Node.h source code [POCO/XML/include/Poco/DOM/Node.h]

1	//
2	// Node.h
3	//
4	// Library: XML
5	// Package: DOM
6	// Module: DOM
7	//
8	// Definition of the DOM Node interface.
9	//
10	// Copyright (c) 2004-2006, Applied Informatics Software Engineering GmbH.
11	// and Contributors.
12	//
13	// SPDX-License-Identifier: BSL-1.0
14	//
15
16
17	#ifndef DOM_Node_INCLUDED
18	#define DOM_Node_INCLUDED
19
20
21	#include "Poco/XML/XML.h"
22	#include "Poco/DOM/EventTarget.h"
23	#include "Poco/XML/XMLString.h"
24	#include "Poco/SAX/NamespaceSupport.h"
25
26
27	namespace Poco {
28	namespace XML {
29
30
31	class NamedNodeMap;
32	class Document;
33	class NodeList;
34
35
36	class XML_API Node: public EventTarget
37	/// The Node interface is the primary datatype for the entire Document Object
38	/// Model. It represents a single node in the document tree. While all objects
39	/// implementing the Node interface expose methods for dealing with children,
40	/// not all objects implementing the Node interface may have children. For
41	/// example, Text nodes may not have children, and adding children to such
42	/// nodes results in a DOMException being raised.
43	///
44	/// The attributes nodeName, nodeValue and attributes are included as a mechanism
45	/// to get at node information without casting down to the specific derived
46	/// interface. In cases where there is no obvious mapping of these attributes
47	/// for a specific nodeType (e.g., nodeValue for an Element or attributes for
48	/// a Comment), this returns null. Note that the specialized interfaces may
49	/// contain additional and more convenient mechanisms to get and set the relevant
50	/// information.
51	///
52	/// This implementation differs in some ways from the W3C DOM recommendations.
53	/// For example, the DOM specifies that some methods can return null strings.
54	/// Instead of null strings, this implementation always returns empty strings.
55	{
56	public:
57	enum
58	{
59	ELEMENT_NODE = `1`, /// The node is an Element.
60	ATTRIBUTE_NODE, /// The node is an Attr.
61	TEXT_NODE, /// The node is a Text node.
62	CDATA_SECTION_NODE, /// The node is a CDATASection.
63	ENTITY_REFERENCE_NODE, /// The node is an EntityReference.
64	ENTITY_NODE, /// The node is an Entity.
65	PROCESSING_INSTRUCTION_NODE, /// The node is a ProcessingInstruction.
66	COMMENT_NODE, /// The node is a Comment.
67	DOCUMENT_NODE, /// The node is a Document.
68	DOCUMENT_TYPE_NODE, /// The node is a DocumentType.
69	DOCUMENT_FRAGMENT_NODE, /// The node is a DocumentFragment.
70	NOTATION_NODE /// The node is a Notation.
71	};
72
73	virtual const XMLString& nodeName() const = `0`;
74	/// Returns the name of this node, depending on its type.
75
76	const XMLString& nodeValue() const;
77	/// Returns the value of this node, depending on its type.
78
79	virtual const XMLString& getNodeValue() const = `0`;
80	/// Returns the value of this node, depending on its type.
81
82	virtual void setNodeValue(const XMLString& value) = `0`;
83	/// Sets the value of this node. Throws an exception
84	/// if the node is read-only.
85
86	virtual unsigned short nodeType() const = `0`;
87	/// Returns a code representing the type of the underlying object.
88
89	virtual Node* parentNode() const = `0`;
90	/// The parent of this node. All nodes, except Attr, Document, DocumentFragment,
91	/// Entity, and Notation may have a parent. However, if a node has just been
92	/// created and not yet added to the tree, or if it has been removed from the
93	/// tree, this is null.
94
95	virtual NodeList* childNodes() const = `0`;
96	/// Returns a NodeList containing all children of this node.
97	///
98	/// The returned NodeList must be released with a call
99	/// to release() when no longer needed.
