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- #pragma once
- #include "Array.h"
- namespace Framework
- {
- template< class T >
- class TreeIterator;
- template< class T >
- class Tree : public virtual ReferenceCounter
- {
- private:
- T *value;
- RCArray< Tree > *subtrees;
- Tree *zParent;
- public:
- Tree()
- : ReferenceCounter()
- {
- value = 0;
- zParent = 0;
- subtrees = new RCArray< Tree >();
- }
- Tree( T *value )
- : ReferenceCounter()
- {
- zParent = 0;
- this->value = value;
- subtrees = new RCArray< Tree >();
- }
- ~Tree()
- {
- if( value )
- value->release();
- subtrees->release();
- }
- TreeIterator<T> getIterator()
- {
- return TreeIterator( this );
- }
- void leeren()
- {
- if( value )
- value->release();
- value = 0;
- subtrees->leeren();
- }
- void addSubtree( Tree *t )
- {
- t->zParent = this;
- subtrees->add( t );
- }
- void setValue( T *v )
- {
- if( value )
- value->release();
- value = v;
- }
- T *getValue()
- {
- return value ? value->getThis() : 0;
- }
- T *zValue()
- {
- return value;
- }
- Tree *getParent()
- {
- return zParent ? zParent->getThis() : 0;
- }
- Tree *zParent()
- {
- return zParent;
- }
- friend TreeIterator;
- };
- template< class T >
- class TreeIterator
- {
- private:
- Tree *current;
- int nextSub;
- public:
- TreeIterator( Tree *tree )
- {
- current = tree;
- nextSub = 0;
- }
- TreeIterator( const TreeIterator &it )
- {
- current = it.current;
- nextSub = it.nextSub;
- }
- TreeIterator< T > &operator=( TreeIterator< T > &r )
- {
- current = r.current;
- nextSub = it.nextSub;
- return *this;
- }
- bool hasNext()
- {
- if( current->subtrees->getEintragAnzahl() >= nextSub )
- return 1;
- Tree<T> *c = current;
- while( true )
- {
- Tree<T> *p = c->zParent();
- if( !p )
- {
- return 0;
- }
- for( auto i = p->subtrees->getIterator(); i; i++ )
- {
- if( i._ == c )
- {
- i++;
- if( i )
- return 1;
- else
- {
- c = p;
- break;
- }
- }
- }
- }
- }
- TreeIterator< T > next()
- {
- if( current->subtrees->getEintragAnzahl() >= nextSub )
- return TreeIterator( current->subtrees->z( nextSub++ ) );
- Tree<T> *c = current;
- while( true )
- {
- Tree<T> *p = c->zParent();
- if( !p )
- return TreeIterator<T>( 0 );
- for( auto i = p->subtrees->getIterator(); i; i++ )
- {
- if( i._ == c )
- {
- i++;
- if( i )
- return TreeIterator<T>( i._ );
- else
- {
- c = p;
- break;
- }
- }
- }
- }
- }
- operator bool()
- {
- return current != 0;
- }
- operator T *( )
- {
- return current->zValue();
- }
- TreeIterator< T > &operator++() //! prefix
- {
- TreeIterator< T > temp( *this );
- *this = next();
- return temp;
- }
- TreeIterator< T > &operator++( int ) //! postfix
- {
- *this = next();
- return *this;
- }
- T *operator->()
- {
- return current->zValue();
- }
- T val()
- {
- return current->zValue();
- }
- };
- }
|
