_nodes_map(loc, this);
169 // model_print("function %s\n", func_name);
170 // print_val_loc_map();
172 update_inst_tree(&inst_list);
173 update_predicate_tree(&read_act_list);
175 // print_predicate_tree();
179 * @brief Link FuncInsts in inst_list - add one FuncInst to another's predecessors and successors
180 * @param inst_list A list of FuncInsts
182 void FuncNode::update_inst_tree(func_inst_list_t * inst_list)
184 if (inst_list == NULL)
186 else if (inst_list->size() == 0)
190 sllnode<FuncInst *>* it = inst_list->begin();
191 sllnode<FuncInst *>* prev;
193 /* add the first instruction to the list of entry insts */
194 FuncInst * entry_inst = it->getVal();
195 add_entry_inst(entry_inst);
199 prev = it->getPrev();
201 FuncInst * prev_inst = prev->getVal();
202 FuncInst * curr_inst = it->getVal();
204 prev_inst->add_succ(curr_inst);
205 curr_inst->add_pred(prev_inst);
211 /* @param tid thread id
212 * Store the values read by atomic read actions into thrd_read_map */
213 void FuncNode::store_read(ModelAction * act, thread_id_t tid)
218 void * location = act->get_location();
219 uint64_t read_from_val = act->get_reads_from_value();
221 // resize and initialize
222 uint32_t old_size = thrd_read_map.size();
223 if (old_size <= tid) {
224 thrd_read_map.resize(tid + 1);
225 for (uint32_t i = old_size; i < tid + 1;i++)
226 thrd_read_map[i] = new read_map_t();
229 read_map_t * read_map = thrd_read_map[tid];
230 read_map->put(location, read_from_val);
234 uint64_t FuncNode::query_last_read(void * location, thread_id_t tid)
237 if (thrd_read_map.size() <= tid)
240 read_map_t * read_map = thrd_read_map[tid];
242 // last read value not found
243 if ( !read_map->contains(location) )
246 uint64_t read_val = read_map->get(location);
251 /* @param tid thread id
252 * Reset read map for a thread. This function shall only be called
253 * when a thread exits a function
255 void FuncNode::clear_read_map(thread_id_t tid)
258 if (thrd_read_map.size() <= tid)
261 thrd_read_map[tid]->reset();
265 void FuncNode::update_predicate_tree(action_list_t * act_list)
267 if (act_list == NULL || act_list->size() == 0)
270 /* map a FuncInst to the its predicate */
271 HashTable<FuncInst *, Predicate *, uintptr_t, 0> inst_pred_map(128);
273 // number FuncInsts to detect loops
274 HashTable<FuncInst *, uint32_t, uintptr_t, 0> inst_id_map(128);
275 uint32_t inst_counter = 0;
277 HashTable<void *, ModelAction *, uintptr_t, 0> loc_act_map(128);
278 HashTable<FuncInst *, ModelAction *, uintptr_t, 0> inst_act_map(128);
280 sllnode<ModelAction *> *it = act_list->begin();
281 Predicate * curr_pred = predicate_tree_entry;
283 ModelAction * next_act = it->getVal();
284 FuncInst * next_inst = get_inst(next_act);
286 SnapVector<Predicate *> unset_predicates = SnapVector<Predicate *>();
287 bool branch_found = follow_branch(&curr_pred, next_inst, next_act, &inst_act_map, &unset_predicates);
289 // no predicate expressions
290 if (!branch_found && unset_predicates.size() != 0) {
291 ASSERT(unset_predicates.size() == 1);
292 Predicate * one_branch = unset_predicates[0];
294 bool amended = amend_predicate_expr(&curr_pred, next_inst, next_act);
298 curr_pred = one_branch;
304 if (!branch_found && inst_id_map.contains(next_inst)) {
305 FuncInst * curr_inst = curr_pred->get_func_inst();
306 uint32_t curr_id = inst_id_map.get(curr_inst);
307 uint32_t next_id = inst_id_map.get(next_inst);
309 if (curr_id >= next_id) {
310 Predicate * old_pred = inst_pred_map.get(next_inst);
311 Predicate * back_pred = old_pred->get_parent();
313 curr_pred->add_backedge(back_pred);
314 curr_pred = back_pred;
320 // generate new branches
322 SnapVector<struct half_pred_expr *> half_pred_expressions;
323 void * loc = next_act->get_location();
325 if ( loc_act_map.contains(loc) ) {
326 ModelAction * last_act = loc_act_map.get(loc);
327 FuncInst * last_inst = get_inst(last_act);
328 struct half_pred_expr * expression = new half_pred_expr(EQUALITY, last_inst);
329 half_pred_expressions.push_back(expression);
330 } else if ( next_inst->is_single_location() ){
331 loc_set_t * loc_may_equal = loc_may_equal_map->get(loc);
333 if (loc_may_equal != NULL) {
334 loc_set_iter * loc_it = loc_may_equal->iterator();
335 while (loc_it->hasNext()) {
336 void * neighbor = loc_it->next();
337 if (loc_act_map.contains(neighbor)) {
338 ModelAction * last_act = loc_act_map.get(neighbor);
339 FuncInst * last_inst = get_inst(last_act);
341 struct half_pred_expr * expression = new half_pred_expr(EQUALITY, last_inst);
342 half_pred_expressions.push_back(expression);
347 // next_inst is not single location
348 uint64_t read_val = next_act->get_reads_from_value();
350 // only generate NULLITY predicate when it is actually NULL.
