An RDF library for PHP implementing the https://github.com/sweetrdf/rdfInterface interface.
The aim was to provide as simple, short and clear implementation as possible. Performance wasn't really important (see the Performance chapter below).
It can be used as a baseline for testing performance of other libraries as well for testing interoperability of the rdfInterface implementations (e.g. making sure they work correctly with rdfInterface\Term objects created by other library).
- Obtain the Composer
- Run
composer require sweetrdf/simple-rdf - Run
composer require sweetrdf/quick-rdf-ioto install parsers and serializers.
https://sweetrdf.github.io/simpleRdf/namespaces/simplerdf.html
It's very incomplete but better than nothing.
RdfInterface documentation is included which explains the most important design decisions.
(you can also take a look at generic rdfInterface examples)
include 'vendor/autoload.php';
use simpleRdf\DataFactory as DF;
$graph = new simpleRdf\Dataset();
$parser = new quickRdfIo\TriGParser(new simpleRdf\DataFactory());
$stream = fopen('pathToTurtleFile', 'r');
$graph->add($parser->parseStream($stream));
fclose($stream);
// count edges in the graph
echo count($graph);
// go trough all edges in the graph
foreach ($graph as $i) {
echo "$i\n";
}
// find all graph edges with a given subject
echo $graph->copy(DF::quadTemplate(DF::namedNode('http://mySubject')));
// find all graph edges with a given predicate
echo $graph->copy(DF::quadTemplate(null, DF::namedNode('http://myPredicate')));
// find all graph edges with a given object
echo $graph->copy(DF::quadTemplate(null, null, DF::literal('value', 'en')));
// replace an edge in the graph
$edge = DF::quad(DF::namedNode('http://edgeSubject'), DF::namedNode('http://edgePredicate'), DF::namedNode('http://edgeObject'));
$graph[$edge] = $edge->withObject(DF::namedNode('http://anotherObject'));
// find intersection with other graph
$graph->copy($otherGraph); // immutable
$graph->delete($otherGraph); // in-place
// compute union with other graph
$graph->union($otherGraph); // immutable
$graph->add($otherGraph); // in-place
// compute set difference with other graph
$graph->copyExcept($otherGraph); // immutable
$graph->delete($otherGraph); // in-place
$serializer = new quickRdfIo\TurtleSerializer();
$stream = fopen('pathToOutputTurtleFile', 'w');
$serializer->serializeStream($stream, $graph);
fclose($stream);The simpleRdf\Dataset class shouldn't be used to deal with larger amounts of quads.
Adding a quad has computational complexity of O(N) where N is the number of quads in the dataset.
It means adding n quads has computational complexity of O(n!) (read - it quickly gets out of hand with larger n).
Just a sample results:
| quads count | execution time [s] | relative quads count | relative execution time |
|---|---|---|---|
| 125 | 0.018090 | 1 | 1.0 |
| 250 | 0.059559 | 2 | 3.3 |
| 500 | 0.210958 | 4 | 11.7 |
| 1000 | 0.849956 | 8 | 47.0 |
| 2000 | 2.941319 | 16 | 162.6 |
| 4000 | 10.697164 | 32 | 591.3 |
| 8000 | 45.792556 | 64 | 2531.4 |
You get the idea, don't you?
Other operations are also not performant, e.g. all searches and in-place deletions have complexity of O(N) and all methods returning a new copy of the dataset have complexity of O(N) + O(n!) (where N is number of quads in the dataset and n the number of quads in the returned dataset).
If you are looking for a performant implementation, please take a look at the quickRdf.