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      Alternatives in the design of Notation3
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    <address>
      Tim Berners-Lee<br />
      Date: 2002/03/14, last change: $Id: Notation3.html,v 1.49
      2001/11/27 23:59:33 timbl Exp $<br />
      Status: personal view only. Editing status: draft.
    </address>
    <p>
      <a href="./">Up to Design Issues</a>
    </p>
    <h3>
      Ideas about Web Architecture
    </h3>
    <p>
      <em>This is simply a footnote historical record about some
      rather arbitrary choices, to save me going over the reasons
      again and again. It is not part of the main thread.</em>
    </p>
    <hr />
    <h1>
      Alternative design choices in <a href=
      "Notation3.html">Notation3</a>
    </h1>
    <p>
      In this article:
    </p>
    <ol>
      <li>
        <a href="#Syntax">Syntax for Graph traversal</a> ("paths")
      </li>
      <li>
        <a href="#Infix">Infix operators</a>
      </li>
      <li>
        <a href="#Sets">Syntax for sets</a>
      </li>
      <li>
        <a href="#Considered">Other issues</a>
      </li>
    </ol>
    <h2>
      <a name="Syntax" id="Syntax">Syntax for graph traversal</a>
    </h2>
    <p>
      There is a strong need for a neat syntax for converting an
      expression for x into an expression for something removed one
      step along the graph from x by an arc of type (rdf:Property)
      p. For example, if x is a person then we want an expression
      for x's email address. <em>(I am dropping the prefixes in
      this discussion to reduce clutter)</em>
    </p>
    <p>
      "Neat"? Compact, powerful, simple, naturally understandable
      because of metaphors with existing use of similar syntax.
    </p>
    <p>
      Strictly, we are talking about <em>some y, such that
      p(x,y)</em>, or in n3, [is p of x]. There is no implication
      in this syntax at the moment (but could be later) that there
      is only one such y. The information that there can be only
      one such y, when it is so, is conventionally in stored by
      noting that p is a daml:uniqueProperty property. This can be
      stated in any document, though current colloquial use puts it
      into the schema for p.
    </p>
    <p>
      I will call moving from x to [ is p of x] forward traversal,
      and moving from x to [p x] backward traversal. My instinct is
      that forward traversal, which is the only thing you can do
      naturally in many systems of linked objects, is more common
      need in the language than backward traversal.
    </p>
    <p>
      Backward traversal can also be expressed as forward traversal
      through the inverse of a property, so a compact expression
      for the inverse of a property would be an alternative, so
      long it was clear when this was syntactic device for making a
      backward link, and when(if ever) it was actually used to make
    </p>
    <p>
      We need both to chose punctuation and also the grammar, as to
      the precedence of the operator if any. To be able to write
      "the person whose wife's uncle is driving my bother's car" .
      Mostly here I am looking at traversal expressions going left
      to right with no precedence, but "of" as used in english is
      an exception in that it is right to left.
    </p>
    <h3>
      Use case examples
    </h3>
    <p>
      Forward traversal: The phone number of the home of the chair
      of the conference x,
    </p>
    <table border="1">
      <caption>
        Example scenarios
      </caption>
      <tbody>
        <tr>
          <td></td>
          <th>
            English
          </th>
          <th>
            Existing Notation3 (2002/02)
          </th>
        </tr>
        <tr>
          <td>
            <p>
              Forward traversal
            </p>
          </td>
          <td>
            The phone number of the home of the boss of x. X's
            boss' home's phone number.
          </td>
          <td>
            [ is :phone of [is :home of [is :boss of :x]]]
          </td>
        </tr>
        <tr>
          <td>
            Mixed traversal
          </td>
          <td>
            The phone number of the home of someone whose boss is
            the uncle of x.
          </td>
          <td>
            [is :phone of [is home of [ boss [is uncle of :x]]]]
          </td>
        </tr>
        <tr>
          <td>
            Units
          </td>
          <td>
            100 dollars.
          </td>
          <td>
            [dollars "100"]
          </td>
        </tr>
        <tr>
          <td>
            Units
          </td>
          <td>
            the price in dollars
          </td>
          <td>
            [ is dollars of price]
          </td>
        </tr>
        <tr>
          <td>
            Language
          </td>
          <td>
            The french phrase "chat"
          </td>
          <td>
            [ lang:fr "chat"]
          </td>
        </tr>
        <tr>
          <td>
            Language
          </td>
          <td>
            The title in french
          </td>
          <td>
            [ is lang:fr of :label]
          </td>
        </tr>
        <tr>
          <td>
            Mixed
          </td>
          <td>
            The author of the book whose title in english is "The
            Little Prince"
          </td>
          <td>
            [is author of [ has title [lang:en "The Little
            Prince"]]]
          </td>
        </tr>
        <tr>
          <td>
            Unary function
          </td>
          <td>
            The sine of x.
