A backstop for shared logic between rdf-based implementations of IGraph.
Part of the ont-app library, dedicated to Ontology-driven development.
Note: clojurescript implementation is not supported at this time.
Require thus:
(:require
[ont-app.rdf.core :as rdf-app]
)
There are numerous RDF-based platforms, each with its own idiosyncrasies, but there is also a significant overlap between the underlying logical structure of each RDF implementation. This library aims to capture that overlap, parameterized appropriately for implementation-specific variations.
This includes:
render-literal
, aimed at translating between Clojure
data and data to be stored in an RDF store.#voc/lstr
reader macro
defined in the vocabulary module.^^transit:json
datatype tag, allowing for arbitrary
Clojure content to be serialized/deserialized as strings in
an RDF store.There is a small supporting ontology defined in ont-app.rdf.ont
,
which the namepace metadata of the core maps to. Its preferred prefix
is rdf-app
(since rdf
is already spoken for with
ont-app.vocabulary.rdf).
The preferred namespace URI is declared as
"http://rdf.naturallexicon.org/rdf/ont#"
.
render-literal
multimethodEach RDF-based implementation of IGraph will need to translate between Clojure data and RDF literals. These will include langage-tagged strings, xsd types for the usual scalar values, and possibly custom URI-tagged data. Sometimes the specific platform will already define its own intermediate data structures for such literals.
The render-literal
multimethod exists to
handle the task of translating from Clojure to RDF.
render-literal
is dispatched by the function
render-literal-dispatch
, which takes as an argument a single
literal, and returns a value expected to be fielded by some
render-literal method keyed to that value.
There is a translate-literal method defined for
:rdf-app/TransitData
, discussed in more detail
below. Otherwise render-literal
is
dispatched on the type of the argument.
Integers and floats both derive from ::number
, and will be rendered
directly as they are in Clojure by default. Values unhandled by a
specific method will be rendered by default as strings in quotes.
Instances of LangStr
will be rendered as discussed
below.
All of this behavior can be overridden with the
@special-literal-dispatch
atom discussed in the following section.
@special-literal-dispatch
Often there is platform-specific behavior required for specific types of literals, for example Swirrl/grafter has its own way of handling xsd values.
There is an atom defined called special-literal-dispatch
(defult
nil) which if non-nil should be a function f [x] -> <dispatch-value>
. Any non-nil dispatch value returned by this
function will override the default behavior of
render-literal-dispatch, and provide a dispatch value to which you
may target the appropriate methods.
The igraph-grafter source has examples of this.
This library imports 'ont-app.vocabulary.lstr', along with its #voc/lstr reader macro.
Such values will be dispatched on their type
(ont_app.vocabulary.lstr.LangStr
), and rendered as say "my English words"@en
.
xsd
valuesMost RDF-platforms will typically provide some means of dealing with xsd-encoded values, which encode the usual scalar values such as integers, floats, dates, etc.
Part of adapting IGraph to any new RDF-based platform will involve defining special-literal-dispatch and render-literal methods as appropriate.
The existing sparql-client
and igraph-grafter
implementations
should serve as instructive examples.
Of course some values such as the standard Clojure containers, and user-defined records and datatypes are not handled by the xsd standard.
This library supports storing such literals in serialized form using a
^^transit.json
datatype URI tag.
> (rdf-app/render-literal [1 2 3])
"\"[1, 2, 3]\"^^transit:json"
> (rdf-app/read-transit-json "[1,2,3]")
[1 2 3]
> (defn round-trip [x]
"Returns `x` after converting it to a transit literal and re-parsing it"
(as-> (rdf-app/render-literal x)
it
(re-matches rdf-app/transit-re it)
(nth it 1))
(rdf-app/read-transit-json it))
> (round-trip `(fn [x] "yowsa"))
(clojure.core/fn [x] "yowsa")
The render-literal method keyed to :rdf/TransitData
is the handler
encoding data as transit. To use it, take the following steps:
transit-read-handlers
.
transit-write-handlers
:rdf/TransitData
. This will make this eligible for handling by that
render-literal method.
(derive clojure.lang.PersistentVector :rdf/TransitData)
The datatype URI whose qname is transit:json expands to
<http://rdf.natural-lexicon.org/ns/cognitect.transit#json>
, based on
the following declaration in ont-app.rdf.ont:
(voc/put-ns-meta!
'cognitect.transit
{
:vann/preferredNamespacePrefix "transit"
:vann/preferredNamespaceUri "http://rdf.naturallexicon.org/ns/cognitect.transit#"
:dc/description "Functionality for the transit serialization format"
:foaf/homepage "https://github.com/cognitect/transit-format"
})
It is expected that the basic IGraph member-access methods will be covered by a common set of SPARQL queries for most if not all RDF-based implementations.
