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<H1>RDF Query Specification</H1><H1>December 3, 1998</H1>

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<H2>Authors</H2>
<DD>Ashok Malhotra
 (IBM) 
<A HREF='mailto:petsa@us.ibm.com'>&lt;petsa@us.ibm.com&gt;</A></DD>
<DD>Neel Sundaresan
 (IBM) 
<A HREF='mailto:neel@almaden.ibm.com'>&lt;neel@almaden.ibm.com&gt;</A></DD>
</dl>

<H2>Abstract</H2>
<P>This paper presents syntax and facilities for RDF Query.  RDF query
is a declarative syntax for selecting RDF resources that meet
specified criteria.
</P>
<H2>Status</H2>
<P>This is a technical contribution to the W3C Query Languages Workshop, Dec 3 and 4, 1998.
</P>




<h2>Table of Contents</h2>1. <A HREF='#Intro'>Introduction</A><BR>
2. <A HREF='#Concepts'>Concepts</A><BR>
3. <A HREF='#Examples'>Examples</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.1 <A HREF='#Example1'>Selecting all resources from a collection</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.2 <A HREF='#Example2'>Selecting all resources with a given property</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.3 <A HREF='#Example3'>Selecting all resources which satisfy a given condition</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.4 <A HREF='#Example8'>Complex conditions</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.5 <A HREF='#Example7'>Nested Queries</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.6 <A HREF='#Example6'>Projection</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.7 <A HREF='#Example10'>Aggregation</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.8 <A HREF='#Example11'>Composing Results</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.9 <A HREF='#Example12'>Grouping By Property Values</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.10 <A HREF='#Example13'>Sorting Results</A><BR>
&nbsp;&nbsp;&nbsp;&nbsp;3.11 <A HREF='#Example14'>Quantification</A><BR>
4. <A HREF='#Inference'>Vocabulary-Specific Inference</A><BR>
5. <A HREF='#DTD'>A DTD For RDF Query</A><BR>
6. <A HREF='#biblio'>References</A><BR>

<HR>



<H2><A NAME='Intro'>1. Introduction</a></h2>
<P>One of the major contributions of the Relational data model, introduced
a little over 25 years ago by <A href='#Codd'>[Codd]</A> was was an
accompanying, declarative query language.  In contrast to earlier
query languages, <A href='#SQL'>[SQL]</A> lets you specify what should be retrieved rather
than how it should be retrieved.  This freed the user from knowing how
the data was stored.  SQL also established the major components of a
query language: a source over which the query executes; a selection
condition; a specification for what has to be returned and constructs
to control how it should be presented.</P>
<P><A href='#RDF-Syntax'>[RDF]</A> is the W3C's recommended framework for
metadata.  In fact, the underlying data model is a semantic network
model that has surfaced several times, over the years, in slightly different forms for data and
knowledge representation <A href='#Findler'>[Findler]</A><A href='#KL1'>[Brachman]</A><A href='#Chen'>[Chen]</A>. In this paper we present a declarative query language for RDF.
We hope this will be useful for other RDF-based
efforts such as <A href='#P3P'>[P3P]</A>.</P>
<P>RDF Query needs to be more complex than SQL since the RDF
data model is more complex than the Relational data model.
Specifically, while a relational query executes over one or more
tables each containing tuples with the same structure, an RDF query
executes over a RDF container that may contain resources of different
types each with different properties.  Values of properties, rather
than being merely data, can be resources themselves.  Finally,
property values can be RDF containers.</P>
<P>At IBM we use RDF in the "Grand Central" family of intelligent search
engines, of which <A href='#jCentral'>[jCentral]</A> which searches for Java related resources is an example.  These search engines
extract metadata about websites and encode it as a collection of RDF
structures which are then queried in response to user requests.
The query facilities are implemented using a number of embedded Java
functions. This paper is our attempt to abstract
those facilities and encode them in a XML-style, declarative syntax.</P>