          </td>
          <td>
            [is sine of x]
          </td>
        </tr>
        <tr>
          <td>
            Nary function
          </td>
          <td>
            The maximum of 12, 23 and 20
          </td>
          <td>
            [is math:max of ("12" "23" "20")]
          </td>
        </tr>
        <tr class="not">
          <td>
            Nary function (named args) <strong>Not</strong> a
            traversal case
          </td>
          <td>
            The the result of spellchecking foo.html with
            dictionary eng.dict.
          </td>
          <td>
            [we:spellcheck &lt;foo.html&gt;; we:dictionary
            &lt;eng.dict&gt;.]
          </td>
        </tr>
        <tr>
          <td>
            Labeled traversal
          </td>
          <td>
            an sculture whith a price of x dollars and creator y
            domiciled in italy.
          </td>
          <td>
            [a Sculpture; cost [ dollars x]; creator [=y; domicile
            cc:it]] <em>This use of "=" is not real N3 syntax</em>
          </td>
        </tr>
      </tbody>
    </table>
    <p>
      The last case, labelled traversal, is in fact much more than
      graph traversal - by embedding variables into the graph in
      search template (rule antecedent), one make a reference which
      can be used in a rule conclusion. One can also, by reusing a
      variable more than once, make multiply connected (right
      phrase?) graph in place of a tree.
    </p>
    <h3>
      Dot
    </h3>
    <p>
      This problem has strong analogy with moving from an object to
      a slot in an object. Python, c++, etc: x.email, so that
      metaphor is a natural one to pick up.
    </p>
    <p>
      Pro: For programmers, this is a natural.
    </p>
    <p>
      Con: Dot as the end of an n3 sentence would have to be
      protected by following space or punctuation. The language is
      made more complex in that either some tricky tokenizing with
      some form of look-ahead becomes necessary.
    </p>
    <p>
      There is no equivalent convention as far as I know for
      backward traversal, so let's pick something random and
      inverse to "." -- say "^". (Metaphor: back up rather than
      down forwards?). Think of "^" as a combination of "." and an
      operator to generate the inverse property. (Or maybe "^"
      should be that property, which would make foo.^bar a
      back-traversal except that it would actually be represented
      using an extra triple.)
    </p>
    <h3>
      Bang
    </h3>
    <p>
      There is a form of path familiar to those who knew email and
      net news in the days of source routing: when one had to
      specify a series of machine names through which the mail had
      to be forwarded, as in
      <code>mcvax!cernvax!online!timbl</code>. Though few current
      users will remember it, it has the advantage over dot of
      being unused elsewhere in teh N3 syntax. This leaves the N3
      language simpler.
    </p>
    <table border="1">
      <caption>
        Example scenarios
      </caption>
      <tbody>
        <tr>
          <td></td>
          <th>
            English
          </th>
          <th>
            Using dot and caret, left to right
          </th>
          <td>
            Right to left parsing with $ and %
          </td>
          <th>
            Keywords, right to left
          </th>
        </tr>
        <tr>
          <td>
            Forward traversal
          </td>
          <td>
            The phone number of the home of the boss of x. X's
            boss' home's phone number.
          </td>
          <td>
            x.boss.home.email
          </td>
          <td></td>
          <td>
            email of home of boss of x
          </td>
        </tr>
        <tr>
          <td>
            Mixed traversal
          </td>
          <td>
            The phone number of the home of someone whose boss is
            the uncle of x.
          </td>
          <td>
            x.uncle^boss.home.email
          </td>
          <td></td>
          <td>
            email of home of thatwhich boss uncle of x
          </td>
        </tr>
        <tr>
          <td></td>
          <td>
            The formula from parsing a document whose URI is the
            first command line argument
          </td>
          <td>
            "1".os:argv^log:uri.log:semantics
          </td>
          <td>
            log:semeantics%log:uri$os:argv%"1"
          </td>
          <td>
            log:semantics of [] which has uri [] which is od:argv
            of "1"
          </td>
        </tr>
        <tr>
          <td>
            Units (b)
          </td>
          <td>
            100 dollars.
