This specification defines a set of objects and interfaces for
accessing and manipulating document objects. The functionality
specified (the Core functionality) is sufficient to
allow software developers and Web script authors to access and
manipulate parsed HTML [HTML 4.01] and
XML [XML 1.0] content inside conforming
products. The DOM Core API also
allows creation and population of a Document
object
using only DOM API calls. A solution for loading a
Document
and saving it persistently is proposed in
[DOM Level 3 Load and Save].
The DOM presents documents as a hierarchy of Node
objects
that also implement other, more specialized interfaces. Some types of
nodes may have child nodes of various
types, and others are leaf nodes that cannot have anything below them
in the document structure. For XML and HTML, the node types, and which
node types they may have as children, are as follows:
Document
-- Element
(maximum of one),
ProcessingInstruction
, Comment
,
DocumentType
(maximum of one) DocumentFragment
-- Element
,
ProcessingInstruction
, Comment
,
Text
, CDATASection
,
EntityReference
DocumentType
-- no childrenEntityReference
-- Element
,
ProcessingInstruction
, Comment
,
Text
, CDATASection
,
EntityReference
Element
-- Element
, Text
,
Comment
, ProcessingInstruction
,
CDATASection
, EntityReference
Attr
-- Text
,
EntityReference
ProcessingInstruction
-- no childrenComment
-- no childrenText
-- no childrenCDATASection
-- no childrenEntity
-- Element
,
ProcessingInstruction
, Comment
,
Text
, CDATASection
,
EntityReference
Notation
-- no childrenThe DOM also specifies a NodeList
interface to handle
ordered lists of Nodes
, such as the children of a
Node
, or the elements
returned by the
Element.getElementsByTagNameNS(namespaceURI, localName)
method, and also a NamedNodeMap
interface to handle unordered sets of nodes referenced by their name
attribute, such as the attributes of an Element
.
NodeList
and
NamedNodeMap
objects in the DOM are live;
that is, changes to the underlying document structure are reflected
in all relevant NodeList
and NamedNodeMap
objects. For example, if a DOM user gets a NodeList
object containing the children of an Element
, then
subsequently adds more children to that
element (or removes children, or
modifies them), those changes are automatically reflected in the
NodeList
, without further action on the user's
part. Likewise, changes to a Node
in the tree are
reflected in all references to that Node
in
NodeList
and NamedNodeMap
objects.
Finally, the interfaces Text
,
Comment
, and CDATASection
all inherit from
the CharacterData
interface.
Most of the APIs defined by this specification are
interfaces rather than classes. That means that an
implementation need only expose methods with the defined names and
specified operation, not implement classes that correspond directly to
the interfaces. This allows the DOM APIs to be implemented as a thin
veneer on top of legacy applications with their own data structures, or
on top of newer applications with different class hierarchies. This
also means that ordinary constructors (in the Java or C++ sense) cannot
be used to create DOM objects, since the underlying objects to be
constructed may have little relationship to the DOM interfaces. The
conventional solution to this in object-oriented design is to define
factory methods that create instances of objects that
implement the various interfaces. Objects implementing some interface
"X" are created by a "createX()" method on the Document
interface; this is because all DOM objects live in the context of a
specific Document.
The Core DOM APIs are designed to be compatible with a wide range of languages, including both general-user scripting languages and the more challenging languages used mostly by professional programmers. Thus, the DOM APIs need to operate across a variety of memory management philosophies, from language bindings that do not expose memory management to the user at all, through those (notably Java) that provide explicit constructors but provide an automatic garbage collection mechanism to automatically reclaim unused memory, to those (especially C/C++) that generally require the programmer to explicitly allocate object memory, track where it is used, and explicitly free it for re-use. To ensure a consistent API across these platforms, the DOM does not address memory management issues at all, but instead leaves these for the implementation. Neither of the explicit language bindings defined by the DOM API (for ECMAScript and Java) require any memory management methods, but DOM bindings for other languages (especially C or C++) may require such support. These extensions will be the responsibility of those adapting the DOM API to a specific language, not the DOM Working Group.
While it would be nice to have attribute and method names that are short, informative, internally consistent, and familiar to users of similar APIs, the names also should not clash with the names in legacy APIs supported by DOM implementations. Furthermore, both OMG IDL [OMG IDL] and ECMAScript [ECMAScript] have significant limitations in their ability to disambiguate names from different namespaces that make it difficult to avoid naming conflicts with short, familiar names. So, DOM names tend to be long and descriptive in order to be unique across all environments.
The Working Group has also attempted to be internally consistent in its use of various terms, even though these may not be common distinctions in other APIs. For example, the DOM API uses the method name "remove" when the method changes the structural model, and the method name "delete" when the method gets rid of something inside the structure model. The thing that is deleted is not returned. The thing that is removed may be returned, when it makes sense to return it.
The DOM Core APIs present two somewhat
different sets of interfaces to an XML/HTML document: one presenting an
"object oriented" approach with a hierarchy of
inheritance, and a "simplified"
view that allows all manipulation to be done via the Node
interface without requiring casts (in Java and other C-like languages)
or query interface calls in COM
environments. These operations are fairly expensive in Java and COM,
and the DOM may be used in performance-critical environments, so we
allow significant functionality using just the Node
interface. Because many other users will find the
inheritance hierarchy easier to
understand than the "everything is a Node
" approach to the
DOM, we also support the full higher-level interfaces for those who
prefer a more object-oriented API.
In practice, this means that there is a certain amount of redundancy
in the API. The Working Group considers
the "inheritance" approach the
primary view of the API, and the full set of functionality on
Node
to be "extra" functionality that users may employ,
but that does not eliminate the need for methods on other interfaces
that an object-oriented analysis would dictate. (Of course, when the
O-O analysis yields an attribute or method that is identical to one on
the Node
interface, we don't specify a completely
redundant one.) Thus, even though there is a generic
Node.nodeName
attribute on the Node
interface,
there is still a Element.tagName
attribute on the
Element
interface; these two attributes must contain the
same value, but the it is worthwhile to support both, given the
different constituencies the DOM API
must satisfy.
To ensure interoperability, this specification specifies the following basic types used in various DOM modules. Even though the DOM uses the basic types in the interfaces, bindings may use different types and normative bindings are only given for Java and ECMAScript in this specification.
DOMString
Type
The DOMString
type is used to store [Unicode] characters as a sequence of 16-bit units using UTF-16 as
defined in [Unicode] and Amendment 1 of [ISO/IEC 10646].
Characters are fully normalized as defined in appendix B of [XML 1.1] if:
true
while loading the document or
the document was certified as defined in [XML 1.1];
true
while using the method
Document.normalizeDocument()
, or while using
the method Node.normalize()
;
Note that, with the exceptions of
Document.normalizeDocument()
and
Node.normalize()
, manipulating characters using DOM
methods does not guarantee to preserve a
fully-normalized text.
A DOMString
is a sequence of
16-bit units.
valuetype DOMString sequence<unsigned short>;
The UTF-16 encoding was chosen because of its widespread industry
practice. Note that for both HTML and XML, the document character set
(and therefore the notation of numeric character references) is based on
UCS [ISO/IEC 10646]. A single numeric character reference in a
source document may therefore in some cases correspond to two 16-bit
units in a DOMString
(a high surrogate and a low
surrogate). For issues related to string comparisons, refer to
String Comparisons in the DOM.
For Java and ECMAScript, DOMString
is bound to the
String
type because both languages also use UTF-16
as their encoding.
Note: As of August 2000, the OMG IDL specification
([OMG IDL]) included a wstring
type. However, that definition did not meet the interoperability
criteria of the DOM API since it
relied on negotiation to decide the width and encoding of a
character.
DOMTimeStamp
Type
The DOMTimeStamp
type is used to store an absolute
or relative time.
A DOMTimeStamp
represents a number of
milliseconds.
typedef unsigned long long DOMTimeStamp;
For Java, DOMTimeStamp
is bound to the
long
type. For ECMAScript, DOMTimeStamp
is bound to the Date
type because the range of the
integer
type is too small.
DOMUserData
Type
The DOMUserData
type is used to store
application data.
A DOMUserData
represents a reference to
application data.
typedef any DOMUserData;
For Java, DOMUserData
is bound to the
Object
type. For ECMAScript,
DOMUserData
is bound to any type
.
The DOM has many interfaces that imply string matching. For
XML, string comparisons are case-sensitive and performed with a
binary comparison of
the 16-bit units of the
DOMStrings
. However, for case-insensitive markup
languages, such as HTML 4.01 or earlier, these comparisons are
case-insensitive where appropriate.
Note that HTML processors often perform specific case normalizations (canonicalization) of the markup before the DOM structures are built. This is typically using uppercase for element names and lowercase for attribute names. For this reason, applications should also compare element and attribute names returned by the DOM implementation in a case-insensitive manner.
The character normalization, i.e. transforming into their fully normalized form as
as defined in [XML 1.1], is assumed to happen at
serialization time. The DOM Level 3 Load and Save module [DOM Level 3 Load and Save] provides a serialization
mechanism (see the DOMSerializer
interface, section
2.3.1) and uses the DOMConfiguration
parameters
"normalize-characters"
and "check-character-normalization"
to assure that text is fully normalized [XML 1.1]. Other serialization mechanisms built on top of
the DOM Level 3 Core also have to assure that text is
fully normalized.
The DOM specification relies on DOMString
values as
resource identifiers, such that the following conditions are
met:
The term "absolute URI" refers to a complete resource identifier and the term "relative URI" refers to an incomplete resource identifier.
Within the DOM specifications, these identifiers are called URIs, "Uniform Resource Identifiers", but this is meant abstractly. The DOM implementation does not necessarily process its URIs according to the URI specification [IETF RFC 2396]. Generally the particular form of these identifiers must be ignored.
When is not possible to completely ignore the type of a DOM URI, either because a relative identifier must be made absolute or because content must be retrieved, the DOM implementation must at least support identifier types appropriate to the content being processed. [HTML 4.01], [XML 1.0], and associated namespace specification [XML Namespaces] rely on [IETF RFC 2396] to determine permissible characters and resolving relative URIs. Other specifications such as namespaces in XML 1.1 [XML Namespaces 1.1] may rely on alternative resource identifier types that may, for example, include non-ASCII characters, necessitating support for alternative resource identifier types where required by applicable specifications.
DOM Level 2 and 3 support XML namespaces [XML Namespaces] by augmenting several interfaces of the DOM
Level 1 Core to allow creating and manipulating elements and attributes associated to
a namespace. When [XML 1.1] is in use (see
Document.xmlVersion
), DOM Level 3 also supports
[XML Namespaces 1.1].
As far as the DOM is concerned, special attributes used for declaring XML namespaces are still exposed and can be manipulated just like any other attribute. However, nodes are permanently bound to namespace URIs as they get created. Consequently, moving a node within a document, using the DOM, in no case results in a change of its namespace prefix or namespace URI. Similarly, creating a node with a namespace prefix and namespace URI, or changing the namespace prefix of a node, does not result in any addition, removal, or modification of any special attributes for declaring the appropriate XML namespaces. Namespace validation is not enforced; the DOM application is responsible. In particular, since the mapping between prefixes and namespace URIs is not enforced, in general, the resulting document cannot be serialized naively. For example, applications may have to declare every namespace in use when serializing a document.
In general, the DOM implementation (and higher) doesn't perform any
URI normalization or canonicalization. The URIs given to the DOM are
assumed to be valid (e.g., characters such as white spaces are properly
escaped), and no lexical checking is performed. Absolute URI references
are treated as strings and compared
literally. How relative namespace URI references are
treated is undefined. To ensure interoperability only absolute
namespace URI references (i.e., URI references beginning with a scheme
name and a colon) should be used. Applications should use the
value null
as the namespaceURI
parameter
for methods if they wish to have no namespace. In programming
languages where empty strings can be differentiated from null,
empty strings, when given as a namespace URI, are converted to
null
.
This is
true even though the DOM does no lexical checking of URIs.
Note:
Element.setAttributeNS(null, ...)
puts the attribute in
the per-element-type partitions as defined in
XML Namespace
Partitions in [XML Namespaces].
Note: In the DOM, all namespace declaration attributes are by definition bound to the namespace URI: "http://www.w3.org/2000/xmlns/". These are the attributes whose namespace prefix or qualified name is "xmlns" as introduced in [XML Namespaces 1.1].
In a document with no namespaces, the
child list of an
EntityReference
node is always the same as that of the
corresponding Entity
. This is not true in a document where
an entity contains unbound namespace
prefixes. In such a case, the
descendants of the corresponding
EntityReference
nodes may be bound to different
namespace URIs, depending on
where the entity references are. Also, because, in the DOM, nodes
always remain bound to the same namespace URI, moving such
EntityReference
nodes can lead to documents that cannot be
serialized. This is also true when the DOM Level 1 method
Document.createEntityReference(name)
is used to create
entity references that correspond to such
entities, since the descendants
of the returned EntityReference
are unbound. While DOM Level
3 does have support for the resolution of namespace prefixes,
use of such entities and entity references should be
avoided or used with extreme care.
The "NS" methods, such as
Document.createElementNS(namespaceURI, qualifiedName)
and
Document.createAttributeNS(namespaceURI, qualifiedName)
,
are meant to be used by namespace aware applications. Simple
applications that do not use namespaces can use the DOM Level 1
methods, such as Document.createElement(tagName)
and
Document.createAttribute(name)
. Elements and attributes created in this
way do not have any namespace prefix, namespace URI, or local name.
Note: DOM Level 1 methods are namespace ignorant. Therefore, while it is
safe to use these methods when not dealing with namespaces, using
them and the new ones at the same time should be avoided. DOM Level 1
methods solely identify attribute nodes by their
Node.nodeName
. On the contrary, the DOM Level 2 methods
related to namespaces, identify attribute nodes by their
Node.namespaceURI
and Node.localName
. Because of this
fundamental difference, mixing both sets of methods can lead to
unpredictable results. In particular, using
Element.setAttributeNS(namespaceURI, qualifiedName, value)
, an
element may have two attributes
(or more) that have the same Node.nodeName
, but different
Node.namespaceURI
s. Calling Element.getAttribute(name)
with
that nodeName
could then return any of those
attributes. The result depends on the implementation. Similarly,
using Element.setAttributeNode(newAttr)
, one can set two attributes (or
more) that have different Node.nodeName
s but the same
Node.prefix
and Node.namespaceURI
. In this case
Element.getAttributeNodeNS(namespaceURI, localName)
will return either attribute, in an
implementation dependent manner. The only guarantee in such cases is
that all methods that access a named item by its
nodeName
will access the same item, and all methods
which access a node by its URI and local name will access the same
node. For instance, Element.setAttribute(name, value)
and
Element.setAttributeNS(namespaceURI, qualifiedName, value)
affect the node that
Element.getAttribute(name)
and
Element.getAttributeNS(namespaceURI, localName)
,
respectively, return.