100
101	virtual Node* firstChild() const = `0`;
102	/// Returns the first child of this node. If there is no such
103	/// node, this returns null.
104
105	virtual Node* lastChild() const = `0`;
106	/// Returns the last child of this node. If there is no such
107	/// node, this returns null.
108
109	virtual Node* previousSibling() const = `0`;
110	/// Returns the node immediately preceding this node. If there
111	/// is no such node, this returns null.
112
113	virtual Node* nextSibling() const = `0`;
114	/// Returns the node immediately following this node. If there
115	/// is no such node, this returns null.
116
117	virtual NamedNodeMap* attributes() const = `0`;
118	/// Returns a NamedNodeMap containing the attributes of this
119	/// node (if it is an Element) or null otherwise.
120	///
121	/// The returned NamedNodeMap must be released with a call
122	/// to release() when no longer needed.
123
124	virtual Document* ownerDocument() const = `0`;
125	/// Returns the Document object associated with this node.
126	/// This is also the Document object used to create new nodes.
127	/// When this node is a Document, this is null.
128
129	virtual Node* insertBefore(Node* newChild, Node* refChild) = `0`;
130	/// Inserts the node newChild before the existing child node refChild.
131	///
132	/// If refChild is null, insert newChild at the end of the list of children.
133	/// If newChild is a DocumentFragment object, all of its children are
134	/// inserted in the same order, before refChild. If the newChild is already
135	/// in the tree, it is first removed.
136
137	virtual Node* replaceChild(Node* newChild, Node* oldChild) = `0`;
138	/// Replaces the child node oldChild with newChild in the list of children,
139	/// and returns the oldChild node.
140	/// If newChild is a DocumentFragment object, oldChild is replaced by all of
141	/// the DocumentFragment children, which are inserted in the same order. If
142	/// the newChild is already in the tree, it is first removed.
143
144	virtual Node* removeChild(Node* oldChild) = `0`;
145	/// Removes the child node indicated by oldChild from the list of children
146	/// and returns it.
147
148	virtual Node* appendChild(Node* newChild) = `0`;
149	/// Appends the node newChild to the end of the list of children of this node.
150	/// If newChild is already in the tree, it is first removed.
151
152	virtual bool hasChildNodes() const = `0`;
153	/// This is a convenience method to allow easy determination of whether a
154	/// node has any children.
155	/// Returns true if the node has any children, false otherwise.
156
157	virtual Node* cloneNode(bool deep) const = `0`;
158	/// Returns a duplicate of this node, i.e., serves as a generic copy constructor
159	/// for nodes. The duplicate node has no parent; (parentNode is null.).
160	/// Cloning an Element copies all attributes and their values, including those
161	/// generated by the XML processor to represent defaulted attributes, but this
162	/// method does not copy any text it contains unless it is a deep clone, since
163	/// the text is contained in a child Text node. Cloning an Attribute directly,
164	/// as opposed to be cloned as part of an Element cloning operation, returns
165	/// a specified attribute (specified is true). Cloning any other type of node
166	/// simply returns a copy of this node.
167	/// Note that cloning an immutable subtree results in a mutable copy, but the
168	/// children of an EntityReference clone are readonly. In addition, clones of
169	/// unspecified Attr nodes are specified. And, cloning Document, DocumentType,
170	/// Entity, and Notation nodes is implementation dependent.
171
172	// DOM Level 2
173	virtual void normalize() = `0`;
174	/// Puts all Text nodes in the full depth of the sub-tree underneath this Node,
175	/// including attribute nodes, into a "normal" form where only structure (e.g.,
176	/// elements, comments, processing instructions, CDATA sections, and entity
177	/// references) separates Text nodes, i.e., there are neither adjacent Text
178	/// nodes nor empty Text nodes. This can be used to ensure that the DOM view
179	/// of a document is the same as if it were saved and re-loaded, and is useful
180	/// when operations (such as XPointer lookups) that depend on a particular
181	/// document tree structure are to be used.