For example, here is a template that should serve to acquire normal form of a given graph (modulo tractability):
(def normal-form-query-template
"
Select ?s ?p ?o
{{{from-clauses}}}
Where
{
?_s ?_p ?_o
Bind ({{{rebind-_s}}} as ?s)
Bind ({{{rebind-_p}}} as ?p)
Bind ({{{rebind-_o}}} as ?o)
}
")
This template can be referenced by a function query-for-normal-form
> (query-for-normal-form <query-fn> <rdf-store>)
> (query-for-normal-form <graph-kwi> <query-fn> <rdf-store>)
Where:
graph-kwi
is a KWI for the named graph URI. May also be a set of named graph URIs. (defaults to nil, indicating the DEFAULT graph).query-fn
is a platform-specific function to pose the rendered query template to rdf-store.rdf-store
is a platform-specific point of access to the RDF store, e.g. a database connection or SPARQL endpoint.Analogous template/function ensembles are defined for:
query-for-subjects
query-for-p-o
query-for-o
ask-s-p-o
Wherever KWIs are involved, checks will be performed to flag warnings in cases where the metadata has not been properly specified for the implied namespace of the KWI.
Note that the query template above has clauses like:
...
Bind ({{{rebind-_s}}} as ?s)
...
The purpose of this is to allow for rebinding of blank nodes to a platform-specific scheme that supports 'round-tripping' of blank nodes in subsequent queries to the same endpoint. The igraph-jena project provides a working example of this.
There are multimethods defined to read RDF into a graph and to write it out in a specified format.
See the implementation of ont-app/igraph-jena for an implementation (v. 0.2.2 or later).
Each of these methods takes a
native-normal context
graph as its first argument. See the docstrings of each of the i/o
functions for the operative vocabularies.
As an example, here is the default 'starter' graph provided in rdf.core:
;; in ont-app-rdf.core
(def default-context
"An atom containing a native-normal graph with default i/o context configurations.
- NOTE: This would typically be the starting point for the i/o context of individual
implementations.
- VOCABULARY
- [:rdf-app/UrlCache :rdf-app/directory `URL cache directory`]
"
(atom (-> (native-normal/make-graph)
(igraph/add [[:rdf-app/UrlCache
:rdf-app/directory "/tmp/rdf-app/UrlCache"]
]))))
Note that it configures a default directory for caching imported web resources.
And here is the current context graph for igraph-jena
:
;; in ont-app.igraph-jena.core
(defrecord JenaGraph ...)
(def standard-io-context
(-> @rdf/default-context
(igraph/add [[#'rdf/load-rdf
:rdf-app/hasGraphDispatch JenaGraph
]
[#'rdf/read-rdf
:rdf-app/hasGraphDispatch JenaGraph
]
[#'rdf/write-rdf
:rdf-app/hasGraphDispatch JenaGraph
]
])))
These keyword identifiers will be inferred automatically as dispatch values for to-load/to-read/to-write arguments:
:rdf-app/LocalFile
for file in the local file system:rdf-app/FileResource
for a file bound to a URL such as a jar resource:rdf-app/WebResource
for a resource available through http. See
also the discussion of the resource catalog below.These can be overridden with e.g. (add <context> [#'rdf/load-rdf :rdf-app/toImportDisptachFn <dispatch-fn>])
(or :rdf-app/toExportDispatchFn
for writes).
The @resource-catalog
is a
native-normal graph containing
descriptions of web resources that you may want to add or load,
including their MIME types.
This graph is automatically populated from details included in the ont-app/vocabulary metadata.
You can add entries to it with the add-catalog-entry!
function.
> (add-catalog-entry! <download-url> <namespace-uri> <prefix> <media-type>)
The media types align with other data included in the ont-app.rdf.ont
module.
See the docstring for add-catalog-entry
for details.
There are two methods for input, load-rdf
, which translates a file
or URL into a new graph, and read-rdf
which adds a file or URL to an
existing graph.
> (rdf/load-rdf <context> <to-load>) -> g
It is dispatched by the function load-rdf-dispatch
-> [graph-dispatch to-load-dispatch]
graph-dispatch
is typically the class name of the record implementing
IGraph. It is specified by the triple [#'load-rdf :rdf-app/hasGraphDispatch <graph-dispatch>]
in the context
graph.
to-load-dispatch
will typically be one of the special dispatch KWIs
described in the section above, defaulting to the type of to-load
> (rdf/read-rdf <context> <g> <to-load>) -> g
It is dispatched by the function read-rdf-dispatch
-> [graph-dispatch to-load-dispatch]
graph-dispatch
is typically the class name of the record implementing
IGraph. It is specified by the triple [#'read-rdf :rdf-app/hasGraphDispatch <graph-dispatch>]
in the context
graph.
to-load-dispatch
will typically be one of the special dispatch KWIs
described in the section above, defaulting to the type of to-load
It may be the case that you want to retrieve a resource and cache it locally.
