class Poco::XML::AbstractContainerNode
Overview
AbstractContainerNode is an implementation of Node that stores and manages child nodes. Moreā¦
#include <AbstractContainerNode.h> class AbstractContainerNode: public Poco::XML::AbstractNode { public: // methods virtual Node* firstChild() const; virtual Node* lastChild() const; virtual Node* insertBefore( Node* newChild, Node* refChild ); virtual Node* replaceChild( Node* newChild, Node* oldChild ); virtual Node* removeChild(Node* oldChild); virtual Node* appendChild(Node* newChild); virtual bool hasChildNodes() const; virtual bool hasAttributes() const; virtual Node* getNodeByPath(const XMLString& path) const; virtual Node* getNodeByPathNS( const XMLString& path, const NSMap& nsMap ) const; protected: // construction AbstractContainerNode(Document* pOwnerDocument); AbstractContainerNode( Document* pOwnerDocument, const AbstractContainerNode& node ); // methods virtual void dispatchNodeRemovedFromDocument(); virtual void dispatchNodeInsertedIntoDocument(); bool hasAttributeValue( const XMLString& name, const XMLString& value, const NSMap* pNSMap ) const; static const Node* findNode( XMLString::const_iterator& it, const XMLString::const_iterator& end, const Node* pNode, const NSMap* pNSMap ); static const Node* findElement( const XMLString& name, const Node* pNode, const NSMap* pNSMap ); static const Node* findElement( int index, const Node* pNode, const NSMap* pNSMap ); static const Node* findElement( const XMLString& attr, const XMLString& value, const Node* pNode, const NSMap* pNSMap ); static const Attr* findAttribute( const XMLString& name, const Node* pNode, const NSMap* pNSMap ); static bool namesAreEqual( const Node* pNode1, const Node* pNode2, const NSMap* pNSMap ); static bool namesAreEqual( const Node* pNode, const XMLString& name, const NSMap* pNSMap ); }; // direct descendants class Document; class DocumentFragment; class DocumentType; class Element; class Entity;
Inherited Members
public: // typedefs typedef Poco::XML::NamespaceSupport NSMap; // enums enum { ELEMENT_NODE = 1, ATTRIBUTE_NODE, TEXT_NODE, CDATA_SECTION_NODE, ENTITY_REFERENCE_NODE, ENTITY_NODE, PROCESSING_INSTRUCTION_NODE, COMMENT_NODE, DOCUMENT_NODE, DOCUMENT_TYPE_NODE, DOCUMENT_FRAGMENT_NODE, NOTATION_NODE, }; // methods void duplicate() const; void release() const; virtual void autoRelease() = 0; virtual void addEventListener( const XMLString& type, EventListener* listener, bool useCapture ) = 0; virtual void removeEventListener( const XMLString& type, EventListener* listener, bool useCapture ) = 0; virtual bool dispatchEvent(Event* evt) = 0; virtual const XMLString& nodeName() const = 0; const XMLString& nodeValue() const; virtual const XMLString& getNodeValue() const = 0; virtual void setNodeValue(const XMLString& value) = 0; virtual unsigned short nodeType() const = 0; virtual Node* parentNode() const = 0; virtual NodeList* childNodes() const = 0; virtual Node* firstChild() const = 0; virtual Node* lastChild() const = 0; virtual Node* previousSibling() const = 0; virtual Node* nextSibling() const = 0; virtual NamedNodeMap* attributes() const = 0; virtual Document* ownerDocument() const = 0; virtual Node* insertBefore( Node* newChild, Node* refChild ) = 0; virtual Node* replaceChild( Node* newChild, Node* oldChild ) = 0; virtual Node* removeChild(Node* oldChild) = 0; virtual Node* appendChild(Node* newChild) = 0; virtual bool hasChildNodes() const = 0; virtual Node* cloneNode(bool deep) const = 0; virtual void normalize() = 0; virtual bool isSupported( const XMLString& feature, const XMLString& version ) const = 0; virtual const XMLString& namespaceURI() const = 0; virtual XMLString prefix() const = 0; virtual const XMLString& localName() const = 0; virtual bool hasAttributes() const = 0; virtual XMLString innerText() const = 0; virtual Node* getNodeByPath(const XMLString& path) const = 0; virtual Node* getNodeByPathNS( const XMLString& path, const NSMap& nsMap ) const = 0; virtual const XMLString& nodeName() const; virtual const XMLString& getNodeValue() const; virtual void setNodeValue(const XMLString& value); virtual Node* parentNode() const; virtual NodeList* childNodes() const; virtual Node* firstChild() const; virtual Node* lastChild() const; virtual Node* previousSibling() const; virtual Node* nextSibling() const; virtual NamedNodeMap* attributes() const; virtual Document* ownerDocument() const; virtual Node* insertBefore( Node* newChild, Node* refChild ); virtual Node* replaceChild( Node* newChild, Node* oldChild ); virtual Node* removeChild(Node* oldChild); virtual Node* appendChild(Node* newChild); virtual bool hasChildNodes() const; virtual Node* cloneNode(bool deep) const; virtual void normalize(); virtual bool isSupported( const XMLString& feature, const XMLString& version ) const; virtual const XMLString& namespaceURI() const; virtual XMLString prefix() const; virtual const XMLString& localName() const; virtual bool hasAttributes() const; virtual void addEventListener( const XMLString& type, EventListener* listener, bool useCapture ); virtual void removeEventListener( const XMLString& type, EventListener* listener, bool useCapture ); virtual bool dispatchEvent(Event* evt); virtual XMLString innerText() const; virtual Node* getNodeByPath(const XMLString& path) const; virtual Node* getNodeByPathNS( const XMLString& path, const NSMap& nsMap ) const; virtual void autoRelease(); protected: // fields static const XMLString EMPTY_STRING; // methods virtual Node* copyNode( bool deep, Document* pOwnerDocument ) const = 0; virtual bool events() const; virtual bool eventsSuspended() const; void captureEvent(Event* evt); void bubbleEvent(Event* evt); void dispatchSubtreeModified(); void dispatchNodeInserted(); void dispatchNodeRemoved(); virtual void dispatchNodeRemovedFromDocument(); virtual void dispatchNodeInsertedIntoDocument(); void dispatchAttrModified( Attr* pAttr, MutationEvent::AttrChangeType changeType, const XMLString& prevValue, const XMLString& newValue ); void dispatchCharacterDataModified( const XMLString& prevValue, const XMLString& newValue ); void setOwnerDocument(Document* pOwnerDocument);
Detailed Documentation
AbstractContainerNode is an implementation of Node that stores and manages child nodes.
Child nodes are organized in a single linked list.
Methods
virtual Node* firstChild() const
Returns the first child of this node.
If there is no such node, this returns null.
virtual Node* lastChild() const
Returns the last child of this node.
If there is no such node, this returns null.
virtual Node* insertBefore( Node* newChild, Node* refChild )
Inserts the node newChild before the existing child node refChild.
If refChild is null, insert newChild at the end of the list of children. If newChild is a DocumentFragment object, all of its children are inserted in the same order, before refChild. If the newChild is already in the tree, it is first removed.
virtual Node* replaceChild( Node* newChild, Node* oldChild )
Replaces the child node oldChild with newChild in the list of children, and returns the oldChild node.
If newChild is a DocumentFragment object, oldChild is replaced by all of the DocumentFragment children, which are inserted in the same order. If the newChild is already in the tree, it is first removed.
virtual Node* removeChild(Node* oldChild)
Removes the child node indicated by oldChild from the list of children and returns it.
virtual Node* appendChild(Node* newChild)
Appends the node newChild to the end of the list of children of this node.
If newChild is already in the tree, it is first removed.
virtual bool hasChildNodes() const
This is a convenience method to allow easy determination of whether a node has any children.
Returns true if the node has any children, false otherwise.
virtual bool hasAttributes() const
Returns whether this node (if it is an element) has any attributes.
virtual Node* getNodeByPath(const XMLString& path) const
Searches a node (element or attribute) based on a simplified XPath expression.
Only simple XPath expressions are supported. These are the slash notation for specifying paths to elements, and the square bracket expression for finding elements by their index, by attribute value, or finding attributes by names.
The slash at the beginning is optional, the evaluation always starts at this element. A double-slash at the beginning recursively searches the entire subtree for the first element.
Examples:
elem1/elem2/elem3 /elem1/elem2/elem3 /elem1/elem2[1] /elem1/elem2[@attr1] /elem1/elem2[@attr1='value'] //elem2[@attr1='value'] //[@attr1='value']
This method is an extension to the W3C Document Object Model.
virtual Node* getNodeByPathNS( const XMLString& path, const NSMap& nsMap ) const
Searches a node (element or attribute) based on a simplified XPath expression.
The given NSMap must contain mappings from namespace prefixes to namespace URIs for all namespace prefixes used in the path expression.
Only simple XPath expressions are supported. These are the slash notation for specifying paths to elements, and the square bracket expression for finding elements by their index, by attribute value, or finding attributes by names.
The slash at the beginning is optional, the evaluation always starts at this element. A double-slash at the beginning recursively searches the entire subtree for the first element.
Examples:
/ns1:elem1/ns2:elem2/ns2:elem3 /ns1:elem1/ns2:elem2[1] /ns1:elem1/ns2:elem2[@attr1] /ns1:elem1/ns2:elem2[@attr1='value'] //ns2:elem2[@ns1:attr1='value'] //[@ns1:attr1='value']
This method is an extension to the W3C Document Object Model.