The DOM Level 3 adds support for the [base URI] property
defined in
[XML Information Set] by providing a new attribute on the
Node
interface that exposes this information. However,
unlike the Node.namespaceURI
attribute, the
Node.baseURI
attribute is not a static piece of information
that every node carries. Instead, it is a value that is dynamically
computed according to [XML Base]. This means its value
depends on the location of the node in the tree and moving the node
from one place to another in the tree may affect its value. Other
changes, such as adding or changing an xml:base
attribute on the node
being queried or one of its ancestors may also affect its value.
One consequence of this it that when external entity references are
expanded while building a Document
one may need to add, or
change, an xml:base attribute to the
Element
nodes originally contained in the entity being
expanded so that the Node.baseURI
returns the correct value. In
the case of ProcessingInstruction
nodes originally
contained in the entity being expanded the information is lost.
[DOM Level 3 Load and Save] handles elements as described
here and generates a warning in the latter case.
As new XML vocabularies are developed, those defining the vocabularies are also beginning to define specialized APIs for manipulating XML instances of those vocabularies. This is usually done by extending the DOM to provide interfaces and methods that perform operations frequently needed by their users. For example, the MathML [MathML 2.0] and SVG [SVG 1.1] specifications have developed DOM extensions to allow users to manipulate instances of these vocabularies using semantics appropriate to images and mathematics, respectively, as well as the generic DOM XML semantics. Instances of SVG or MathML are often embedded in XML documents conforming to a different schema such as XHTML.
While the Namespaces in XML specification [XML Namespaces] provides a mechanism for integrating these documents at the syntax level, it has become clear that the DOM Level 2 Recommendation [DOM Level 2 Core] is not rich enough to cover all the issues that have been encountered in having these different DOM implementations be used together in a single application. DOM Level 3 deals with the requirements brought about by embedding fragments written according to a specific markup language (the embedded component) in a document where the rest of the markup is not written according to that specific markup language (the host document). It does not deal with fragments embedded by reference or linking.
A DOM implementation supporting DOM Level 3 Core should be able to collaborate with subcomponents implementing specific DOMs to assemble a compound document that can be traversed and manipulated via DOM interfaces as if it were a seamless whole.
The normal typecast operation on an object should support the
interfaces expected by legacy code for a given document type.
Typecasting techniques may not be adequate for selecting between
multiple DOM specializations of an object which were combined at run
time, because they may not all be part of the same object as defined by
the binding's object model. Conflicts are most obvious with the
Document
object, since it is shared as owner by the rest
of the document. In a homogeneous document, elements rely on the
Document for specialized services and construction of specialized
nodes. In a heterogeneous document, elements from different modules
expect different services and APIs from the same Document
object, since there can only be one owner and root of the document
hierarchy.
Each DOM module defines one or more features, as listed in the
conformance section (Conformance). Features
are case-insensitive and are also defined for a specific set of
versions. For example, this specification defines the features
"Core"
and "XML"
, for the
version "3.0"
. Versions "1.0"
and
"2.0"
can also be used for features defined in the corresponding DOM
Levels. To avoid possible conflicts, as a convention, names
referring to features defined outside the DOM specification
should be made unique. Applications could then request for
features to be supported by a DOM implementation using the
methods
DOMImplementationSource.getDOMImplementation(features)
or
DOMImplementationSource.getDOMImplementationList(features)
,
check the features supported by a DOM implementation using the
method DOMImplementation.hasFeature(feature, version)
, or by a specific node using
Node.isSupported(feature, version)
. Note that when
using the methods that take a feature and a version as
parameters, applications can use null
or empty
string for the version parameter if they don't wish to specify a
particular version for the specified feature.
Up to the DOM Level 2 modules, all interfaces, that were an
extension of existing ones, were accessible using
binding-specific casting mechanisms if the feature associated to
the extension was supported. For example, an instance of the
EventTarget
interface could be obtained from an
instance of the Node
interface if the feature
"Events" was supported by the node.
As discussed Mixed DOM Implementations, DOM Level 3 Core
should be able to collaborate with subcomponents implementing
specific DOMs. For that effect, the methods
DOMImplementation.getFeature(feature, version)
and
Node.getFeature(feature, version)
were
introduced. In the case of
DOMImplementation.hasFeature(feature, version)
and
Node.isSupported(feature, version)
, if a plus sign
"+" is prepended to any feature name, implementations are
considered in which the specified feature may not be directly
castable but would require discovery through
DOMImplementation.getFeature(feature, version)
and
Node.getFeature(feature, version)
. Without a plus,
only features whose interfaces are directly castable are
considered.
// example 1, without prepending the "+" if (myNode.isSupported("Events", "3.0")) { EventTarget evt = (EventTarget) myNode; // ... } // example 2, with the "+" if (myNode.isSupported("+Events", "3.0")) { // (the plus sign "+" is irrelevant for the getFeature method itself // and is ignored by this method anyway) EventTarget evt = (EventTarget) myNode.getFeature("Events", "3.0"); // ... }
Because previous versions of the DOM specification only defined a set of interfaces, applications had to rely on some implementation dependent code to start from. However, hard-coding the application to a specific implementation prevents the application from running on other implementations and from using the most-suitable implementation of the environment. At the same time, implementations may also need to load modules or perform other setup to efficiently adapt to different and sometimes mutually-exclusive feature sets.
To solve these problems this specification introduces a
DOMImplementationRegistry
object with a function that lets
an application find implementations, based on the specific features
it requires. How this object is found and what it exactly looks like is
not defined here, because this cannot be done in a language-independent
manner. Instead, each language binding defines its own way of doing
this. See Java Language Binding and
ECMAScript Language Binding for specifics.
In all cases, though, the DOMImplementationRegistry
provides a getDOMImplementation
method accepting a
features string, which is passed to every known
DOMImplementationSource
until a suitable
DOMImplementation
is found and returned.
The DOMImplementationRegistry
also provides a getDOMImplementationList
method accepting a
features string, which is passed to every known
DOMImplementationSource
, and returns a list of suitable
DOMImplementations
. Those two methods are
the same as the ones found on the DOMImplementationSource
interface.
Any number of DOMImplementationSource
objects can be
registered. A source may return one or more
DOMImplementation
singletons or construct new
DOMImplementation
objects, depending upon whether the
requested features require specialized state in the
DOMImplementation
object.
The interfaces within this section are considered fundamental, and must be fully implemented by all conforming implementations of the DOM, including all HTML DOM implementations [DOM Level 2 HTML], unless otherwise specified.
A DOM application may use the
DOMImplementation.hasFeature(feature, version)
method
with parameter values "Core" and "3.0" (respectively) to determine
whether or not this module is supported by the implementation. Any
implementation that conforms to DOM Level 3 or a DOM Level 3 module
must conform to the Core module. Please refer to additional
information about conformance in this specification. The DOM Level 3 Core
module is backward compatible with the DOM Level 2 Core [DOM Level 2 Core] module, i.e. a DOM Level 3 Core
implementation who returns true
for "Core" with the
version
number "3.0"
must also return
true
for this feature
when the
version
number is "2.0"
, ""
or, null
.
DOM operations only raise exceptions in "exceptional"
circumstances, i.e., when an operation is impossible to perform (either
for logical reasons, because data is lost, or because the implementation
has become unstable). In general, DOM methods return specific error
values in ordinary processing situations, such as out-of-bound errors
when using NodeList
.
Implementations should raise other exceptions under other circumstances.
For example, implementations should raise an implementation-dependent
exception if a null
argument is passed when
null
was not expected.
Some languages and object systems do not support the concept of exceptions. For such systems, error conditions may be indicated using native error reporting mechanisms. For some bindings, for example, methods may return error codes similar to those listed in the corresponding method descriptions.
exception DOMException { unsigned short code; }; // ExceptionCode const unsigned short INDEX_SIZE_ERR = 1; const unsigned short DOMSTRING_SIZE_ERR = 2; const unsigned short HIERARCHY_REQUEST_ERR = 3; const unsigned short WRONG_DOCUMENT_ERR = 4; const unsigned short INVALID_CHARACTER_ERR = 5; const unsigned short NO_DATA_ALLOWED_ERR = 6; const unsigned short NO_MODIFICATION_ALLOWED_ERR = 7; const unsigned short NOT_FOUND_ERR = 8; const unsigned short NOT_SUPPORTED_ERR = 9; const unsigned short INUSE_ATTRIBUTE_ERR = 10; // Introduced in DOM Level 2: const unsigned short INVALID_STATE_ERR = 11; // Introduced in DOM Level 2: const unsigned short SYNTAX_ERR = 12; // Introduced in DOM Level 2: const unsigned short INVALID_MODIFICATION_ERR = 13; // Introduced in DOM Level 2: const unsigned short NAMESPACE_ERR = 14; // Introduced in DOM Level 2: const unsigned short INVALID_ACCESS_ERR = 15; // Introduced in DOM Level 3: const unsigned short VALIDATION_ERR = 16; // Introduced in DOM Level 3: const unsigned short TYPE_MISMATCH_ERR = 17;
An integer indicating the type of error generated.
Note: Other numeric codes are reserved for W3C for possible future use.
DOMSTRING_SIZE_ERR
DOMString
.HIERARCHY_REQUEST_ERR
Node
is inserted somewhere it doesn't belong.INDEX_SIZE_ERR
INUSE_ATTRIBUTE_ERR
INVALID_ACCESS_ERR
, introduced in DOM Level 2.INVALID_CHARACTER_ERR
INVALID_MODIFICATION_ERR
, introduced in DOM Level 2.INVALID_STATE_ERR
, introduced in DOM Level 2.NAMESPACE_ERR
, introduced in DOM Level 2.NOT_FOUND_ERR
Node
in a context where it does
not exist.NOT_SUPPORTED_ERR
NO_DATA_ALLOWED_ERR
Node
which does not support data.NO_MODIFICATION_ALLOWED_ERR
SYNTAX_ERR
, introduced in DOM Level 2.TYPE_MISMATCH_ERR
, introduced in DOM Level 3.VALIDATION_ERR
, introduced in DOM Level 3.insertBefore
or
removeChild
would make the Node
invalid with
respect to "partial
validity", this exception would be raised and the operation
would not be done. This code is used in [DOM Level 3 Validation]. Refer to this specification for further information.WRONG_DOCUMENT_ERR
Node
is used in a different document than the one that created it
(that doesn't support it).
The DOMStringList
interface provides the abstraction
of an ordered collection of DOMString
values, without
defining or constraining how this collection is implemented. The
items in the DOMStringList
are accessible via an
integral index, starting from 0.
// Introduced in DOM Level 3: interface DOMStringList { DOMString item(in unsigned long index); readonly attribute unsigned long length; boolean contains(in DOMString str); };
contains
DOMStringList
.
str
of type
DOMString
|
|
item
index
th item in the collection. If
index
is greater than or equal to the number of
DOMString
s in the list, this returns
null
.
index
of type
unsigned long
The NameList
interface provides the abstraction of an
ordered collection of parallel pairs of name and namespace values
(which could be null values), without defining or constraining how
this collection is implemented. The items in the
NameList
are accessible via an integral index,
starting from 0.
// Introduced in DOM Level 3: interface NameList { DOMString getName(in unsigned long index); DOMString getNamespaceURI(in unsigned long index); readonly attribute unsigned long length; boolean contains(in DOMString str); boolean containsNS(in DOMString namespaceURI, in DOMString name); };
length
of type unsigned long
, readonlylength-1
inclusive.
contains
NameList
.
str
of type
DOMString
|
|
containsNS
getName
index
th name item in the collection.
index
of type
unsigned long
The name at the |
getNamespaceURI
index
th namespaceURI item in the
collection.
index
of type
unsigned long
The namespace URI at the |
The DOMImplementationList
interface provides the
abstraction of an ordered collection of DOM implementations,
without defining or constraining how this collection is
implemented. The items in the DOMImplementationList
are accessible via an integral index, starting from 0.
// Introduced in DOM Level 3: interface DOMImplementationList { DOMImplementation item(in unsigned long index); readonly attribute unsigned long length; };
length
of type unsigned long
, readonlyDOMImplementation
s in the list. The
range of valid child node indices is 0 to length-1
inclusive.
item
index
th item in the collection. If
index
is greater than or equal to the number of
DOMImplementation
s in the list, this returns
null
.
index
of type
unsigned long
The |
This interface permits a DOM implementer to supply one or more
implementations, based upon requested features and versions, as
specified in DOM Features. Each implemented
DOMImplementationSource
object is listed in the
binding-specific list of available sources so that its
DOMImplementation
objects are made available.
// Introduced in DOM Level 3: interface DOMImplementationSource { DOMImplementation getDOMImplementation(in DOMString features); DOMImplementationList getDOMImplementationList(in DOMString features); };
getDOMImplementation
features
of type
DOMString
getDOMImplementationList
.
"XML 3.0 Traversal +Events
2.0"
will request a DOM implementation that supports
the module "XML" for its 3.0 version, a module that support
of the "Traversal" module for any version, and the module
"Events" for its 2.0 version. The module "Events" must be
accessible using the method Node.getFeature()
and
DOMImplementation.getFeature()
.
The first DOM implementation that support the desired features, or
|
getDOMImplementationList
features
of type
DOMString
A list of DOM implementations that support the desired features. |
The DOMImplementation
interface provides a number of
methods for performing operations that are independent of any particular
instance of the document object model.
interface DOMImplementation { boolean hasFeature(in DOMString feature, in DOMString version); // Introduced in DOM Level 2: DocumentType createDocumentType(in DOMString qualifiedName, in DOMString publicId, in DOMString systemId) raises(DOMException); // Introduced in DOM Level 2: Document createDocument(in DOMString namespaceURI, in DOMString qualifiedName, in DocumentType doctype) raises(DOMException); // Introduced in DOM Level 3: DOMObject getFeature(in DOMString feature, in DOMString version); };
createDocument
introduced in DOM Level 2DocumentType
given to create the
document, the implementation may instantiate specialized
Document
objects that support additional features than the
"Core", such as "HTML" [DOM Level 2 HTML].
On the other hand, setting the DocumentType
after the
document was created makes this very unlikely to happen. Alternatively,
specialized Document
creation methods, such as
createHTMLDocument
[DOM Level 2 HTML], can be used to obtain
specific types of Document
objects.namespaceURI
of type
DOMString
null
.qualifiedName
of type
DOMString
null
.doctype
of type
DocumentType
null
.doctype
is not null
, its
Node.ownerDocument
attribute is set to the document
being created.