          </td>
          <td>
            "100"^dollars
          </td>
          <td>
            dollars$"100"
          </td>
          <td>
            thatwhich dollars 100
          </td>
        </tr>
        <tr>
          <td>
            Units (f)
          </td>
          <td>
            the price in dollars
          </td>
          <td>
            price.dollars
          </td>
          <td>
            dollars%price
          </td>
          <td>
            dollars of price
          </td>
        </tr>
        <tr>
          <td>
            Language (b)
          </td>
          <td>
            The french phrase "chat"
          </td>
          <td>
            "chat"^lang:fr
          </td>
          <td>
            langfr$"chat"
          </td>
          <td>
            thatwhich lang:fr "chat"
          </td>
        </tr>
        <tr>
          <td>
            Language (f)
          </td>
          <td>
            The title in french
          </td>
          <td>
            title.lang:fr
          </td>
          <td>
            lan:fr%title
          </td>
          <td>
            lang:fr of title
          </td>
        </tr>
        <tr>
          <td>
            Mixed
          </td>
          <td>
            The author of (the book) whose title is the french "Le
            Petit Prince
          </td>
          <td>
            "Le Petit Prince"^lang:fr^doc:title.author
          </td>
          <td>
            author % doc:title $ lang:fr $"Le Petit Prince"
          </td>
          <td>
            author of thatwhich <em>has</em> title thatwhich
            <em>has</em> lang:fr "Le Petit Prince"
          </td>
        </tr>
        <tr>
          <td>
            Unary function
          </td>
          <td>
            The sine of x. sin(x)
          </td>
          <td>
            x.sin
          </td>
          <td>
            sin%x
          </td>
          <td>
            sin of x
            <p>
              x's sin
            </p>
          </td>
        </tr>
        <tr>
          <td>
            (its inverse)
          </td>
          <td>
            arcsin(x)
          </td>
          <td>
            y^sin
          </td>
          <td>
            sin$y
          </td>
          <td>
            thatwhich sin y
          </td>
        </tr>
        <tr>
          <td>
            N-ary function
          </td>
          <td>
            The maximum of 12, 23 and 20
          </td>
          <td>
            ("12" "23" "20").max
          </td>
          <td>
            max$("12" "23" "20")
          </td>
          <td>
            max of ("12" "23" "20")
          </td>
        </tr>
        <tr>
          <td>
            Labeled traversal
          </td>
          <td>
            A sculpture with a price of x dollars and creator y
            domiciled in italy.
          </td>
          <td>
            [a Sculpture; cost :x^dollars; creator [is y; domicile
            cc:it]]
            <p>
              <em>This use is not real N3 syntax unless we change
              "is'</em>
            </p>
          </td>
          <td>
            domicile$
          </td>
          <td>
            [] a Sculpture; cost [] dollars 100; creator :y which
            :domicile cc:it. <em>Note that a consistent grammar is
            not obvious</em>
          </td>
        </tr>
      </tbody>
    </table>
    <h3>
      <a name="L7286" id="L7286">Multiply, Divide</a>
    </h3>
    <p>
      Metaphor: Units of measure
    </p>
    <p>
      A snappy syntax is useful in the leaves of an expression
      tree,. Examples come up frequently when the logical way to
      express data types, units of measure, and so on is with a
      graph traversal. With units of measure, people use use
      multiplication and division, and these actually make sense
      mathematically.
    </p>
    <p>
      Cost = 100*dollars or even Cost/dollars = 100 and
      Cost/day=100*dollars.
    </p>
    <p>
      Pro: / and * are indeed inverse, when you have unique and
      unambiguous functions: x/y*y =x.
    </p>
    <p>
      Con: This is not always the case! Also, "*" and "/" in math,
      and in units of measure, have properties like commutativity
      which you expect of "*" and it doesn't have in this context/.
      Also, I had expected that it would be pragmatic to add in
      operators directly to the syntax for convenience, and so was
      reserving <em>+ - * /</em>.
    </p>
    <h3>
      <a name="Keywords" id="Keywords">Keywords</a> - which, of,
      's, the
    </h3>
    <p>
      The english language suggests some keywords.
    </p>
    <p>
      "which" I have considered using in a sentence to turn the
      current object into the new subject. There are two forms I
      had thought of, I'll call them "which" and "thatwhich" for
      now. "Which", as in english, applies to a started object and
      allows labelled traversal. "thatWhich" is used for backward
      traversal, though the grammar is different.
    </p>
    <p>
      <code>:joe :son :johnny which has :girlfriend :jane.</code>
    </p>
    <p>
      <code>:joe :son thatWhich :girlfriend :jane.</code>
    </p>
    <p>
      <code>thatwhich has :home thatwhich has :email thatwhich
      has</code>
    </p>
    <p>
      Pro: <em>which</em> reads very well (unless you insist on
      <em>whose</em>!), especially with N3's optional <em>has</em>
      before the property.
    </p>
    <p>
      Con: <em>thatwhich</em> is unbeliveably ugly. Even
      <em>which</em>, while reading well, is not a very concise
      form.
    </p>
    <p>
      A possibility is to just use <em>which</em>, with [] for the
      <em>that</em> or <em>something</em> which precedes it in
      english grammar. In fact, if someone wants <em>something</em>
      as a synonym of [] I wouldn't violently object.
    </p>
    <p>
      <code>:joe :son [] which :girlfriend :jane.</code>
    </p>
    <p>
      A synonym for "which" could be the more mathematical
      "suchthat", which suggests a vertical bar.
    </p>
    <p>
      <code>:joe :son [] | :girlfriend :jane.</code>
    </p>
    <p>
      This makes an effective traversal operator []| which is an
      eyeful, but the pipe is nice as a connector.
    </p>
    <p>
      <code>joe son :johnny | girlfriend jane | mother [] | email
      &lt;audey@example.com&gt;.</code>
    </p>
    <p>
      "Of" is interesting, though could be confusing that it parses
      right to left
    </p>
    <p>
      <code>email of home of boss of x</code> means <code>email of
      (home of (boss of x))</code>
    </p>
    <p>
      I just noticed that when I write on the blackboard, % and
      <em>of</em> look pretty similar, so % to be read as
      <em>of</em> would a possibility for forward traversal prefix
      operator.
