The Resource Description Framework
(RDF) is a
general-purpose language for representing information in the Web.
This document defines an
XML
syntax for RDF called RDF/XML in terms of
Namespaces in XML,
the
XML Information Set
and XML Base.
The formal grammar for the syntax
is annotated with actions generating triples of the
RDF graph
as defined in
RDF Concepts and Abstract Syntax.
The triples are written using the
N-Triples
RDF graph serializing format which enables more precise recording of
the mapping in a machine processable form. The mappings are
recorded as tests cases, gathered and published in
RDF Test Cases.
This document defines the
XML
[XML]
syntax for RDF graphs
which was originally defined in the
RDF Model & Syntax [RDF-MS] W3C
Recommendation. Subsequent implementations of this syntax and
comparison of the resulting RDF graphs have shown that there was
ambiguity — implementations generated different graphs and certain
syntax forms were not widely implemented.
This document revises the
original RDF/XML grammar
in terms of
XML Information Set
[INFOSET] information items which moves
away from the rather low-level details of XML, such as particular
forms of empty elements. This allows the grammar to be more
precisely recorded and the mapping from the XML syntax to the RDF
Graph more clearly shown. The mapping to the RDF graph is done by
emitting statements in the form defined in the
N-Triples
section of
RDF Test Cases [RDF-TESTS]
which creates an RDF graph, that has semantics defined by
RDF Semantics [RDF-SEMANTICS].
The complete specification of RDF consists of a number of documents:
For a longer introduction to the RDF/XML syntax with a historical
perspective, see
RDF: Understanding the Striped RDF/XML Syntax [STRIPEDRDF].
This section introduces the RDF/XML syntax, describes how it
encodes RDF graphs and explains this with examples. If there is any
conflict between this informal description and the formal description
of the syntax and grammar in sections
6 Syntax Data Model and
7 RDF/XML Grammar, the
latter two sections take precedence.
The
RDF Concepts and Abstract Syntax [RDF-CONCEPTS]
defines the
RDF Graph data model (Section 3.1)
and the
RDF Graph abstract syntax (Section 6).
Along with the
RDF Semantics [RDF-SEMANTICS]
this provides an abstract syntax with a formal semantics for it.
The RDF graph has
nodes
and labeled directed arcs
that link pairs of nodes and this is represented as a set of
RDF triples
where each triple contains a
subject node, predicate and object node.
Nodes are
RDF URI references,
RDF literals
or are blank nodes.
Blank nodes may be given
a document-local, non-RDF URI references identifier called a
blank node identifier.
Predicates are
RDF URI references
and can be interpreted as either a relationship between the two
nodes or as defining an attribute value (object node) for some
subject node.
In order to encode the graph in XML, the nodes and predicates have to be
represented in XML terms — element names, attribute names, element contents
and attribute values.
RDF/XML uses XML
QNames
as defined in Namespaces in XML [XML-NS]
to represent
RDF URI references.
All QNames have a namespace name which is a URI reference
and a short
local name.
In addition, QNames can either have a short
prefix
or be declared with the default namespace declaration and have none (but
still have a namespace name)
The
RDF URI reference
represented by a QName is determined by appending the
local name
part of the QName after the
namespace name (URI reference) part of the QName.
This is used to shorten the
RDF URI references
of all predicates and some nodes.
RDF URI references identifying
subject and object nodes can also be stored as XML attribute values.
RDF literals,
which can only be object nodes,
become either XML element text content or XML attribute values.
A graph can be considered a collection of paths of the form node,
predicate arc, node, predicate arc, node, predicate arc, ... node
which cover the entire graph. In RDF/XML these turn into sequences of
elements inside elements which alternate between elements for nodes
and predicate arcs. This has been called a series of node/arc
stripes. The node at the start of the sequence turns into the
outermost element, the next predicate arc turns into a child element,
and so on. The stripes generally start at the top of an RDF/XML
document and always begin with nodes.
Several RDF/XML examples are given in the following sections
building up to complete RDF/XML documents. Example 7
is the first complete RDF/XML document.
An RDF graph is given in Figure 1
where the nodes are represented as ovals and contain their
RDF URI references
where they have them, all the predicate arcs are labeled with
RDF URI references
and
plain literal
nodes have been written in rectangles.
If we follow one node, predicate arc ... , node path through the
graph shown in Figure 2:
The left hand side of the Figure 2 graph corresponds to the node/predicate arc stripes:
- Node with RDF URI reference
http://www.w3.org/TR/rdf-syntax-grammar
- Predicate Arc labeled with RDF URI reference
http://example.org/terms/editor
- Node with no RDF URI reference
- Predicate Arc labeled with RDF URI reference
http://example.org/terms/homePage
- Node with RDF URI reference
http://purl.org/net/dajobe/
In RDF/XML, the sequence of 5 nodes and predicate arcs on
the left hand side of Figure 2 corresponds to
the usage of five XML elements of two types, for the graph nodes and
predicate arcs. These are conventionally called node elements and
property elements respectively. In the striping shown in
Example 1, rdf:Description is the
node element (used three times for the three nodes) and
ex:editor and ex:homePage are the two
property elements.
<rdf:Description>
<ex:editor>
<rdf:Description>
<ex:homePage>
<rdf:Description>
</rdf:Description>
</ex:homePage>
</rdf:Description>
</ex:editor>
</rdf:Description>
The Figure 2 graph consists of some nodes
that are
RDF URI references
(and others that are not) and this can be added
to the RDF/XML using the rdf:about attribute on node
elements to give the result in Example 2:
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar">
<ex:editor>
<rdf:Description>
<ex:homePage>
<rdf:Description rdf:about="http://purl.org/net/dajobe/">
</rdf:Description>
</ex:homePage>
</rdf:Description>
</ex:editor>
</rdf:Description>
Adding the other two paths through the Figure 1
graph to the RDF/XML in
Example 2
gives the result in Example 3
(this example fails to show that the blank node is
shared between the two paths, see
2.10):
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar">
<ex:editor>
<rdf:Description>
<ex:homePage>
<rdf:Description rdf:about="http://purl.org/net/dajobe/">
</rdf:Description>
</ex:homePage>
</rdf:Description>
</ex:editor>
</rdf:Description>
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar">
<ex:editor>
<rdf:Description>
<ex:fullName>Dave Beckett</ex:fullName>
</rdf:Description>
</ex:editor>
</rdf:Description>
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar">
<dc:title>RDF/XML Syntax Specification (Revised)</dc:title>
</rdf:Description>
There are several abbreviations that can be used to make common
uses easier to write down. In particular, it is common that a
subject node in the RDF graph has multiple outgoing predicate arcs. RDF/XML
provides an abbreviation for the corresponding syntax when a node
element about a resource has multiple property elements. This can be
abbreviated by using multiple child property elements inside the node
element describing the subject node.
Taking Example 3, there are
two node elements that can take multiple property elements.
The subject node with URI reference
http://www.w3.org/TR/rdf-syntax-grammar
has property elements ex:editor and ex:title
and the node element for the blank node can take ex:homePage
and ex:fullName. This abbreviation
gives the result shown in Example 4
(this example does show that there is a single blank node):
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar">
<ex:editor>
<rdf:Description>
<ex:homePage>
<rdf:Description rdf:about="http://purl.org/net/dajobe/">
</rdf:Description>
</ex:homePage>
<ex:fullName>Dave Beckett</ex:fullName>
</rdf:Description>
</ex:editor>
<dc:title>RDF/XML Syntax Specification (Revised)</dc:title>
</rdf:Description>
When a predicate arc in an RDF graph points to an object node which has no
further predicate arcs, which appears in RDF/XML as an empty node element
<rdf:Description rdf:about="...">
</rdf:Description>
(or <rdf:Description rdf:about="..." />)
this form can be shortened. This is done by using the
RDF URI reference
of the object node as the value of an XML attribute rdf:resource
on the containing property element and making the property element empty.
In this example, the property element ex:homePage
contains an empty node element with the
RDF URI reference
http://purl.org/net/dajobe/. This can be replaced with
the empty property element form giving the result shown in
Example 5:
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar">
<ex:editor>
<rdf:Description>
<ex:homePage rdf:resource="http://purl.org/net/dajobe/"/>
<ex:fullName>Dave Beckett</ex:fullName>
</rdf:Description>
</ex:editor>
<dc:title>RDF/XML Syntax Specification (Revised)</dc:title>
</rdf:Description>
When a property element's content is string literal,
it may be possible to use it as an XML attribute on the
containing node element.
This can be done for multiple properties on the same node element
only if the property element name is not repeated
(required by XML — attribute names are unique on an XML element)
and any in-scope xml:lang on the
property element's string literal (if any) are the same (see Section 2.7)
This abbreviation is known as a Property Attribute
and can be applied to any node element.
This abbreviation can also be used when the property element is
rdf:type and it has an rdf:resource attribute
the value of which is interpreted as a
RDF URI reference object node.
In Example 5:,
there are two property elements with string literal content,
the dc:title and ex:fullName
property elements. These can be replaced with property attributes
giving the result shown in Example 6:
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar"
dc:title="RDF/XML Syntax Specification (Revised)">
<ex:editor>
<rdf:Description ex:fullName="Dave Beckett">
<ex:homePage rdf:resource="http://purl.org/net/dajobe/"/>
</rdf:Description>
</ex:editor>
</rdf:Description>
To create a complete RDF/XML document, the serialization of the
graph into XML is usually contained inside an rdf:RDF
XML element which becomes the top-level XML document element.