<H2><A NAME='Concepts'>2. Concepts</a></h2>

<P>An RDF Query (rdfquery) operates on a source container of resources and
returns a result container of resources.  The result container 
is always a subset of the source container and may be empty. Thus, RDF queries
provide closure; they start with a container of RDF resources and they
return a container of RDF resources. The result container can be the
source for another RDF query.</P>   
<P>
Note that RDF queries are expressed using RDF descriptions (metadata).
Since RDF has an XML syntax, and RDF
Query is an RDF vocabulary, RDF Query also has an XML syntax. We use
the name space rdfq for tag names used in RDF Query specifications.
</P>

<P>
RDF defines three kinds of resources and their descriptions:
<UL>
<LI>RDF descriptions that describe resources that are defined
elsewhere. These descriptions use the "about" attribute to describe
these resources.</LI>
<LI>RDF descriptions that describe resources inline. These resources
may by proxies for real resources. These descriptions use the "id"
attribute.</LI>
<LI>RDF descriptions that are reified. These descriptions use the
bagID attributes.</LI>
</UL>

The RDF query language must be able to describe queries over these
kinds of resources and their descriptions.
</P>
<P>A rdfquery must specify a source collection and may specify a
property name or a condition.  If a property name or condition is not specified
the query returns all resources in the source collection.  If a
property name is specified, the query returns all resources in the
source collection whose have the named property.  If a condition is specified,
the query returns all resources in the source collection for whom the
condition evalutes <code>True</code>. Instead of returning the qualifying
resources, rdfquery also allows us to create new resources from the qualifying
resources with fewer properties. This enables us to build views on the source containers.</P>
<P>The latest <A href='#RDF-Syntax'>[RDF]</A> specification says at the end
of section 2.1 "Property values can be other resources or they can be
atomic; that is, simple strings or other primitive datatypes defined
by XML."  As far as we know, there are no primitive datatypes defined
in XML except strings.  However, there is ongoing work to do so.
See <A href='#DCD'>[DCD]</A>.
We shall assume that primitive datatypes will be added to XML and RDF
and thus we can define a richer set of query primitives than are possible
with only strings.  In this paper we use tags such as
<code>rdf:Integer</code> to identify such datatypes.</P>  
 



<H2><A NAME='Examples'>3. Examples</a></h2>



<H3><A NAME='Example1'>3.1 Selecting all resources from a collection</a></h3>
<P>
Consider a collection of RDF resources. These resources may be
identified by their URIs, IDs, or bagIDs.
Since no property or condition is specified, the following query selects all resources in a explicitly specified collection of
resources.  
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Bag&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&nbsp;resource="http://www.research.ibm.com/people/ashok/paper1.html"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&nbsp;resource="http://www.research.ibm.com/people/ashok/paper3.html"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&nbsp;resource="http://www.research.ibm.com/people/neel/paper1.html"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&nbsp;resource="http://www.research.ibm.com/people/neel/paper7.html"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdf:Bag&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfquery&gt;<BR></font></code></td></tr></table><p> 
</P>  
<P>
If there is only one resource to be selected from, the <code>rdf:Bag</code> may
be omitted and the resource specified as an attribute of the <code>rdfq:From</code>
element directly.
</P>
<P>
In the more common case, the query will specify a container that contains
the resources. We introduce an
attribute of <code>rdfq:From</code> called <code>eachResource</code> (similar
to aboutEach in RDF) to query all the resources in a container.
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font><BR>&lt;rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="papers"/&gt;<BR>&lt;/rdfquery&gt;<BR></font></code></td></tr></table><p>
where the resources could be collected elsewhere in a container as
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font><BR><BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Bag&nbsp;bagID="papers"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&nbsp;resource="http://www.research.ibm.com/people/ashok/paper1.html"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&nbsp;resource="http://www.research.ibm.com/people/ashok/paper3.html"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&nbsp;resource="http://www.research.ibm.com/people/neel/paper1.html"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&nbsp;resource="http://www.research.ibm.com/people/neel/paper7.html"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdf:Bag&gt;<BR><BR></font></code></td></tr></table><p>
</P>