    </p>
    <p>
      The astute will have noticed that "of" is already used as a
      keyword in N3. However, all is not lost, in fact much could
      be gained. Could one not split "of" and "is" into separate
      features of the language, <code>p of y</code> being simply
      short for what is currently <code>[ is p of y]</code>, and
      <code>is</code> being an operator which at the syntactic
      level indicates that two things are the same node.
    </p>
    <p class="detail">
      (This is not the same as N3's =, which is daml:equivalentTo,
      which has axioms about properties of similar things being the
      same, but is not involved at this level. N3 and RDF treat
      different URI-identified nodes separately, whether or not a
      daml:equivalentTo arc joins them))
    </p>
    <p>
      This allows things like
    </p>
    <p>
      <code>joe brother [ is fred; wife margy; kids jane,
      john]</code>.
    </p>
    <p>
      Contrast "of" with with the english 's, German -es
    </p>
    <p>
      <code>x's boss's home's email</code> meaning (<code>(x's
      boss)'s home)'s email</code>
    </p>
    <p>
      which reminds one of Ada's
    </p>
    <p>
      <code>x'boss'home'email</code>
    </p>
    <p>
      of whose etymology I am unaware.
    </p>
    <p>
      Con: I was kinda thinking of keeping all the quotes I can in
      hand for use in various forms of quotation! So many languages
      needs many forms of quotation and run out of options all to
      fast. (XML an Python both use " and ' to mean the same - a
      waste if you ask me!)
    </p>
    <p>
      One could go the other way and just use a keyword "s"
    </p>
    <p>
      <code>x s boss s home s email.</code>
    </p>
    <p>
      or use a "$" with a closeness to "'s" and expectation of
      being read aloud as such:
    </p>
    <p>
      x$boss$home$email
    </p>
    <p>
      "The" in english signifies the uniqueness of something, and
      so could be used to indicate that something is indeed a
      function.
    </p>
    <p>
      the email of the home of the boss of x
    </p>
    <h3>
      <a name="Arrows" id="Arrows">Arrows</a>
    </h3>
    <p>
      Access limited logic, and the original N3 design, one of the
      conceptual graph serializations, and other languages derived
      from a transcription of whiteboard circles-and-arrows
      diagrams, use "-&gt;" or "&gt;" as a traversal operator.
      Multics used (I understand) "&gt;" for descent of a directory
      tree and "&lt;" for ascent, so ../../foo/test would be
      &lt;&lt;foo&gt;test which is neat even though it frightens
      the xml-minded side of one.
    </p>
    <p>
      N3 uses &lt;&gt; to surround URIs, which i suppose could be
      changed, but it interferes strongly with this.
    </p>
    <h3>
      <a name="Slashes" id="Slashes">Slashes</a>
    </h3>
    <p>
      Same idea as arrows, but using slash.
    </p>
    <p>
      Pro: The metaphor with directory traversal is useful (even
      though the graph being traversed is not always a tree).
    </p>
    <p>
      Pro: A nice simplicity.
    </p>
    <p>
      <code>x.uncle^boss.home.email</code>
    </p>
    <p>
      becomes
    </p>
    <p>
      <code>x/uncle\boss/home/email</code>
    </p>
    <p>
      Con: Unix types could find it strange when finding their
      universal escaping character used as anything else. And it
      rules our using it for that form.
    </p>
    <p>
      Con: The confusion which Microsoft introduce by using
      backslashes for directories has done lasting harm to the
      community, leaving many people still unsure which is which.
      This sort of
    </p>
    <h3>
      <a name="Parens" id="Parens">Parens</a>
    </h3>
    <p>
      The application of a monadic function is a special case of
      the traversal of a graph arc, so syntactic metaphors from
      functions would seem appropriate. The most obvious case is
      when a function takes a list, to just abut the function
      identifier to the list, looking like a regular function call
      in more languages than I could name:
    </p>
    <p>
      <code>x = math:max(y z w)</code> for <code>x = [ is math:max
      of (y z w)]</code>
    </p>
    <p>
      Pro: Looks great.
    </p>
    <p>
      Con: Doesn't work when the function doesn't take a list.
      Also, if you get a space in between, it means something
      completely different. Hopefully it will in some cases at
      least be a syntax error, but not within in a list.
    </p>
    <p>
      Maybe a separator of some sort as punctuation would work a
      left/right reversed from of "."
    </p>
    <p>
      <code>x = math:max$(y z w)</code>
    </p>
    <h3 id="Summarizin">
      Summarizing
    </h3>
    <table border="1">
      <caption>
        Categorizing
      </caption>
      <tbody>
        <tr>
          <td></td>
          <td>
            Forward traversal
          </td>
          <td>
            Backward traversal
          </td>
        </tr>
        <tr>
          <td>
            suffix
          </td>
          <td>
            x.email
            <p>
              x's email
            </p>
          </td>
          <td>
            y^email
          </td>
        </tr>
        <tr>
          <td>
            prefix
          </td>
          <td>
            email of x
            <p>
              email(x)
            </p>
          </td>
          <td>
            [] which email y
            <p>
              [] | email y
            </p>
          </td>
        </tr>
      </tbody>
    </table>
    <p>
      One thing that becomes evident: it can be really difficult to
      read the backward traversal in english. Like many systems,
      (including WWW) , english is optimized for forward traversal
    </p>
    <h3>
      Swan
    </h3>
    <p>
      Sandro's swan language used a name immediately followed by
      "(" as a function opener as in sum(2 3).