351 if ( (void*)read_val == NULL) {
352 struct half_pred_expr * expression = new half_pred_expr(NULLITY, NULL);
353 half_pred_expressions.push_back(expression);
357 if (half_pred_expressions.size() == 0) {
358 // no predicate needs to be generated
359 Predicate * new_pred = new Predicate(next_inst);
360 curr_pred->add_child(new_pred);
361 new_pred->set_parent(curr_pred);
363 if (curr_pred->is_entry_predicate())
364 new_pred->add_predicate_expr(NOPREDICATE, NULL, true);
366 curr_pred = new_pred;
368 generate_predicate(&curr_pred, next_inst, &half_pred_expressions);
369 bool branch_found = follow_branch(&curr_pred, next_inst, next_act, &inst_act_map, NULL);
370 ASSERT(branch_found);
374 inst_pred_map.put(next_inst, curr_pred);
375 if (!inst_id_map.contains(next_inst))
376 inst_id_map.put(next_inst, inst_counter++);
378 loc_act_map.put(next_act->get_location(), next_act);
379 inst_act_map.put(next_inst, next_act);
384 /* Given curr_pred and next_inst, find the branch following curr_pred that
385 * contains next_inst and the correct predicate.
386 * @return true if branch found, false otherwise.
388 bool FuncNode::follow_branch(Predicate ** curr_pred, FuncInst * next_inst, ModelAction * next_act,
389 HashTable<FuncInst *, ModelAction *, uintptr_t, 0> * inst_act_map,
390 SnapVector<Predicate *> * unset_predicates)
392 /* check if a branch with func_inst and corresponding predicate exists */
393 bool branch_found = false;
394 ModelVector<Predicate *> * branches = (*curr_pred)->get_children();
395 for (uint i = 0; i < branches->size(); i++) {
396 Predicate * branch = (*branches)[i];
397 if (branch->get_func_inst() != next_inst)
400 /* check against predicate expressions */
401 bool predicate_correct = true;
402 PredExprSet * pred_expressions = branch->get_pred_expressions();
403 PredExprSetIter * pred_expr_it = pred_expressions->iterator();
405 if (pred_expressions->getSize() == 0) {
406 predicate_correct = false;
407 unset_predicates->push_back(branch);
410 while (pred_expr_it->hasNext()) {
411 pred_expr * pred_expression = pred_expr_it->next();
412 uint64_t last_read, next_read;
415 switch(pred_expression->token) {
417 predicate_correct = true;
420 FuncInst * to_be_compared;
421 ModelAction * last_act;
423 to_be_compared = pred_expression->func_inst;
424 last_act = inst_act_map->get(to_be_compared);
426 last_read = last_act->get_reads_from_value();
427 next_read = next_act->get_reads_from_value();
428 equality = (last_read == next_read);
429 if (equality != pred_expression->value)
430 predicate_correct = false;
434 next_read = next_act->get_reads_from_value();
435 equality = ((void*)next_read == NULL);
436 if (equality != pred_expression->value)
437 predicate_correct = false;
440 predicate_correct = false;
441 model_print("unkown predicate token\n");
446 if (predicate_correct) {
456 /* Able to generate complex predicates when there are multiple predciate expressions */
457 void FuncNode::generate_predicate(Predicate ** curr_pred, FuncInst * next_inst,
458 SnapVector<struct half_pred_expr *> * half_pred_expressions)
460 ASSERT(half_pred_expressions->size() != 0);
461 SnapVector<Predicate *> predicates;
463 struct half_pred_expr * half_expr = (*half_pred_expressions)[0];
464 predicates.push_back(new Predicate(next_inst));
465 predicates.push_back(new Predicate(next_inst));
467 predicates[0]->add_predicate_expr(half_expr->token, half_expr->func_inst, true);
468 predicates[1]->add_predicate_expr(half_expr->token, half_expr->func_inst, false);
470 for (uint i = 1; i < half_pred_expressions->size(); i++) {
471 half_expr = (*half_pred_expressions)[i];
473 uint old_size = predicates.size();
474 for (uint j = 0; j < old_size; j++) {
475 Predicate * pred = predicates[j];
476 Predicate * new_pred = new Predicate(next_inst);
477 new_pred->copy_predicate_expr(pred);
479 pred->add_predicate_expr(half_expr->token, half_expr->func_inst, true);
480 new_pred->add_predicate_expr(half_expr->token, half_expr->func_inst, false);
482 predicates.push_back(new_pred);
486 for (uint i = 0; i < predicates.size(); i++) {
487 Predicate * pred= predicates[i];
488 (*curr_pred)->add_child(pred);
489 pred->set_parent(*curr_pred);
493 /* Amend predicates that contain no predicate expressions. Currenlty only amend with NULLITY predicates */
494 bool FuncNode::amend_predicate_expr(Predicate ** curr_pred, FuncInst * next_inst, ModelAction * next_act)
496 // there should only be only child
497 Predicate * unset_pred = (*curr_pred)->get_children()->back();
498 uint64_t read_val = next_act->get_reads_from_value();
500 // only generate NULLITY predicate when it is actually NULL.
