/// Returns a forward iterator addressing the first element in a set
iterator begin()
{
- return iterator( base_class::begin() );
+ return iterator( base_class::begin());
}
/// Returns a forward const iterator addressing the first element in a set
const_iterator begin() const
{
- return const_iterator( base_class::begin() );
+ return const_iterator( base_class::begin());
}
/// Returns a forward const iterator addressing the first element in a set
const_iterator cbegin() const
{
- return const_iterator( base_class::cbegin() );
+ return const_iterator( base_class::cbegin());
}
/// Returns a forward iterator that addresses the location succeeding the last element in a set.
iterator end()
{
- return iterator( base_class::end() );
+ return iterator( base_class::end());
}
/// Returns a forward const iterator that addresses the location succeeding the last element in a set.
const_iterator end() const
{
- return const_iterator( base_class::end() );
+ return const_iterator( base_class::end());
}
/// Returns a forward const iterator that addresses the location succeeding the last element in a set.
const_iterator cend() const
{
- return const_iterator( base_class::cend() );
+ return const_iterator( base_class::cend());
}
//@}
iterator insert( const Q& val )
{
scoped_node_ptr sp( node_allocator().New( base_class::random_level(), val ));
- if ( base_class::insert( *sp.get() )) {
- return node_to_iterator( sp.release() );
+ if ( base_class::insert( *sp.get())) {
+ return node_to_iterator( sp.release());
}
return end();
}
iterator emplace( Args&&... args )
{
scoped_node_ptr sp( node_allocator().New( base_class::random_level(), std::forward<Args>(args)... ));
- if ( base_class::insert( *sp.get() )) {
- return node_to_iterator( sp.release() );
+ if ( base_class::insert( *sp.get())) {
+ return node_to_iterator( sp.release());
}
return end();
}
iterator contains( Q const& key, Less pred ) const
{
CDS_UNUSED( pred );
- node_type * pNode = base_class::contains( key, cds::details::predicate_wrapper< node_type, Less, key_accessor>() );
+ node_type * pNode = base_class::contains( key, cds::details::predicate_wrapper< node_type, Less, key_accessor>());
if ( pNode )
return node_to_iterator( pNode );
return base_class::nonconst_end();