INVALID_CHARACTER_ERR: Raised if the specified qualified name is not an XML name according to [XML 1.0]. NAMESPACE_ERR: Raised if the WRONG_DOCUMENT_ERR: Raised if NOT_SUPPORTED_ERR: May be raised if the implementation does not support the feature "XML" and the language exposed through the Document does not support XML Namespaces (such as [HTML 4.01]). |
createDocumentType
introduced in DOM Level 2DocumentType
node. Entity declarations
and notations are not made available. Entity reference expansions and
default attribute additions do not occur..qualifiedName
of type
DOMString
publicId
of type
DOMString
systemId
of type
DOMString
A new |
INVALID_CHARACTER_ERR: Raised if the specified qualified name is not an XML name according to [XML 1.0]. NAMESPACE_ERR: Raised if the NOT_SUPPORTED_ERR: May be raised if the implementation does not support the feature "XML" and the language exposed through the Document does not support XML Namespaces (such as [HTML 4.01]). |
getFeature
introduced in DOM Level 3DOMImplementation
interface.
Returns an object which implements the specialized APIs of the
specified feature and version, if any, or |
hasFeature
|
|
DocumentFragment
is a "lightweight" or "minimal"
Document
object. It is very common to want to be able to
extract a portion of a document's tree or to create a new fragment of a
document. Imagine implementing a user command like cut or rearranging a
document by moving fragments around. It is desirable to have an object
which can hold such fragments and it is quite natural to use a Node for
this purpose. While it is true that a Document
object could
fulfill this role, a Document
object can potentially be a
heavyweight object, depending on the underlying implementation. What is
really needed for this is a very lightweight
object. DocumentFragment
is such an object.
Furthermore, various operations -- such as inserting nodes as children
of another Node
-- may take DocumentFragment
objects as arguments; this results in all the child nodes of the
DocumentFragment
being moved to the child list of this
node.
The children of a DocumentFragment
node are zero or more
nodes representing the tops of any sub-trees defining the structure of
the document. DocumentFragment
nodes do not need to be
well-formed XML documents
(although they do need to follow the rules imposed upon well-formed XML
parsed entities, which can have multiple top nodes). For example, a
DocumentFragment
might have only one child and that child
node could be a Text
node. Such a structure model represents
neither an HTML document nor a well-formed XML document.
When a DocumentFragment
is inserted into a
Document
(or indeed any other Node
that may
take children) the children of the DocumentFragment
and not
the DocumentFragment
itself are inserted into the
Node
. This makes the DocumentFragment
very
useful when the user wishes to create nodes that are
siblings; the
DocumentFragment
acts as the parent of these nodes so that
the user can use the standard methods from the Node
interface, such as Node.insertBefore
and
Node.appendChild
.
interface DocumentFragment : Node { };
The Document
interface represents the entire HTML or XML
document. Conceptually, it is the
root of the document tree, and
provides the primary access to the document's data.
Since elements, text nodes, comments, processing instructions,
etc. cannot exist outside the context of a Document
, the
Document
interface also contains the factory methods needed
to create these objects. The Node
objects created have a
ownerDocument
attribute which associates them with the
Document
within whose context they were created.
interface Document : Node { // Modified in DOM Level 3: readonly attribute DocumentType doctype; readonly attribute DOMImplementation implementation; readonly attribute Element documentElement; Element createElement(in DOMString tagName) raises(DOMException); DocumentFragment createDocumentFragment(); Text createTextNode(in DOMString data); Comment createComment(in DOMString data); CDATASection createCDATASection(in DOMString data) raises(DOMException); ProcessingInstruction createProcessingInstruction(in DOMString target, in DOMString data) raises(DOMException); Attr createAttribute(in DOMString name) raises(DOMException); EntityReference createEntityReference(in DOMString name) raises(DOMException); NodeList getElementsByTagName(in DOMString tagname); // Introduced in DOM Level 2: Node importNode(in Node importedNode, in boolean deep) raises(DOMException); // Introduced in DOM Level 2: Element createElementNS(in DOMString namespaceURI, in DOMString qualifiedName) raises(DOMException); // Introduced in DOM Level 2: Attr createAttributeNS(in DOMString namespaceURI, in DOMString qualifiedName) raises(DOMException); // Introduced in DOM Level 2: NodeList getElementsByTagNameNS(in DOMString namespaceURI, in DOMString localName); // Introduced in DOM Level 2: Element getElementById(in DOMString elementId); // Introduced in DOM Level 3: readonly attribute DOMString inputEncoding; // Introduced in DOM Level 3: readonly attribute DOMString xmlEncoding; // Introduced in DOM Level 3: attribute boolean xmlStandalone; // raises(DOMException) on setting // Introduced in DOM Level 3: attribute DOMString xmlVersion; // raises(DOMException) on setting // Introduced in DOM Level 3: attribute boolean strictErrorChecking; // Introduced in DOM Level 3: attribute DOMString documentURI; // Introduced in DOM Level 3: Node adoptNode(in Node source) raises(DOMException); // Introduced in DOM Level 3: readonly attribute DOMConfiguration domConfig; // Introduced in DOM Level 3: void normalizeDocument(); // Introduced in DOM Level 3: Node renameNode(in Node n, in DOMString namespaceURI, in DOMString qualifiedName) raises(DOMException); };
doctype
of type DocumentType
, readonly, modified in DOM Level 3DocumentType
)
associated with this document. For XML
documents without a document type declaration this returns
null
. For HTML documents, a
DocumentType
object may be returned, independently
of the presence or absence of document type declaration in the
HTML document.DocumentType
node,
child node of this Document
. This node can be set at
document creation time and later changed through the use of child nodes
manipulation methods, such as Node.insertBefore
, or
Node.replaceChild
. Note, however, that while some
implementations may instantiate different types of
Document
objects supporting additional features than the
"Core", such as "HTML" [DOM Level 2 HTML],
based on the DocumentType
specified at creation time,
changing it afterwards is very unlikely to result in a change of the
features supported.documentElement
of type Element
, readonlydocumentURI
of type DOMString
, introduced in DOM Level 3null
if undefined
or if the Document
was created using
DOMImplementation.createDocument
. No lexical
checking is performed when setting this attribute; this could
result in a null
value returned when using
Node.baseURI
.
Document
supports the feature
"HTML" [DOM Level 2 HTML], the href
attribute of the HTML BASE element takes precedence over this
attribute when computing Node.baseURI
.
domConfig
of type DOMConfiguration
, readonly, introduced in DOM Level 3Document.normalizeDocument()
is invoked.
implementation
of type DOMImplementation
, readonlyDOMImplementation
object that handles this
document. A DOM application may use objects from multiple
implementations.inputEncoding
of type DOMString
, readonly, introduced in DOM Level 3null
when it is not known, such as when the
Document
was created in memory.strictErrorChecking
of type boolean
, introduced in DOM Level 3false
, the implementation is free to
not test every possible error case normally defined on DOM
operations, and not raise any DOMException
on DOM
operations or report errors while using
Document.normalizeDocument()
. In case of error, the
behavior is undefined. This attribute is true
by
default.xmlEncoding
of type DOMString
, readonly, introduced in DOM Level 3null
when
unspecified or when it is not known, such as when the
Document
was created in memory.xmlStandalone
of type boolean
, introduced in DOM Level 3false
when
unspecified.Note:
No verification is done on the value when setting this
attribute. Applications should use
Document.normalizeDocument()
with the "validate" parameter to
verify if the value matches the validity constraint for standalone
document declaration as defined in [XML 1.0].
NOT_SUPPORTED_ERR: Raised if this document does not support the "XML" feature. |
xmlVersion
of type DOMString
, introduced in DOM Level 3"1.0"
. If this document does not support the "XML"
feature, the value is always null
. Changing this
attribute will affect methods that check for invalid characters
in XML names. Application should invoke
Document.normalizeDocument()
in order to check for
invalid characters in the Node
s that are already
part of this Document
.
DOMImplementation.hasFeature(feature, version)
method with parameter values "XMLVersion" and "1.0"
(respectively) to determine if an implementation supports
[XML 1.0]. DOM applications may use the same method
with parameter values "XMLVersion" and "1.1" (respectively) to
determine if an implementation supports [XML 1.1]. In both cases, in order to support XML, an
implementation must also support the "XML" feature defined in
this specification. Document
objects supporting a
version of the "XMLVersion" feature must not raise a
NOT_SUPPORTED_ERR
exception for the same version
number when using Document.xmlVersion
.
NOT_SUPPORTED_ERR: Raised if the version is set to a value
that is not supported by this |
adoptNode
introduced in DOM Level 3ownerDocument
of the source node, its children, as
well as the attached attribute nodes if there are any. If the
source node has a parent it is first removed from the child list
of its parent. This effectively allows moving a subtree from one
document to another (unlike importNode()
which
create a copy of the source node instead of moving it). When it
fails, applications should use
Document.importNode()
instead. Note that if the
adopted node is already part of this document (i.e. the source
and target document are the same), this method still has the
effect of removing the source node from the child list of its
parent, if any. The following list describes the specifics for
each type of node.
ownerElement
attribute is set to
null
and the specified
flag is set to
true
on the adopted Attr
. The
descendants of the source Attr
are recursively
adopted.Document
nodes cannot be adopted.DocumentType
nodes cannot be adopted.Entity
nodes cannot be adopted.EntityReference
node itself is adopted,
the descendants are discarded, since the source and destination
documents might have defined the entity differently. If the
document being imported into provides a definition for this
entity name, its value is assigned.Notation
nodes cannot be adopted.Note:
Since it does not create new nodes unlike the
Document.importNode()
method, this method does
not raise an INVALID_CHARACTER_ERR
exception, and
applications should use the
Document.normalizeDocument()
method to check if
an imported name is not an XML name according to the
XML version in use.
source
of type
Node
The adopted node, or |
NOT_SUPPORTED_ERR: Raised if the source node is of type
NO_MODIFICATION_ALLOWED_ERR: Raised when the source node is readonly. |
createAttribute
Attr
of the given name. Note that the
Attr
instance can then be set on an Element
using the setAttributeNode
method. createAttributeNS
method.name
of type
DOMString
INVALID_CHARACTER_ERR: Raised if the specified name is not
an XML name according to the XML version in use
specified in the |
createAttributeNS
introduced in DOM Level 2null
as the namespaceURI
parameter for methods if they wish to have no
namespace.namespaceURI
of type
DOMString
qualifiedName
of type
DOMString
A new
|
INVALID_CHARACTER_ERR: Raised if the specified NAMESPACE_ERR: Raised if the NOT_SUPPORTED_ERR: Always thrown if the current document does not
support the |
createCDATASection
CDATASection
node whose value is the specified
string.data
of type
DOMString
CDATASection
contents.
The new |
NOT_SUPPORTED_ERR: Raised if this document is an HTML document. |
createComment
createDocumentFragment
DocumentFragment
object.
A new |
createElement
Element
interface, so attributes
can be specified directly on the returned object.Attr
nodes representing them are automatically created and
attached to the element.createElementNS
method.tagName
of type
DOMString
INVALID_CHARACTER_ERR: Raised if the specified name is not
an XML name according to the XML version in use
specified in the |
createElementNS
introduced in DOM Level 2null
as the namespaceURI parameter for methods if they wish to have no
namespace.namespaceURI
of type
DOMString
qualifiedName
of type
DOMString
A new
|
INVALID_CHARACTER_ERR: Raised if the specified NAMESPACE_ERR: Raised if the NOT_SUPPORTED_ERR: Always thrown if the current document does not
support the |
createEntityReference
EntityReference
object. In addition, if the
referenced entity is known, the child list of the
EntityReference
node is made the same as that of the
corresponding Entity
node.Note: If any descendant of the Entity
node has an unbound
namespace prefix, the
corresponding descendant of the created EntityReference
node is also unbound; (its namespaceURI
is
null
). The DOM Level 2 and 3 do not support any mechanism to
resolve namespace prefixes in this case.
name
of type
DOMString
Document.createElementNS
or
Document.createAttributeNS
, no namespace
well-formed checking is done on the entity name. Applications
should invoke Document.normalizeDocument()
with
the parameter "namespaces" set to
true
in order to ensure that the entity name is
namespace well-formed.
The new |
INVALID_CHARACTER_ERR: Raised if the specified name is not
an XML name according to the XML version in use
specified in the NOT_SUPPORTED_ERR: Raised if this document is an HTML document. |
createProcessingInstruction
ProcessingInstruction
node given the specified
name and data strings.target
of type
DOMString
Document.createElementNS
or
Document.createAttributeNS
, no namespace
well-formed checking is done on the target name. Applications
should invoke Document.normalizeDocument()
with
the parameter "namespaces" set to
true
in order to ensure that the target name is
namespace well-formed.
data
of type
DOMString
The new |
INVALID_CHARACTER_ERR: Raised if the specified target is
not an XML name according to the XML version in use
specified in the NOT_SUPPORTED_ERR: Raised if this document is an HTML document. |
createTextNode
getElementById
introduced in DOM Level 2Element
that has an ID attribute with the
given value. If no such element exists, this returns null
.
If more than one element has an ID attribute with that value, what
is returned is undefined.
Attr.isId
to determine if an attribute is of type
ID.
Note: Attributes with the name "ID" or "id" are not of type ID unless so defined.
elementId
of type
DOMString
id
value for an element.
The matching element or |
getElementsByTagName
NodeList
of all the
Elements
in document
order with a given tag name and are contained in the
document.tagname
of type
DOMString
tagname
parameter is case-sensitive, otherwise it depends on the
case-sensitivity of the markup language in use.
getElementsByTagNameNS
introduced in DOM Level 2NodeList
of all the Elements
with
a given local name and namespace
URI in document order.namespaceURI
of type
DOMString
"*"
matches all
namespaces.localName
of type
DOMString
importNode
introduced in DOM Level 2parentNode
is
null
).nodeName
and nodeType
, plus the
attributes related to namespaces (prefix
,
localName
, and namespaceURI
). As in the
cloneNode
operation, the source node is not altered. User
data associated to the imported node is not carried over. However,
if any UserDataHandlers
has been specified along with the
associated data these handlers will be called with the appropriate
parameters before this method returns.nodeType
, attempting to mirror the behavior expected if a
fragment of XML or HTML source was copied from one document to another,
recognizing that the two documents may have different DTDs in the XML
case. The following list describes the specifics for each type of node.
ownerElement
attribute is set to
null
and the specified
flag is set to
true
on the generated Attr
. The
descendants of the
source Attr
are recursively imported and the
resulting nodes reassembled to form the corresponding
subtree.deep
parameter has no effect on
Attr
nodes; they always carry their children with
them when imported.deep
option was set to
true
, the
descendants of the
source DocumentFragment
are recursively imported
and the resulting nodes reassembled under the imported
DocumentFragment
to form the corresponding
subtree. Otherwise, this simply generates an empty
DocumentFragment
.Document
nodes cannot be imported.DocumentType
nodes cannot be imported.Attr
nodes are
attached to the generated Element
. Default
attributes are not copied, though if the document
being imported into defines default attributes for this element
name, those are assigned. If the importNode
deep
parameter was set to true
, the
descendants of the
source element are recursively imported and the resulting nodes
reassembled to form the corresponding subtree.Entity
nodes can be imported, however in the
current release of the DOM the DocumentType
is
readonly. Ability to add these imported nodes to a
DocumentType
will be considered for addition to a
future release of the DOM.publicId
, systemId
,
and notationName
attributes are copied. If a
deep
import is requested, the
descendants of the
the source Entity
are recursively imported and the
resulting nodes reassembled to form the corresponding
subtree.EntityReference
itself is copied, even
if a deep
import is requested, since the source
and destination documents might have defined the entity
differently. If the document being imported into provides a
definition for this entity name, its value is assigned.Notation
nodes can be imported, however in the
current release of the DOM the DocumentType
is
readonly. Ability to add these imported nodes to a
DocumentType
will be considered for addition to a
future release of the DOM.publicId
and
systemId
attributes are copied.deep
parameter has no effect on
this type of nodes since they cannot have any children.target
and
data
values from those of the source node.deep
parameter has no effect on
this type of nodes since they cannot have any children.CharacterData
copy their data
and
length
attributes from those of the source
node.deep
parameter has no effect on
these types of nodes since they cannot have any children.importedNode
of type
Node
deep
of type
boolean
true
, recursively import the subtree under the
specified node; if false
, import only the node itself,
as explained above. This has no effect on nodes that cannot have
any children, and on Attr
, and
EntityReference
nodes.