501 if ( !next_inst->is_single_location() && (void*)read_val == NULL ) {
502 Predicate * new_pred = new Predicate(next_inst);
504 (*curr_pred)->add_child(new_pred);
505 new_pred->set_parent(*curr_pred);
507 unset_pred->add_predicate_expr(NULLITY, NULL, false);
508 new_pred->add_predicate_expr(NULLITY, NULL, true);
516 void FuncNode::add_to_val_loc_map(uint64_t val, void * loc)
518 loc_set_t * locations = val_loc_map->get(val);
520 if (locations == NULL) {
521 locations = new loc_set_t();
522 val_loc_map->put(val, locations);
525 update_loc_may_equal_map(loc, locations);
527 // values_may_read_from->add(val);
530 void FuncNode::add_to_val_loc_map(value_set_t * values, void * loc)
535 value_set_iter * it = values->iterator();
536 while (it->hasNext()) {
537 uint64_t val = it->next();
538 add_to_val_loc_map(val, loc);
542 void FuncNode::update_loc_may_equal_map(void * new_loc, loc_set_t * old_locations)
544 if ( old_locations->contains(new_loc) )
547 loc_set_t * neighbors = loc_may_equal_map->get(new_loc);
549 if (neighbors == NULL) {
550 neighbors = new loc_set_t();
551 loc_may_equal_map->put(new_loc, neighbors);
554 loc_set_iter * loc_it = old_locations->iterator();
555 while (loc_it->hasNext()) {
556 // new_loc: { old_locations, ... }
557 void * member = loc_it->next();
558 neighbors->add(member);
560 // for each i in old_locations, i : { new_loc, ... }
561 loc_set_t * _neighbors = loc_may_equal_map->get(member);
562 if (_neighbors == NULL) {
563 _neighbors = new loc_set_t();
564 loc_may_equal_map->put(member, _neighbors);
566 _neighbors->add(new_loc);
570 void FuncNode::init_predicate_tree_position(thread_id_t tid)
572 uint thread_id = id_to_int(tid);
573 if (predicate_tree_position.size() <= thread_id)
574 predicate_tree_position.resize(thread_id + 1);
576 predicate_tree_position[thread_id] = predicate_tree_entry;
579 void FuncNode::unset_predicate_tree_position(thread_id_t tid)
581 uint thread_id = id_to_int(tid);
582 predicate_tree_position[thread_id] = NULL;
585 Predicate * FuncNode::get_predicate_tree_position(thread_id_t tid)
587 uint thread_id = id_to_int(tid);
588 return predicate_tree_position[thread_id];
591 void FuncNode::print_predicate_tree()
593 model_print("digraph function_%s {\n", func_name);
594 predicate_tree_entry->print_pred_subtree();
595 model_print("}\n"); // end of graph
598 void FuncNode::print_val_loc_map()
601 value_set_iter * val_it = values_may_read_from->iterator();
602 while (val_it->hasNext()) {
603 uint64_t value = val_it->next();
604 model_print("val %llx: ", value);
606 loc_set_t * locations = val_loc_map->get(value);
607 loc_set_iter * loc_it = locations->iterator();
608 while (loc_it->hasNext()) {
609 void * location = loc_it->next();
610 model_print("%p ", location);
617 /* @param tid thread id
618 * Print the values read by the last read actions for each memory location
621 void FuncNode::print_last_read(thread_id_t tid)
623 ASSERT(thrd_read_map.size() > tid);
624 read_map_t * read_map = thrd_read_map[tid];
626 mllnode<void *> * it;
627 for (it = read_locations.begin();it != NULL;it=it->getNext()) {
628 if ( !read_map->contains(it->getVal()) )
631 uint64_t read_val = read_map->get(it->getVal());
632 model_print("last read of thread %d at %p: 0x%x\n", tid, it->getVal(), read_val);