<H3><A NAME='Example2'>3.2 Selecting all resources with a given property</a></h3>
<P>The following query selects all resources in the collection that
have the property "ResearchPapers". 
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font><BR>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="ResearchPapers"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> 
</P>  





<H3><A NAME='Example3'>3.3 Selecting all resources which satisfy a given condition</a></h3>
<P>The following query selects all resources in the  collection
that have a property named <code>Project</code> whose value is
the string "WebTechnologies". Here we assume the String data type is defined in RDF.
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:equals&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="Project"&nbsp;/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:String&gt;WebTechnologies&lt;/rdf:String&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:equals&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rfq:Select&gt;<BR>&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;</font></code></td></tr></table><p> </P>  
<P>The value of the <code>Project</code> property may be a text string or it
may be a reified property with <code>predicate</code> equal to
<code>Project</code>
and <code>object</code> equal to <code>WebTechnologies</code>. 
<EM> The query will select
instances where the property is represented in either of these
forms.</EM></P>
<P>If the resource does not have the given property, the condition
evaluates <code>false</code>.</P> 
<P>Clearly, we need to be able to test on conditions other than
<code>equals</code>.  The following query selects resources from a
collection of people in IBM Research
where the value of the <code>age</code> property is greater
than 50.
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/"&gt;<BR>&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:greaterThan&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="Age"&nbsp;/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Integer&gt;50&lt;/rdf:Integer&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:greaterThan&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Condition&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:Select&gt;&nbsp;<BR>&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;</font></code></td></tr></table><p> </P>  




<H3><A NAME='Example8'>3.4 Complex conditions</a></h3>
<P>Complex conditions can be specified by using boolean operators in
the <code>Select</code> tag.
The following query selects all people resources in IBM Research who report
to departments where the budget is greater than a million dollars <code>and</code> the
department size is less than 10 people.

</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people"&gt;<BR>&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:and&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:greaterThan&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="Budget"&nbsp;/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Integer&gt;1000000&lt;/rdf:Integer&gt;&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:greaterThan&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:lessthan&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="Size"&nbsp;/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Integer&gt;10&lt;/rdf:Integer&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:lessthan&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Condition&gt;<BR>&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> </P>  




<H3><A NAME='Example7'>3.5 Nested Queries</a></h3>
<P>If the value of the property is a RDF resource (inline or external)
then the selection criterion may include constraints on the properties
of the value resource.
The following query selects all people in IBM Research who report to resources
(departments)  where the budget is over 1 million dollars.
The syntax should be read as follows: find the resources in the source
collection which have the <code>BelongTo</code> property; apply the
condition to each of these resources; add those resources for whom the
condition returns <code>True</code> to the result set.
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/"&gt;<BR>&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="BelongTo"&nbsp;/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:greaterThan&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="Budget"&nbsp;/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Integer&gt;1000000&lt;/rdf:Integer&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:greaterThan&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;</font></code></td></tr></table><p> </P>  
<P>
Note that for every navigation across a property a new rdfq:Property
element needs to be
introduced. An abbreviation syntax makes this less complex.
This abbreviation is similar to a path-expression.
One possible abbreviation is to use rdf:Seq. 
Suppose a property named "ResearchPaper" has a
value which is an RDF description with a property named "Conference" whose
value is an RDF description with a property named "Venue" whose value
is an RDF description with a property named "Country". Now suppose
that one wants
to query, based upon all the publications that Neel has, those that
were in foreign conferences. One could write this query,
using the RDF abbreviation syntax, as:
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"/&gt;<BR>&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:not&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:equal&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Seq&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&gt;ResearchPapers&lt;/li&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&gt;Conference&lt;/li&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&gt;Venue&lt;/li&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;li&gt;Country&lt;/li&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Seq&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Property&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:String&gt;U.S.A.&lt;/rdf:String&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:equal&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:not&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> 
</P>
<P>An alternate linear syntax would use the / operator to indicate
navigating over properties.  This is similar to its use in
<A href='#XQL'>[XQL Proposal]</A>.  Alternately the .. operator may be used to
indicate navigation as in <A href='#OQL'>[OQL]</A>.
Using the / operator, the navigation over 
ResearchPapers, Conference, Venue and Country would be expressed as
ResearchPapers/Conference/Venue/Country.  We introduce a new attribute for 
<code>rdfq:Property</code> called <code>path</code>. to indicate a path
expression. With this, the above example
could be written as:  
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"/&gt;<BR>&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:not&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:equal&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;path="ResearchPapers/Conference/Venue/Country"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:String&gt;U.S.A.&lt;/rdf:String&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:equal&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:not&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p></P> 




