/// Destructor. On debug time it checks whether spin-lock is free
~spin_lock()
{
- assert( !m_spin.load( atomics::memory_order_relaxed ) );
+ assert( !m_spin.load( atomics::memory_order_relaxed ));
}
/// Check if the spin is locked
Returns \p true if locking is succeeded
otherwise (if the spin is already locked) returns \p false
*/
- bool try_lock( unsigned int nTryCount ) CDS_NOEXCEPT_( noexcept( backoff_strategy()() ) )
+ bool try_lock( unsigned int nTryCount ) CDS_NOEXCEPT_( noexcept( backoff_strategy()()) )
{
backoff_strategy backoff;
while ( nTryCount-- ) {
- if ( try_lock() )
+ if ( try_lock())
return true;
backoff();
}
}
/// Lock the spin-lock. Waits infinitely while spin-lock is locked. Debug version: deadlock may be detected
- void lock() CDS_NOEXCEPT_(noexcept( backoff_strategy()() ))
+ void lock() CDS_NOEXCEPT_(noexcept( backoff_strategy()()))
{
backoff_strategy backoff;
// Deadlock detected
- assert( m_dbgOwnerId != OS::get_current_thread_id() );
+ assert( m_dbgOwnerId != OS::get_current_thread_id());
// TATAS algorithm
- while ( !try_lock() ) {
- while ( m_spin.load( atomics::memory_order_relaxed ) ) {
+ while ( !try_lock()) {
+ while ( m_spin.load( atomics::memory_order_relaxed )) {
backoff();
}
}
- assert( m_dbgOwnerId == OS::get_current_thread_id() );
+ assert( m_dbgOwnerId == OS::get_current_thread_id());
}
/// Unlock the spin-lock. Debug version: deadlock may be detected
void unlock() CDS_NOEXCEPT
{
- assert( m_spin.load( atomics::memory_order_relaxed ) );
+ assert( m_spin.load( atomics::memory_order_relaxed ));
- assert( m_dbgOwnerId == OS::get_current_thread_id() );
+ assert( m_dbgOwnerId == OS::get_current_thread_id());
CDS_DEBUG_ONLY( m_dbgOwnerId = OS::c_NullThreadId; )
m_spin.store( false, atomics::memory_order_release );
return m_spin.compare_exchange_weak( nCurrent, 1, atomics::memory_order_acquire, atomics::memory_order_relaxed );
}
- bool try_acquire( unsigned int nTryCount ) CDS_NOEXCEPT_( noexcept( backoff_strategy()() ))
+ bool try_acquire( unsigned int nTryCount ) CDS_NOEXCEPT_( noexcept( backoff_strategy()()))
{
backoff_strategy bkoff;
while ( nTryCount-- ) {
- if ( try_acquire() )
+ if ( try_acquire())
return true;
bkoff();
}
return false;
}
- void acquire() CDS_NOEXCEPT_( noexcept( backoff_strategy()() ))
+ void acquire() CDS_NOEXCEPT_( noexcept( backoff_strategy()()))
{
// TATAS algorithm
backoff_strategy bkoff;
- while ( !try_acquire() ) {
- while ( m_spin.load( atomics::memory_order_relaxed ) )
+ while ( !try_acquire()) {
+ while ( m_spin.load( atomics::memory_order_relaxed ))
bkoff();
}
}
*/
bool is_locked() const CDS_NOEXCEPT
{
- return !( m_spin.load( atomics::memory_order_relaxed ) == 0 || is_taken( cds::OS::get_current_thread_id() ));
+ return !( m_spin.load( atomics::memory_order_relaxed ) == 0 || is_taken( cds::OS::get_current_thread_id()));
}
/// Try to lock the spin-lock (synonym for \p try_lock())
bool try_lock() CDS_NOEXCEPT
{
thread_id tid = OS::get_current_thread_id();
- if ( try_taken_lock( tid ) )
+ if ( try_taken_lock( tid ))
return true;
if ( try_acquire()) {
take( tid );
bool try_lock( unsigned int nTryCount ) CDS_NOEXCEPT_( noexcept( std::declval<reentrant_spin_lock>().try_acquire( nTryCount )))
{
thread_id tid = OS::get_current_thread_id();
- if ( try_taken_lock( tid ) )
+ if ( try_taken_lock( tid ))
return true;
if ( try_acquire( nTryCount )) {
take( tid );
void lock() CDS_NOEXCEPT_( noexcept( std::declval<reentrant_spin_lock>().acquire()))
{
thread_id tid = OS::get_current_thread_id();
- if ( !try_taken_lock( tid ) ) {
+ if ( !try_taken_lock( tid )) {
acquire();
take( tid );
}
/// Unlock the spin-lock. Return \p true if the current thread is owner of spin-lock \p false otherwise
bool unlock() CDS_NOEXCEPT
{
- if ( is_taken( OS::get_current_thread_id() ) ) {
+ if ( is_taken( OS::get_current_thread_id()) ) {
integral_type n = m_spin.load( atomics::memory_order_relaxed );
if ( n > 1 )
m_spin.store( n - 1, atomics::memory_order_relaxed );
/// Change the owner of locked spin-lock. May be called by thread that is owner of the spin-lock
bool change_owner( OS::ThreadId newOwnerId ) CDS_NOEXCEPT
{
- if ( is_taken( OS::get_current_thread_id() ) ) {
+ if ( is_taken( OS::get_current_thread_id()) ) {
assert( newOwnerId != OS::c_NullThreadId );
m_OwnerId = newOwnerId;
return true;