#include "scanalysis.h"
-#include "model.h"
+#include "action.h"
+#include "threads-model.h"
+#include "clockvector.h"
+#include "execution.h"
-SCAnalysis::SCAnalysis() {
+SCAnalysis::SCAnalysis(const ModelExecution *execution) :
+ cvmap(),
+ cycleset(),
+ threadlists(1),
+ execution(execution)
+{
}
-void SCAnalysis::analyze(action_list_t * actions) {
-
+SCAnalysis::~SCAnalysis() {
+}
+
+void SCAnalysis::print_list(action_list_t *list) {
+ action_list_t::iterator it;
+
+ model_print("---------------------------------------------------------------------\n");
+
+ unsigned int hash = 0;
+
+ for (it = list->begin(); it != list->end(); it++) {
+ const ModelAction *act = *it;
+ if (act->get_seq_number() > 0) {
+ if (cycleset.contains(act))
+ model_print("CYC");
+ act->print();
+ }
+ hash = hash ^ (hash << 3) ^ ((*it)->hash());
+ }
+ model_print("HASH %u\n", hash);
+ model_print("---------------------------------------------------------------------\n");
+}
+
+void SCAnalysis::analyze(action_list_t *actions) {
+ buildVectors(actions);
+ computeCV(actions);
+ action_list_t *list = generateSC(actions);
+ print_list(list);
+}
+
+bool SCAnalysis::merge(ClockVector *cv, const ModelAction *act, ClockVector *cv2) {
+ if (cv2->getClock(act->get_tid()) >= act->get_seq_number() && act->get_seq_number() != 0) {
+ cycleset.put(act, act);
+ }
+ return cv->merge(cv2);
+}
+
+ModelAction * SCAnalysis::getNextAction() {
+ ModelAction *act = NULL;
+ for (int i = 0; i <= maxthreads; i++) {
+ action_list_t *threadlist = &threadlists[i];
+ if (threadlist->empty())
+ continue;
+ ModelAction *first = threadlist->front();
+ if (act == NULL) {
+ act = first;
+ continue;
+ }
+ ClockVector *cv = cvmap.get(act);
+ if (cv->synchronized_since(first)) {
+ act = first;
+ }
+ }
+ if (act == NULL)
+ return act;
+ //print cycles in a nice way to avoid confusion
+ //make sure thread starts appear after the create
+ if (act->is_thread_start()) {
+ ModelAction *createact = execution->get_thread(act)->get_creation();
+ if (createact) {
+ action_list_t *threadlist = &threadlists[id_to_int(createact->get_tid())];
+ if (!threadlist->empty()) {
+ ModelAction *first = threadlist->front();
+ if (first->get_seq_number() <= createact->get_seq_number())
+ act = first;
+ }
+ }
+ }
+
+ //make sure that joins appear after the thread is finished
+ if (act->is_thread_join()) {
+ int jointhread = id_to_int(act->get_thread_operand()->get_id());
+ action_list_t *threadlist = &threadlists[jointhread];
+ if (!threadlist->empty()) {
+ act = threadlist->front();
+ }
+ }
+
+ return act;
+}
+
+action_list_t * SCAnalysis::generateSC(action_list_t *list) {
+ action_list_t *sclist = new action_list_t();
+ while (true) {
+ ModelAction *act = getNextAction();
+ if (act == NULL)
+ break;
+ thread_id_t tid = act->get_tid();
+ //remove action
+ threadlists[id_to_int(tid)].pop_front();
+ //add ordering constraints from this choice
+ if (updateConstraints(act)) {
+ //propagate changes if we have them
+ computeCV(list);
+ }
+ //add action to end
+ sclist->push_back(act);
+ }
+ return sclist;
+}
+
+void SCAnalysis::buildVectors(action_list_t *list) {
+ maxthreads = 0;
+ for (action_list_t::iterator it = list->begin(); it != list->end(); it++) {
+ ModelAction *act = *it;
+ int threadid = id_to_int(act->get_tid());
+ if (threadid > maxthreads) {
+ threadlists.resize(threadid + 1);
+ maxthreads = threadid;