<H3><A NAME='Example6'>3.6 Projection</a></h3>
<P>Sometimes it is useful, on selecting a set of resources that
satisfy a condition, to build proxy sets of resources with only some of the
properties. This requires building an inline RDF description
or container with only the selected properties. To describe this we
introduce an attribute of the <code>Select</code> clause called
<code>properties</code>. A longer syntax for the same function in RDF form can be
achieved by adding a <code>properties</code> element (or RDF property) to
<code>rdfq:Select</code> and whose value can be an <code>rdf:Bag</code>
listing all the properties on which the projection is done. We prefer
the abbreviated syntax. The following example selects from a set of
people in IBM Research, those whose project is
"WebTechnologies" and builds a description with properties "fullname"
(name of the person) and "experience" (number of years in the project).
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&nbsp;properties="fullname&nbsp;experience"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="WebTechnologies/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rfq:Select&gt;<BR>&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;</font></code></td></tr></table><p> </P>  




<H3><A NAME='Example10'>3.7 Aggregation</a></h3>
<P>Aggregation operations can be applied to RDF objects that are
containers.  Specifically, we may want to to evaluate an aggregate
function on the result sets of a rdfquery.  To specify this we
add an attribute called <code>aggregate</code> to the
<code>rdfq:Select</code> element. The value of this attribute can only be
the name of an aggregate function such as <code>count</code>, <code>min</code>, or
<code>max</code>.
Let us modify the previous query to find the count of all papers
written by Neel in foreign conferences. In the example <code>count</code>
is applied to all resources in the source container that satisfy the
condition. The "*" means apply to all.  In a later example,
<code>count</code> is applied to a specific property. 
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&nbsp;properties="count(*)"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:not&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:equal&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;path="ResearchPapers/Conference/Venue/Country"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:String&gt;U.S.A.&lt;/rdf:String&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:equal&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:not&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> </P>  




<H3><A NAME='Example11'>3.8 Composing Results</a></h3>
<P>Sometimes we would like to perform algebraic set operations on the
result sets. We support three kinds of operations: Union, Intersection,
and Difference.  
For instance to find all papers written by Neel and all papers written
by Ashok.
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:Union&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="ResearchPapers"/&gt;&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/Ashok"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="ResearchPapers"/&gt;&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:Union&gt;<BR>&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> </P>  
<P>
Duplicate elimination in the result RDF structures depends on the
notion of equality of property values. If that is clearly specified,
we can have the Union operator eliminate all duplicate occurrences of
papers (this would eliminate all papers jointly authored by Neel and
Ashok from occuring twice).
</P>
<DT><B>Aliasing</B></DT>
<P>
Set operations are allowed only on RDF structures that have the
same set of properties, i.e. properties with the same names. In order
to allow for equivalent properties with different names, aliases are
suppoerted. Suppose Ashok refers to his papers as "ResearchPapers" on his
web site, and Neel refers to his papers as "Publications" and we want
to perform a union on these. We introduce an alias for the property
name "Publications". We can also alias both the property names and
give them a new name, such as "articles", in the union.
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&lt;rdfq:Union&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="ResearchPapers"&nbsp;/&gt;&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/Ashok"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="Publications"&nbsp;alias="ResearchPapers"/&gt;&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:Union&gt;<BR>&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> </P>  