The imported node that belongs to this |
NOT_SUPPORTED_ERR: Raised if the type of node being imported is not supported. INVALID_CHARACTER_ERR: Raised if one of the imported names is
not an XML name according to the XML version in use
specified in the |
normalizeDocument
introduced in DOM Level 3EntityReference
nodes and normalizes
Text
nodes, as defined in the method
Node.normalize()
.
Document.domConfig
object and governing what
operations actually take place. Noticeably this method could
also make the document namespace well-formed
according to the algorithm described in Namespace Normalization, check the character
normalization, remove the CDATASection
nodes,
etc. See DOMConfiguration
for details.
// Keep in the document the information defined // in the XML Information Set (Java example) DOMConfiguration docConfig = myDocument.getDomConfig(); docConfig.setParameter("infoset", Boolean.TRUE); myDocument.normalizeDocument();
Node.nodeName
contains an
invalid character according to the XML version in use, errors or
warnings (DOMError.SEVERITY_ERROR
or
DOMError.SEVERITY_WARNING
) will be reported using
the DOMErrorHandler
object associated with the
"error-handler"
parameter. Note this method might also report fatal errors
(DOMError.SEVERITY_FATAL_ERROR
) if an
implementation cannot recover from an error.
renameNode
introduced in DOM Level 3ELEMENT_NODE
or
ATTRIBUTE_NODE
.Element
its attributes are moved to the new node,
the new node is inserted at the position the old node used to have in
its parent's child nodes list if it has one, the user data that was
attached to the old node is attached to the new node.Element
only the
specified attributes are moved, default attributes originated from the
DTD are updated according to the new element name. In addition, the
implementation may update default attributes from other
schemas. Applications should use
Document.normalizeDocument()
to guarantee these
attributes are up-to-date.Attr
that is attached
to an Element
, the node is first removed from the
Element
attributes map. Then, once renamed, either by
modifying the existing node or creating a new one as described above,
it is put back.NODE_RENAMED
is fired,
http://www.w3.org/2001/xml-events
,
DOMElementNameChanged
} or
{http://www.w3.org/2001/xml-events
,
DOMAttributeNameChanged
} is fired.
n
of type
Node
namespaceURI
of type
DOMString
qualifiedName
of type
DOMString
The renamed node. This is either the specified node or the new node that was created to replace the specified node. |
NOT_SUPPORTED_ERR: Raised when the type of the specified node is
neither INVALID_CHARACTER_ERR: Raised if the new qualified name is not
an XML name according to the XML version in use
specified in the WRONG_DOCUMENT_ERR: Raised when the specified node was created from a different document than this document. NAMESPACE_ERR: Raised if the |
The Node
interface is the primary datatype for the entire
Document Object Model. It represents a single node in the document
tree. While all objects implementing the Node
interface
expose methods for dealing with children, not all objects implementing
the Node
interface may have children. For example,
Text
nodes may not have children, and adding children to
such nodes results in a DOMException
being raised.
The attributes nodeName
, nodeValue
and
attributes
are included as a mechanism to get at node
information without casting down to the specific derived interface. In
cases where there is no obvious mapping of these attributes for a
specific nodeType
(e.g., nodeValue
for an
Element
or attributes
for a
Comment
), this returns null
. Note that the
specialized interfaces may contain additional and more convenient
mechanisms to get and set the relevant information.
interface Node { // NodeType const unsigned short ELEMENT_NODE = 1; const unsigned short ATTRIBUTE_NODE = 2; const unsigned short TEXT_NODE = 3; const unsigned short CDATA_SECTION_NODE = 4; const unsigned short ENTITY_REFERENCE_NODE = 5; const unsigned short ENTITY_NODE = 6; const unsigned short PROCESSING_INSTRUCTION_NODE = 7; const unsigned short COMMENT_NODE = 8; const unsigned short DOCUMENT_NODE = 9; const unsigned short DOCUMENT_TYPE_NODE = 10; const unsigned short DOCUMENT_FRAGMENT_NODE = 11; const unsigned short NOTATION_NODE = 12; readonly attribute DOMString nodeName; attribute DOMString nodeValue; // raises(DOMException) on setting // raises(DOMException) on retrieval readonly attribute unsigned short nodeType; readonly attribute Node parentNode; readonly attribute NodeList childNodes; readonly attribute Node firstChild; readonly attribute Node lastChild; readonly attribute Node previousSibling; readonly attribute Node nextSibling; readonly attribute NamedNodeMap attributes; // Modified in DOM Level 2: readonly attribute Document ownerDocument; // Modified in DOM Level 3: Node insertBefore(in Node newChild, in Node refChild) raises(DOMException); // Modified in DOM Level 3: Node replaceChild(in Node newChild, in Node oldChild) raises(DOMException); // Modified in DOM Level 3: Node removeChild(in Node oldChild) raises(DOMException); // Modified in DOM Level 3: Node appendChild(in Node newChild) raises(DOMException); boolean hasChildNodes(); Node cloneNode(in boolean deep); // Modified in DOM Level 3: void normalize(); // Introduced in DOM Level 2: boolean isSupported(in DOMString feature, in DOMString version); // Introduced in DOM Level 2: readonly attribute DOMString namespaceURI; // Introduced in DOM Level 2: attribute DOMString prefix; // raises(DOMException) on setting // Introduced in DOM Level 2: readonly attribute DOMString localName; // Introduced in DOM Level 2: boolean hasAttributes(); // Introduced in DOM Level 3: readonly attribute DOMString baseURI; // DocumentPosition const unsigned short DOCUMENT_POSITION_DISCONNECTED = 0x01; const unsigned short DOCUMENT_POSITION_PRECEDING = 0x02; const unsigned short DOCUMENT_POSITION_FOLLOWING = 0x04; const unsigned short DOCUMENT_POSITION_CONTAINS = 0x08; const unsigned short DOCUMENT_POSITION_CONTAINED_BY = 0x10; const unsigned short DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC = 0x20; // Introduced in DOM Level 3: unsigned short compareDocumentPosition(in Node other) raises(DOMException); // Introduced in DOM Level 3: attribute DOMString textContent; // raises(DOMException) on setting // raises(DOMException) on retrieval // Introduced in DOM Level 3: boolean isSameNode(in Node other); // Introduced in DOM Level 3: DOMString lookupPrefix(in DOMString namespaceURI); // Introduced in DOM Level 3: boolean isDefaultNamespace(in DOMString namespaceURI); // Introduced in DOM Level 3: DOMString lookupNamespaceURI(in DOMString prefix); // Introduced in DOM Level 3: boolean isEqualNode(in Node arg); // Introduced in DOM Level 3: DOMObject getFeature(in DOMString feature, in DOMString version); // Introduced in DOM Level 3: DOMUserData setUserData(in DOMString key, in DOMUserData data, in UserDataHandler handler); // Introduced in DOM Level 3: DOMUserData getUserData(in DOMString key); };
An integer indicating which type of node this is.
Note: Numeric codes up to 200 are reserved to W3C for possible future use.
ATTRIBUTE_NODE
Attr
.CDATA_SECTION_NODE
CDATASection
.COMMENT_NODE
Comment
.DOCUMENT_FRAGMENT_NODE
DocumentFragment
.DOCUMENT_NODE
Document
.DOCUMENT_TYPE_NODE
DocumentType
.ELEMENT_NODE
Element
.ENTITY_NODE
Entity
.ENTITY_REFERENCE_NODE
EntityReference
.NOTATION_NODE
Notation
.PROCESSING_INSTRUCTION_NODE
ProcessingInstruction
.TEXT_NODE
Text
node.The values of nodeName
, nodeValue
, and
attributes
vary according to the node type as follows:
Interface | nodeName | nodeValue | attributes |
---|---|---|---|
Attr |
same as Attr.name |
same as Attr.value |
null |
CDATASection |
"#cdata-section" |
same as CharacterData.data , the content of
the CDATA Section |
null |
Comment |
"#comment" |
same as CharacterData.data , the content of the comment |
null |
Document |
"#document" |
null |
null |
DocumentFragment |
"#document-fragment" |
null |
null |
DocumentType |
same as DocumentType.name |
null |
null |
Element |
same as Element.tagName |
null |
NamedNodeMap |
Entity | entity name |
null |
null |
EntityReference | name of entity referenced |
null |
null |
Notation | notation name |
null |
null |
ProcessingInstruction |
same as ProcessingInstruction.target |
same as ProcessingInstruction.data |
null |
Text |
"#text" |
same as CharacterData.data , the content of the text node |
null |
A bitmask indicating the relative document position of a node with respect to another node.
If the two nodes being compared are the same node, then no flags are set on the return.
Otherwise, the order of two nodes is determined by looking for common containers -- containers which contain both. A node directly contains any child nodes. A node also directly contains any other nodes attached to it such as attributes contained in an element or entities and notations contained in a document type. Nodes contained in contained nodes are also contained, but less-directly as the number of intervening containers increases.
If there is no common container node, then the order is based upon order between the root container of each node that is in no container. In this case, the result is disconnected and implementation-specific. This result is stable as long as these outer-most containing nodes remain in memory and are not inserted into some other containing node. This would be the case when the nodes belong to different documents or fragments, and cloning the document or inserting a fragment might change the order.
If one of the nodes being compared contains the other node, then the container precedes the contained node, and reversely the contained node follows the container. For example, when comparing an element against its own attribute or child, the element node precedes its attribute node and its child node, which both follow it.
If neither of the previous cases apply, then there exists a most-direct container common to both nodes being compared. In this case, the order is determined based upon the two determining nodes directly contained in this most-direct common container that either are or contain the corresponding nodes being compared.
If these two determining nodes are both child nodes, then the natural DOM order of these determining nodes within the containing node is returned as the order of the corresponding nodes. This would be the case, for example, when comparing two child elements of the same element.
If one of the two determining nodes is a child node and the other is not, then the corresponding node of the child node follows the corresponding node of the non-child node. This would be the case, for example, when comparing an attribute of an element with a child element of the same element.
If neither of the two determining node is a child node and
one determining node has a greater value of
nodeType
than the other, then the corresponding
node precedes the other. This would be the case, for example,
when comparing an entity of a document type against a notation
of the same document type.
If neither of the two determining node is a child node and
nodeType
is the same for both determining nodes,
then an implementation-dependent order between the determining
nodes is returned. This order is stable as long as no nodes of
the same nodeType are inserted into or removed from the direct
container. This would be the case, for example, when comparing
two attributes of the same element, and inserting or removing
additional attributes might change the order between existing
attributes.
DOCUMENT_POSITION_CONTAINED_BY
DOCUMENT_POSITION_CONTAINS
DOCUMENT_POSITION_DISCONNECTED
DOCUMENT_POSITION_FOLLOWING
DOCUMENT_POSITION_IMPLEMENTATION_SPECIFIC
DOCUMENT_POSITION_PRECEDING
attributes
of type NamedNodeMap
, readonlyNamedNodeMap
containing the attributes of this node (if
it is an Element
) or null
otherwise.baseURI
of type DOMString
, readonly, introduced in DOM Level 3null
if the
implementation wasn't able to obtain an absolute URI. This value
is computed as described in Base URIs. However, when the
Document
supports the feature "HTML" [DOM Level 2 HTML], the base URI is computed
using first the value of the href attribute of the HTML BASE
element if any, and the value of the documentURI
attribute from the Document
interface otherwise.childNodes
of type NodeList
, readonlyNodeList
that contains all children of this node. If
there are no children, this is a NodeList
containing no
nodes.firstChild
of type Node
, readonlynull
.lastChild
of type Node
, readonlynull
.localName
of type DOMString
, readonly, introduced in DOM Level 2ELEMENT_NODE
and
ATTRIBUTE_NODE
and nodes created with a DOM Level 1
method, such as Document.createElement()
,
this is always null
.namespaceURI
of type DOMString
, readonly, introduced in DOM Level 2null
if it is unspecified (see XML Namespaces).ELEMENT_NODE
and
ATTRIBUTE_NODE
and nodes created with a DOM Level 1
method, such as Document.createElement()
, this is
always null
.Note: Per the Namespaces in XML Specification [XML Namespaces] an attribute does not inherit its namespace from the element it is attached to. If an attribute is not explicitly given a namespace, it simply has no namespace.
nextSibling
of type Node
, readonlynull
.nodeName
of type DOMString
, readonlynodeType
of type unsigned short
, readonlynodeValue
of type DOMString
null
, setting it has no effect,
including if the node is read-only.
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is
readonly and if it is not defined to be |
DOMSTRING_SIZE_ERR: Raised when it would return more characters
than fit in a |
ownerDocument
of type Document
, readonly, modified in DOM Level 2Document
object associated with this node. This is
also the Document
object used to create new nodes. When
this node is a Document
or a DocumentType
which is not used with any Document
yet, this is
null
.parentNode
of type Node
, readonlyAttr
, Document
,
DocumentFragment
, Entity
, and
Notation
may have a parent. However, if a node has just
been created and not yet added to the tree, or if it has been removed
from the tree, this is null
.
prefix
of type DOMString
, introduced in DOM Level 2null
if it is
unspecified. When it is defined to be null
, setting
it has no effect, including if the node is read-only.nodeName
attribute, which holds the
qualified name, as well as
the tagName
and name
attributes of the
Element
and Attr
interfaces, when
applicable.null
makes it unspecified, setting
it to an empty string is implementation dependent.namespaceURI
and localName
do not change.ELEMENT_NODE
and
ATTRIBUTE_NODE
and nodes created with a DOM Level 1
method, such as createElement
from the
Document
interface, this is always null
.
INVALID_CHARACTER_ERR: Raised if the specified
prefix contains an illegal character according to the XML version in use
specified in the NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. NAMESPACE_ERR: Raised if the specified
|
previousSibling
of type Node
, readonlynull
.textContent
of type DOMString
, introduced in DOM Level 3null
, setting it
has no effect. On setting, any possible children this node may have are
removed and, if it the new string is not empty or null
,
replaced by a single Text
node containing the string
this attribute is set to.