Conventionally the rdf:RDF element is also used to
declare the XML namespaces that are used, although that is not
required. When there is only one top-level node element inside
rdf:RDF, the rdf:RDF can be omitted
although any XML namespaces must still be declared.
The XML specification also permits an XML declaration at
the top of the document with the XML version and possibly the XML
content encoding. This is optional but recommended.
Completing the RDF/XML could be done for any of the correct
complete graph examples from
Example 4 onwards but taking the smallest
Example 6 and adding the final components,
gives a complete RDF/XML representation of the original
Figure 1 graph
in Example 7:
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:dc="http://purl.org/dc/elements/1.1/"
xmlns:ex="http://example.org/stuff/1.0/">
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar"
dc:title="RDF/XML Syntax Specification (Revised)">
<ex:editor>
<rdf:Description ex:fullName="Dave Beckett">
<ex:homePage rdf:resource="http://purl.org/net/dajobe/" />
</rdf:Description>
</ex:editor>
</rdf:Description>
</rdf:RDF>
It is possible to omit rdf:RDF in
Example 7 above since there is only one
rdf:Description inside rdf:RDF but this
is not shown here.
RDF/XML permits the use of the xml:lang attribute as defined by
2.12 Language Identification
of XML 1.0 [XML]
to allow the identification of content language.
The xml:lang attribute can be used on any node element or property element
to indicate that the included content is in the given language.
Typed literals
which includes XML literals
are not affected by this attribute.
The most specific in-scope language present
(if any) is applied to property element string literal content or
property attribute values. The xml:lang="" form
indicates the absence of a language identifier.
Some examples of marking content languages for RDF properties are shown in
Example 8:
<?xml version="1.0" encoding="utf-8"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:dc="http://purl.org/dc/elements/1.1/">
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar">
<dc:title>RDF/XML Syntax Specification (Revised)</dc:title>
<dc:title xml:lang="en">RDF/XML Syntax Specification (Revised)</dc:title>
<dc:title xml:lang="en-US">RDF/XML Syntax Specification (Revised)</dc:title>
</rdf:Description>
<rdf:Description rdf:about="http://example.org/buecher/baum" xml:lang="de">
<dc:title>Der Baum</dc:title>
<dc:description>Das Buch ist außergewöhnlich</dc:description>
<dc:title xml:lang="en">The Tree</dc:title>
</rdf:Description>
</rdf:RDF>
RDF allows
XML literals
([RDF-CONCEPTS] Section 5, XML Content within an RDF graph)
to be given as the object node of a predicate.
These are written in RDF/XML as content of a property element (not
a property attribute) and indicated using the
rdf:parseType="Literal" attribute on the containing
property element.
An example of writing an XML literal is given in
Example 9 where
there is a single RDF triple with the subject node
RDF URI reference
http://example.org/item01, the predicate
RDF URI reference
http://example.org/stuff/1.0/prop (from
ex:prop) and the object node with XML literal
content beginning a:Box.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:ex="http://example.org/stuff/1.0/">
<rdf:Description rdf:about="http://example.org/item01">
<ex:prop rdf:parseType="Literal"
xmlns:a="http://example.org/a#"><a:Box required="true">
<a:widget size="10" />
<a:grommit id="23" /></a:Box>
</ex:prop>
</rdf:Description>
</rdf:RDF>
RDF allows
typed literals
to be given as the object node of a predicate. Typed literals consist of a literal
string and a datatype
RDF URI reference. These are written in RDF/XML using
the same syntax for literal string nodes in the property element form
(not property attribute) but with an additional
rdf:datatype="datatypeURI"
attribute on the property element. Any
RDF URI reference can be used in the attribute.
An example of an RDF
typed literal
is given in Example 10 where
there is a single RDF triple with the subject node
RDF URI reference
http://example.org/item01, the predicate
RDF URI reference
http://example.org/stuff/1.0/size (from
ex:size) and the object node with the
typed literal
("123", http://www.w3.org/2001/XMLSchema#int)
to be interpreted as an
W3C XML Schema
[XML-SCHEMA2] datatype int.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:ex="http://example.org/stuff/1.0/">
<rdf:Description rdf:about="http://example.org/item01">
<ex:size rdf:datatype="http://www.w3.org/2001/XMLSchema#int">123</ex:size>
</rdf:Description>
</rdf:RDF>
Blank nodes in the RDF graph are distinct but have no
RDF URI reference identifier.
It is sometimes required that the same graph blank node is referred to in the
RDF/XML in multiple places, such as at the subject and object
of several RDF triples. In this case, a blank node identifier
can be given to the blank node for identifying it
in the document. Blank node identifiers in RDF/XML are scoped to the
containing XML Information Set
document information item.
A blank node identifier is used
on a node element to replace
rdf:about="RDF URI reference"
or on a property element to replace
rdf:resource="RDF URI reference"
with rdf:nodeID="blank node identifier"
in both cases.
Taking Example 7 and explicitly giving
a blank node identifier of abc to the blank node in it
gives the result shown in Example 11.
The second rdf:Description property element is
about the blank node.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:dc="http://purl.org/dc/elements/1.1/"
xmlns:ex="http://example.org/stuff/1.0/">
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar"
dc:title="RDF/XML Syntax Specification (Revised)">
<ex:editor rdf:nodeID="abc"/>
</rdf:Description>
<rdf:Description rdf:nodeID="abc"
ex:fullName="Dave Beckett">
<ex:homePage rdf:resource="http://purl.org/net/dajobe/"/>
</rdf:Description>
</rdf:RDF>
Blank nodes (not RDF URI reference nodes) in RDF graphs can be written
in a form that allows the
<rdf:Description>
</rdf:Description> pair to be omitted.
The omission is done by putting an
rdf:parseType="Resource"
attribute on the containing property element
that turns the property element into a property-and-node element,
which can itself have both property elements and property attributes.
Property attributes and the rdf:nodeID attribute
are not permitted on property-and-node elements.
Taking the earlier Example 7,
the contents of the ex:editor property element
could be alternatively done in this fashion to give
the form shown in Example 12:
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:dc="http://purl.org/dc/elements/1.1/"
xmlns:ex="http://example.org/stuff/1.0/">
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar"
dc:title="RDF/XML Syntax Specification (Revised)">
<ex:editor rdf:parseType="Resource">
<ex:fullName>Dave Beckett</ex:fullName>
<ex:homePage rdf:resource="http://purl.org/net/dajobe/"/>
</ex:editor>
</rdf:Description>
</rdf:RDF>
If all of the property elements on a blank node element have
string literal values with the same in-scope xml:lang
value (if present) and each of these property elements appears at
most once and there is at most one rdf:type property
element with a RDF URI reference object node, these can be abbreviated by
moving them to be property attributes on the containing property
element which is made an empty element.
Taking the earlier Example 5,
the ex:editor property element contains a
blank node element with two property elements
ex:fullname and ex:homePage.
ex:homePage is not suitable here since it
does not have a string literal value, so it is being
ignored for the purposes of this example.
The abbreviated form removes the ex:fullName property element
and adds a new property attribute ex:fullName with the
string literal value of the deleted property element
to the ex:editor property element.
The blank node element becomes implicit in the now empty
ex:editor property element. The result is shown in
Example 13.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:dc="http://purl.org/dc/elements/1.1/"
xmlns:ex="http://example.org/stuff/1.0/">
<rdf:Description rdf:about="http://www.w3.org/TR/rdf-syntax-grammar"
dc:title="RDF/XML Syntax Specification (Revised)">
<ex:editor ex:fullName="Dave Beckett" />
<!-- Note the ex:homePage property has been ignored for this example -->
</rdf:Description>
</rdf:RDF>
It is common for RDF graphs to have rdf:type predicates
from subject nodes. These are conventionally called typed
nodes in the graph, or typed node elements in the
RDF/XML. RDF/XML allows this triple to be expressed more concisely.
by replacing the rdf:Description node element name with
the namespaced-element corresponding to the
RDF URI reference of the value of
the type relationship. There may, of course, be multiple rdf:type
predicates but only one can be used in this way, the others must remain as
property elements or property attributes.
The typed node elements are commonly used in RDF/XML with the built-in
classes in the RDF vocabulary:
rdf:Seq, rdf:Bag, rdf:Alt,
rdf:Statement, rdf:Property and
rdf:List.
For example, the RDF/XML in Example 14
could be written as shown in Example 15.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:dc="http://purl.org/dc/elements/1.1/"
xmlns:ex="http://example.org/stuff/1.0/">
<rdf:Description rdf:about="http://example.org/thing">
<rdf:type rdf:resource="http://example.org/stuff/1.0/Document"/>
<dc:title>A marvelous thing</dc:title>
</rdf:Description>
</rdf:RDF>
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:dc="http://purl.org/dc/elements/1.1/"
xmlns:ex="http://example.org/stuff/1.0/">
<ex:Document rdf:about="http://example.org/thing">
<dc:title>A marvelous thing</dc:title>
</ex:Document>
</rdf:RDF>
RDF/XML allows further abbreviating RDF URI references in XML attributes in two
ways. The XML Infoset provides a base URI attribute xml:base
that sets the base URI for resolving relative RDF URI references, otherwise the base URI is that of the document. The base URI applies to
all RDF/XML attributes that deal with RDF URI references which are rdf:about,
rdf:resource, rdf:ID
and rdf:datatype.