<H3><A NAME='Example12'>3.9 Grouping By Property Values</a></h3>
<P>When doing aggregate operations one might want to build containers
(collections) grouped by property values before performing aggregations.
Suppose one would like to count the number of papers
published by Neel every year. The result will be an RDF Description
that will provide a description of "http://www.research.ibm.com/people/neel" as container with each
member in the container describing  two properties
"ResearchPapers/Conference/Year", and "count".  This can be expressed as below.

</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&nbsp;properties&nbsp;=&nbsp;"ResearchPapers/Conference/Year<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;count(ResearchPapers/Conference/Year)"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Group&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;path="ResearchPapers/Conference/Year"/&gt;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Group&gt;	<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> 
</P>  




<H3><A NAME='Example13'>3.10 Sorting Results</a></h3>
<P>Since the result of a query can be an RDF object which could possibly be an RDF container
we may want to sort the results based upon property values and return an RDF sequence. 
We introduce a tag <code>rdfq:Order</code> for this purpose. To order by multiple properties this will contain
an rdf:Seq with the sequence in which the ordering is to be done.
To select all papers written by Neel, ordered by the year of
publication and within the same year by month we would write:
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="http://www.research.ibm.com/people/neel"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;name="ResearchPapers"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Order&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Seq&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;path="ResearchPapers/Year"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;path="ResearchPapers/Month"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Seq&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Order&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> 
</P>




<H3><A NAME='Example14'>3.11 Quantification</a></h3>
<P>To support queries based upon <EM>for all</EM> and <EM>there
exists</EM> quantification we introduce <code>rdfq:quantifier</code> and <code>exists</code> and
<code>forAll</code> attributes.  These are used to test whether any or
all members of a collection meet a given condition. Since quantifiers
are boolean conditions, they can occur anywhere a condition clause can occur. 
We also introduce a variable <code>var</code> which ranges over all the
members of the collection.  The body of the quantifier has two 
expression elements: the first evaluates to a collection ,the
second, which is a <code>rdfq:Condition</code>, evaluates a boolean
condition over the first element. Thus, "for each x in S : cond(x)" translates to 
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font><BR><BR>&nbsp;&nbsp;&lt;rdfq:quantifier&nbsp;type="forAll"&nbsp;var="x"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;...&gt;&nbsp;[&nbsp;evaluates&nbsp;to&nbsp;a&nbsp;collection&nbsp;]<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;...&lt;/rdfq:Condition&gt;<BR>&nbsp;&nbsp;&lt;/rdfq:quantifier&gt;<BR><BR></font></code></td></tr></table><p></P>
<P>
The <code>var</code> can be referenced in the condition body using <code>var-ref</code>.
In the following example, we want to pick from a set of researchers those that have at least one 
publication in 1998. The first child element of the quantifier
searches for a property "ResearchPapers" and that returns a
collection. The predicate (second child element of the quantifier) is applied to each member in this
collection by referring to the member through <code>var-ref</code>. In the
example the predicate is applied to the "Year" property of the each
selected element. The predicate checks if the value is "1998".  In
this simple example the <code>var</code> and <code>var-ref</code> may appear extraneous
but they are necessary to express nested queries and complex
conditions with quantification. 
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;rdfq:rdfquery&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;rdfq:From&nbsp;eachResource="Almaden_Researchers"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Quantifier&nbsp;type="exists"&nbsp;var="x"&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;path="ResearchPapers"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:equals&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Property&nbsp;var-ref="x"&nbsp;name="Year"/&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdf:Integer&gt;1998&lt;/rdf:Integer&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:equals&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Condition&gt;&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Quantifier&gt;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&lt;rdfq:Condition&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&lt;/rdfq:Select&gt;<BR>&nbsp;&nbsp;&nbsp;&lt;/rdfq:From&gt;<BR>&lt;/rdfq:rdfquery&gt;<BR></font></code></td></tr></table><p> 
</P>