Text.isElementContentWhitespace
). Similarly, on
setting, no parsing is performed either, the input string is
taken as pure textual content.
Node type | Content |
---|---|
ELEMENT_NODE, ATTRIBUTE_NODE, ENTITY_NODE, ENTITY_REFERENCE_NODE, DOCUMENT_FRAGMENT_NODE |
concatenation of the textContent attribute value
of every child node, excluding COMMENT_NODE and
PROCESSING_INSTRUCTION_NODE nodes. This is the empty string if
the node has no children. |
TEXT_NODE, CDATA_SECTION_NODE, COMMENT_NODE, PROCESSING_INSTRUCTION_NODE |
nodeValue |
DOCUMENT_NODE, DOCUMENT_TYPE_NODE, NOTATION_NODE | null |
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly. |
DOMSTRING_SIZE_ERR: Raised when it would return more characters
than fit in a |
appendChild
modified in DOM Level 3newChild
to the end of the list of children
of this node. If the newChild
is already in the tree, it
is first removed.newChild
of type
Node
DocumentFragment
object, the entire
contents of the document fragment are moved into the child list of
this node
The node added. |
HIERARCHY_REQUEST_ERR: Raised if this node is of a type that does
not allow children of the type of the WRONG_DOCUMENT_ERR: Raised if NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly or if the previous parent of the node being inserted is readonly. NOT_SUPPORTED_ERR: if the |
cloneNode
parentNode
is null
) and no user data. User
data associated to the imported node is not carried over. However,
if any UserDataHandlers
has been specified along with the
associated data these handlers will be called with the appropriate
parameters before this method returns.Element
copies all attributes and their
values, including those generated by the XML processor to represent
defaulted attributes, but this method does not copy any children it
contains unless it is a deep clone. This includes text contained in an
the Element
since the text is contained in a child
Text
node. Cloning an Attr
directly, as
opposed to be cloned as part of an Element
cloning
operation, returns a specified attribute (specified
is
true
). Cloning an Attr
always clones its
children, since they represent its value, no matter whether this is a
deep clone or not. Cloning an EntityReference
automatically constructs its subtree if a corresponding
Entity
is available, no matter whether this is a deep
clone or not. Cloning any other type of node simply returns a copy of
this node.EntityReference
clone are
readonly. In addition, clones
of unspecified Attr
nodes are specified. And, cloning
Document
, DocumentType
, Entity
,
and Notation
nodes is implementation dependent.deep
of type
boolean
true
, recursively clone the subtree under the
specified node; if false
, clone only the node itself
(and its attributes, if it is an Element
).
The duplicate node. |
compareDocumentPosition
introduced in DOM Level 3other
of type
Node
|
Returns how the node is positioned relatively to the reference node. |
NOT_SUPPORTED_ERR: when the compared nodes are from different DOM implementations that do not coordinate to return consistent implementation-specific results. |
getFeature
introduced in DOM Level 3Node
interface.
Returns an object which implements the specialized APIs of the
specified feature and version, if any, or |
getUserData
introduced in DOM Level 3setUserData
with the same key.key
of type
DOMString
Returns the |
hasAttributes
introduced in DOM Level 2
|
Returns |
hasChildNodes
|
Returns |
insertBefore
modified in DOM Level 3newChild
before the existing child node
refChild
. If refChild
is null
,
insert newChild
at the end of the list of children.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.Note: Inserting a node before itself is implementation dependent.
The node being inserted. |
HIERARCHY_REQUEST_ERR: Raised if this node is of a type that does
not allow children of the type of the WRONG_DOCUMENT_ERR: Raised if NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly or if the parent of the node being inserted is readonly. NOT_FOUND_ERR: Raised if NOT_SUPPORTED_ERR: if this node is of type |
isDefaultNamespace
introduced in DOM Level 3namespaceURI
is the
default namespace or not.
namespaceURI
of type
DOMString
|
Returns |
isEqualNode
introduced in DOM Level 3Node.isSameNode()
. All nodes that are the same will
also be equal, though the reverse may not be true.nodeName
, localName
,
namespaceURI
, prefix
,
nodeValue
. This is: they are
both null
, or they have the same length and are
character for character identical.attributes
NamedNodeMaps
are
equal. This is: they are both null
, or they have the
same length and for each node that exists in one map there is a
node that exists in the other map and is equal, although not
necessarily at the same index.childNodes
NodeLists
are
equal. This is: they are both null
, or they
have the same length and contain equal nodes at the same index.
Note that normalization can affect equality; to avoid this, nodes
should be normalized before being compared.DocumentType
nodes to be equal, the following
conditions must also be satisfied:
publicId
, systemId
,
internalSubset
.entities
NamedNodeMaps
are
equal.notations
NamedNodeMaps
are
equal.ownerDocument
, baseURI
, and
parentNode
attributes, the specified
attribute for Attr
nodes, the schemaTypeInfo
attribute for Attr
and Element
nodes, the
Text.isElementContentWhitespace
attribute for
Text
nodes, as well as any user data or event listeners
registered on the nodes.
Note: As a general rule, anything not mentioned in the description above is not significant in consideration of equality checking. Note that future versions of this specification may take into account more attributes and implementations conform to this specification are expected to be updated accordingly.
arg
of type
Node
|
Returns |
isSameNode
introduced in DOM Level 3Node
references returned by the implementation reference the same
object. When two Node
references are references to the
same object, even if through a proxy, the references may be used
completely interchangeably, such that all attributes have the same
values and calling the same DOM method on either reference always has
exactly the same effect.other
of type
Node
|
Returns |
isSupported
introduced in DOM Level 2
|
Returns |
lookupNamespaceURI
introduced in DOM Level 3prefix
of type
DOMString
null
,
the method will return the default namespace URI if any.
Returns the associated namespace URI or |
lookupPrefix
introduced in DOM Level 3namespaceURI
of type
DOMString
Returns an associated namespace prefix if found or |
normalize
modified in DOM Level 3Text
nodes in the full depth of the
sub-tree underneath this Node
, including attribute
nodes, into a "normal" form where only structure (e.g.,
elements, comments, processing instructions, CDATA sections, and
entity references) separates Text
nodes, i.e.,
there are neither adjacent Text
nodes nor empty
Text
nodes. This can be used to ensure that the DOM
view of a document is the same as if it were saved and
re-loaded, and is useful when operations (such as XPointer
[XPointer] lookups) that depend
on a particular document tree structure are to be used. If the
parameter "normalize-characters"
of the DOMConfiguration
object attached to the
Node.ownerDocument
is true
, this
method will also fully normalize the characters of the
Text
nodes.
Note: In cases where the document contains CDATASections
, the
normalize operation alone may not be sufficient, since XPointers do
not differentiate between Text
nodes and
CDATASection
nodes.
removeChild
modified in DOM Level 3oldChild
from the
list of children, and returns it.oldChild
of type
Node
The node removed. |
NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. NOT_FOUND_ERR: Raised if NOT_SUPPORTED_ERR: if this node is of type |
replaceChild
modified in DOM Level 3oldChild
with
newChild
in the list of children, and returns the
oldChild
node.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.Note: Replacing a node with itself is implementation dependent.
The node replaced. |
HIERARCHY_REQUEST_ERR: Raised if this node is of a type that does
not allow children of the type of the WRONG_DOCUMENT_ERR: Raised if NO_MODIFICATION_ALLOWED_ERR: Raised if this node or the parent of the new node is readonly. NOT_FOUND_ERR: Raised if NOT_SUPPORTED_ERR: if this node is of type |
setUserData
introduced in DOM Level 3getUserData
with the
same key.key
of type
DOMString
data
of type
DOMUserData
null
to
remove any existing association to that key.handler
of type
UserDataHandler
null
.
Returns the |
The NodeList
interface provides the abstraction of an
ordered collection of nodes, without defining or constraining how this
collection is implemented. NodeList
objects in the DOM are
live.
The items in the NodeList
are accessible via an
integral index, starting from 0.
length
of type unsigned long
, readonlylength-1
inclusive.item
index
th item in the collection. If
index
is greater than or equal to the number of nodes in
the list, this returns null
.index
of type
unsigned long
The node at the |
Objects implementing the NamedNodeMap
interface are used to
represent collections of nodes that can be accessed by name. Note that
NamedNodeMap
does not inherit from NodeList
;
NamedNodeMaps
are not maintained in any particular
order. Objects contained in an object implementing
NamedNodeMap
may also be accessed by an ordinal index, but
this is simply to allow convenient enumeration of the contents of a
NamedNodeMap
, and does not imply that the DOM specifies an
order to these Nodes.
NamedNodeMap
objects in the DOM are
live.
interface NamedNodeMap { Node getNamedItem(in DOMString name); Node setNamedItem(in Node arg) raises(DOMException); Node removeNamedItem(in DOMString name) raises(DOMException); Node item(in unsigned long index); readonly attribute unsigned long length; // Introduced in DOM Level 2: Node getNamedItemNS(in DOMString namespaceURI, in DOMString localName) raises(DOMException); // Introduced in DOM Level 2: Node setNamedItemNS(in Node arg) raises(DOMException); // Introduced in DOM Level 2: Node removeNamedItemNS(in DOMString namespaceURI, in DOMString localName) raises(DOMException); };
length
of type unsigned long
, readonly0
to length-1
inclusive.getNamedItem
getNamedItemNS
introduced in DOM Level 2namespaceURI
of type
DOMString
localName
of type
DOMString
NOT_SUPPORTED_ERR: May be raised if the implementation does not support the feature "XML" and the language exposed through the Document does not support XML Namespaces (such as [HTML 4.01]). |
item
index
th item in the map. If
index
is greater than or equal to the number of nodes in
this map, this returns null
.index
of type
unsigned long
The node at the |
removeNamedItem
name
of type
DOMString
nodeName
of the node to remove.
The node removed from this map if a node with such a name exists. |
NOT_FOUND_ERR: Raised if there is no node named NO_MODIFICATION_ALLOWED_ERR: Raised if this map is readonly. |
removeNamedItemNS
introduced in DOM Level 2Node
interface. If so, an attribute
immediately appears containing the default value as well as the
corresponding namespace URI, local name, and prefix when
applicable.namespaceURI
of type
DOMString
localName
of type
DOMString
The node removed from this map if a node with such a local name and namespace URI exists. |
NOT_FOUND_ERR: Raised if there is no node with the specified
NO_MODIFICATION_ALLOWED_ERR: Raised if this map is readonly. NOT_SUPPORTED_ERR: May be raised if the implementation does not support the feature "XML" and the language exposed through the Document does not support XML Namespaces (such as [HTML 4.01]). |
setNamedItem
nodeName
attribute. If a node with
that name is already present in this map, it is replaced by the new
one. Replacing a node by itself has no effect.nodeName
attribute is used to derive the name
which the node must be stored under, multiple nodes of certain types
(those that have a "special" string value) cannot be stored as the
names would clash. This is seen as preferable to allowing nodes to be
aliased.arg
of type
Node
nodeName
attribute.
WRONG_DOCUMENT_ERR: Raised if NO_MODIFICATION_ALLOWED_ERR: Raised if this map is readonly. INUSE_ATTRIBUTE_ERR: Raised if HIERARCHY_REQUEST_ERR: Raised if an attempt is made to add a node doesn't belong in this NamedNodeMap. Examples would include trying to insert something other than an Attr node into an Element's map of attributes, or a non-Entity node into the DocumentType's map of Entities. |
setNamedItemNS
introduced in DOM Level 2namespaceURI
and
localName
. If a node with that namespace URI and that
local name is already present in this map, it is replaced by the new
one. Replacing a node by itself has no effect.arg
of type
Node
namespaceURI
and
localName
attributes.
WRONG_DOCUMENT_ERR: Raised if NO_MODIFICATION_ALLOWED_ERR: Raised if this map is readonly. INUSE_ATTRIBUTE_ERR: Raised if HIERARCHY_REQUEST_ERR: Raised if an attempt is made to add a node doesn't belong in this NamedNodeMap. Examples would include trying to insert something other than an Attr node into an Element's map of attributes, or a non-Entity node into the DocumentType's map of Entities. NOT_SUPPORTED_ERR: May be raised if the implementation does not support the feature "XML" and the language exposed through the Document does not support XML Namespaces (such as [HTML 4.01]). |
The CharacterData
interface extends Node with a set of
attributes and methods for accessing character data in the DOM. For
clarity this set is defined here rather than on each object that uses
these attributes and methods. No DOM objects correspond directly to
CharacterData
, though Text
and others do
inherit the interface from it. All offsets
in this
interface start from 0
.
As explained in the DOMString
interface, text strings
in the DOM are represented in UTF-16, i.e. as a sequence of 16-bit
units. In the following, the term 16-bit
units is used whenever necessary to indicate that indexing on
CharacterData is done in 16-bit units.
interface CharacterData : Node { attribute DOMString data; // raises(DOMException) on setting // raises(DOMException) on retrieval readonly attribute unsigned long length; DOMString substringData(in unsigned long offset, in unsigned long count) raises(DOMException); void appendData(in DOMString arg) raises(DOMException); void insertData(in unsigned long offset, in DOMString arg) raises(DOMException); void deleteData(in unsigned long offset, in unsigned long count) raises(DOMException); void replaceData(in unsigned long offset, in unsigned long count, in DOMString arg) raises(DOMException); };
data
of type DOMString
CharacterData
node. However,
implementation limits may mean that the entirety of a node's data may
not fit into a single DOMString
. In such cases, the user
may call substringData
to retrieve the data in
appropriately sized pieces.
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly. |
DOMSTRING_SIZE_ERR: Raised when it would return more characters
than fit in a |
length
of type unsigned long
, readonlydata
and the
substringData
method below. This may have the value zero,
i.e., CharacterData
nodes may be empty.appendData
data
provides access to the concatenation of
data
and the DOMString
specified.
NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. |
deleteData
data
and length
reflect the change.offset
of type
unsigned long
count
of type
unsigned long
offset
and count
exceeds
length
then all 16-bit units from offset
to the end of the data are deleted.
INDEX_SIZE_ERR: Raised if the specified NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. |
insertData
INDEX_SIZE_ERR: Raised if the specified NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. |
replaceData
offset
of type
unsigned long
count
of type
unsigned long
offset
and count
exceeds
length
, then all 16-bit units to the end of the data
are replaced; (i.e., the effect is the same as a
remove
method call with the same range, followed by an
append
method invocation).arg
of type
DOMString
DOMString
with which the range must be
replaced.
INDEX_SIZE_ERR: Raised if the specified NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. |
substringData
offset
of type
unsigned long
count
of type
unsigned long
The specified substring. If the sum of |
INDEX_SIZE_ERR: Raised if the specified DOMSTRING_SIZE_ERR: Raised if the specified range of text does not
fit into a |
The Attr
interface represents an attribute in an
Element
object. Typically the allowable values for the
attribute are defined in a schema associated with the document.