The rdf:ID attribute on a node element (not property
element, that has another meaning) can be used instead of
rdf:about and gives a relative RDF URI reference equivalent to #
concatenated with the rdf:ID attribute value. So for
example if rdf:ID="name", that would be equivalent
to rdf:about="#name". rdf:ID provides an additional
check since the same name can only appear once in the
scope of an xml:base value (or document, if none is given),
so is useful for defining a set of distinct,
related terms relative to the same RDF URI reference.
Both forms require a base URI to be known, either from an in-scope
xml:base or from the URI of the RDF/XML document.
Example 16 shows abbreviating the node
RDF URI reference of http://example.org/here/#snack using an
xml:base of http://example.org/here/ and
an rdf:ID on the rdf:Description node element.
The object node of the ex:prop predicate is an
absolute RDF URI reference
resolved from the rdf:resource XML attribute value
using the in-scope base URI to give the
RDF URI reference
http://example.org/here/fruit/apple.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:ex="http://example.org/stuff/1.0/"
xml:base="http://example.org/here/">
<rdf:Description rdf:ID="snack">
<ex:prop rdf:resource="fruit/apple"/>
</rdf:Description>
</rdf:RDF>
RDF has a set of container membership properties
and corresponding property elements that are mostly used with
instances of the
rdf:Seq, rdf:Bag and rdf:Alt
classes which may be written as typed node elements. The list properties are
rdf:_1, rdf:_2 etc. and can be written
as property elements or property attributes as shown in
Example 17. There is an rdf:li
special property element that is equivalent to
rdf:_1, rdf:_2 in order,
explained in detail in section 7.4.
The mapping to the container membership properties is
always done in the order that the rdf:li special
property elements appear in XML — the document order is significant.
The equivalent RDF/XML to Example 17 written
in this form is shown in Example 18.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Seq rdf:about="http://example.org/favourite-fruit">
<rdf:_1 rdf:resource="http://example.org/banana"/>
<rdf:_2 rdf:resource="http://example.org/apple"/>
<rdf:_3 rdf:resource="http://example.org/pear"/>
</rdf:Seq>
</rdf:RDF>
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#">
<rdf:Seq rdf:about="http://example.org/favourite-fruit">
<rdf:li rdf:resource="http://example.org/banana"/>
<rdf:li rdf:resource="http://example.org/apple"/>
<rdf:li rdf:resource="http://example.org/pear"/>
</rdf:Seq>
</rdf:RDF>
RDF/XML allows an rdf:parseType="Collection"
attribute on a property element to let it contain multiple node
elements. These contained node elements give the set of subject
nodes of the collection. This syntax form corresponds to a set of
triples connecting the collection of subject nodes, the exact triples
generated are described in detail in
Section 7.2.19 Production parseTypeCollectionPropertyElt.
The collection construction is always done in the order that the node
elements appear in the XML document. Whether the order of the
collection of nodes is significant is an application issue and not
defined here.
Example 19 shows a collection of three
nodes elements at the end of the ex:hasFruit
property element using this form.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:ex="http://example.org/stuff/1.0/">
<rdf:Description rdf:about="http://example.org/basket">
<ex:hasFruit rdf:parseType="Collection">
<rdf:Description rdf:about="http://example.org/banana"/>
<rdf:Description rdf:about="http://example.org/apple"/>
<rdf:Description rdf:about="http://example.org/pear"/>
</ex:hasFruit>
</rdf:Description>
</rdf:RDF>
The rdf:ID attribute can be used on a property
element to reify the triple that it generates (See
section 7.3 Reification Rules for the
full details).
The identifier for the triple should be constructed as a
RDF URI reference
made from the relative URI reference
# concatenated with the rdf:ID attribute
value, resolved against the in-scope base URI. So for example if
rdf:ID="triple", that would be equivalent to the RDF URI reference
formed from relative URI reference #triple against the base URI.
Each (rdf:ID attribute value, base URI)
pair has to be unique in an RDF/XML document,
see constraint-id.
Example 20 shows a rdf:ID
being used to reify a triple made from the ex:prop
property element giving the reified triple the
RDF URI reference http://example.org/triples/#triple1.
<?xml version="1.0"?>
<rdf:RDF xmlns:rdf="http://www.w3.org/1999/02/22-rdf-syntax-ns#"
xmlns:ex="http://example.org/stuff/1.0/"
xml:base="http://example.org/triples/">
<rdf:Description rdf:about="http://example.org/">
<ex:prop rdf:ID="triple1">blah</ex:prop>
</rdf:Description>
</rdf:RDF>
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL
NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in
this document are to be interpreted as described in
RFC 2119
[KEYWORDS].
All use of string without further qualification refers to
a Unicode[UNICODE] character string;
a sequence of characters represented by a code point in Unicode.
(Such as defined in [CHARMOD] in section
3.4 Strings).
The Internet media type / MIME type for RDF/XML is
"application/rdf+xml" —
see RFC 3023
[RFC-3023] section 8.18.
It is recommended that RDF/XML files have the extension
".rdf" (all lowercase) on all platforms.
It is recommended that RDF/XML files stored on Macintosh HFS file
systems be given a file type of "rdf "
(all lowercase, with a space character as the fourth letter).
Note (Informative):
The names aboutEach and aboutEachPrefix were removed
from the language and the RDF vocabulary by the RDF Core Working Group.
See the resolution of issues
rdfms-abouteach and
rdfms-abouteachprefix
for further information.
The
RDF namespace URI reference (or namespace name) is
http://www.w3.org/1999/02/22-rdf-syntax-ns#
and is typically used in XML with the prefix rdf
although other prefix strings may be used.
The RDF Vocabulary
is identified by this namespace name and consists of the following names only:
- Syntax names — not concepts
-
RDF Description ID about parseType resource li nodeID datatype
- Class names
-
Seq Bag Alt Statement Property XMLLiteral List
- Property names
-
subject predicate object type value first rest _n
where n is a decimal integer greater than zero with no leading zeros.
- Resource names
-
nil
Any other names are not defined and SHOULD generate a warning when
encountered, but should otherwise behave normally.
Within RDF/XML documents it is not permitted to use XML namespaces
whose namespace name is the
·RDF namespace URI reference·
concatenated with additional characters.
Throughout this document the terminology rdf:name
will be used to indicate name is from the RDF vocabulary
and it has a RDF URI reference of the concatenation of the
·RDF namespace URI reference· and name.
For example, rdf:type has the RDF URI reference
http://www.w3.org/1999/02/22-rdf-syntax-ns#type
The
RDF Graph
(RDF Concepts and Abstract Syntax Section 3)
defines three types of nodes and one type of predicate:
- RDF URI reference nodes and predicates
-
RDF URI references (RDF Concepts and Abstract Syntax Section 3.1)
can be either:
- given as XML attribute values interpreted as relative
URI references that are resolved against the in-scope base URI
as described in section 5.3
to give absolute RDF URI references
- transformed from XML namespace-qualified element and attribute names
(QNames)
- transformed from
rdf:ID attribute values.
Within RDF/XML, XML QNames are transformed into
RDF URI references
by appending the XML local name to the namespace name (URI reference).
For example, if the XML namespace prefix foo has
namespace name (URI reference)
http://example.org/somewhere/ then the QName
foo:bar would correspond to the RDF URI reference
http://example.org/somewhere/bar. Note that this
restricts which
RDF URI references can be made and the same URI can be given in multiple ways.
The rdf:ID values
are transformed into
RDF URI references
by appending the attribute value to the result of appending
"#" to the in-scope base URI which is defined in
Section 5.3 Resolving URIs
- Literal nodes (always object nodes)
RDF literals (RDF Concepts and Abstract Syntax 6.5) are either
plain literals (ibid),
or
typed literals (ibid).
The latter includes XML literals (ibid section 5, XML Content within an RDF graph).
- Blank Node Identifiers
Blank nodes have distinct identity in the RDF graph.
When the graph is written in a syntax such as RDF/XML, these
blank nodes may need graph-local identifiers and a syntax
in order to preserve this distinction. These local identifiers are called
blank node identifiers
and are used in RDF/XML as values of the rdf:nodeID attribute
with the syntax given in Production nodeIdAttr.
Blank node identifiers in RDF/XML are scoped to the XML Information Set
document information item.
If no blank node identifier is given explicitly as an
rdf:nodeID attribute value then one will need to be
generated (using generated-blank-node-id, see section 6.3.3).
Such generated blank node
identifiers must not clash with any blank node identifiers derived
from rdf:nodeID attribute values. This can be
implemented by any method that preserves the distinct identity of all
the blank nodes in the graph, that is, the same blank node identifier
is not given for different blank nodes. One possible method would be
to add a constant prefix to all the rdf:nodeID attribute
values and ensure no generated blank node identifiers ever used that
prefix. Another would be to map all rdf:nodeID attribute
values to new generated blank node identifiers and perform that mapping
on all such values in the RDF/XML document.
RDF/XML supports
XML Base [XML-BASE]
which defines a
·base-uri·
accessor for each
·root event· and
·element event·.
Relative URI references are resolved into
RDF URI references
according to the algorithm specified in
XML Base [XML-BASE]
(and RFC 2396).