182	///
183	/// Note: In cases where the document contains CDATASections, the normalize
184	/// operation alone may not be sufficient, since XPointers do not differentiate
185	/// between Text nodes and CDATASection nodes.
186
187	virtual bool isSupported(const XMLString& feature, const XMLString& version) const = `0`;
188	/// Tests whether the DOM implementation implements a specific
189	/// feature and that feature is supported by this node.
190
191	virtual const XMLString& namespaceURI() const = `0`;
192	/// Returns the namespace URI of the node.
193	/// This is not a computed value that is the result of a namespace lookup based on an
194	/// examination of the namespace declarations in scope. It is merely the namespace URI
195	/// given at creation time.
196	///
197	/// For nodes of any type other than ELEMENT_NODE and ATTRIBUTE_NODE and nodes created with a
198	/// DOM Level 1 method, such as createElement from the Document interface, this is always the
199	/// empty string.
200
201	virtual XMLString prefix() const = `0`;
202	/// Returns the namespace prefix from the qualified name of the node.
203
204	virtual const XMLString& localName() const = `0`;
205	/// Returns the local name of the node.
206
207	virtual bool hasAttributes() const = `0`;
208	/// Returns whether this node (if it is an element) has any attributes.
209
210	// Extensions
211	typedef Poco::XML::NamespaceSupport NSMap;
212
213	virtual XMLString innerText() const = `0`;
214	/// Returns a string containing the concatenated values of the node
215	/// and all its child nodes.
216	///
217	/// This method is not part of the W3C Document Object Model.
218
219	virtual Node* getNodeByPath(const XMLString& path) const = `0`;
220	/// Searches a node (element or attribute) based on a simplified XPath
221	/// expression.
222	///
223	/// Only simple XPath expressions are supported. These are the slash
224	/// notation for specifying paths to elements, and the square bracket
225	/// expression for finding elements by their index, by attribute value,
226	/// or finding attributes by names.
227	///
228	/// The slash at the beginning is optional, the evaluation always starts
229	/// at this element. A double-slash at the beginning recursively searches
230	/// the entire subtree for the first element.
231	///
232	/// Examples:
233	/// elem1/elem2/elem3
234	/// /elem1/elem2/elem3
235	/// /elem1/elem2[1]
236	/// /elem1/elem2[@attr1]
237	/// /elem1/elem2[@attr1='value']
238	/// //elem2[@attr1='value']
239	/// //[@attr1='value']
240	///
241	/// This method is an extension to the W3C Document Object Model.
242
243	virtual Node* getNodeByPathNS(const XMLString& path, const NSMap& nsMap) const = `0`;
244	/// Searches a node (element or attribute) based on a simplified XPath
245	/// expression. The given NSMap must contain mappings from namespace
246	/// prefixes to namespace URIs for all namespace prefixes used in
247	/// the path expression.
248	///
249	/// Only simple XPath expressions are supported. These are the slash
250	/// notation for specifying paths to elements, and the square bracket
251	/// expression for finding elements by their index, by attribute value,
252	/// or finding attributes by names.
253	///
254	/// The slash at the beginning is optional, the evaluation always starts
255	/// at this element. A double-slash at the beginning recursively searches
256	/// the entire subtree for the first element.
257	///
258	/// Examples:
259	/// /ns1:elem1/ns2:elem2/ns2:elem3
260	/// /ns1:elem1/ns2:elem2[1]
261	/// /ns1:elem1/ns2:elem2[@attr1]
262	/// /ns1:elem1/ns2:elem2[@attr1='value']
263	/// //ns2:elem2[@ns1:attr1='value']
264	/// //[@ns1:attr1='value']
265	///
266	/// This method is an extension to the W3C Document Object Model.
267
268	protected:
269	virtual ~Node();
270	};
271
272
273	//
274	// inlines
275	//
276	inline const XMLString& Node::nodeValue() const
277	{
278	return getNodeValue();
279	}
280
281
282	} } // namespace Poco::XML
283
284
285	#endif // DOM_Node_INCLUDED
286

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