Such files will be cached in the directory specified in your i/o
context per (unique (<context> :rdf-lib/UrlCache :rdf-lib/directory))
.
:rdf-app/CachedResource
Both load-rdf
and read-rdf
have methods dispatched on :rdf-app/CachedResource
.
> (derive <my-graph-implementation> :rdf-app/IGraph)
> (derive :rdf-app/WebResource :rdf-app/CachedResource)
> (def g (load-rdf <http://path/to/resource>))
This will cache the resource as a local file and be imported into your graph with your method to load/read local files.
If the contents at some URL have changed since being cached, you may clear the cache as follows:
With only the i/o context provided, the entire cache will be cleared:
> (clear-url-cache! <context>)
Additional arguments should be URLs, and will clear any cached files associated with each such URL:
> (clear-url-cache! <context> (java.net.URL. "http://www.w3.org/2000/01/rdf-schema#"))
There is one method to export data. It is also informed by the context
graph, and dispatches in the same way as the input methods, but output
formats are informed by KWIs mapped to values descibed in
https://www.w3.org/ns/formats/ , and
derived from
:dct/MediaTypeOrExtent
.
> (rdf/write-rdf <context> <g> <target> <fmt>)
This is dispatched on the function write-rdf-dispatch
-> [graph-dispatch to-write-dispatch fmt]
graph-dispatch
and to-write-dispatch
are pretty much as above.fmt
passed through directly, and is typically one one of the
format KWIs declared in ont.cljc
, e.g. :formats/Turtle
or
:formats/JSON-LD
. Again, see https://www.w3.org/ns/formats/ .The ont-app.rdf.test-support
module builds on the igraph
test-support
regime.
This is probably best described by an example taken from the test module for ont-app/igraph-jena:
(ns ont-app.igraph-jena.core-test
(:require
...
[ont-app.igraph-jena.core :as core]
[ont-app.igraph.test-support :as test-support]
[ont-app.rdf.test-support :as rdf-test]
...))
(def rdf-test-report (atom nil))
(defn init-rdf-report
[]
(let [call-write-method (fn call-write-method [g ttl-file]
(rdf/write-rdf
core/standard-io-context
g
ttl-file
:formats/Turtle))
]
(-> (native-normal/make-graph)
(add [:rdf-app/RDFImplementationReport
:rdf-app/makeGraphFn core/make-jena-graph
:rdf-app/loadFileFn core/load-rdf
:rdf-app/readFileFn core/read-rdf
:rdf-app/writeFileFn call-write-method
]))))
(defn do-rdf-implementation-tests
[]
(reset! rdf-test-report (init-rdf-report))
(-> rdf-test-report
(rdf-test/test-bnode-support)
(rdf-test/test-load-of-web-resource)
(rdf-test/test-read-rdf-methods)
(rdf-test/test-write-rdf-methods)
(rdf-test/test-transit-support)))
(deftest rdf-implementation-tests
(let [report (do-rdf-implementation-tests)]
(is (empty? (test-support/query-for-failures @report)))))
This logic will create an atom to contain a native-normal report
graph, and after being intialized with implementation-specific details
a battery of tests will be run, populating the graph with descriptions
of those tests' outcomes. Bad outcomes are flagged as failures, which
can be queried for in the report graph. Empty results for
query-for-failures
indicates a passing test.
Functions in this module are logged with the
graph-log logging library,
which in addition to doing standard logging records various execution
events at log levels :glog/TRACE
and :glog/DEBUG
.
This can be enabled thus:
(require [ont-app.graph-log.core :as glog])
> (glog/set-level! :glog/LogGraph :glog/TRACE)
> ;; DO STUFF
> (glog/entries)
[<entry 0>
.....
<entry n>
]
>
See the graph-log documentation for details.
Copyright © 2020-23 Eric D. Scott
This program and the accompanying materials are made available under the terms of the Eclipse Public License 2.0 which is available at http://www.eclipse.org/legal/epl-2.0.
This Source Code may also be made available under the following Secondary Licenses when the conditions for such availability set forth in the Eclipse Public License, v. 2.0 are satisfied: GNU General Public License as published by the Free Software Foundation, either version 2 of the License, or (at your option) any later version, with the GNU Classpath Exception which is available at https://www.gnu.org/software/classpath/license.html.
Natural Lexicon logo - Copyright © 2020 Eric D. Scott. Artwork by Athena M. Scott. Released under Creative Commons Attribution-ShareAlike 4.0 International license. Under the terms of this license, if you display this logo or derivates thereof, you must include an attribution to the original source, with a link to https://github.com/ont-app, or http://ericdscott.com. |
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