Attr
objects inherit the Node
interface, but
since they are not actually child nodes of the element they describe, the
DOM does not consider them part of the document tree. Thus, the
Node
attributes parentNode
,
previousSibling
, and nextSibling
have a
null
value for Attr
objects. The DOM takes the
view that attributes are properties of elements rather than having a
separate identity from the elements they are associated with; this should
make it more efficient to implement such features as default attributes
associated with all elements of a given type. Furthermore,
Attr
nodes may not be immediate children of a
DocumentFragment
. However, they can be associated with
Element
nodes contained within a
DocumentFragment
. In short, users and implementors of the
DOM need to be aware that Attr
nodes have some things in
common with other objects inheriting the Node
interface, but
they also are quite distinct.
The attribute's effective value is determined as follows: if this
attribute has been explicitly assigned any value, that value is the
attribute's effective value; otherwise, if there is a declaration for
this attribute, and that declaration includes a default value, then that
default value is the attribute's effective value; otherwise, the
attribute does not exist on this element in the structure model until it
has been explicitly added. Note that the Node.nodeValue
attribute on the Attr
instance can also be used to retrieve
the string version of the attribute's value(s).
If the attribute was not explicitly given a value in the instance
document but has a default value provided by the schema associated
with the document, an attribute node will be created with
specified
set to false
. Removing
attribute nodes for which a default value is defined in the schema
generates a new attribute node with the default value and
specified
set to false
. If validation
occurred while invoking Document.normalizeDocument()
,
attribute nodes with specified
equals to
false
are recomputed according to the default
attribute values provided by the schema. If no default value is
associate with this attribute in the schema, the attribute node is
discarded.
In XML, where the value of an attribute can contain entity references,
the child nodes of the Attr
node may be either
Text
or EntityReference
nodes (when these are
in use; see the description of EntityReference
for
discussion).
The DOM Core represents all attribute values as simple strings, even if the DTD or schema associated with the document declares them of some specific type such as tokenized.
The way attribute value normalization is performed by the DOM
implementation depends on how much the implementation knows about
the schema in use. Typically, the value
and
nodeValue
attributes of an Attr
node
initially returns the normalized value given by the parser. It is
also the case after Document.normalizeDocument()
is
called (assuming the right options have been set). But this may not
be the case after mutation, independently of whether the mutation is
performed by setting the string value directly or by changing the
Attr
child nodes. In particular, this is true when
character
references are involved,
given that they are not represented in the DOM and they impact
attribute value normalization. On the other hand, if the
implementation knows about the schema in use when the attribute
value is changed, and it is of a different type than CDATA, it may
normalize it again at that time. This is especially true of
specialized DOM implementations, such as SVG DOM implementations,
which store attribute values in an internal form different from a
string.
The following table gives some examples of the relations between the attribute value in the original document (parsed attribute), the value as exposed in the DOM, and the serialization of the value:
Examples | Parsed attribute value |
Initial Attr.value | Serialized attribute value |
---|---|---|---|
Character reference |
"x²=5" |
"x²=5" |
"x²=5" |
Built-in character entity |
"y<6" |
"y<6" |
"y<6" |
Literal newline between |
"x=5 y=6" |
"x=5 y=6" |
"x=5 y=6" |
Normalized newline between |
"x=5 y=6" |
"x=5 y=6" |
"x=5 y=6" |
Entity e with literal newline |
<!ENTITY e '... ...'> [...]> "x=5&e;y=6" | Dependent on Implementation and Load Options | Dependent on Implementation and Load/Save Options |
interface Attr : Node { readonly attribute DOMString name; readonly attribute boolean specified; attribute DOMString value; // raises(DOMException) on setting // Introduced in DOM Level 2: readonly attribute Element ownerElement; // Introduced in DOM Level 3: readonly attribute TypeInfo schemaTypeInfo; // Introduced in DOM Level 3: readonly attribute boolean isId; };
isId
of type boolean
, readonly, introduced in DOM Level 3ownerElement
of this attribute can be retrieved
using the method Document.getElementById
. The
implementation could use several ways to determine if an
attribute node is known to contain an identifier:
Document.normalizeDocument()
, the
post-schema-validation infoset contributions (PSVI
contributions) values are used to determine if this
attribute is a schema-determined ID attribute
using the schema-determined
ID definition in [XPointer].
Document.normalizeDocument()
,
the infoset [type definition] value is used to determine if this
attribute is a DTD-determined ID attribute
using the DTD-determined
ID definition in [XPointer].
Element.setIdAttribute()
,
Element.setIdAttributeNS()
, or
Element.setIdAttributeNode()
, i.e. it is an
user-determined ID attribute;
Note: XPointer framework (see section 3.2 in [XPointer]) consider the DOM user-determined ID attribute as being part of the XPointer externally-determined ID definition.
Document.normalizeDocument()
, all
user-determined ID attributes are reset and all
attribute nodes ID information are then reevaluated in
accordance to the schema used. As a consequence, if the
Attr.schemaTypeInfo
attribute contains an ID type,
isId
will always return true.
name
of type DOMString
, readonlyNode.localName
is different from null
, this
attribute is a qualified name.ownerElement
of type Element
, readonly, introduced in DOM Level 2Element
node this attribute is attached to or
null
if this attribute is not in use.schemaTypeInfo
of type TypeInfo
, readonly, introduced in DOM Level 3Document.normalizeDocument()
,
schemaTypeInfo
may not be reliable if the node was
moved.
specified
of type boolean
, readonlyTrue
if this attribute was explicitly given a value
in the instance document, false
otherwise. If the
application changed the value of this attribute node (even if it
ends up having the same value as the default value) then it is
set to true
. The implementation may handle
attributes with default values from other schemas similarly but
applications should use Document.normalizeDocument()
to guarantee this information is up-to-date.
value
of type DOMString
getAttribute
on the
Element
interface.Text
node with the unparsed
contents of the string, i.e. any characters that an XML processor would
recognize as markup are instead treated as literal text.
See also the method Element.setAttribute()
.
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly. |
The Element
interface represents an
element in an HTML or XML
document. Elements may have attributes associated with them; since the
Element
interface inherits from Node
, the
generic Node
interface attribute attributes
may
be used to retrieve the set of all attributes for an element. There are
methods on the Element
interface to retrieve either an
Attr
object by name or an attribute value by name. In XML,
where an attribute value may contain entity references, an
Attr
object should be retrieved to examine the possibly
fairly complex sub-tree representing the attribute value. On the other
hand, in HTML, where all attributes have simple string values, methods to
directly access an attribute value can safely be used as a
convenience.
Note: In DOM Level 2, the method normalize
is inherited from
the Node
interface where it was moved.
interface Element : Node { readonly attribute DOMString tagName; DOMString getAttribute(in DOMString name); void setAttribute(in DOMString name, in DOMString value) raises(DOMException); void removeAttribute(in DOMString name) raises(DOMException); Attr getAttributeNode(in DOMString name); Attr setAttributeNode(in Attr newAttr) raises(DOMException); Attr removeAttributeNode(in Attr oldAttr) raises(DOMException); NodeList getElementsByTagName(in DOMString name); // Introduced in DOM Level 2: DOMString getAttributeNS(in DOMString namespaceURI, in DOMString localName) raises(DOMException); // Introduced in DOM Level 2: void setAttributeNS(in DOMString namespaceURI, in DOMString qualifiedName, in DOMString value) raises(DOMException); // Introduced in DOM Level 2: void removeAttributeNS(in DOMString namespaceURI, in DOMString localName) raises(DOMException); // Introduced in DOM Level 2: Attr getAttributeNodeNS(in DOMString namespaceURI, in DOMString localName) raises(DOMException); // Introduced in DOM Level 2: Attr setAttributeNodeNS(in Attr newAttr) raises(DOMException); // Introduced in DOM Level 2: NodeList getElementsByTagNameNS(in DOMString namespaceURI, in DOMString localName) raises(DOMException); // Introduced in DOM Level 2: boolean hasAttribute(in DOMString name); // Introduced in DOM Level 2: boolean hasAttributeNS(in DOMString namespaceURI, in DOMString localName) raises(DOMException); // Introduced in DOM Level 3: readonly attribute TypeInfo schemaTypeInfo; // Introduced in DOM Level 3: void setIdAttribute(in DOMString name, in boolean isId) raises(DOMException); // Introduced in DOM Level 3: void setIdAttributeNS(in DOMString namespaceURI, in DOMString localName, in boolean isId) raises(DOMException); // Introduced in DOM Level 3: void setIdAttributeNode(in Attr idAttr, in boolean isId) raises(DOMException); };
schemaTypeInfo
of type TypeInfo
, readonly, introduced in DOM Level 3tagName
of type DOMString
, readonlyNode.localName
is
different from null
, this
attribute is a qualified
name. For example, in:
<elementExample id="demo"> ... </elementExample> ,
tagName
has the value "elementExample"
. Note
that this is case-preserving in XML, as are all of the operations of
the DOM. The HTML DOM returns the tagName
of an HTML
element in the canonical uppercase form, regardless of the case in the
source HTML document.getAttribute
getAttributeNS
introduced in DOM Level 2null
as the namespaceURI
parameter for methods if they wish to have no
namespace.namespaceURI
of type
DOMString
localName
of type
DOMString
NOT_SUPPORTED_ERR: May be raised if the implementation does
not support the feature |
getAttributeNode
getAttributeNodeNS
method.name
of type
DOMString
nodeName
) of the attribute to retrieve.getAttributeNodeNS
introduced in DOM Level 2Attr
node by local name and namespace
URI.null
as the namespaceURI
parameter for methods if they wish to have no
namespace.namespaceURI
of type
DOMString
localName
of type
DOMString
NOT_SUPPORTED_ERR: May be raised if the implementation does
not support the feature |
getElementsByTagName
NodeList
of all
descendant Elements
with a given tag name, in document
order.name
of type
DOMString
A list of matching |
getElementsByTagNameNS
introduced in DOM Level 2NodeList
of all the
descendant Elements
with a given local name and namespace URI in
document order.namespaceURI
of type
DOMString
localName
of type
DOMString
NOT_SUPPORTED_ERR: May be raised if the implementation does
not support the feature |
hasAttribute
introduced in DOM Level 2true
when an attribute with a given name is
specified on this element or has a default value, false
otherwise.name
of type
DOMString
|
|
hasAttributeNS
introduced in DOM Level 2true
when an attribute with a given local name
and namespace URI is specified on this element or has a default value,
false
otherwise.null
as the namespaceURI
parameter for methods if they wish to have no
namespace.namespaceURI
of type
DOMString
localName
of type
DOMString
|
|
NOT_SUPPORTED_ERR: May be raised if the implementation does
not support the feature |
removeAttribute
Document.normalizeDocument()
to guarantee this information is up-to-date.removeAttributeNS
method.name
of type
DOMString
NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. |
removeAttributeNS
introduced in DOM Level 2Document.normalizeDocument()
to guarantee this
information is up-to-date.null
as the namespaceURI
parameter for methods if they wish to have no
namespace.namespaceURI
of type
DOMString
localName
of type
DOMString
NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. NOT_SUPPORTED_ERR: May be raised if the implementation does
not support the feature |
removeAttributeNode
Attr
node is defined in the DTD, a new node
immediately appears with the default value as well as the corresponding
namespace URI, local name, and prefix when applicable. The
implementation may handle default values from other schemas similarly
but applications should use Document.normalizeDocument()
to guarantee this
information is up-to-date.
NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. NOT_FOUND_ERR: Raised if |
setAttribute
Attr
node plus any Text
and
EntityReference
nodes, build the appropriate subtree, and
use setAttributeNode
to assign it as the value of an
attribute.setAttributeNS
method.
INVALID_CHARACTER_ERR: Raised if the specified name is not
an XML name according to the XML version in use
specified in the NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. |
setAttributeNS
introduced in DOM Level 2qualifiedName
, and
its value is changed to be the value
parameter. This value
is a simple string; it is not parsed as it is being set. So any markup
(such as syntax to be recognized as an entity reference) is treated as
literal text, and needs to be appropriately escaped by the
implementation when it is written out. In order to assign an attribute
value that contains entity references, the user must create an
Attr
node plus any Text
and
EntityReference
nodes, build the appropriate subtree, and
use setAttributeNodeNS
or setAttributeNode
to
assign it as the value of an attribute.null
as the namespaceURI
parameter for methods if they wish to have no
namespace.namespaceURI
of type
DOMString
qualifiedName
of type
DOMString
value
of type
DOMString
INVALID_CHARACTER_ERR: Raised if the specified qualified name
is not an XML name according to the XML version in use
specified in the NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. NAMESPACE_ERR: Raised if the NOT_SUPPORTED_ERR: May be raised if the implementation does
not support the feature |
setAttributeNode
nodeName
) is already present in the element, it is
replaced by the new one. Replacing an attribute node by itself has no
effect.setAttributeNodeNS
method.
WRONG_DOCUMENT_ERR: Raised if NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. INUSE_ATTRIBUTE_ERR: Raised if |
setAttributeNodeNS
introduced in DOM Level 2null
as the namespaceURI
parameter for methods if they wish to have no
namespace.
If the |
WRONG_DOCUMENT_ERR: Raised if NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. INUSE_ATTRIBUTE_ERR: Raised if NOT_SUPPORTED_ERR: May be raised if the implementation does
not support the feature |
setIdAttribute
introduced in DOM Level 3isId
is true
, this
method declares the specified attribute to be a
user-determined ID attribute. This affects the
value of Attr.isId
and the behavior of
Document.getElementById
, but does not change any
schema that may be in use, in particular this does not affect
the Attr.schemaTypeInfo
of the specified
Attr
node. Use the value false
for the
parameter isId
to undeclare an attribute for being
a user-determined ID attribute.
setIdAttributeNS
method.
name
of type
DOMString
isId
of type
boolean
NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. NOT_FOUND_ERR: Raised if the specified node is not an attribute of this element. |
setIdAttributeNS
introduced in DOM Level 3isId
is true
, this
method declares the specified attribute to be a
user-determined ID attribute. This affects the
value of Attr.isId
and the behavior of
Document.getElementById
, but does not change any
schema that may be in use, in particular this does not affect
the Attr.schemaTypeInfo
of the specified
Attr
node. Use the value false
for the
parameter isId
to undeclare an attribute for being
a user-determined ID attribute.
namespaceURI
of type
DOMString
localName
of type
DOMString
isId
of type
boolean
NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. NOT_FOUND_ERR: Raised if the specified node is not an attribute of this element. |
setIdAttributeNode
introduced in DOM Level 3isId
is true
, this
method declares the specified attribute to be a
user-determined ID attribute. This affects the
value of Attr.isId
and the behavior of
Document.getElementById
, but does not change any
schema that may be in use, in particular this does not affect
the Attr.schemaTypeInfo
of the specified
Attr
node. Use the value false
for the
parameter isId
to undeclare an attribute for being
a user-determined ID attribute.
idAttr
of type
Attr
isId
of type
boolean
NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. NOT_FOUND_ERR: Raised if the specified node is not an attribute of this element. |
The Text
interface inherits from CharacterData
and represents the textual content (termed
character data in XML) of
an Element
or Attr
. If there is no markup
inside an element's content, the text is contained in a single object
implementing the Text
interface that is the only child of
the element. If there is markup, it is parsed into the
information items (elements,
comments, etc.) and Text
nodes that form the list of
children of the element.
