break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
/** * Set start to END should 'close' the iterator, * i.e. subsequent call to next() should return END. * * @param node Sets the root of the iteration. * * @return A DTMAxisIterator set to the start of the iteration. */ public DTMAxisIterator setStartNode(int node) { //%HZ%: Added reference to DTMDefaultBase.ROOTNODE back in, temporarily if (node == DTMDefaultBase.ROOTNODE) node = getDocument(); if (_isRestartable) { _startNode = node; _currentNode = getParent(node); return resetPosition(); } return this; }
/** * Get the next node in the iteration. In this case, we return * only the immediate parent, _if_ it matches the requested nodeType. * * @return The next node handle in the iteration, or END. */ public int next() { int result = _currentNode; if (_nodeType >= DTM.NTYPES) { if (_nodeType != getExpandedTypeID(_currentNode)) { result = END; } } else if (_nodeType != NULL) { if (_nodeType != getNodeType(_currentNode)) { result = END; } } _currentNode = END; return returnNode(result); } } // end of ParentIterator
break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());
break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());
break; case Axis.PARENT : return (new ParentIterator().setNodeType(type)); case Axis.ANCESTOR : return (new TypedAncestorIterator(type));
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());
break; case Axis.PARENT : return (new ParentIterator()); case Axis.ANCESTOR : return (new AncestorIterator());