These specifications do not specify an algorithm for resolving a
fragment identifier alone, such as #foo, or the empty
string "" into an
RDF URI reference. In RDF/XML, a fragment identifier
is transformed into a
RDF URI reference
by appending the fragment identifier to the in-scope base URI. The
empty string is transformed
into an
RDF URI reference
by substituting the in-scope base URI.
An empty same document reference ""
resolves against the URI part of the base URI; any fragment part
is ignored. See
Uniform Resource Identifiers (URI) [URIS] section 4.2
Implementation Note (Informative):
When using a hierarchical base
URI that has no path component (/), it must be added before using as a
base URI for resolving.
- constraint-id
Each application of production idAttr
matches an attribute. The pair formed by the
·string-value·
accessor of the matched attribute and the
·base-uri·
accessor of the matched attribute is unique within a single RDF/XML
document.
The syntax of the names must match the
rdf-id production.
- Definition:
- An RDF Document is a serialization of an
RDF Graph
into a concrete syntax.
- Definition:
- An RDF/XML Document is an
RDF Document written in the
recommended XML transfer syntax for RDF as defined in this document.
- Conformance:
- An RDF/XML Document is a
conforming RDF/XML document
if it adheres to the specification defined in this document.
This document specifies the syntax of RDF/XML as a grammar on an
alphabet of symbols. The symbols are called events in the
style of the [XPATH]
Information Set Mapping.
A sequence of events is normally derived from an XML document, in
which case they are in document order as defined below in
Section 6.2 Information Set Mapping.
The sequence these events form are intended to be similar to the sequence
of events produced by the [SAX2] XML API from
the same XML document. Sequences of events may be checked against
the grammar to determine whether they are or are not syntactically
well-formed RDF/XML.
The grammar productions may include actions which fire when the
production is recognized. Taken together these actions define a
transformation from any syntactically well-formed RDF/XML sequence of
events into an RDF graph represented in the
N-Triples
language.
The model given here illustrates one way to create a representation of
an RDF Graph
from an RDF/XML document. It does not mandate any implementation
method — any other method that results in a representation of the same
RDF Graph
may be used.
In particular:
- This specification permits any
representation
of an RDF graph (see [RDF-CONCEPTS]);
in particular, it does not require the use of
N-Triples.
- This specification does not require the use of
[XPATH] or [SAX2]
- This specification places no constraints on the order in which
software transforming RDF/XML into a representation of a graph,
constructs the representation of the graph.
- Software transforming RDF/XML into a representation of a graph
MAY eliminate duplicate predicate arcs.
The syntax does not support non-well-formed XML documents, nor
documents that otherwise do not have an XML Information Set; for
example, that do not conform to
Namespaces in XML
[XML-NS].
The Infoset requires support for
XML Base [XML-BASE].
RDF/XML uses the information item property [base URI], discussed in
section 5.3
This specification requires an
XML Information Set [INFOSET]
which supports at least the following information items and
properties for RDF/XML:
- document information item
- [document element], [children], [base URI]
- element information item
- [local name], [namespace name], [children], [attributes], [parent], [base URI]
- attribute information item
- [local name], [namespace name], [normalized value]
- character information item
- [character code]
There is no mapping of the following items to data model events:
- processing instruction information item
- unexpanded entity reference information item
- comment information item
- document type declaration information item
- unparsed entity information item
- notation information item
- namespace information item
Other information items and properties have no mapping to
syntax data model events.
Element information items with reserved XML Names
(See Name
in XML 1.0)
are not mapped to data model element events. These are all those
with property [prefix] beginning with xml (case
independent comparison) and all those with [prefix] property
having no value and which have [local name] beginning with
xml (case independent comparison).
All information items contained inside XML elements matching the
parseTypeLiteralPropertyElt
production form
XML literals
and do not follow this mapping. See
parseTypeLiteralPropertyElt
for further information.
This section is intended to satisfy the requirements for
Conformance
in the [INFOSET] specification.
It specifies the information items and properties that are needed
to implement this specification.
There are nine types of event defined in the following subsections.
Most events are constructed from an Infoset information item (except
for URI reference,
blank node,
plain literal and
typed literal). The effect
of an event constructor is to create a new event with a unique identity,
distinct from all other events. Events have accessor operations on them
and most have the string-value accessor that may be a static value
or computed.
Constructed from a
document information item
and takes the following accessors and values.
- document-element
- Set to the value of document information item property [document-element].
- children
- Set to the value of document information item property [children].
- base-uri
- Set to the value of document information item property [base URI].
- language
- Set to the empty string.
Constructed from an
element information item
and takes the following accessors and values:
- local-name
- Set to the value of element information item property [local name].
- namespace-name
- Set to the value of element information item property [namespace name].
- children
- Set to the value of element information item property [children].
- base-uri
- Set to the value of element information item property [base URI].
- attributes
Made from the value of element information item property [attributes] which is a set of attribute information items.
If this set contains an attribute information item xml:lang (
[namespace name] property with the value
"http://www.w3.org/XML/1998/namespace" and
[local name] property value "lang")
it is removed from the set of attribute information items and the
·language· accessor is set to the
[normalized-value] property of the attribute information item.
All remaining reserved XML Names
(See Name
in XML 1.0)
are now removed from the set. These are, all
attribute information items in the set with property [prefix]
beginning with xml (case independent
comparison) and all attribute information items with [prefix]
property having no value and which have [local name] beginning with
xml (case independent comparison) are removed.
Note that the [base URI] accessor is computed by XML Base before any
xml:base attribute information item is deleted.
The remaining set of attribute information items are then used
to construct a new set of
Attribute Events
which is assigned as the value of this accessor.
- URI
- Set to the string value of the concatenation of the
value of the namespace-name accessor and the value of the
local-name accessor.
- URI-string-value
-
The value is the concatenation of the following in this order "<",
the escaped value of the
·URI·
accessor and ">".
The escaping of the
·URI·
accessor uses the N-Triples escapes for
URI references as described in 3.3 URI References.
- li-counter
- Set to the integer value 1.
- language
- Set from the
·attributes·
as described above.
If no value is given from the attributes, the value is set to the value of
the language accessor on the parent event (either a
Root Event or an
Element Event), which may be the empty string.
- subject
- Has no initial value. Takes a value that is an
Identifier event.
This accessor is used on elements that deal with one node in the RDF graph,
this generally being the subject of a statement.
Has no accessors. Marks the end of the containing element in
the sequence.
Constructed from an
attribute information item
and takes the following accessors and values:
- local-name
- Set to the value of attribute information item property [local name].
- namespace-name
- Set to the value of attribute information item property [namespace name].
- string-value
- Set to the value of the attribute information item property [normalized value] as specified by
[XML] (if an attribute whose normalized
value is a zero-length string, then the string-value is also
a zero-length string).
- URI
If ·namespace-name· is present,
set to a string value of the concatenation of the value of the
·namespace-name· accessor
and the value of the
·local-name· accessor.
Otherwise if ·local-name· is
ID, about, resource, parseType or type, set to a string value of the
concatenation of the
·RDF namespace URI reference·
and the value of the ·local-name· accessor. Other non-namespaced ·local-name· accessor values are forbidden.
The support for a limited set of non-namespaced names is
REQUIRED and intended to allow RDF/XML documents specified in
[RDF-MS] to remain valid; new documents
SHOULD NOT use these unqualified attributes and applications MAY
choose to warn when the unqualified form is seen in a document.
The construction of
RDF URI references
from XML attributes can generate the same
RDF URI references
from different XML attributes. This can cause ambiguity in the
grammar when matching attribute events (such as when
rdf:about and about XML attributes are
both present). Documents that have this are illegal.
- URI-string-value
-
The value is the concatenation of the following in this order "<",
the escaped value of the
·URI·
accessor and ">".
The escaping of the
·URI·
accessor uses the N-Triples escapes for
URI references as described in 3.3 URI References.
Constructed from a sequence of one or more consecutive
character information items.
Has the single accessor:
- string-value
- Set to the value of the string made from concatenating the
[character code] property of each of the character information items.
An event for a
RDF URI references
which has the following accessors:
- identifier
- Takes a string value used as an
RDF URI reference.
- string-value
The value is the concatenation of "<", the escaped value of the ·identifier· accessor and ">"
The escaping of the ·identifier· accessor value
uses the N-Triples escapes for URI references as described in
3.3 URI References.
These events are constructed by giving a value for the
·identifier· accessor.
For further information on identifiers in the RDF graph, see
section 5.2.
An event for a
blank node identifier
which has the following accessors:
- identifier
- Takes a string value.
- string-value
- The value is a function of the value of the
·identifier· accessor.
The value begins with "_:" and the entire value MUST match the
N-Triples
nodeID production.
The function MUST preserve distinct blank node identity as discussed in in section 5.2 Identifiers.
These events are constructed by giving a value for the
·identifier· accessor.
For further information on identifiers in the RDF graph, see
section 5.2.
An event for a plain literal which can have the following accessors:
- literal-value
- Takes a string value.
- literal-language
- Takes a string value used as a language tag in an RDF plain literal.
- string-value
The value is calculated from the other accessors as follows.
If ·literal-language· is the empty string
then the value is the concatenation of """ (1 double quote),
the escaped value of the
·literal-value· accessor
and """ (1 double quote).
Otherwise the value is the concatenation of """ (1 double quote),
the escaped value of the
·literal-value· accessor
""@" (1 double quote and a '@'),
and the value of the
·literal-language· accessor.
