/// Locks a lock at cell \p hint
/**
To define real array's cell which should be locked, \ref select_cell_policy is used.
- The target cell is a result of <tt>select_cell_policy( hint, size() )</tt>.
+ The target cell is a result of <tt>select_cell_policy( hint, size())</tt>.
Returns the index of locked lock.
*/
template <typename Q>
size_t lock( Q const& hint )
{
- size_t nCell = m_SelectCellPolicy( hint, size() );
- assert( nCell < size() );
+ size_t nCell = m_SelectCellPolicy( hint, size());
+ assert( nCell < size());
m_arrLocks[nCell].lock();
return nCell;
}
/// Try lock a lock at cell \p hint
/**
To define real array's cell which should be locked, \ref select_cell_policy is used.
- The target cell is a result of <tt>select_cell_policy( hint, size() )</tt>.
+ The target cell is a result of <tt>select_cell_policy( hint, size())</tt>.
Returns the index of locked lock if success, \ref c_nUnspecifiedCell constant otherwise.
*/
template <typename Q>
size_t try_lock( Q const& hint )
{
- size_t nCell = m_SelectCellPolicy( hint, size() );
- assert( nCell < size() );
- if ( m_arrLocks[nCell].try_lock() )
+ size_t nCell = m_SelectCellPolicy( hint, size());
+ assert( nCell < size());
+ if ( m_arrLocks[nCell].try_lock())
return nCell;
return c_nUnspecifiedCell;
}
/// Unlock the lock specified by index \p nCell
void unlock( size_t nCell )
{
- assert( nCell < size() );
+ assert( nCell < size());
m_arrLocks[nCell].unlock();
}
*/
lock_type& at( size_t nCell ) const
{
- assert( nCell < size() );
+ assert( nCell < size());
return m_arrLocks[ nCell ];
}
template <typename Q>
unique_lock( lock_array_type& arrLocks, Q const& hint )
: m_arrLocks( arrLocks )
- , m_nLockGuarded( arrLocks.lock( hint ) )
+ , m_nLockGuarded( arrLocks.lock( hint ))
{}
/// Locks all from \p arrLocks array