+ }
+ threadlists[threadid].push_back(act);
+ }
+}
+
+bool SCAnalysis::updateConstraints(ModelAction *act) {
+ bool changed = false;
+ ClockVector *actcv = cvmap.get(act);
+ for (int i = 0; i <= maxthreads; i++) {
+ thread_id_t tid = int_to_id(i);
+ if (tid == act->get_tid())
+ continue;
+
+ action_list_t *list = &threadlists[id_to_int(tid)];
+ for (action_list_t::iterator rit = list->begin(); rit != list->end(); rit++) {
+ ModelAction *write = *rit;
+ if (!write->is_write())
+ continue;
+ ClockVector *writecv = cvmap.get(write);
+ if (writecv->synchronized_since(act))
+ break;
+ if (write->get_location() == act->get_location()) {
+ //write is sc after act
+ merge(writecv, write, actcv);
+ changed = true;
+ break;
+ }
+ }
+ }
+ return changed;
+}
+
+bool SCAnalysis::processRead(ModelAction *read, ClockVector *cv) {
+ bool changed = false;
+
+ /* Merge in the clock vector from the write */
+ const ModelAction *write = read->get_reads_from();
+ ClockVector *writecv = cvmap.get(write);
+ changed |= writecv == NULL || (merge(cv, read, writecv) && (*read < *write));
+
+ for (int i = 0; i <= maxthreads; i++) {
+ thread_id_t tid = int_to_id(i);
+ if (tid == read->get_tid())
+ continue;
+ if (tid == write->get_tid())
+ continue;
+ action_list_t *list = execution->get_actions_on_obj(read->get_location(), tid);
+ if (list == NULL)
+ continue;
+ for (action_list_t::reverse_iterator rit = list->rbegin(); rit != list->rend(); rit++) {
+ ModelAction *write2 = *rit;
+ if (!write2->is_write())
+ continue;
+
+ ClockVector *write2cv = cvmap.get(write2);
+ if (write2cv == NULL)
+ continue;
+
+ /* write -sc-> write2 &&
+ write -rf-> R =>
+ R -sc-> write2 */
+ if (write2cv->synchronized_since(write)) {
+ changed |= merge(write2cv, write2, cv);
+ }
+
+ //looking for earliest write2 in iteration to satisfy this
+ /* write2 -sc-> R &&
+ write -rf-> R =>
+ write2 -sc-> write */
+ if (cv->synchronized_since(write2)) {
+ changed |= writecv == NULL || merge(writecv, write, write2cv);
+ break;
+ }
+ }
+ }
+ return changed;
+}
+
+void SCAnalysis::computeCV(action_list_t *list) {
+ bool changed = true;
+ bool firsttime = true;
+ ModelAction **last_act = (ModelAction **)model_calloc(1, (maxthreads + 1) * sizeof(ModelAction *));
+ while (changed) {
+ changed = changed&firsttime;
+ firsttime = false;
+ for (action_list_t::iterator it = list->begin(); it != list->end(); it++) {
+ ModelAction *act = *it;
+ ModelAction *lastact = last_act[id_to_int(act->get_tid())];
+ if (act->is_thread_start())
+ lastact = execution->get_thread(act)->get_creation();
+ ClockVector *lastcv = (lastact != NULL) ? cvmap.get(lastact) : NULL;
+ last_act[id_to_int(act->get_tid())] = act;
+ ClockVector *cv = cvmap.get(act);
+ if (cv == NULL) {
+ cv = new ClockVector(lastcv, act);
+ cvmap.put(act, cv);
+ } else if (lastcv != NULL) {
+ merge(cv, act, lastcv);
+ }
+ if (act->is_thread_join()) {
+ Thread *joinedthr = act->get_thread_operand();
+ ModelAction *finish = execution->get_last_action(joinedthr->get_id());
+ ClockVector *finishcv = cvmap.get(finish);
+ changed |= (finishcv == NULL) || merge(cv, act, finishcv);
+ }
+ if (act->is_read()) {
+ changed |= processRead(act, cv);
+ }
+ }
+ /* Reset the last action array */
+ if (changed) {
+ bzero(last_act, (maxthreads + 1) * sizeof(ModelAction *));
+ }
+ }
+ model_free(last_act);
}
projects / c11tester.git / blobdiff