* under the terms of the license (GNU LGPL) which comes with this package. */
#include "src/mc/transition/TransitionSynchro.hpp"
+#include "src/mc/mc_forward.hpp"
+#include "src/mc/transition/TransitionObjectAccess.hpp"
#include "xbt/asserts.h"
#include "xbt/ex.h"
#include "xbt/string.hpp"
if (o->type_ < type_)
return o->depends(this);
- if (auto* other = dynamic_cast<const BarrierTransition*>(o)) {
+ // Actions executed by the same actor are always dependent
+ if (o->aid_ == aid_)
+ return true;
+
+ if (const auto* other = dynamic_cast<const BarrierTransition*>(o)) {
if (bar_ != other->bar_)
return false;
return false; // barriers are INDEP with non-barrier transitions
}
+bool BarrierTransition::reversible_race(const Transition* other) const
+{
+ switch (type_) {
+ case Type::BARRIER_ASYNC_LOCK:
+ return true; // BarrierAsyncLock is always enabled
+ case Type::BARRIER_WAIT:
+ // If the other event is a barrier lock event, then we are not reversible;
+ // otherwise we are reversible.
+ return other->type_ != Transition::Type::BARRIER_ASYNC_LOCK;
+ default:
+ xbt_die("Unexpected transition type %s", to_c_str(type_));
+ }
+}
std::string MutexTransition::to_string(bool verbose) const
{
if (o->type_ < type_)
return o->depends(this);
+ // Actions executed by the same actor are always dependent
+ if (o->aid_ == aid_)
+ return true;
+
// type_ <= other->type_ in MUTEX_LOCK, MUTEX_TEST, MUTEX_TRYLOCK, MUTEX_UNLOCK, MUTEX_WAIT,
- if (auto* other = dynamic_cast<const MutexTransition*>(o)) {
+ if (const auto* other = dynamic_cast<const MutexTransition*>(o)) {
// Theorem 4.4.7: Any pair of synchronization actions of distinct actors concerning distinct mutexes are independent
if (mutex_ != other->mutex_)
return false;
if (type_ == Type::MUTEX_ASYNC_LOCK && other->type_ == Type::MUTEX_UNLOCK)
return false;
+ // Theorem 4.4.9: LOCK indep UNLOCK.
+ // any combination of wait and test is indenpendent.
+ if ((type_ == Type::MUTEX_WAIT || type_ == Type::MUTEX_TEST) &&
+ (other->type_ == Type::MUTEX_WAIT || other->type_ == Type::MUTEX_TEST))
+ return false;
+
// TEST is a pure function; TEST/WAIT won't change the owner; TRYLOCK will always fail if TEST is enabled (because a
// request is queued)
if (type_ == Type::MUTEX_TEST &&
return false; // mutexes are INDEP with non-mutex transitions
}
+bool SemaphoreTransition::reversible_race(const Transition* other) const
+{
+ switch (type_) {
+ case Type::SEM_ASYNC_LOCK:
+ return true; // SemAsyncLock is always enabled
+ case Type::SEM_UNLOCK:
+ return true; // SemUnlock is always enabled
+ case Type::SEM_WAIT:
+ if (other->type_ == Transition::Type::SEM_UNLOCK &&
+ static_cast<const SemaphoreTransition*>(other)->get_capacity() <= 1) {
+ return false;
+ }
+ xbt_die("SEM_WAIT that is dependent with a SEM_UNLOCK should not be reversible. FixMe");
+ return true;
+ default:
+ xbt_die("Unexpected transition type %s", to_c_str(type_));
+ }
+}
+
std::string SemaphoreTransition::to_string(bool verbose) const
{
if (type_ == Type::SEM_ASYNC_LOCK || type_ == Type::SEM_UNLOCK)
- return xbt::string_printf("%s(semaphore: %" PRIxPTR ")", Transition::to_c_str(type_), sem_);
+ return xbt::string_printf("%s(semaphore: %u, capacity: %u)", Transition::to_c_str(type_), sem_, capacity_);
if (type_ == Type::SEM_WAIT)
- return xbt::string_printf("%s(semaphore: %" PRIxPTR ", granted: %s)", Transition::to_c_str(type_), sem_,
- granted_ ? "yes" : "no");
+ return xbt::string_printf("%s(semaphore: %u, capacity: %u, granted: %s)", Transition::to_c_str(type_), sem_,
+ capacity_, granted_ ? "yes" : "no");
THROW_IMPOSSIBLE;
}
SemaphoreTransition::SemaphoreTransition(aid_t issuer, int times_considered, Type type, std::stringstream& stream)
: Transition(type, issuer, times_considered)
{
- xbt_assert(stream >> sem_ >> granted_);
+ xbt_assert(stream >> sem_ >> granted_ >> capacity_);
}
bool SemaphoreTransition::depends(const Transition* o) const
{
if (o->type_ < type_)
return o->depends(this);
- if (auto* other = dynamic_cast<const SemaphoreTransition*>(o)) {
+ // Actions executed by the same actor are always dependent
+ if (o->aid_ == aid_)
+ return true;
+
+ if (const auto* other = dynamic_cast<const SemaphoreTransition*>(o)) {
if (sem_ != other->sem_)
return false;
if (type_ == Type::SEM_UNLOCK && other->type_ == Type::SEM_UNLOCK)
return false;
+ // UNLOCK indep with a WAIT if the semaphore had enought capacity anyway
+ if (type_ == Type::SEM_UNLOCK && capacity_ > 1 && other->type_ == Type::SEM_WAIT)
+ return false;
+
// WAIT indep WAIT:
// if both enabled (may happen in the initial value is sufficient), the ordering has no impact on the result.
// If only one enabled, the other won't be enabled by the first one.
return false; // semaphores are INDEP with non-semaphore transitions
}
+bool MutexTransition::reversible_race(const Transition* other) const
+{
+ switch (type_) {
+ case Type::MUTEX_ASYNC_LOCK:
+ return true; // MutexAsyncLock is always enabled
+ case Type::MUTEX_TEST:
+ return true; // MutexTest is always enabled
+ case Type::MUTEX_TRYLOCK:
+ return true; // MutexTrylock is always enabled
+ case Type::MUTEX_UNLOCK:
+ return true; // MutexUnlock is always enabled
+
+ case Type::MUTEX_WAIT:
+ // Only an Unlock can be dependent with a Wait
+ // and in this case, that Unlock enabled the wait
+ // Not reversible
+ return false;
+ default:
+ xbt_die("Unexpected transition type %s", to_c_str(type_));
+ }
+}
+
} // namespace simgrid::mc