When a document is first made available via the DOM, there is only one
Text
node for each block of text. Users may create adjacent
Text
nodes that represent the contents of a given element
without any intervening markup, but should be aware that there is no way
to represent the separations between these nodes in XML or HTML, so they
will not (in general) persist between DOM editing sessions. The
Node.normalize()
method merges any such
adjacent Text
objects into a single node for each block of
text.
No lexical check is done on the content of a Text
node and, depending on its position in the document, some
characters must be escaped during serialization using character
references; e.g. the characters "<&" if
the textual content is part of an element or of an attribute, the
character sequence "]]>" when part of an element, the quotation
mark character " or the apostrophe character ' when part of an
attribute.
interface Text : CharacterData { Text splitText(in unsigned long offset) raises(DOMException); // Introduced in DOM Level 3: readonly attribute boolean isElementContentWhitespace; // Introduced in DOM Level 3: readonly attribute DOMString wholeText; // Introduced in DOM Level 3: Text replaceWholeText(in DOMString content) raises(DOMException); };
isElementContentWhitespace
of type boolean
, readonly, introduced in DOM Level 3Document.normalizeDocument()
.wholeText
of type DOMString
, readonly, introduced in DOM Level 3Text
nodes logically-adjacent text
nodes to this node, concatenated in document order.wholeText
on the
Text
node that contains "bar" returns "barfoo", while on
the Text
node that contains "foo" it returns "barfoo".
Figure: barTextNode.wholeText value is "barfoo" [SVG 1.0 version]
replaceWholeText
introduced in DOM Level 3null
, when the replacement text is the empty
string;Text
node of the same type
(Text
or CDATASection
) as the
current node inserted at the location of the replacement.replaceWholeText
on the Text
node that
contains "bar" with "yo" in argument results in the following:
Figure: barTextNode.replaceWholeText("yo") modifies the textual content of barTextNode with "yo" [SVG 1.0 version]
EntityReference
, the EntityReference
must be
removed instead of the read-only nodes. If any
EntityReference
to be removed has descendants that are not
EntityReference
, Text
, or
CDATASection
nodes, the replaceWholeText
method
must fail before performing any modification of the document, raising a
DOMException
with the code
NO_MODIFICATION_ALLOWED_ERR
.replaceWholeText
on the Text
node that
contains "bar" fails, because the EntityReference
node "ent" contains an Element
node which cannot be
removed.Figure: barTextNode.replaceWholeText("yo") raises a NO_MODIFICATION_ALLOWED_ERR DOMException [SVG 1.0 version]
content
of type
DOMString
Text
node.
The |
NO_MODIFICATION_ALLOWED_ERR: Raised if one of the
|
splitText
offset
,
keeping both in the tree as
siblings. After being split, this
node will contain all the content up to the offset
point. A new node of the same type, which contains all the content at
and after the offset
point, is returned. If the original
node had a parent node, the new node is inserted as the next
sibling of the original node. When
the offset
is equal to the length of this node, the new
node has no data.offset
of type
unsigned long
0
.
The new node, of the same type as this node. |
INDEX_SIZE_ERR: Raised if the specified offset is negative or
greater than the number of 16-bit units in NO_MODIFICATION_ALLOWED_ERR: Raised if this node is readonly. |
This interface inherits from CharacterData
and represents
the content of a comment, i.e., all the characters between the starting
'<!--
' and ending '-->
'. Note that this
is the definition of a comment in XML, and, in practice, HTML, although
some HTML tools may implement the full SGML comment structure.
No lexical check is done on the content of a comment and
it is therefore possible to have the character sequence
"--"
(double-hyphen) in the content, which is illegal
in a comment per section 2.5 of [XML 1.0]. The presence
of this character sequence must generate a fatal error during
serialization.
interface Comment : CharacterData { };
The TypeInfo
interface represents a type referenced
from Element
or Attr
nodes, specified in
the schemas associated with the
document. The type is a pair of a namespace URI and name properties,
and depends on the document's schema.
If the document's schema is an XML DTD [XML 1.0], the values are computed as follows:
Attr
node,
typeNamespace
is
"http://www.w3.org/TR/REC-xml"
and
typeName
represents the [attribute type]
property in the [XML Information Set]. If there is no
declaration for the attribute, typeNamespace
and
typeName
are null
.
Element
node,
typeNamespace
and typeName
are
null
.
If the document's schema is an XML Schema [XML Schema Part 1], the values are computed as follows using the post-schema-validation infoset contributions (also called PSVI contributions):
null
.
Note: At the time of writing, the XML Schema specification does not require exposing the declared type. Thus, DOM implementations might choose not to provide type information if validity is not valid.
Note:
Other schema languages are outside the scope of the W3C and
therefore should define how to represent their type systems using
TypeInfo
.
// Introduced in DOM Level 3: interface TypeInfo { readonly attribute DOMString typeName; readonly attribute DOMString typeNamespace; // DerivationMethods const unsigned long DERIVATION_RESTRICTION = 0x00000001; const unsigned long DERIVATION_EXTENSION = 0x00000002; const unsigned long DERIVATION_UNION = 0x00000004; const unsigned long DERIVATION_LIST = 0x00000008; boolean isDerivedFrom(in DOMString typeNamespaceArg, in DOMString typeNameArg, in unsigned long derivationMethod); };
These are the available values for the
derivationMethod
parameter used by the method
TypeInfo.isDerivedFrom()
. It is a set of possible
types of derivation, and the values represent bit positions. If
a bit in the derivationMethod
parameter is set to
1
, the corresponding type of derivation will be
taken into account when evaluating the derivation between the
reference type definition and the other type definition. When
using the isDerivedFrom
method, combining all of
them in the derivationMethod
parameter is
equivalent to invoking the method for each of them separately
and combining the results with the OR boolean function. This
specification only defines the type of derivation for XML
Schema.
In addition to the types of derivation listed below, please note that:
xsd:anyType
.
xsd:anySimpleType
by
restriction.
xsd:anySimpleType
by
restriction.
DERIVATION_EXTENSION
DERIVATION_LIST
DERIVATION_RESTRICTION
or
DERIVATION_EXTENSION
, T2 is derived from the
other type definition by DERIVATION_RESTRICTION
,
T1 has {variety} list, and T2 is the {item type
definition}. Note that T1 could be the same as the reference
type definition, and T2 could be the same as the other type
definition.
DERIVATION_RESTRICTION
DERIVATION_UNION
DERIVATION_RESTRICTION
or
DERIVATION_EXTENSION
, T2 is derived from the
other type definition by DERIVATION_RESTRICTION
,
T1 has {variety} union, and one of the {member
type definitions} is T2. Note that T1 could be the same as the
reference type definition, and T2 could be the same as the
other type definition.
typeName
of type DOMString
, readonlynull
if unknown.
typeNamespace
of type DOMString
, readonlynull
if the element does not have
declaration or if no namespace information is
available.
isDerivedFrom
TypeInfo
on
which the method is being called, and the other type definition,
i.e. the one passed as parameters.
typeNamespaceArg
of type
DOMString
typeNameArg
of type
DOMString
derivationMethod
of type
unsigned long
|
If the document's schema is a DTD or no schema is associated
with the document, this method will always return
|
When associating an object to a key on a node using
Node.setUserData()
the application can provide a handler that gets
called when the node the object is associated to is being cloned,
imported, or renamed. This can be used by the application to implement
various behaviors regarding the data it associates to the DOM nodes.
This interface defines that handler.
// Introduced in DOM Level 3: interface UserDataHandler { // OperationType const unsigned short NODE_CLONED = 1; const unsigned short NODE_IMPORTED = 2; const unsigned short NODE_DELETED = 3; const unsigned short NODE_RENAMED = 4; const unsigned short NODE_ADOPTED = 5; void handle(in unsigned short operation, in DOMString key, in DOMUserData data, in Node src, in Node dst); };
An integer indicating the type of operation being performed on a node.
NODE_ADOPTED
Document.adoptNode()
.NODE_CLONED
Node.cloneNode()
.NODE_DELETED
Note: This may not be supported or may not be reliable in certain environments, such as Java, where the implementation has no real control over when objects are actually deleted.
NODE_IMPORTED
Document.importNode()
.NODE_RENAMED
Document.renameNode()
.handle
UserDataHandler
. The effect of throwing exceptions
from the handler is DOM implementation dependent.
operation
of type
unsigned short
key
of type
DOMString
data
of type
DOMUserData
src
of type
Node
null
when the node is being
deleted.dst
of type
Node
null
.
DOMError
is an interface that describes an error.
// Introduced in DOM Level 3: interface DOMError { // ErrorSeverity const unsigned short SEVERITY_WARNING = 1; const unsigned short SEVERITY_ERROR = 2; const unsigned short SEVERITY_FATAL_ERROR = 3; readonly attribute unsigned short severity; readonly attribute DOMString message; readonly attribute DOMString type; readonly attribute DOMObject relatedException; readonly attribute DOMObject relatedData; readonly attribute DOMLocator location; };
An integer indicating the severity of the error.
SEVERITY_ERROR
DOMError
is error. A SEVERITY_ERROR
may not cause the processing to stop if the error can be
recovered, unless DOMErrorHandler.handleError()
returns false
.SEVERITY_FATAL_ERROR
DOMError
is fatal error. A
SEVERITY_FATAL_ERROR
will cause the normal
processing to stop. The return value of
DOMErrorHandler.handleError()
is ignored unless the
implementation chooses to continue, in which case the behavior
becomes undefined.SEVERITY_WARNING
DOMError
is warning. A
SEVERITY_WARNING
will not cause the processing to
stop, unless DOMErrorHandler.handleError()
returns
false
.location
of type DOMLocator
, readonlymessage
of type DOMString
, readonlyrelatedData
of type DOMObject
, readonlyDOMError.type
dependent data if any.
relatedException
of type DOMObject
, readonlyseverity
of type unsigned short
, readonlySEVERITY_WARNING
, SEVERITY_ERROR
,
or SEVERITY_FATAL_ERROR
.type
of type DOMString
, readonlyDOMString
indicating which related data is
expected in relatedData
. Users should refer to the
specification of the error in order to find its
DOMString
type and relatedData
definitions if any.
Note:
As an example, Document.normalizeDocument()
does
generate warnings when the "split-cdata-sections"
parameter is in use. Therefore, the method generates a
SEVERITY_WARNING
with type
"cdata-sections-splitted"
and the first
CDATASection
node in document order resulting
from the split is returned by the relatedData
attribute.
DOMErrorHandler
is a callback interface that the DOM
implementation can call when reporting errors that happens while
processing XML data, or when doing some other processing
(e.g. validating a document). A DOMErrorHandler
object can be attached to a Document
using the
"error-handler"
on the DOMConfiguration
interface. If more than one
error needs to be reported during an operation, the sequence and
numbers of the errors passed to the error handler are
implementation dependent.
The application that is using the DOM implementation is expected to implement this interface.
// Introduced in DOM Level 3: interface DOMErrorHandler { boolean handleError(in DOMError error); };
handleError
true
.
error
of type
DOMError
handleError
method.
|
If the |
DOMLocator
is an interface that describes a location
(e.g. where an error occurred).
// Introduced in DOM Level 3: interface DOMLocator { readonly attribute long lineNumber; readonly attribute long columnNumber; readonly attribute long byteOffset; readonly attribute long utf16Offset; readonly attribute Node relatedNode; readonly attribute DOMString uri; };
byteOffset
of type long
, readonly-1
if there is no byte offset available.columnNumber
of type long
, readonly-1
if
there is no column number available.lineNumber
of type long
, readonly-1
if
there is no column number available.relatedNode
of type Node
, readonlynull
if no node
is available.uri
of type DOMString
, readonlynull
if no URI
is available.utf16Offset
of type long
, readonly-1
if there is no UTF-16
offset available.
The DOMConfiguration
interface represents the
configuration of a document and maintains a table of recognized
parameters. Using the configuration, it is possible to change
Document.normalizeDocument()
behavior, such as
replacing the CDATASection
nodes with
Text
nodes or specifying the type of the schema that must be used when the
validation of the Document
is
requested. DOMConfiguration
objects are also used in
[DOM Level 3 Load and Save] in the
DOMParser
and DOMSerializer
interfaces.
The parameter names used by the DOMConfiguration
object are defined throughout the DOM Level 3
specifications. Names are case-insensitive. To avoid possible
conflicts, as a convention, names referring to parameters defined
outside the DOM specification should be made unique. Because
parameters are exposed as properties in the ECMAScript Language Binding, names are recommended to follow the section
"5.16 Identifiers" of [Unicode] with the addition of the character '-'
(HYPHEN-MINUS) but it is not enforced by the DOM
implementation. DOM Level 3 Core Implementations are required to
recognize all parameters defined in this specification. Some
parameter values may also be required to be supported by
the implementation. Refer to the definition of the parameter to
know if a value must be supported or not.
Note: Parameters are similar to features and properties used in SAX2 [SAX].
The following list of parameters defined in the DOM:
"canonical-form"
true
DocumentType
node (if
any) from the tree, or removing superfluous namespace
declarations from each element. Note that this is
limited to what can be represented in the DOM; in
particular, there is no way to specify the order of
the attributes in the DOM. In addition,
true
will also
set the state of the parameters listed below. Later
changes to the state of one of those parameters will
revert "canonical-form"
back to false
.
false
:
"entities",
"normalize-characters",
"cdata-sections".
true
:
"namespaces",
"namespace-declarations",
"well-formed",
"element-content-whitespace".
false
"cdata-sections"
true
CDATASection
nodes in the document.false
CDATASection
nodes in the document
into Text
nodes. The new Text
node is then combined with any adjacent Text
node."check-character-normalization"
true
DOMError.type
equals to
"check-character-normalization-failure" is issued.
false
"comments"
"datatype-normalization"
true
true
. Having this parameter activated
when "validate" is false
has no effect
and no schema-normalization will happen.
Note: Since the document contains the result of the XML 1.0 processing, this parameter does not apply to attribute value normalization as defined in section 3.3.3 of [XML 1.0] and is only meant for schema languages other than Document Type Definition (DTD).
false
"element-content-whitespace"
true
false
Text
nodes that contain
whitespaces in element content, as described in
[element content
whitespace]. The implementation is
expected to use the attribute
Text.isElementContentWhitespace
to
determine if a Text
node should be
discarded or not."entities"
true
EntityReference
nodes in the
document.false
EntityReference
nodes from the
document, putting the entity expansions directly in
their place. Text
nodes are normalized,
as defined in Node.normalize
. Only unexpanded entity
references are kept in the document.