<H2><A NAME='Inference'>4. Vocabulary-Specific Inference</a></h2>
<P>RDF Query can be enriched by a number of vocabulary-specific
abbreviations and inferences.  The use of <code>alias</code> for similar
resources in different containers has already
been discussed in "<A href='#Example8'>3.4&nbsp;Complex conditions</A>".
Another vocabulary-specific abbreviation is a single name for a 
chain of properties.  For example "foreignPapers" may be used to
refer to the chain ResearchPapers/Conference/Venue/Country where
the value of the property is not <code>U.S.A</code>.</P>
<P>This is a fruitful area that needs more work.</P>  



<H2><A NAME='DTD'>5. A DTD For RDF Query</a></h2>
<P>
</p><table cellpadding='5' border='1' bgcolor='#80ffff' width='100%'><tr><td><code><font>&lt;!ENTITY&nbsp;%&nbsp;setOps&nbsp;"(rdfq:Union&nbsp;|&nbsp;rdfq:Intersection&nbsp;|&nbsp;rdfq:Difference)"&gt;<BR><BR>&lt;!ELEMENT&nbsp;rdfq:rdfquery&nbsp;(%setOps;&nbsp;|&nbsp;rdfq:From)&gt;&nbsp;<BR><BR>&lt;!ELEMENT&nbsp;rdfq:From&nbsp;(rdf:Bag?&nbsp;rdfq:Select?&nbsp;rdfq:Order?&nbsp;#PCDATA)&nbsp;&gt;<BR>&lt;!ATTLIST&nbsp;rdfq:From<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;eachResource&nbsp;HREF&nbsp;#IMPLIED&gt;&nbsp;<BR><BR>&lt;!ELEMENT&nbsp;Select&nbsp;<BR>&nbsp;&nbsp;&nbsp;(&nbsp;rdfq:Property&nbsp;|&nbsp;(rdfq:Condition,&nbsp;rdfq:Group?&nbsp;)&nbsp;Select?&nbsp;)&nbsp;&gt;<BR>&lt;!ATTLIST&nbsp;Select<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;properties&nbsp;NMTOKENS&nbsp;#IMPLIED&gt;<BR><BR>&lt;!ELEMENT&nbsp;rdfq:Property&nbsp;EMPTY&gt;<BR>&lt;!ATTLIST&nbsp;rdfq:Property<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;resource&nbsp;HREF&nbsp;#IMPLIED<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;name&nbsp;CDATA&nbsp;#IMPLIED<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;path&nbsp;CDATA&nbsp;#IMPLIED&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;[&nbsp;one&nbsp;of&nbsp;name&nbsp;and&nbsp;path&nbsp;should&nbsp;be&nbsp;there&nbsp;]<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;var-ref&nbsp;NMTOKEN&nbsp;#IMPLIED<BR>&gt;<BR><BR>&lt;!ELEMENT&nbsp;rdfq:Condition&nbsp;(equals&nbsp;|&nbsp;greaterThan&nbsp;|&nbsp;lessThan&nbsp;|<BR>rdfq:Quantifier&nbsp;|&nbsp;...&nbsp;)&nbsp;&gt;<BR><BR>&lt;!ELEMENT&nbsp;rdfq:Quantifier&nbsp;(rdfq:Property&nbsp;rdfq:Condition)&nbsp;&gt;<BR>&lt;!ATTLIST&nbsp;rdfq:Quantifier&nbsp;<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;type&nbsp;NMTOKEN&nbsp;#REQUIRED&nbsp;[&nbsp;should&nbsp;be&nbsp;"exists"&nbsp;or&nbsp;"forAll"&nbsp;]<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;var&nbsp;NMTOKEN&nbsp;#IMPLIED&gt;<BR>&lt;!ELEMENT&nbsp;equals&nbsp;ANY&gt;<BR>&lt;!ELEMENT&nbsp;greaterThan&nbsp;ANY&gt;<BR>&lt;!ELEMENT&nbsp;lessThan&nbsp;ANY&gt;<BR>&nbsp;&nbsp;&nbsp;&nbsp;...<BR><BR>&lt;!ELEMENT&nbsp;rdfq:Order&nbsp;(rdf:Seq&nbsp;|&nbsp;rdfq:Property)&gt;<BR><BR></font></code></td></tr></table><p>     
</P>


