- From: Holger Knublauch <holger@topquadrant.com>
- Date: Fri, 05 Jun 2015 09:09:53 +1000
- To: public-data-shapes-wg@w3.org
I used to have a similar separation in my earlier drafts, calling them
local and global constraints. As time passed by I noticed that this was
significantly complicating the metaclasses (e.g. cross-product of
local/global vs native/template constraints) and the
operations/algorithms. And then there was the extra cognitive load of
trying to explain this. You also state yourself that the use cases of
these global constraints are very rare - most of them can actually be
expressed with a flexible scoping mechanism (see separate email).
I believe we can drop option 2 and state that all constraints take a
focus node as argument, but some constraint may ignore that node. As I
said in the call, and in the current draft [1], global constraints can
be regarded as constraints attached to the graph itself. In almost all
scenarios that I can think of, there will be a natural URI for the graph
itself (e.g. the URL of the GET request). In many cases, such graphs
even have a type, such as owl:Ontology, and people can attach
constraints to that class, or other graph classes.
If a graph has no natural URI, then we could define a default URI such
as sh:DefaultGraph. Then the shapes graph could contain statements such as
sh:DefaultGraph
sh:nodeShape [
sh:constraint ...
] .
Another pattern for those (rare) cases could be something like
ex:MyShape
sh:scope sh:global .
where sh:global is an instance of
sh:GlobalScope
a sh:ScopeTemplate ;
sh:sparql "SELECT (sh:DefaultGraph AS ?this) WHERE { }"
which will ensure that ex:MyShape will be evaluated exactly once. Quite
a pretty syntax too.
So my summary is that global/unscoped constraints are not worth the
complications, and that we can work with the already provided
mechanisms, reducing cognitive and implementation overhead.
Holger
[1] http://w3c.github.io/data-shapes/shacl/#graph-constraints
On 6/5/2015 6:42, Peter F. Patel-Schneider wrote:
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> This is a follow-up to the discussion on the teleconference today.
>
>
> In my view there are two different (but related) things:
>
> 1/ The sort of constraints (scoped constraints?) that occur in shapes that
> have a scope (either an explicit scope as in the SPIN-related proposals or
> an implicit universal scope as in the various versions of ShEx). These
> constraints work off a focus node, which is a node in the graph being
> validated. A shape that requires all people to have a single string name
> has a constraint of this kind, perhaps written as
> [ sh:predicate foaf:name ; sh:valueType xsd:string ]
> It is not possible to evaluate this constraint without a focus node.
>
> 2/ The sort of constraints (unscoped constraints) that occur in shapes that
> enforce properties of the graph as a whole. (If scope expressions are
> allowed then this sort of constraint is likely to be quite unusual and
> natural examples are hard to come up with.) These constraints do not use a
> focus node, and there may be no focus node to provide for them. A shape
> that requires the graph to have exactly two triples in it would have a
> constraint of this kind, perhaps written as
> SELECT ?no WHERE {
> { SELECT (COUNT(*) as ?no) WHERE {?a ?b ?c .} }
> FILTER ( ?no != 2 )
> }
> This constraint has no use for a filter node.
>
> The two kinds of constraints look and act quite differently so I think that
> they need to be different kinds of things in SHACL, whether or not they are
> both called different kinds of constraints.
>
>
> peter
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Received on Thursday, 4 June 2015 23:12:02 UTC