Note:
This parameter does not affect Entity
nodes.
"error-handler"
DOMErrorHandler
object. If an error
is encountered in the document, the implementation will call
back the DOMErrorHandler
registered using this
parameter. The implementation may provide a default
DOMErrorHandler
object.
DOMError.relatedData
will contain
the closest node to where the error occurred. If the
implementation is unable to determine the node where the
error occurs, DOMError.relatedData
will contain
the Document
node. Mutations to the document
from within an error handler will result in implementation
dependent behavior.
"infoset"
true
false
:
"validate-if-schema",
"entities",
"datatype-normalization",
"cdata-sections".true
:
"namespace-declarations",
"well-formed",
"element-content-whitespace",
"comments", "namespaces".getParameter
returns true
only if
the individual parameters specified above are appropriately
set.false
infoset
to false
has no effect."namespaces"
true
false
"namespace-declarations"
false
.
true
false
Node.prefix
) are
retained even if this parameter is set
to false
."normalize-characters"
true
false
"schema-location"
DOMString
object containing a list
of URIs, separated by whitespaces (characters matching the
nonterminal production
S defined in section 2.3 [XML 1.0]),
that represents the schemas against which validation
should occur, i.e. the current schema. The types of schemas
referenced in this list must match the type specified with
schema-type
, otherwise the behavior of an
implementation is undefined.
schemaLocation
attribute) in a
schema document (i.e. using schema import
mechanisms) share the same targetNamespace
, the
schema specified by the user using this property will be
used. If two schemas specified using this property share the
same targetNamespace
or have no namespace, the
behavior is implementation dependent.
null
.
Note:
The "schema-location"
parameter is ignored
unless the "schema-type"
parameter value is set. It is strongly recommended that
Document.documentURI
will be set so that an
implementation can successfully resolve any external
entities referenced.
"schema-type"
DOMString
object containing an
absolute URI and representing the type of the schema language used to validate a
document against. Note that no lexical checking is done on
the absolute URI.
null
.
Note:
For XML Schema [XML Schema Part 1], applications
must use the value
"http://www.w3.org/2001/XMLSchema"
. For XML
DTD [XML 1.0], applications must use the value
"http://www.w3.org/TR/REC-xml"
. Other schema
languages are outside the scope of the W3C and therefore
should recommend an absolute URI in order to use this
method.
"split-cdata-sections"
true
DOMError.type
equals to
"cdata-sections-splitted"
and
DOMError.relatedData
equals to the first
CDATASection
node in document order
resulting from the split.false
CDATASection
contains
an unrepresentable character."validate"
true
true
.
Attr.specified
equals to false
, as specified in the
description of the Attr
interface;
Text.isElementContentWhitespace
for
all Text
nodes;
Attr.isId
for all Attr
nodes;
Element.schemaTypeInfo
and Attr.schemaTypeInfo
.
Note:
"validate-if-schema"
and "validate" are mutually exclusive,
setting one of them to true
will set
the other one to false
. Applications
should also consider setting the parameter
"well-formed" to true
,
which is the default for that option, when
validating the document.
false
true
.
"validate-if-schema"
true
true
.
Note:
"validate-if-schema" and
"validate" are mutually exclusive,
setting one of them to true
will
set the other one to false
.
false
true
.
"well-formed"
true
Document.xmlVersion
:
Node.nodeName
contains invalid characters according to its node
type and generate a DOMError
of type
"wf-invalid-character-in-node-name"
,
with a DOMError.SEVERITY_ERROR
severity, if necessary;
Attr
, Element
,
Comment
, Text
,
CDATASection
nodes for invalid
characters and generate a DOMError
of
type "wf-invalid-character"
, with a
DOMError.SEVERITY_ERROR
severity, if
necessary;
ProcessingInstruction
nodes for
invalid characters and generate a
DOMError
of type
"wf-invalid-character"
, with a
DOMError.SEVERITY_ERROR
severity, if
necessary;
false
The resolution of the system identifiers associated with entities
is done using Document.documentURI
. However, when the
feature "LS" defined in [DOM Level 3 Load and Save]
is supported by the DOM implementation, the parameter
"resource-resolver" can also be used on
DOMConfiguration
objects attached to
Document
nodes. If this parameter is set,
Document.normalizeDocument()
will invoke the resource
resolver instead of using Document.documentURI
.
// Introduced in DOM Level 3: interface DOMConfiguration { void setParameter(in DOMString name, in DOMUserData value) raises(DOMException); DOMUserData getParameter(in DOMString name) raises(DOMException); boolean canSetParameter(in DOMString name, in DOMUserData value); readonly attribute DOMStringList parameterNames; };
parameterNames
of type DOMStringList
, readonlyDOMConfiguration
object and for which at least one
value can be set by the application. Note that this list can
also contain parameter names defined outside this specification.
canSetParameter
name
of type
DOMString
value
of type
DOMUserData
null
, the returned value is
true
.
|
|
getParameter
name
of type
DOMString
The current object associated with the specified parameter or
|
NOT_FOUND_ERR: Raised when the parameter name is not recognized. |
setParameter
name
of type
DOMString
value
of type
DOMUserData
null
if the user wishes to
unset the parameter. While the type of the value parameter
is defined as DOMUserData
, the object type must
match the type defined by the definition of the
parameter. For example, if the parameter is "error-handler", the
value must be of type DOMErrorHandler
.
NOT_FOUND_ERR: Raised when the parameter name is not recognized. NOT_SUPPORTED_ERR: Raised when the parameter name is recognized but the requested value cannot be set. TYPE_MISMATCH_ERR: Raised if the value type for this parameter name is incompatible with the expected value type. |
The interfaces defined here form part of the DOM Core specification, but objects that expose these interfaces will never be encountered in a DOM implementation that deals only with HTML.
The interfaces found within this section are not mandatory. A DOM
application may use the
DOMImplementation.hasFeature(feature, version)
method
with parameter values "XML" and "3.0" (respectively) to determine
whether or not this module is supported by the implementation. In
order to fully support this module, an implementation must also
support the "Core" feature defined in Fundamental Interfaces: Core Module
and the feature "XMLVersion" with version "1.0" defined in
Document.xmlVersion
. Please refer to additional
information about Conformance in this
specification. The DOM Level 3 XML module is backward compatible
with the DOM Level 2 XML [DOM Level 2 Core] and DOM Level 1 XML [DOM Level 1] modules, i.e. a DOM Level 3 XML implementation
who returns true
for "XML" with the
version
number "3.0"
must also return
true
for this feature
when the
version
number is "2.0"
,
"1.0"
, ""
or, null
.
CDATA sections are used to escape blocks of text containing characters that would otherwise be regarded as markup. The only delimiter that is recognized in a CDATA section is the "]]>" string that ends the CDATA section. CDATA sections cannot be nested. Their primary purpose is for including material such as XML fragments, without needing to escape all the delimiters.
The CharacterData.data
attribute
holds the text that is contained by the CDATA
section. Note that this may contain characters that need to
be escaped outside of CDATA sections and that, depending on the character
encoding ("charset") chosen for serialization, it may be impossible to
write out some characters as part of a CDATA section.
The CDATASection
interface inherits from the
CharacterData
interface through the Text
interface. Adjacent CDATASection
nodes are not merged by use
of the normalize
method of the Node
interface.
No lexical check is done on the content of a CDATA section and it
is therefore possible to have the character sequence
"]]>"
in the content, which is illegal in a CDATA
section per section 2.7 of [XML 1.0]. The presence of
this character sequence must generate a fatal error during
serialization or the cdata section must be splitted before the
serialization (see also the parameter
"split-cdata-sections"
in the
DOMConfiguration
interface).
Note: Because no markup is recognized within a CDATASection
,
character numeric references cannot be used as an escape mechanism
when serializing. Therefore, action needs to be taken when serializing
a CDATASection
with a character encoding where some of
the contained characters cannot be represented. Failure to do so would
not produce well-formed XML.
One potential solution in the serialization process is to end the
CDATA section before the character, output the character using a
character reference or entity reference, and open a new CDATA section
for any further characters in the text node. Note, however, that some
code conversion libraries at the time of writing do not return an
error or exception when a character is missing from the encoding,
making the task of ensuring that data is not corrupted on serialization
more difficult.
interface CDATASection : Text { };
Each Document
has a doctype
attribute whose
value is either null
or a DocumentType
object. The DocumentType
interface in the DOM Core provides
an interface to the list of entities that are defined for the document,
and little else because the effect of namespaces and the various XML
schema efforts on DTD representation are not clearly understood as of
this writing.
DOM Level 3 doesn't support editing DocumentType
nodes. DocumentType
nodes are read-only.
interface DocumentType : Node { readonly attribute DOMString name; readonly attribute NamedNodeMap entities; readonly attribute NamedNodeMap notations; // Introduced in DOM Level 2: readonly attribute DOMString publicId; // Introduced in DOM Level 2: readonly attribute DOMString systemId; // Introduced in DOM Level 2: readonly attribute DOMString internalSubset; };
entities
of type NamedNodeMap
, readonlyNamedNodeMap
containing the general entities, both
external and internal, declared in the DTD. Parameter entities are not
contained. Duplicates are discarded. For example in:
<!DOCTYPE ex SYSTEM "ex.dtd" [ <!ENTITY foo "foo"> <!ENTITY bar "bar"> <!ENTITY bar "bar2"> <!ENTITY % baz "baz"> ]> <ex/>
foo
and the first
declaration of bar
but not the second declaration of
bar
or baz
. Every node in this map also
implements the Entity
interface.entities
cannot be altered in any way.internalSubset
of type DOMString
, readonly, introduced in DOM Level 2null
if there is
none. This is does not contain the delimiting square brackets.Note: The actual content returned depends on how much information is available to the implementation. This may vary depending on various parameters, including the XML processor used to build the document.
name
of type DOMString
, readonlyDOCTYPE
keyword.notations
of type NamedNodeMap
, readonlyNamedNodeMap
containing the notations declared in the
DTD. Duplicates are discarded. Every node in this map also implements
the Notation
interface.notations
cannot be altered in any way.publicId
of type DOMString
, readonly, introduced in DOM Level 2systemId
of type DOMString
, readonly, introduced in DOM Level 2This interface represents a notation declared in the DTD. A notation
either declares, by name, the format of an unparsed entity (see section 4.7
of the XML 1.0 specification [XML 1.0]), or is used for formal
declaration of
processing instruction targets (see section 2.6 of the XML 1.0
specification [XML 1.0]). The nodeName
attribute
inherited from
Node
is set to the declared name of the notation.
The DOM Core does not support editing Notation
nodes; they are therefore
readonly.
A Notation
node does not have any parent.
interface Notation : Node { readonly attribute DOMString publicId; readonly attribute DOMString systemId; };
publicId
of type DOMString
, readonlynull
.systemId
of type DOMString
, readonlynull
. This may be an absolute
URI or not.This interface represents a known entity, either parsed or unparsed, in an XML document. Note that this models the entity itself not the entity declaration.
The nodeName
attribute that is inherited from
Node
contains the name of the entity.
An XML processor may choose to completely expand entities before the
structure model is passed to the DOM; in this case there will be no
EntityReference
nodes in the document tree.
XML does not mandate that a non-validating XML processor read and
process entity declarations made in the external subset or declared in
parameter entities. This means that parsed entities declared in
the external subset need not be expanded by some classes of applications,
and that the replacement text of the entity may not be available. When the
replacement text is
available, the corresponding Entity
node's child list
represents the structure of that replacement value. Otherwise, the child
list is empty.
DOM Level 3 does not support editing Entity
nodes; if a
user wants to make changes to the contents of an Entity
,
every related EntityReference
node has to be replaced in the
structure model by a clone of the Entity
's contents, and
then the desired changes must be made to each of those clones
instead. Entity
nodes and all their
descendants are
readonly.
An Entity
node does not have any parent.
Note: If the entity contains an unbound
namespace prefix, the
namespaceURI
of the corresponding node in the
Entity
node subtree is null
. The same is
true for EntityReference
nodes that refer to this entity,
when they are created using the createEntityReference
method of the Document
interface.
interface Entity : Node { readonly attribute DOMString publicId; readonly attribute DOMString systemId; readonly attribute DOMString notationName; // Introduced in DOM Level 3: readonly attribute DOMString inputEncoding; // Introduced in DOM Level 3: readonly attribute DOMString xmlEncoding; // Introduced in DOM Level 3: readonly attribute DOMString xmlVersion; };
inputEncoding
of type DOMString
, readonly, introduced in DOM Level 3null
if it an
entity from the internal subset or if it is not known.notationName
of type DOMString
, readonlynull
.publicId
of type DOMString
, readonlynull
otherwise.systemId
of type DOMString
, readonlynull
otherwise. This may be an absolute URI or not.xmlEncoding
of type DOMString
, readonly, introduced in DOM Level 3null
otherwise.xmlVersion
of type DOMString
, readonly, introduced in DOM Level 3null
otherwise.EntityReference
nodes may be used to represent an entity
reference in the tree. Note that character references
and references to predefined entities are considered to be expanded by
the HTML or XML processor so that characters are represented by their
Unicode equivalent rather than by an entity reference. Moreover, the XML
processor may completely expand references to entities while building the
Document
, instead of providing EntityReference
nodes. If it does provide such nodes, then for an
EntityReference
node that represents a reference to a known
entity an Entity
exists, and the subtree of the
EntityReference
node is a copy of the
Entity
node subtree. However, the latter may not be true
when an entity contains an unbound namespace prefix. In such a case, because the namespace prefix
resolution depends on where the entity reference is, the
descendants of the
EntityReference
node may be bound to different
namespace URIs. When an
EntityReference
node represents a reference to an unknown
entity, the node has no children and its
replacement value, when used by Attr.value
for example,
is empty.
As for Entity
nodes, EntityReference
nodes and
all their descendants are
readonly.
Note: EntityReference
nodes may cause element content and
attribute value normalization problems when, such as in XML 1.0 and
XML Schema, the normalization is performed after entity reference
are expanded.
interface EntityReference : Node { };
The ProcessingInstruction
interface represents a
"processing instruction", used in XML as a way to keep
processor-specific information in the text of the document.
No lexical check is done on the content of a processing
instruction and it is therefore possible to have the character
sequence "?>"
in the content, which is illegal a
processing instruction per section 2.6 of [XML 1.0]. The
presence of this character sequence must generate a fatal error
during serialization.
interface ProcessingInstruction : Node { readonly attribute DOMString target; attribute DOMString data; // raises(DOMException) on setting };
data
of type DOMString
?>
.
NO_MODIFICATION_ALLOWED_ERR: Raised when the node is readonly. |
target
of type DOMString
, readonly