The escaping of the ·literal-value· accessor value uses the N-Triples
escapes for strings as described in 3.2 Strings
for escaping certain characters such as ".
These events are constructed by giving values for the
·literal-value· and
·literal-language· accessors.
Interoperability Note (Informative):
Literals beginning with a Unicode combining character are
allowed however they may cause interoperability problems.
See [CHARMOD] for further information.
An event for a typed literal which can have the following accessors:
- literal-value
- Takes a string value.
- literal-datatype
- Takes a string value used as an RDF URI reference.
- string-value
The value is the concatenation of the following in this order
""" (1 double quote),
the escaped value of the
·literal-value· accessor,
""" (1 double quote), "^^<",
the escaped value of the
·literal-datatype· accessor
and ">".
The escaping of the ·literal-value· accessor value
uses the N-Triples
escapes for strings as described in 3.2 Strings
for escaping certain characters such as ".
The escaping of the ·literal-datatype· accessor value
must use the N-Triples escapes for URI references as described in
3.3 URI References.
These events are constructed by giving values for the
·literal-value·
and
·literal-datatype· accessors.
Interoperability Note (Informative):
Literals beginning with a Unicode combining character are
allowed however they may cause interoperability problems.
See [CHARMOD] for further information.
Implementation Note (Informative):
In XML Schema (part 1) [XML-SCHEMA1],
white space normalization
occurs during validation according to the value of the whiteSpace
facet. The syntax mapping used in this document occurs after this,
so the whiteSpace facet formally has no further effect.
To transform the Infoset into the sequence of events
in document order, each
information item is transformed as described above to generate a
tree of events with accessors and values. Each element event is
then replaced as described below to turn the tree of events
into a sequence in document order.
- The original element event
- The value of the
children
accessor recursively transformed, a possibly empty ordered list of events.
- An end element event
The following notation is used to describe matching the sequence
of data model events as given in Section 6
and the actions to perform for the matches.
The RDF/XML grammar is defined in terms of mapping from these matched
data model events to triples, using notation of the form:
number event-type event-content
where the event-content is an expression matching
event-types (as defined in Section 6.1),
using notation given in the following sections.
The number is used for reference purposes.
The grammar action may include generating
new triples to the graph, written in
N-Triples
format.
The following sections describe the general notation used and that
for event matching and actions.
Grammar General Notation.
| Notation |
Meaning |
| event.accessor |
The value of an event accessor. |
rdf:X |
A URI as defined in section 5.1. |
| "ABC" |
A string of characters A, B, C in order. |
Grammar Event Matching Notation.
| Notation |
Meaning |
| A == B |
Event accessor A matches expression B. |
| A != B |
A is not equal to B. |
| A | B | ... |
The A, B, ... terms are alternatives. |
| A - B |
The terms in A excluding all the terms in B. |
| anyURI. |
Any URI. |
| anyString. |
Any string. |
| list(item1, item2, ...); list() |
An ordered list of events. An empty list. |
| set(item1, item2, ...); set() |
An unordered set of events. An empty set. |
| * |
Zero or more of preceding term. |
| ? |
Zero or one of preceding term. |
| + |
One or more of preceding term. |
root(acc1 == value1,
acc2 == value2, ...) |
Match a Root Event with accessors.
|
start-element(acc1 == value1,
acc2 == value2, ...)
children
end-element() |
Match a sequence of
Element Event with accessors,
a possibly empty list of events as element content and an
End Element Event.
|
attribute(acc1 == value1,
acc2 == value2, ...) |
Match an Attribute Event
with accessors. |
| text() |
Match a Text Event. |
| 7.2.2 coreSyntaxTerms | rdf:RDF | rdf:ID | rdf:about | rdf:parseType | rdf:resource | rdf:nodeID | rdf:datatype |
| 7.2.3 syntaxTerms | coreSyntaxTerms | rdf:Description | rdf:li |
| 7.2.4 oldTerms | rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID |
| 7.2.5 nodeElementURIs | anyURI - ( coreSyntaxTerms | rdf:li | oldTerms ) |
| 7.2.6 propertyElementURIs | anyURI - ( coreSyntaxTerms | rdf:Description | oldTerms ) |
| 7.2.7 propertyAttributeURIs | anyURI - ( coreSyntaxTerms | rdf:Description | rdf:li | oldTerms ) |
| 7.2.8 doc | root(document-element == RDF,
children == list(RDF)) |
| 7.2.9 RDF | start-element(URI == rdf:RDF,
attributes == set())
nodeElementList
end-element() |
| 7.2.10 nodeElementList | ws* (nodeElement ws* )* |
| 7.2.11 nodeElement | start-element(URI == nodeElementURIs
attributes == set((idAttr | nodeIdAttr | aboutAttr )?, propertyAttr*))
propertyEltList
end-element() |
| 7.2.12 ws | A text event matching white space
defined by [XML] definition White Space
Rule [3] S
in section
Common Syntactic Constructs |
| 7.2.13 propertyEltList | ws* (propertyElt ws* ) * |
| 7.2.14 propertyElt | resourcePropertyElt |
literalPropertyElt |
parseTypeLiteralPropertyElt |
parseTypeResourcePropertyElt |
parseTypeCollectionPropertyElt |
parseTypeOtherPropertyElt |
emptyPropertyElt |
| 7.2.15 resourcePropertyElt | start-element(URI == propertyElementURIs ),
attributes == set(idAttr?))
ws* nodeElement ws*
end-element() |
| 7.2.16 literalPropertyElt | start-element(URI == propertyElementURIs ),
attributes == set(idAttr?, datatypeAttr?))
text()
end-element() |
| 7.2.17 parseTypeLiteralPropertyElt | start-element(URI == propertyElementURIs ),
attributes == set(idAttr?, parseLiteral))
literal
end-element() |
| 7.2.18 parseTypeResourcePropertyElt | start-element(URI == propertyElementURIs ),
attributes == set(idAttr?, parseResource))
propertyEltList
end-element() |
| 7.2.19 parseTypeCollectionPropertyElt | start-element(URI == propertyElementURIs ),
attributes == set(idAttr?, parseCollection))
nodeElementList
end-element() |
| 7.2.20 parseTypeOtherPropertyElt | start-element(URI == propertyElementURIs ),
attributes == set(idAttr?, parseOther))
propertyEltList
end-element() |
| 7.2.21 emptyPropertyElt | start-element(URI == propertyElementURIs ),
attributes == set(idAttr?, ( resourceAttr | nodeIdAttr )?, propertyAttr*))
end-element() |
| 7.2.22 idAttr | attribute(URI == rdf:ID,
string-value == rdf-id) |
| 7.2.23 nodeIdAttr | attribute(URI == rdf:nodeID,
string-value == rdf-id) |
| 7.2.24 aboutAttr | attribute(URI == rdf:about,
string-value == URI-reference) |
| 7.2.25 propertyAttr | attribute(URI == propertyAttributeURIs,
string-value == anyString) |
| 7.2.26 resourceAttr | attribute(URI == rdf:resource,
string-value == URI-reference) |
| 7.2.27 datatypeAttr | attribute(URI == rdf:datatype,
string-value == URI-reference) |
| 7.2.28 parseLiteral | attribute(URI == rdf:parseType,
string-value == "Literal") |
| 7.2.29 parseResource | attribute(URI == rdf:parseType,
string-value == "Resource") |
| 7.2.30 parseCollection | attribute(URI == rdf:parseType,
string-value == "Collection") |
| 7.2.31 parseOther | attribute(URI == rdf:parseType,
string-value == anyString - ("Resource" | "Literal" | "Collection") ) |
| 7.2.32 URI-reference | An RDF URI reference. |
| 7.2.33 literal | Any XML element content that is allowed according to
[XML] definition Content of Elements
Rule [43]
content.
in section
3.1 Start-Tags, End-Tags, and Empty-Element Tags |
| 7.2.34 rdf-id | An attribute ·string-value·
matching any legal
[XML-NS] token
NCName |
If the RDF/XML is a standalone XML document
(identified by presentation as an
application/rdf+xml RDF MIME type object,
or by some other means) then the grammar may start with
production doc or
production nodeElement.
If the content is known to be RDF/XML by context, such as when
RDF/XML is embedded inside other XML content, then the grammar
can either start
at Element Event
RDF
(only when an element is legal at that point in the XML)
or at production nodeElementList
(only when element content is legal, since this is a list of elements).
For such embedded RDF/XML, the
·base-uri·
value on the outermost element must be initialized from the containing
XML since no
Root Event will be available.
Note that if such embedding occurs, the grammar may be entered
several times but no state is expected to be preserved.
rdf:RDF | rdf:ID | rdf:about | rdf:parseType | rdf:resource | rdf:nodeID | rdf:datatype
A subset of the syntax terms from the RDF vocabulary in
section 5.1
which are used in RDF/XML.
All the syntax terms from the RDF vocabulary in
section 5.1
which are used in RDF/XML.
rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID
These are the names from the RDF vocabulary
that have been withdrawn from the language. See the resolutions of
Issue rdfms-aboutEach-on-object,
Issue rdfms-abouteachprefix and
Last Call Issue timbl-01
for further information.
The RDF URI references that are allowed on node elements.
The URIs that are allowed on property elements.
The RDF URI references that are allowed on property attributes.
For node element e, the processing of some of the attributes
has to be done before other work such as dealing with children events
or other attributes. These can be processed in any order:
If e.subject is empty,
then e.subject := bnodeid(identifier := generated-blank-node-id()).
