#include >TCLHashTableIterator.h>
...
template <class T>
class CTCLHashTableIterator
{
public:
CTCLHashTableIterator (Tcl_HashTable* pTable);
CTCLHashTableIterator (const CTCLHashTableIterator& aCTCLHashTableIterator );
virtual ~ CTCLHashTableIterator ( );
CTCLHashTableIterator operator=
(const CTCLHashTableIterator& aCTCLHashTableIterator);
int operator== (const CTCLHashTableIterator& aCTCLHashTableIterator);
CTCLHashTableItem<T>* getCurrentEntry() const;
Tcl_HashTable* getHashTable() const;
CTCLHashTableIterator& operator++ ();
CTCLHashTableIterator operator++ (int i);
CTCLHashTableItem<T>& operator* ();
CTCLHashTableItem<T>* operator->();
};
CTCLHashTableIterator objects are created and returned
by CTCLHashTableIterator::begin
and CTCLHashTableIterator::end.
These objects are pointer like objects to CTCLHashTableItem
objects within the hash table.
If you imagine that all containers can have an ordering defined on them, iterators are like pointers to elements of this ordering. Dereference operators yield an element of the container, and increment operators make the iterator 'point' to the next element in the container according to the ordering.
For more information on both hash tables and iterators see the REFERENCES. For information about the classes that are related to this, consult manpages pointed to by the SEE ALSO section.
CTCLHashTableIterator(Tcl_HashTable*pTable);CTCLHashTableIterator(const CTCLHashTableIterator&rhs);
Construct a hash table iterator. Normally you will not need to use these
constructors directly. They will be created, instead by
CTCLHashTable::begin()
or CTCLHashTable::end().
pTable is a pointer to an existing Tcl_HashTable
created via Tcl_InitHashTable. rhs
is an existing CTCLHashTableIterator object whose state
will be used to initialize the object under construction.
CTCLHashTableIteratoroperator=(const CTCLHashTableIterator&rhs); intoperator==(const CTCLHashTableIterator&rhs);
operator= allows you to assign the state of one CTCLHashTableIterator
to another. When the assignment is complete, the left hand side object will
be 'pointing' to the same object as the right hand side object but be separately
incrementable.
operator== allows you to compare two iterators for equality.
equality is defined as the two iterators being defined on the same underlying
hash table, pointing to the same element, and having the same increment context
(e.g. an increment of both iterators will leave them both pointing to the
same hash table item (different from the one prior to the increment).
CTCLHashTableItem<T>*getCurrentEntry() const; Tcl_HashTable*getHashTable() const;
These two functions get at the information the iterator is encapsulating.
getCurrentEntry returns a pointer to the entry that
the iterator si currently 'pointing' at. This is identical to the
operator-> function.
getHashTable returns a pointer to the underlying
Tcl_HashTable created by Tcl_InitHashTable.
CTCLHashTableIterator& operator++ ();
CTCLHashTableIterator operator++ (int i);
These two function support both pre and post increment operations on an
iterator. There are slight differences in semantics between these
operators best illustrated with a sample code fragment. In the fragment
below, i is an CTCLHashTableIterator
CTCLHashTableItem item1 = *i++; // item 1 is the item pointed to prior to increment
CTCLHashTableItem item2 = *++i; // item 2 is the item pointed to after increment.
CTCLHashTableItem<T>&operator*(); CTCLHashTableItem<T>*operator->();
These operators allow CTCLHashTableIterator objects
to be treated like pointers to CTCLHashTableItem objects.
operator* provides 'pointer' dereferencing that allows
code like:
(*i).getItem();
operator-> provides a pointer to struct like semantics
allowing code like:
i->getItem();
CTCLHashTable(3), CTCLHashTableItem(3), Tcl_InitHashTable(3tcl), Tcl_FirstHashEntry(3tcl), Tcl_NextHashEntry(3tcl)