<HR>




<H2><A NAME='biblio'>6. References</a></h2>
<DL>
<dt><a name='KL1'>Brachman</a></dt><dd>
R.J. Brachman and J.G. Smolze, An Overview of the KL-ONE Knowledge
Representation System.<EM>Cognitive Science</EM>, 
Vol. 9, No. 2, 1985, pp. 171-216
<dt><a name='Chen'>Chen</a></dt><dd>
P. P-S. Chen, The Entity-Relationship Model: Toward a Unified View of Data.
<EM>ACM Transactions on Database Systems</EM>, Vol. 1 No. 1 1973, pp. 9-36</DD>
</DD>
<dt><a name='Codd'>Codd</a></dt><dd>
E.F. Codd, A Relational Model of Data for Large Shared Data Banks.
<EM>Communications of the ACM</EM>, Vol. 13, No. 6, 1970, pp. 377-387
</DD>
<dt><a name='DCD'>DCD</a></dt><dd>
Document Content Description (DCD) Submission to W3C. See
<A HREF='http://www.w3.org/TR/NOTE-dcd'>http://www.w3.org/TR/NOTE-dcd</A>.
</DD>
<dt><a name='Findler'>Findler</a></dt><dd>
N.V. Findler (ed.), Associative Networks: Representation and Use of
Knowledge by Computers, N.Y. Academic, 1979.</DD>
<dt><a name='P3P'>P3P</a></dt><dd>
Platform for Privacy Preferences: P3P Project. See
<A HREF='http://www.w3.org/P3P'>http://www.w3.org/P3P</A>.
</DD>
<dt><a name='OQL'>OQL</a></dt><dd>
Object Query Language. See  
The Object Database Standard, ODMG 2.0, R.G.G. Cattell (ed.),
Morgan Kaufmann, 1997.  
</DD>
<dt><a name='SQL'>SQL</a></dt><dd>
SQL Standard.  See
<A HREF='http://www.jcc.com/sql_stnd.html'>http://www.jcc.com/sql_stnd.html</A>.
</DD>
<dt><a name='RDF-Syntax'>RDF</a></dt><dd>
RDF Model and Syntax.  See
<A HREF='http://www.w3.org/PICS/Member/NG/WD-rdf-syntax'>http://www.w3.org/PICS/Member/NG/WD-rdf-syntax</A>.
</DD>
<dt><a name='Unicode'>Unicode</a></dt><dd>
Unicode Standard. See "The Unicode Standard, Version 2.0", Reading
Mass., Addison-Wesley Developers Press, 1996
</DD>
<dt><a name='XML-Data'>XML-Data</a></dt><dd>
XML-Data. See
<A HREF='http://www.w3.org/TR/1998/NOTE-XML-data-0105/'>http://www.w3.org/TR/1998/NOTE-XML-data-0105/</A>.
</DD>
<dt><a name='XNames'>XML Namespaces</a></dt><dd>
Namespaces in XML.
See
<A HREF='http://www.w3.org/TR/WD-xml-names'>http://www.w3.org/TR/WD-xml-names</A>.
</DD>
<dt><a name='XQL'>XQL Proposal</a></dt><dd>
XQL Proposal from Microsoft.
</DD>
<dt><a name='jCentral'>jCentral</a></dt><dd>
See
<A HREF='http://www.ibm.com/java'>http://www.ibm.com/java</A>.
</DD>
</DL>