The following can then be performed in any order:
If element e has
e.URI =
rdf:li then apply the list expansion rules on element e.parent in
section 7.4
to give a new URI u and
e.URI := u.
The action of this production must be done before the
actions of any sub-matches (resourcePropertyElt ... emptyPropertyElt).
Alternatively the result must be equivalent to as if it this action
was performed first, such as performing as the first
action of all of the sub-matches.
For element e, and the single contained nodeElement
n, first n must be processed using production
nodeElement.
Then the following statement is added to the graph:
If the rdf:ID attribute a is given, the above
statement is reified with
i := uri(identifier := resolve(e, concat("#", a.string-value)))
using the reification rules in
section 7.3
and e.subject := i
Note that the empty literal case is defined in production
emptyPropertyElt.
For element e, and the text event t.
The Unicode string t.string-value SHOULD be in Normal Form C[NFC].
If the rdf:datatype attribute d is given
then o := typed-literal(literal-value := t.string-value, literal-datatype := d.string-value)
otherwise
o := literal(literal-value := t.string-value, literal-language := e.language)
and the following statement is added to the graph:
If the rdf:ID attribute a is given, the above
statement is reified with
i := uri(identifier := resolve(e, concat("#", a.string-value)))
using the reification rules in
section 7.3
and e.subject := i.
For element e and the literal l
that is the rdf:parseType="Literal" content.
l is not transformed by the syntax data model mapping into events
(as noted in 6 Syntax Data Model)
but remains an XML Infoset of XML Information items.
l is transformed into the lexical form of an
XML literal
in the RDF graph x (a Unicode string)
by the following algorithm. This does not mandate any implementation
method — any other method that gives the same result may be used.
- Use l to construct an XPath[XPATH] node-set
(a document subset)
- Apply Exclusive XML Canonicalization [XML-XC14N])
with comments and with empty
InclusiveNamespaces PrefixList
to this node-set to give a sequence of octets s
- This sequence of octets s can be considered to be
a UTF-8 encoding of some Unicode string x (sequence
of Unicode characters)
- The Unicode string x is used as the lexical form of l
- This Unicode string
x SHOULD be in NFC Normal Form C[NFC]
Then o := typed-literal(literal-value := x, literal-datatype := http://www.w3.org/1999/02/22-rdf-syntax-ns#XMLLiteral )
and the following statement is added to the graph:
If the rdf:ID attribute a is given, the above
statement is reified with
i := uri(identifier := resolve(e, concat("#", a.string-value)))
using the reification rules in
section 7.3
and e.subject := i.
For element e with possibly empty element content c.
n := bnodeid(identifier := generated-blank-node-id()).
Add the following statement to the graph:
If the rdf:ID attribute a is given, the
statement above is reified with
i := uri(identifier := resolve(e, concat("#", a.string-value)))
using the reification rules in
section 7.3
and e.subject := i.
If the element content c is not empty, then use event
n to create a new sequence of events as follows:
Then
process the resulting sequence using production
nodeElement.
For element event e with possibly empty
nodeElementList l. Set
s:=list().
For each element event f in l,
n := bnodeid(identifier := generated-blank-node-id()) and append n to
s to give a sequence of events.
If s is not empty, n is the first event identifier in
s and the following statement is added to the graph:
otherwise the following statement is added to the graph:
If the rdf:ID attribute a is given,
either of the the above statements is reified with
i := uri(identifier := resolve(e, concat("#", a.string-value)))
using the reification rules in
section 7.3.
If s is empty, no further work is performed.
For each event n in s and the
corresponding element event f in l, the following
statement is added to the graph:
For each consecutive and overlapping pair of events
(n, o) in s, the following statement is
added to the graph:
If s is not empty, n is the last event identifier
in s, the following statement is added to the graph:
n.string-value <http://www.w3.org/1999/02/22-rdf-syntax-ns#rest> <http://www.w3.org/1999/02/22-rdf-syntax-ns#nil> .
All rdf:parseType attribute values other than the strings
"Resource", "Literal" or "Collection" are treated as if the value was
"Literal". This production matches and acts as if production
parseTypeLiteralPropertyElt
was matched.
No extra triples are generated for other rdf:parseType values.
-
If there are no attributes or only the
optional rdf:ID attribute i
then o := literal(literal-value:="", literal-language := e.language)
and the following statement is added to the graph:
and then if i is given, the above statement is reified with
uri(identifier := resolve(e, concat("#", i.string-value)))
using the reification rules in
section 7.3.
-
Otherwise
The following are done in any order:
For all propertyAttr
attributes a (in any order)
Add the following statement to the graph:
and then if rdf:ID attribute i is given, the above statement is
reified with
uri(identifier := resolve(e, concat("#", i.string-value)))
using the reification rules in
section 7.3.
Constraint:: constraint-id
applies to the values of rdf:ID attributes
For the given URI reference event r and
the statement with terms s, p and o
corresponding to the N-Triples:
add the following statements to the graph:
r.string-value <http://www.w3.org/1999/02/22-rdf-syntax-ns#subject> s .
r.string-value <http://www.w3.org/1999/02/22-rdf-syntax-ns#predicate> p .
r.string-value <http://www.w3.org/1999/02/22-rdf-syntax-ns#object> o .
r.string-value <http://www.w3.org/1999/02/22-rdf-syntax-ns#type> <http://www.w3.org/1999/02/22-rdf-syntax-ns#Statement> .
For the given element e, create a new RDF URI reference u :=
concat("http://www.w3.org/1999/02/22-rdf-syntax-ns#_",
e.li-counter),
increment the
e.li-counter
property by 1 and return u.
There are some
RDF Graphs
as defined in
RDF Concepts and Abstract Syntax
that cannot be serialized in RDF/XML. These are those that:
- Use property names that cannot be turned into XML namespace-qualified names.
- An XML namespace-qualified name
(QName)
has restrictions on the legal characters such that not all property URIs
can be expressed as these names.
It is recommended that implementors of RDF serializers, in order to
break a URI into a namespace name and a local name, split it after
the last XML non-NCName
character, ensuring that the first character of the name is a
Letter or '_'.
If the URI ends in a
non-NCName
character then throw a "this graph cannot be serialized in RDF/XML"
exception or error.
- Use inappropriate reserved names as properties
- For example, a property with the same URI as any of the
syntaxTerms production.
Implementation Note (Informative):
When an RDF graph is serialized to RDF/XML and has an XML Schema
Datatype (XSD), it SHOULD be written in a form that does not require
whitespace processing. XSD support is NOT required by RDF or RDF/XML
so this is optional.
If RDF/XML is embedded inside HTML or XHTML this can
add many new elements and attributes, many of which will not be
in the appropriate DTD. This embedding causes validation against the DTD to fail.
The obvious solution of changing or extending the DTD is not practical
for most uses. This problem has been analyzed extensively by Sean B. Palmer in
RDF in HTML: Approaches
[RDF-IN-XHTML]
and it concludes that there is no single embedding
method that satisfies all applications and remains simple.
The recommended approach is to not embed RDF/XML in HTML/XHTML but
rather to use <link> element in the <head>
element of the HTML/HTML to point at a separate RDF/XML document.
This approach has been used for several years by the
Dublin Core Metadata Initiative (DCMI)
on its Web site.
To use this technique, the <link> element
href should point at the URI of the RDF/XML content
and the type attribute should be used with the value of
"application/rdf+xml", the proposed MIME type for
RDF/XML, see Section 4
The value of the rel attribute may also be set to
indicate the relationship; this is an application dependent value.
The DCMI has used and recommended rel="meta" when linking
in RFC 2731 — Encoding Dublin Core Metadata in HTML[RFC-2731] however
rel="alternate" may also be appropriate.
See
HTML 4.01 link types,
XHTML Modularization — LinkTypes
and
XHTML 2.0 — LinkTypes
for further information on the values that may be appropriate
for the different versions of HTML.
Example 21 shows using this method with
the link tag inside an XHTML document to link to an
external RDF/XML document.
<?xml version="1.0" encoding="utf-8"?>
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-strict.dtd">
<html xmlns="http://www.w3.org/1999/xhtml" xml:lang="en" lang="en">
<head>
<title>My document</title>
<meta http-equiv="Content-type" content='text/html; charset="utf-8"' />
<link rel="alternate" type="application/rdf+xml" title="RDF Version" href="example21.rdf" />
</head>
<body>
<h1>My document</h1>
</body>
</html>
10 Using RDF/XML with SVG (Informative)
There is a standardized approach for associating RDF compatible
metadata with SVG — the metadata element which was explicitly
designed for this purpose as defined in
Section 21 Metadata
of the
Scalable Vector Graphics (SVG) 1.0 Specification
[SVG]
and
Section 21 Metadata
of the
Scalable Vector Graphics (SVG) 1.1 Specification
[SVG11].
This document contains two example graphs in SVG with such
embedded RDF/XML inside the metadata element:
figure 1
and
figure 2.
