/** * Lookup a namespace URI from a prefix starting at node. This method * is used in the execution of xsl:element when the prefix is not known * at compile time. */ public String lookupNamespace(int node, String prefix) throws TransletException { int anode, nsnode; final AncestorIterator ancestors = new AncestorIterator(); if (isElement(node)) { ancestors.includeSelf(); } ancestors.setStartNode(node); while ((anode = ancestors.next()) != DTM.NULL) { final NamespaceIterator namespaces = new NamespaceIterator(); namespaces.setStartNode(anode); while ((nsnode = namespaces.next()) != DTM.NULL) { if (getLocalName(nsnode).equals(prefix)) { return getNodeValue(nsnode); } } } BasisLibrary.runTimeError(BasisLibrary.NAMESPACE_PREFIX_ERR, prefix); return null; }
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
break; case Axis.NAMESPACE : iterator = new NamespaceIterator(); break; case Axis.ROOT :
return new PrecedingSiblingIterator(); case Axis.NAMESPACE: return new NamespaceIterator(); case Axis.ROOT: return new RootIterator();
return new PrecedingSiblingIterator(); case Axis.NAMESPACE: return new NamespaceIterator(); case Axis.ROOT: return new RootIterator();
return new PrecedingSiblingIterator(); case Axis.NAMESPACE: return new NamespaceIterator(); case Axis.ROOT: return new RootIterator();
/** * 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 = getFirstNamespaceNode(node, true); return resetPosition(); } return this; }
/** * Lookup a namespace URI from a prefix starting at node. This method * is used in the execution of xsl:element when the prefix is not known * at compile time. */ public String lookupNamespace(int node, String prefix) throws TransletException { int anode, nsnode; final AncestorIterator ancestors = new AncestorIterator(); if (isElement(node)) { ancestors.includeSelf(); } ancestors.setStartNode(node); while ((anode = ancestors.next()) != DTM.NULL) { final NamespaceIterator namespaces = new NamespaceIterator(); namespaces.setStartNode(anode); while ((nsnode = namespaces.next()) != DTM.NULL) { if (getLocalName(nsnode).equals(prefix)) { return getNodeValue(nsnode); } } } BasisLibrary.runTimeError(BasisLibrary.NAMESPACE_PREFIX_ERR, prefix); return null; }
/** * 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 = getFirstNamespaceNode(node, true); return resetPosition(); } return this; }
/** * 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 = getFirstNamespaceNode(node, true); return resetPosition(); } return this; }
/** * 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 = getFirstNamespaceNode(node, true); return resetPosition(); } return this; }
/** * Lookup a namespace URI from a prefix starting at node. This method * is used in the execution of xsl:element when the prefix is not known * at compile time. */ public String lookupNamespace(int node, String prefix) throws TransletException { int anode, nsnode; final AncestorIterator ancestors = new AncestorIterator(); if (isElement(node)) { ancestors.includeSelf(); } ancestors.setStartNode(node); while ((anode = ancestors.next()) != DTM.NULL) { final NamespaceIterator namespaces = new NamespaceIterator(); namespaces.setStartNode(anode); while ((nsnode = namespaces.next()) != DTM.NULL) { if (getLocalName(nsnode).equals(prefix)) { return getNodeValue(nsnode); } } } BasisLibrary.runTimeError(BasisLibrary.NAMESPACE_PREFIX_ERR, prefix); return null; }
/** * Lookup a namespace URI from a prefix starting at node. This method * is used in the execution of xsl:element when the prefix is not known * at compile time. */ public String lookupNamespace(int node, String prefix) throws TransletException { int anode, nsnode; final AncestorIterator ancestors = new AncestorIterator(); if (isElement(node)) { ancestors.includeSelf(); } ancestors.setStartNode(node); while ((anode = ancestors.next()) != DTM.NULL) { final NamespaceIterator namespaces = new NamespaceIterator(); namespaces.setStartNode(anode); while ((nsnode = namespaces.next()) != DTM.NULL) { if (getLocalName(nsnode).equals(prefix)) { return getNodeValue(nsnode); } } } BasisLibrary.runTimeError(BasisLibrary.NAMESPACE_PREFIX_ERR, prefix); return null; }