    </p>
    <p>
      He also used "." for path traversal.
    </p>
    <h2>
      <a name="Infix" id="Infix">Infix operators</a>
    </h2>
    <p>
      I had reserved * / + - for infix operators for arithmetic.
      The | operator for or and &amp; for and (or union and
      intersection of sets) are also reasonable to use in this way.
    </p>
    <p>
      If N3 is to have a to have a path toward becoming a language
      in which arithmetic and set operations are easy to write, it
      is hard to improve on infix notation. This would, however,
      change the form of the language significantly. It isn't clear
      that it would still be predictively parsable.
    </p>
    <h2 id="Sets">
      Sets
    </h2>
    <p>
      <a name="following" id="following">The following</a>
      considers design alternatives in extending N3 to include a
      notation for set literals. 2005/1/1
    </p>
    <h3>
      Background on containers
    </h3>
    <p>
      In the area of containers, RDF started with some "Sequences"
      and "Bags" which were in my opinion and with the benefit of
      hindsight, sub-optimal (The infinite rdf:_1 series of
      predicates was downright weird, and taking it into
      consideration made code much mroe complicated. Futher, for
      all the arbitrary complexity of the rdf:_nnn predictaes, they
      didn't tell you that essential bit of information as to when
      the container was finished: what <strong>wasn't</strong> in
      the container) .
    </p>
    <p>
      RDF does however have a <strong>collection</strong> which is
      an ordered list, and is very useful. N3 has a shorthand
      syntax ( 1 2 3 ) for the list of the numbers 1, 2 and 3, and
      the RDF/XML syntax has parseType="collection" shorthand.
      There is also defined a way of expressing lists in triples
      using blank nodes, using <code>rdf:first</code> and
      <code>rdf:rest</code>, and <code>rdf:nil</code>. The list 1 2
      3 would be expressed as
    </p>
    <pre>
[ rdf:first 1; rdf:rest [<br />     rdf:first 2; rdf:rest [<br />        rdf:first 3; rdf:rest rdf:nil]]]
</pre>
    <p>
      This is, if you like, a reification of a list. It described
      it totally. Some RDF systems actually store lists in this
      way. The RDF and OWL specs together are not (as far as I was
      aware) very clear about the axioms of lists. One would expect
      clear axioms that all lists exist, that any two lists with
      the same first and rest are owl:equivalent, and so on.
    </p>
    <h3>
      Introducing sets
    </h3>
    <p>
      It turns out that in many cases in applications we have seen,
      containers are in fact logically unordered sets, not ordered
      lists. Whether it is mail addresses on a mailing list, or
      rows in a database, or statements in an N3 formula, the order
      is immaterial, and something can occur in the set once or not
      at all.
    </p>
    <p>
      In these circumstances to use a list to represent the data is
      suboptimal in may ways. For example,
    </p>
    <ul>
      <li>It is not clear when two different lists actually have
      the same members in a different order that they represent the
      same set;
      </li>
      <li>The information about what is in fact a set end up being
      communicated out of band, or just assuemd by those who know
      the application;
      </li>
      <li>Underlying implementations cannot use code library
      support which is optimized for sets.
      </li>
    </ul>
    <p>
      For these reasons it is useful to have sets in the language
      in the same way as lists: to have a reification - a way of
      expressing them in triples so as to be able to pass them
      though general RDF applications whcih may be unaware of them,
      and a shorthand syntax to allow them to be written
      effeciently.
    </p>
    <h3>
      Reification
    </h3>
    <p>
      It turns out that OWL provides is with owl:oneOf, a
      relationship between a class and a list, such that the class
      is the class of things which are members of the list. Unless
      for some reason one wants to make sets different from
      classes, it seems appropriate to use classes for sets, and
      furthermore to use owl:oneOf as the constructor which allows
      us to specify a specific set in terms of an arbotrary
      ordering of its contents. The set of numbers 1,2 and 3 would
      then be written as
    </p>
    <pre>
[ owl:oneOf (1 2 3)] 
</pre>
    <p>
      or, to elaborate it down to triples:
    </p>
    <pre>
[ owl:oneOf <br />  [ rdf:first 1; rdf:rest [<br />     rdf:first 2; rdf:rest [<br />        rdf:first 3; rdf:rest rdf:nil]]]]
</pre>
    <p>
      Of course, any reification of a set whish lists the same
      members in a different order describes the same set.
    </p>
    <h3 id="Syntax1">
      Syntax
    </h3>
    <p>
      This is the more difficult choice! Here is a table of
      suggested syntax extensions to N3 for sets.
