//@endcond
public:
- /// Forward iterator (see \p SplitListSet::iterator)
+ ///@name Forward iterators
+ //@{
+ /// Forward iterator
/**
- Remember, the iterator <tt>operator -> </tt> and <tt>operator *</tt> returns \ref value_type pointer and reference.
- To access item key and value use <tt>it->first</tt> and <tt>it->second</tt> respectively.
+ The forward iterator for split-list is based on \p OrderedList forward iterator and has some features:
+ - it has no post-increment operator
+ - it iterates items in unordered fashion
+
+ The iterator interface:
+ \code
+ class iterator {
+ public:
+ // Default constructor
+ iterator();
+
+ // Copy construtor
+ iterator( iterator const& src );
+
+ // Dereference operator
+ value_type * operator ->() const;
+
+ // Dereference operator
+ value_type& operator *() const;
+
+ // Preincrement operator
+ iterator& operator ++();
+
+ // Assignment operator
+ iterator& operator = (iterator const& src);
+
+ // Equality operators
+ bool operator ==(iterator const& i ) const;
+ bool operator !=(iterator const& i ) const;
+ };
+ \endcode
*/
typedef typename base_class::iterator iterator;
- /// Const forward iterator (see SplitListSet::const_iterator)
+ /// Const forward iterator
typedef typename base_class::const_iterator const_iterator;
/// Returns a forward iterator addressing the first element in a map
}
/// Returns a forward const iterator addressing the first element in a map
- //@{
const_iterator begin() const
{
return base_class::begin();
}
+
+ /// Returns a forward const iterator addressing the first element in a map
const_iterator cbegin() const
{
return base_class::cbegin();
}
- //@}
/// Returns an const iterator that addresses the location succeeding the last element in a map
- //@{
const_iterator end() const
{
return base_class::end();
}
+
+ /// Returns an const iterator that addresses the location succeeding the last element in a map
const_iterator cend() const
{
return base_class::cend();
}
- //@}
+ //@}
public:
/// Initialize split-ordered map of default capacity
iterator insert( K const& key )
{
//TODO: pass arguments by reference (make_pair makes copy)
- return base_class::insert( std::make_pair( key, mapped_type() ) );
+ return base_class::emplace( key_type( key ), mapped_type() );
}
/// Inserts new node
template <typename K, typename V>
iterator insert( K const& key, V const& val )
{
- //TODO: pass arguments by reference (make_pair makes copy)
- return base_class::insert( std::make_pair( key, val ) );
+ return base_class::emplace( key_type( key ), mapped_type( val ));
}
/// Inserts new node and initialize it by a functor
template <typename K, typename... Args>
iterator emplace( K&& key, Args&&... args )
{
- return base_class::emplace( std::forward<K>(key), std::move(mapped_type(std::forward<Args>(args)...)));
+ return base_class::emplace( key_type( std::forward<K>( key )), mapped_type( std::forward<Args>( args )...));
}
/// Updates the item
std::pair<iterator, bool> update( K const& key, bool bAllowInsert = true )
{
//TODO: pass arguments by reference (make_pair makes copy)
- return base_class::update( std::make_pair( key, mapped_type() ), bAllowInsert );
+ return base_class::update( std::make_pair( key_type( key ), mapped_type() ), bAllowInsert );
}
//@cond
template <typename K>
}
//@endcond
+
+ /// Clears the set (not atomic, for debugging purposes only)
+ void clear()
+ {
+ base_class::clear();
+ }
+
/// Checks if the map is empty
/**
Emptiness is checked by item counting: if item count is zero then the map is empty.
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