public:
/// Guarded pointer
- typedef cds::gc::guarded_ptr< gc, node_type, value_type, details::guarded_ptr_cast_set<node_type, value_type> > guarded_ptr;
+ typedef typename gc::template guarded_ptr< node_type, value_type, details::guarded_ptr_cast_set<node_type, value_type> > guarded_ptr;
protected:
//@cond
/// Extracts the item from the set with specified \p key
/** \anchor cds_nonintrusive_SkipListSet_hp_extract
The function searches an item with key equal to \p key in the set,
- unlinks it from the set, and returns it in \p result parameter.
- If the item with key equal to \p key is not found the function returns \p false.
+ unlinks it from the set, and returns it as \p guarded_ptr.
+ If \p key is not found the function returns an empty guarded pointer.
Note the compare functor should accept a parameter of type \p Q that can be not the same as \p value_type.
The item extracted is freed automatically by garbage collector \p GC
- when returned \ref guarded_ptr object will be destroyed or released.
+ when returned \p guarded_ptr object will be destroyed or released.
@note Each \p guarded_ptr object uses the GC's guard that can be limited resource.
Usage:
skip_list theList;
// ...
{
- skip_list::guarded_ptr gp;
- if ( theList.extract( gp, 5 ) ) {
+ skip_list::guarded_ptr gp(theList.extract( 5 ))
+ if ( gp ) {
// Deal with gp
// ...
}
\endcode
*/
template <typename Q>
- bool extract( guarded_ptr& result, Q const& key )
+ guarded_ptr extract( Q const& key )
{
- return base_class::extract_( result.guard(), key, typename base_class::key_comparator() );
+ guarded_ptr gp;
+ base_class::extract_( gp.guard(), key, typename base_class::key_comparator() );
+ return gp;
}
/// Extracts the item from the set with comparing functor \p pred
\p pred must imply the same element order as the comparator used for building the set.
*/
template <typename Q, typename Less>
- bool extract_with( guarded_ptr& ptr, Q const& key, Less pred )
+ guarded_ptr extract_with( Q const& key, Less pred )
{
CDS_UNUSED( pred );
typedef cds::details::predicate_wrapper< node_type, Less, typename maker::value_accessor > wrapped_less;
- return base_class::extract_( ptr.guard(), key, cds::opt::details::make_comparator_from_less<wrapped_less>() );
+ guarded_ptr gp;
+ base_class::extract_( gp.guard(), key, cds::opt::details::make_comparator_from_less<wrapped_less>() );
+ return gp;
}
/// Extracts an item with minimal key from the set
/**
- The function searches an item with minimal key, unlinks it, and returns the item found in \p result parameter.
- If the skip-list is empty the function returns \p false.
+ The function searches an item with minimal key, unlinks it, and returns pointer to the item found as \p guarded_ptr.
+ If the skip-list is empty the function returns an empty guarded pointer.
The item extracted is freed automatically by garbage collector \p GC
- when returned \ref guarded_ptr object will be destroyed or released.
+ when returned \p guarded_ptr object will be destroyed or released.
@note Each \p guarded_ptr object uses the GC's guard that can be limited resource.
Usage:
skip_list theList;
// ...
{
- skip_list::guarded_ptr gp;
- if ( theList.extract_min( gp )) {
+ skip_list::guarded_ptr gp( theList.extract_min());
+ if ( gp ) {
// Deal with gp
//...
}
}
\endcode
*/
- bool extract_min( guarded_ptr& result)
+ guarded_ptr extract_min()
{
- return base_class::extract_min_( result.guard() );
+ guarded_ptr gp;
+ base_class::extract_min_( gp.guard() );
+ return gp;
}
/// Extracts an item with maximal key from the set
/**
- The function searches an item with maximal key, unlinks it, and returns the pointer to item found in \p result parameter.
- If the skip-list is empty the function returns \p false.
+ The function searches an item with maximal key, unlinks it, and returns the pointer to item found as \p guarded_ptr.
+ If the skip-list is empty the function returns an empty guarded pointer.
The item found is freed by garbage collector \p GC automatically
- when returned \ref guarded_ptr object will be destroyed or released.
+ when returned \p guarded_ptr object will be destroyed or released.
@note Each \p guarded_ptr object uses the GC's guard that can be limited resource.
Usage:
skip_list theList;
// ...
{
- skip_list::guarded_ptr gp;
- if ( theList.extract_max( gp )) {
+ skip_list::guarded_ptr gp( theList.extract_max());
+ if ( gp ) {
// Deal with gp
//...
}
}
\endcode
*/
- bool extract_max( guarded_ptr& result )
+ guarded_ptr extract_max()
{
- return base_class::extract_max_( result.guard() );
+ guarded_ptr gp;
+ base_class::extract_max_( gp.guard() );
+ return gp;
}
/// Find the \p key
/// Finds \p key and return the item found
/** \anchor cds_nonintrusive_SkipListSet_hp_get
The function searches the item with key equal to \p key
- and assigns the item found to guarded pointer \p result.
- The function returns \p true if \p key is found, and \p false otherwise.
- If \p key is not found the \p result parameter is left unchanged.
+ and returns a guarded pointer to the item found.
+ If \p key is not found the function returns an empty guarded pointer.
It is safe when a concurrent thread erases the item returned in \p result guarded pointer.
In this case the item will be freed later by garbage collector \p GC automatically
skip_list theList;
// ...
{
- skip_list::guarded_ptr gp;
- if ( theList.get( gp, 5 ) ) {
+ skip_list::guarded_ptr gp( theList.get( 5 ));
+ if ( theList.get( 5 )) {
// Deal with gp
//...
}
should accept a parameter of type \p Q that can be not the same as \p value_type.
*/
template <typename Q>
- bool get( guarded_ptr& result, Q const& key )
+ guarded_ptr get( Q const& key )
{
- return base_class::get_with_( result.guard(), key, typename base_class::key_comparator() );
+ guarded_ptr gp;
+ base_class::get_with_( gp.guard(), key, typename base_class::key_comparator() );
+ return gp;
}
/// Finds \p key and return the item found
/**
- The function is an analog of \ref cds_nonintrusive_SkipListSet_hp_get "get( guarded_ptr&, Q const&)"
+ The function is an analog of \ref cds_nonintrusive_SkipListSet_hp_get "get(Q const&)"
but \p pred is used for comparing the keys.
\p Less functor has the semantics like \p std::less but should take arguments of type \ref value_type and \p Q
\p pred must imply the same element order as the comparator used for building the set.
*/
template <typename Q, typename Less>
- bool get_with( guarded_ptr& result, Q const& key, Less pred )
+ guarded_ptr get_with( Q const& key, Less pred )
{
CDS_UNUSED( pred );
typedef cds::details::predicate_wrapper< node_type, Less, typename maker::value_accessor > wrapped_less;
- return base_class::get_with_( result.guard(), key, cds::opt::details::make_comparator_from_less< wrapped_less >());
+ guarded_ptr gp;
+ base_class::get_with_( gp.guard(), key, cds::opt::details::make_comparator_from_less< wrapped_less >());
+ return gp;
}
/// Clears the set (not atomic).