    </p>
    <table border="1">
      <caption>
        Syntax extensions suggested for sets in N3
      </caption>
      <tbody>
        <tr>
          <td>
            Syntax
          </td>
          <td>
            Advantages
          </td>
          <td>
            Disadvantages
          </td>
        </tr>
        <tr>
          <td>
            (1, 2, 3)
          </td>
          <td>
            Miniumal encroachment on to new punctuation.<br />
            Comma becomes a marker for lack or ordering. This is
            consistent with an object list.
          </td>
          <td>
            Parser has to look ahead a whole expression to know
            which it is dealing with: major change.
          </td>
        </tr>
        <tr>
          <td>
            ($ 1 2 3 $)
          </td>
          <td>
            "S" stands for "set". Otherwise just like lists.
          </td>
          <td></td>
        </tr>
        <tr>
          <td>
            {$ 1 2 3 $}
          </td>
          <td>
            "S" stands for "set". Curly braces are conventional for
            sets. Curly braces are used for formulae, which are
            also unordered.
          </td>
          <td>
            Curly is used for formulae, which are not normal
            collections
          </td>
        </tr>
        <tr style=
        "color: rgb(0, 0, 0); background-color: rgb(250, 250, 250);">
        <td>
            {$ 1, 2, 3 $}
          </td>
          <td>
            "S" stands for "set". Curly braces are conventional for
            sets. Curly braces are used for formulae, which are
            also unordered.<br />
            Comma becomes a marker for lack or ordering. This is
            consistent with an object list.
          </td>
          <td>
            Curly is used for formulae, which are not normal
            collections.
          </td>
        </tr>
        <tr>
          <td>
            {* 1, 2, 3 *}
          </td>
          <td>
            "S" stands for "set". Curly braces are conventional for
            sets. Curly braces are used for formulae, which are
            also unordered.<br />
            Comma becomes a marker for lack or ordering. This is
            consistent with an object list.
          </td>
          <td>
            Curly is used for formulae, which are not normal
            collections. Asterisk could be used as infix operator,
            though not with .
          </td>
        </tr>
        <tr>
          <td>
            {, 1, 2, 3 }
          </td>
          <td>
            Curly braces are conventional for sets. Curly braces
            are used for formulae, which are also unordered.
          </td>
          <td>
            Curly is used for formulae, which are not normal
            collections. Weird and unconventional to start with a
            comma
          </td>
        </tr>
        <tr>
          <td>
            @Set{1, 2, 3}
          </td>
          <td>
            Just a new keyword, no extra syntax.
          </td>
          <td>
            d.
          </td>
        </tr>
      </tbody>
    </table>
    <p>
      The current choice is {$ 1, 2, 3 $} which is conventional
      mathematical set notiation, plus dollar signs to distinguish
      a set from a formula.
    </p>
    <p>
      An interetsing possibility pointed out by Sandro Hawke is to
      actually make sets and formulas examples of the same thing. A
      formula is just a set: a set of statements. This makes
      statements first class objects. This is inherently appealing
      in its symmetry. However, as there is no statment opener
      syntax, only the closer (".", and effectively ";" and ","),
      there is no way for the parser to know in advance whether a
      statment or set is being parsed. This would not be the end of
      the world, but makes life more difficult. Futher, the current
      syntax alows an empty property list, so [ a :Deciduous, :Pine
      ]. is valid N3. This means that { :x } is a valid statment
      (with no triples), which would overlap with set syntax.
    </p>
    <h3>
      <a name="Disjoint" id="Disjoint">Disjoint</a> sets?
    </h3>
    <p>
      There is an issue as to whether {$ :a , :b, :c $} imlies that
      a, b and c are distinct. There was a <a href=
      "http://rdfig.xmlhack.com/2005/01/26/2005-01-26.html#1106763446.326655">
      discussion</a> of this in the SWIG.
    </p>
    <p>
      If sets are disjoint:
    </p>
    <ul>
      <li>You can say how many members are in a set.
      </li>
      <li>You cannot form the union or intersection of two sets
      unless all the members involved are known to be disjoint, (or
      one knows whcih ones are equivalent), for example if one
      knows that they each are members of a larger set.
      </li>
      <li>In applications where the assumption is that a set is
      disjoint, the system can check and trap an errro if two
      members turn out to be the same.
      </li>
      <li>Cwm in smush mode, --mode=e, when it takes into account
      equality, would probably remove dupliactes from sets but
      there would be no signifince.
      </li>
    </ul>
    <p>
      If sets are not disjoint:
    </p>
    <ul>
      <li>You don't know how many members they have, in general.
      </li>
      <li>You can do set union, but not intersection.
      </li>
      <li>You can validly handle sets where you don't actually know
      how mny distinct (people say) there are.
      </li>
      <li>Cwm in smush mode, --mode=e, when it takes into account
      equality, would on loading a new equality, in some cases
      reduce the number of members of a set mentioned in the
      knowledge base.