11 Acknowledgments (Informative)
The following people provided valuable contributions to the document:
- Dan Brickley, W3C/ILRT
- Jeremy Carroll, HP Labs, Bristol
- Graham Klyne, Nine by Nine
- Bijan Parsia, MIND Lab at University of Maryland at College Park
This document is a product of extended deliberations by the RDF
Core working group, whose members have included: Art Barstow (W3C)
Dave Beckett (ILRT), Dan Brickley (W3C/ILRT), Dan Connolly (W3C),
Jeremy Carroll (Hewlett Packard), Ron Daniel (Interwoven Inc), Bill
dehOra (InterX), Jos De Roo (AGFA), Jan Grant (ILRT), Graham Klyne
(Clearswift and Nine by Nine), Frank Manola (MITRE Corporation),
Brian McBride (Hewlett Packard), Eric Miller (W3C), Stephen
Petschulat (IBM), Patrick Stickler (Nokia), Aaron Swartz (HWG), Mike
Dean (BBN Technologies / Verizon), R. V. Guha (Alpiri Inc), Pat Hayes
(IHMC), Sergey Melnik (Stanford University), Martyn Horner (Profium
Ltd).
This specification also draws upon an earlier RDF Model and Syntax
document edited by Ora Lassilla and Ralph Swick, and RDF Schema
edited by Dan Brickley and R. V. Guha. RDF and RDF Schema Working
group members who contributed to this earlier work are:
Nick Arnett (Verity), Tim Berners-Lee (W3C), Tim Bray (Textuality),
Dan Brickley (ILRT / University of Bristol), Walter Chang (Adobe),
Sailesh Chutani (Oracle), Dan Connolly (W3C), Ron Daniel
(DATAFUSION), Charles Frankston (Microsoft), Patrick Gannon
(CommerceNet), RV Guha (Epinions, previously of Netscape
Communications), Tom Hill (Apple Computer), Arthur van Hoff
(Marimba), Renato Iannella (DSTC), Sandeep Jain (Oracle), Kevin
Jones, (InterMind), Emiko Kezuka (Digital Vision Laboratories), Joe
Lapp (webMethods Inc.), Ora Lassila (Nokia Research Center), Andrew
Layman (Microsoft), Ralph LeVan (OCLC), John McCarthy (Lawrence
Berkeley National Laboratory), Chris McConnell (Microsoft), Murray
Maloney (Grif), Michael Mealling (Network Solutions), Norbert Mikula
(DataChannel), Eric Miller (OCLC), Jim Miller (W3C, emeritus), Frank
Olken (Lawrence Berkeley National Laboratory), Jean Paoli
(Microsoft), Sri Raghavan (Digital/Compaq), Lisa Rein (webMethods
Inc.), Paul Resnick (University of Michigan), Bill Roberts
(KnowledgeCite), Tsuyoshi Sakata (Digital Vision Laboratories), Bob
Schloss (IBM), Leon Shklar (Pencom Web Works), David Singer (IBM),
Wei (William) Song (SISU), Neel Sundaresan (IBM), Ralph Swick (W3C),
Naohiko Uramoto (IBM), Charles Wicksteed (Reuters Ltd.), Misha Wolf
(Reuters Ltd.), Lauren Wood (SoftQuad).
12 References
Normative References
-
[RDF-MS]
-
Resource Description Framework (RDF) Model and Syntax Specification, O. Lassila and R. Swick, Editors. World Wide Web Consortium. 22 February 1999. This version is http://www.w3.org/TR/1999/REC-rdf-syntax-19990222. The latest version of RDF M&S is available at http://www.w3.org/TR/REC-rdf-syntax.
-
[XML]
-
Extensible Markup Language (XML) 1.0, Second Edition, T. Bray, J. Paoli, C.M. Sperberg-McQueen and E. Maler, Editors. World Wide Web Consortium. 6 October 2000. This version is http://www.w3.org/TR/2000/REC-xml-20001006. latest version of XML is available at http://www.w3.org/TR/REC-xml.
-
[XML-NS]
-
Namespaces in XML, T. Bray, D. Hollander and A. Layman, Editors. World Wide Web Consortium. 14 January 1999. This version is http://www.w3.org/TR/1999/REC-xml-names-19990114. The latest version of Namespaces in XML is available at http://www.w3.org/TR/REC-xml-names.
-
[INFOSET]
-
XML Information Set, J. Cowan and R. Tobin, Editors. World Wide Web Consortium. 24 October 2001. This version is http://www.w3.org/TR/2001/REC-xml-infoset-20011024. The latest version of XML Information set is available at http://www.w3.org/TR/xml-infoset.
-
[URIS]
- RFC 2396 — Uniform Resource Identifiers (URI): Generic Syntax, T. Berners-Lee, R. Fielding and L. Masinter, IETF, August 1998. This document is http://www.isi.edu/in-notes/rfc2396.txt.
- [RDF-CONCEPTS]
- Resource
Description Framework (RDF): Concepts and Abstract
Syntax, Klyne G., Carroll J. (Editors), W3C Recommendation, 10 February 2004. This version is http://www.w3.org/TR/2004/REC-rdf-primer-20040210/. The latest version
is http://www.w3.org/TR/rdf-concepts/.
- [RDF-TESTS]
- RDF
Test Cases, Grant J., Beckett D. (Editors), W3C
Recommendation, 10 February 2004. This version is http://www.w3.org/TR/2004/REC-rdf-testcases-20040210/. The latest
version is http://www.w3.org/TR/rdf-testcases/.
-
[KEYWORDS]
-
RFC 2119 — Key words for use in RFCs to Indicate Requirement Levels, S. Bradner, IETF. March 1997. This document is http://www.ietf.org/rfc/rfc2119.txt.
-
[RFC-3023]
-
RFC 3023 — XML Media Types, M. Murata, S. St.Laurent, D.Kohn, IETF. January 2001. This document is http://www.ietf.org/rfc/rfc3023.txt.
-
[IANA-MEDIA-TYPES]
-
MIME Media Types, The Internet Assigned Numbers Authority (IANA). This document is http://www.iana.org/assignments/media-types/ . The registration for
application/rdf+xml is archived at http://www.w3.org/2001/sw/RDFCore/mediatype-registration .
-
[XML-BASE]
-
XML Base, J. Marsh, Editor, W3C Recommendation. World Wide Web Consortium, 27 June 2001. This version of XML Base is http://www.w3.org/TR/2001/REC-xmlbase-20010627. The latest version of XML Base is at http://www.w3.org/TR/xmlbase.
-
[XML-XC14N]
- Exclusive XML Canonicalization Version 1.0, J. Boyer, D.E. Eastlake 3rd, J. Reagle, Authors/Editors. W3C Recommendation. World Wide Web Consortium, 18 July 2002. This version of Exclusive XML Canonicalization is http://www.w3.org/TR/2002/REC-xml-exc-c14n-20020718. The latest version of Canonical XML is at http://www.w3.org/TR/xml-exc-c14n.
-
[UNICODE]
- The Unicode Standard, Version 3, The Unicode
Consortium, Addison-Wesley, 2000. ISBN 0-201-61633-5, as updated
from time to time by the publication of new versions. (See http://www.unicode.org/unicode/standard/versions/
for the latest version and additional information on versions of
the standard and of the Unicode Character Database).
-
[NFC]
- Unicode
Normalization Forms, Unicode Standard Annex #15, Mark
Davis, Martin Dürst. (See http://www.unicode.org/unicode/reports/tr15/
for the latest version).
Informational References
-
[CHARMOD]
-
Character Model for the World Wide Web 1.0, M. Dürst, F. Yergeau, R. Ishida, M. Wolf, A. Freytag, T Texin, Editors, World Wide Web Consortium Working Draft, work in progress, 20 February 2002. This version of the Character Model is http://www.w3.org/TR/2002/WD-charmod-20020220. The latest version of the Character Model is at http://www.w3.org/TR/charmod.
- [RDF-SEMANTICS]
- RDF
Semantics, Hayes P. (Editor), W3C Recommendation,
10 February 2004. This
version is
http://www.w3.org/TR/2004/REC-rdf-mt-20040210/. The latest version
is http://www.w3.org/TR/rdf-mt/.
- [RDF-PRIMER]
- RDF
Primer, F. Manola, E. Miller, Editors, W3C Recommendation, 10 February 2004. This
version is
http://www.w3.org/TR/2004/REC-rdf-primer-20040210/. The latest version is at
http://www.w3.org/TR/rdf-primer/.
- [RDF-VOCABULARY]
- RDF
Vocabulary Description Language 1.0: RDF Schema, Brickley
D., Guha R.V. (Editors), W3C Recommendation, 10 February 2004. This
version is
http://www.w3.org/TR/2004/REC-rdf-schema-20040210/. The latest version is
http://www.w3.org/TR/rdf-schema/.
-
[STRIPEDRDF]
- RDF: Understanding the Striped RDF/XML Syntax, D. Brickley, W3C, 2001. This
document is http://www.w3.org/2001/10/stripes/.
-
[SVG]
- Scalable Vector Graphics (SVG) 1.0 Specification, J. Ferraiolo (editor), 4 September 2001, W3C Recommendation. This version of SVG is http://www.w3.org/TR/2001/REC-SVG-20010904. The latest version of SVG is at http://www.w3.org/TR/SVG.
-
[SVG11]
- Scalable Vector Graphics (SVG) 1.1 Specification, J. Ferraiolo, J. FUJISAWA, D. Jackson (editors), 14 January 2003, W3C Recommendation. This version of SVG is http://www.w3.org/TR/2003/REC-SVG11-20030114/. The latest version of SVG is at http://www.w3.org/TR/SVG11.