      </li>
    </ul>
    <p>
      One possibility is to build into the processor that in a mode
      in whcih it is aware of equality it also tracks disjointness,
      for example using inverse functional properties and
      functional properties with numeric ranges.
    </p>
    <p>
      Of course, where all the members of a set are vlues of a
      datatype which provides a binary equality operator, such as
      integers, this is not a problem.
    </p>
    <h2>
      <a name="Considered" id="Considered">Considered design
      alternatives in other areas</a>
    </h2>
    <p>
      (older)
    </p>
    <ol>
      <li>Using : for &gt;- and -&gt; so that the propertylist
      looks like a list of attributes. Advantages: really human
      readable. Disadvantage: keep "=" as an operator. Also, I
      don't like "=" being used for something which is not
      equality. It is ingrained as a binary reflexive operator and
      it would be confusing to use it in attribute attribution.
      Alternative alternative: use ":" for both "-&gt;" and
      "-&lt;".
      </li>
      <li>Use/allow keyword "has" for &gt;- and "is" for &lt;-.
      Maybe, if still unambiguous, allow "of" for both "-&gt;" and
      "-&lt;". And/or use colon instead of "of". These assume that
      the english words people pick as properties are noun clauses.
      I actually preferred the use of verb clauses for what is in
      fact a verb. I used to prefer "wrttenBy" to "author". Now I
      have found the role-noun form much better.
      </li>
      <li>Making the subject of the propertylist, be another
      property. (Say, "ref"). This is like Henrik's SOAP-RDF
      mapping. Every statement has to become an anonymous node
      syntax example: [ &gt;- core:ref -&gt; [ &gt;- x:firstname
      -&gt; "Ora" ] ; &gt;- dc:wrote -&gt; [ &gt;- dc:title -&gt;
      "Moby Dick" ]]. The thing becomes a binary rather than
      ternary syntax so we should use binary syntax. Using -&lt;
      and -&gt; only (omitting the &gt;- and &lt;- ) example would
      be
        <p>
          [ core:ref : [ x:firstname : "Ora" ] ;
        </p>
        <p>
          dc:wrote : [ dc:title : "Moby Dick" ]
        </p>
        <p>
          ]
        </p>
        <p>
          or equally well
        </p>
        <p>
          [ x:firstname : "Ora" ;
        </p>
        <p>
          dc:wrote : [ dc:title : "Moby Dick" ]
        </p>
        <p>
          ]
        </p>
        <p>
          We need better examples, requiring explicit reference to
          the subject by URI.
        </p>
      </li>
      <li>Allowing well-formed XML element as object. reserve
      &lt;alpha for this? What does XML infoset look like expressed
      in RDF in notation3? decide: don't do it. Burdens notation3
      compiler with XML parser weight.
      </li>
      <li>Use &lt;&gt; for URIs instead of ' - DanC. Hmmmm I wanted
      to keep &lt;&gt; for other things maybe like string
      delimiters. Actually it is cool to use inverse &lt;. for
      stings &gt;this is a string&lt; because then you end up being
      able to make pages which look like markup and which are
      functions in notation3.
      </li>
      <li>Bind vs @prefix. Bind was a directive which declared a
      namespace with an implicit "#" between the namespace and the
      local name. This has many advantages: it meant that by
      looking at a URIref one could separate it unambiguously into
      namespace URI and fragment ID. This in turn meant one could
      dereference the namespace URI to get a schema or other
      information describing the namespace. However, this is not
      standard RDF. Nevertheless, the use of namespaces ending in
      "#" is recommended, as then the items in the name space can
      be easily described by a single document associated with the
      namespace identifier.
      </li>
      <li>Whitespace: &nbsp;what about unicode NL? This was
      included as one &nbsp;of teh few changes which happened in
      XML as it changed fro 1.0 to 1.1 . NL is a C1 control
      character which was introduced to allow the EBCDIC newline
      character to eb encoded. &nbsp;Why should one have a separate
      NL from the LF which CCITT defined all those years ago as the
      code to be used when newline (CR LF together) was required?
      </li>
    </ol>
    <h2>
      Fodder
    </h2>
    <p>
      Connolly points out: "This grammar starts to look a lot like
      the formalized english/conceptual grammar stuff. &gt;
      http://meganesia.int.gu.edu.au/~phmartin/WebKB/doc/grammars/
      &gt;
      http://www8.org/w8-papers/3b-web-doc/embedding/embedding.html
    </p>
    <p>
      Philippe Martin says, "Given the similarities of your
      Notation 3 with the (currently) more readable and expressive
      Frame-CG notation (FCG) that I designed 2 years ago and that
      is one of the notations used in my large-scale knowledge
      server <a href="http://www.webkb.org/">WebKB-2</a> , you
      might want to have a look at some executable <a href=
      "http://www.webkb.org/doc/webkb2OntologicalExamples.html">example
      files</a> (e.g. ) and at the <a href=
      "http://www.webkb.org/doc/F_languages.html#FCG">grammar</a>.