-
[XPATH]
- XML Path Language (XPath) Version 1.0, J. Clark and S. DeRose, Editors. World Wide Web Consortium, 16 November 1999. This version of XPath is http://www.w3.org/TR/1999/REC-xpath-19991116. The latest version of XPath is at http://www.w3.org/TR/xpath.
-
[SAX2]
- SAX Simple API for XML, version 2, D. Megginson, SourceForge, 5 May 2000. This document is http://sax.sourceforge.net/.
-
[UNPARSING]
- Unparsing RDF/XML, J. J. Carroll, HP Labs Technical Report, HPL-2001-294, 2001.
This document is available at http://www.hpl.hp.com/techreports/2001/HPL-2001-294.html.
-
[RELAXNG]
- RELAX NG Specification, James Clark and MURATA Makoto, Editors, OASIS Committee Specification, 3 December 2001. This version of RELAX NG is http://www.oasis-open.org/committees/relax-ng/spec-20011203.html. The latest version of the RELAX NG Specification is at http://www.oasis-open.org/committees/relax-ng/spec.html.
-
[RELAXNG-COMPACT]
- RELAX NG Compact Syntax, James Clark, Editor. OASIS Committee Specification, 21 November 2002. This document is http://www.oasis-open.org/committees/relax-ng/compact-20021121.html.
-
[RDF-IN-XHTML]
-
RDF in HTML: Approaches, Sean B. Palmer, 2002
-
[RFC-2731]
-
RFC 2731 — Encoding Dublin Core Metadata in HTML, John Kunze, DCMI, December 1999.
-
[XML-SCHEMA1]
- XML Schema Part 1: Structures, H.S. Thompson, D. Beech, M. Maloney, N. Mendelsohn, Editors, World Wide Web Consortium Recommendation, 2 May 2001. This version of XML Schema Part 1: Structures is http://www.w3.org/TR/2001/REC-xmlschema-1-20010502/. The latest version of XML Schema Part 1: Structures is at http://www.w3.org/TR/xmlschema-1.
-
[XML-SCHEMA2]
- XML Schema Part 2: Datatypes, P.V. Biron, A. Malhotra, Editors, World Wide Web Consortium Recommendation, 2 May 2001. This version of XML Schema Part 2: Datatypes is http://www.w3.org/TR/2001/REC-xmlschema-2-20010502/. The latest version of XML Schema Part 2: Datatypes is at http://www.w3.org/TR/xmlschema-2.
A Syntax Schemas (Informative)
This appendix contains XML schemas for validating RDF/XML forms.
These are example schemas for information only and are not part of
this specification.
A.1
RELAX NG Compact Schema (Informative)
This is an example schema in RELAX NG Compact (for ease of reading)
for RDF/XML. Applications can also use the
RELAX NG XML version.
These formats are described in
RELAX NG ([RELAXNG])
and RELAX NG
Compact ([RELAXNG-COMPACT]).
Note:
The RNGC schema has been updated to attempt to match the grammar but
this has not been checked or used to validate RDF/XML.
#
# RELAX NG Compact Schema for RDF/XML Syntax
#
# This schema is for information only and NON-NORMATIVE
#
# It is based on one originally written by James Clark in
# http://lists.w3.org/Archives/Public/www-rdf-comments/2001JulSep/0248.html
# and updated with later changes.
#
namespace local = ""
namespace rdf = "http://www.w3.org/1999/02/22-rdf-syntax-ns#"
datatypes xsd = "http://www.w3.org/2001/XMLSchema-datatypes"
start = doc
# I cannot seem to do this in RNGC so they are expanded in-line
# coreSyntaxTerms = rdf:RDF | rdf:ID | rdf:about | rdf:parseType | rdf:resource | rdf:nodeID | rdf:datatype
# syntaxTerms = coreSyntaxTerms | rdf:Description | rdf:li
# oldTerms = rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID
# nodeElementURIs = * - ( coreSyntaxTerms | rdf:li | oldTerms )
# propertyElementURIs = * - ( coreSyntaxTerms | rdf:Description | oldTerms )
# propertyAttributeURIs = * - ( coreSyntaxTerms | rdf:Description | rdf:li | oldTerms )
# Also needed to allow rdf:li on all property element productions
# since we can't capture the rdf:li rewriting to rdf_<n> in relaxng
# Need to add these explicitly
xmllang = attribute xml:lang { text }
xmlbase = attribute xml:base { text }
# and to forbid every other xml:* attribute, element
doc =
RDF | nodeElement
RDF =
element rdf:RDF {
xmllang?, xmlbase?, nodeElementList
}
nodeElementList =
nodeElement*
# Should be something like:
# ws* , ( nodeElement , ws* )*
# but RELAXNG does this by default, ignoring whitespace separating tags.
nodeElement =
element * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype | rdf:li |
rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID ) {
(idAttr | nodeIdAttr | aboutAttr )?, xmllang?, xmlbase?, propertyAttr*, propertyEltList
}
# It is not possible to say "and not things
# beginning with _ in the rdf: namespace" in RELAX NG.
ws =
" "
# Not used in this RELAX NG schema; but should be any legal XML
# whitespace defined by http://www.w3.org/TR/2000/REC-xml-20001006#NT-S
propertyEltList =
propertyElt*
# Should be something like:
# ws* , ( propertyElt , ws* )*
# but RELAXNG does this by default, ignoring whitespace separating tags.
propertyElt =
resourcePropertyElt |
literalPropertyElt |
parseTypeLiteralPropertyElt |
parseTypeResourcePropertyElt |
parseTypeCollectionPropertyElt |
parseTypeOtherPropertyElt |
emptyPropertyElt
resourcePropertyElt =
element * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype |
rdf:Description | rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID |
xml:* ) {
idAttr?, xmllang?, xmlbase?, nodeElement
}
literalPropertyElt =
element * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype |
rdf:Description | rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID |
xml:* ) {
(idAttr | datatypeAttr )?, xmllang?, xmlbase?, text
}
parseTypeLiteralPropertyElt =
element * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype |
rdf:Description | rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID |
xml:* ) {
idAttr?, parseLiteral, xmllang?, xmlbase?, literal
}
parseTypeResourcePropertyElt =
element * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype |
rdf:Description | rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID |
xml:* ) {
idAttr?, parseResource, xmllang?, xmlbase?, propertyEltList
}
parseTypeCollectionPropertyElt =
element * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype |
rdf:Description | rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID |
xml:* ) {
idAttr?, xmllang?, xmlbase?, parseCollection, nodeElementList
}
parseTypeOtherPropertyElt =
element * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype |
rdf:Description | rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID |
xml:* ) {
idAttr?, xmllang?, xmlbase?, parseOther, any
}
emptyPropertyElt =
element * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype |
rdf:Description | rdf:aboutEach | rdf:aboutEachPrefix | rdf:bagID |
xml:* ) {
idAttr?, (resourceAttr | nodeIdAttr)?, xmllang?, xmlbase?, propertyAttr*
}
idAttr =
attribute rdf:ID {
IDsymbol
}
nodeIdAttr =
attribute rdf:nodeID {
IDsymbol
}
aboutAttr =
attribute rdf:about {
URI-reference
}
propertyAttr =
attribute * - ( local:* | rdf:RDF | rdf:ID | rdf:about | rdf:parseType |
rdf:resource | rdf:nodeID | rdf:datatype | rdf:li |
rdf:Description | rdf:aboutEach |
rdf:aboutEachPrefix | rdf:bagID |
xml:* ) {
string
}
resourceAttr =
attribute rdf:resource {
URI-reference
}
datatypeAttr =
attribute rdf:datatype {
URI-reference
}
parseLiteral =
attribute rdf:parseType {
"Literal"
}
parseResource =
attribute rdf:parseType {
"Resource"
}
parseCollection =
attribute rdf:parseType {
"Collection"
}
parseOther =
attribute rdf:parseType {
text
}
URI-reference =
string
literal =
any
IDsymbol =
xsd:NMTOKEN
any =
mixed { element * { attribute * { text }*, any }* }
Changes since 10 October 2003 second last call working draft
These are are divided into non-editorial and editorial. The
non-editorial changes also list consquential editorial changes.
Editorial changes are those which do not result in any change in the
meaning of an RDF document or the behaviour of an RDF
application.
None
- German Translation
-
Fix the German in Example 8
in section 2.7 after the
comment by Benjamin Nowack
- No property attributes on rdf:parseType="Resource"
-
2.5
Update to reflect the syntax definition that property attributes cannot
be used with
rdf:parseType="Resource" as pointed out by
comment by Sabadello 2003-10-30
- URI Encoding
-
6.1.6,
6.1.8,
6.1.9
after proposal by Jeremy Carroll
6.1.2,
6.1.4
Added element/attribute URI-string-value accessors
7.2.11,
7.2.21
Added use of new uri event for the rdf:type cases
7.2.11 (<e.URI> and <a.URI>),
7.2.15 (<e.URI>)
7.2.16 (<e.URI>)
7.2.17 (<e.URI>)
7.2.18 (<e.URI>)
7.2.19 (<e.URI> twice)
7.2.21 (<e.URI> twice, <a.URI> once)
changed from X.URI to X.URI-string-value (anywhere "<"..">" appeared
in the grammar action without a hardcoded URI reference)
7.2.32
Replace action wording with "An RDF URI reference"
All changed as outlined in
proposal 2003-10-06
after
comment by Patel-Schneider 2003-10-29
None