      The wide range of "quantifiers" is especially useful. You are
      welcome to copy any part of the FCG grammar into your
      Notation 3. (email 2001/09/17)
    </p>
    <h2 id="Footnote">
      Footnote
    </h2>
    <h3 id="Thought">
      Thought process behind implicit definition
    </h3>
    <p>
      How does one label a node in notation 3 for incomming
      reference? (The quivalent of "rdf:id=")? How about a property
      "Thought process behind implicit definition How does one
      label a node in notation 3 for incomming reference? (The
      quivalent of "rdf:id=")? How about a property "is hereby
      defined to be" with a suitable shorthand? One can then refer
      to such as thing internally as '#foo' which is a bit messy
      but not bad. You can't have keywords and identifiers both
      using that precious status of pure alphanumerics unless you
      reserve keywords. [ &gt;- n:def -&gt; '#ora' ; &gt;-
      x:firstname -&gt; "Ora" ] . [ '#ora' &gt;- dc:wrote-&gt; [
      &gt;- dc:title -&gt; "Moby Dick" ] ] . [ &gt;- x:firstname
      -&gt; "Laura" ] &lt;- x:hasChild-&lt; '#ora' . or equally
      well [ &gt;- n:def -&gt; '#ora' ; &gt;- x:firstname -&gt;
      "Ora" ] . [ '#ora' &gt;- dc:wrote-&gt; [ &gt;- dc:title -&gt;
      "Moby Dick" ] ] . [ &gt;- x:firstname -&gt; "Laura" ] &lt;-
      x:hasChild-&lt; '#ora' . Ah. Now consider what is the
      difference betwen reference and definition? I conclude there
      is none, as both are the assertion that the resource in
      question is identified by a URI. In the statements: [ &gt;-
      n:def -&gt; '#ora' ; &gt;- x:firstname -&gt; "Ora" ] . [
      '#ora' &gt;- x:lastname -&gt; "Lassila" ] . is there any
      significance that the node '#ora' is defined to be one which
      has firstname "ora" and lastname "Lassila" whichever way one
      looks at it. I would therefore propose that the use of a new
      local symbol :foo or '#foo' is taken as introducing it, but
      the definition of it by the document is really the whole web
      of statements which involve it. In fact, it maybe rather
      difficult to talk about the definition of it as distinct from
      the document, as as it is always best to avoid extra
      concepts, I won't. The above examples should just be,
      therefore, [ '#ora' &gt;- x:firstname -&gt; "Ora" ] . [
      '#ora' &gt;- x:lastname -&gt; "Lassila" ] isn't that
      simpler?.is hereby defined to be" with a suitable shorthand?
    </p>
    <p>
      One can then refer to such as thing internally as '#foo'
      which is a bit messy but not bad. You can't have keywords and
      identifiers both using that precious status of pure
      alphanumerics unless you reserve keywords.
    </p>
    <p>
      [ &gt;- n:def -&gt; '#ora' ; &gt;- x:firstname -&gt; "Ora" ]
      .
    </p>
    <p>
      [ '#ora' &gt;- dc:wrote-&gt; [ &gt;- dc:title -&gt; "Moby
      Dick" ] ] .
    </p>
    <p>
      [ &gt;- x:firstname -&gt; "Laura" ] &lt;- x:hasChild-&lt;
      '#ora' .
    </p>
    <p>
      or equally well
    </p>
    <p>
      [ &gt;- n:def -&gt; '#ora' ; &gt;- x:firstname -&gt; "Ora" ]
      .
    </p>
    <p>
      [ '#ora' &gt;- dc:wrote-&gt; [ &gt;- dc:title -&gt; "Moby
      Dick" ] ] .
    </p>
    <p>
      [ &gt;- x:firstname -&gt; "Laura" ] &lt;- x:hasChild-&lt;
      '#ora' .
    </p>
    <p>
      Ah. Now consider what is the difference betwen reference and
      definition? I conclude there is none, as both are the
      assertion that the resource in question is identified by a
      URI. In the statements:
    </p>
    <p>
      [ &gt;- n:def -&gt; '#ora' ; &gt;- x:firstname -&gt; "Ora" ]
      .
    </p>
    <p>
      [ '#ora' &gt;- x:lastname -&gt; "Lassila" ] .
    </p>
    <p>
      is there any significance that the node '#ora' is defined to
      be one which has firstname "ora" and lastname "Lassila"
      whichever way one looks at it. I would therefore propose that
      the use of a new local symbol :foo or '#foo' is taken as
      introducing it, but the definition of it by the document is
      really the whole web of statements which involve it. In fact,
      it maybe rather difficult to talk about the definition of it
      as distinct from the document, as as it is always best to
      avoid extra concepts, I won't.
    </p>
    <p>
      The above examples should just be, therefore,
    </p>
    <p>
      [ '#ora' &gt;- x:firstname -&gt; "Ora" ] .
    </p>
    <p>
      [ '#ora' &gt;- x:lastname -&gt; "Lassila" ]
    </p>
    <p>
      isn't that simpler?.
    </p>
    <hr />
    <h2 id="References">
      References
    </h2>
  </body>
</html>