Oxigraph for Python =================== [![actions status](https://github.com/oxigraph/oxigraph/workflows/build/badge.svg)](https://github.com/oxigraph/oxigraph/actions) This package provides a Python API on top of Oxigraph. Oxigraph is a work in progress graph database written in Rust implementing the [SPARQL](https://www.w3.org/TR/sparql11-overview/) standard. It offers two stores with [SPARQL 1.1 Query](https://www.w3.org/TR/sparql11-query/) capabilities. One of the store is in-memory, and the other one is disk based. The store is also able to load RDF serialized in [Turtle](https://www.w3.org/TR/turtle/), [TriG](https://www.w3.org/TR/trig/), [N-Triples](https://www.w3.org/TR/n-triples/), [N-Quads](https://www.w3.org/TR/n-quads/) and [RDF XML](https://www.w3.org/TR/rdf-syntax-grammar/). ## Install To install the development version of Oxigraph you need first to install the build tool [Maturin](https://github.com/PyO3/maturin). This could be done using the usual `pip install maturin`. Then you just need to run `maturin develop` to install Oxigraph in the current Python environment. ## Example Insert the triple ` "example"` and print the name of `` in SPARQL: ```python from oxigraph import * store = MemoryStore() ex = NamedNode('http://example/') schemaName = NamedNode('http://schema.org/name') store.add((ex, schemaName, Literal('example'))) for binding in store.query('SELECT ?name WHERE { ?name }'): print(binding['name'].value) ``` ## API ### Model Oxigraph provides python classes for the basic RDF model elements. #### `NamedNode` An RDF [IRI](https://www.w3.org/TR/rdf11-concepts/#dfn-iri). ```python from oxigraph import NamedNode assert NamedNode('http://example.com/foo').value == 'http://example.com/foo' assert str(NamedNode('http://example.com/foo')) == '' ``` #### `BlankNode` An RDF [blank node](https://www.w3.org/TR/rdf11-concepts/#dfn-blank-node). ```python from oxigraph import BlankNode assert BlankNode('foo').value == 'foo' assert str(BlankNode('foo')) == 'foo' ``` #### `Literal` An RDF [literal](https://www.w3.org/TR/rdf11-concepts/#dfn-literal). ```python from oxigraph import NamedNode, Literal assert Literal('foo').value == 'foo' assert str(NamedNode('foo')) == '"foo"' assert Literal('foo', language='en').language == 'en' assert str(NamedNode('foo', language='en')) == '"foo"@en' assert Literal('11', datatype=NamedNode('http://www.w3.org/2001/XMLSchema#integer')).datatype == 'http://www.w3.org/2001/XMLSchema#integer' assert str(Literal('11', datatype=NamedNode('http://www.w3.org/2001/XMLSchema#integer'))) == '"foo"^^' ``` #### `DefaultGraph` The RDF [default graph name](https://www.w3.org/TR/rdf11-concepts/#dfn-default-graph). ```python from oxigraph import DefaultGraph DefaultGraph() ``` ### Stores Oxigraph provides two stores: * `MemoryStore` that stores the RDF quads in memory * `SledStore` that stores the graph on disk using [Sled](https://github.com/spacejam/sled). Both stores provide a similar API. They encode an [RDF dataset](https://www.w3.org/TR/rdf11-concepts/#dfn-rdf-dataset). #### Constructor ##### `MemoryStore` It could be constructed using: ```python from oxigraph import MemoryStore store = MemoryStore() ``` ##### `SledStore` The following code creates a store using the directory `foo/bar` for storage. ```python from oxigraph import SledStore store = SledStore('foo/bar') ``` It is also possible to use a temporary directory that will be removed when the `SledStore` Python object is dropped: ```python from oxigraph import SledStore store = SledStore() ``` #### `add` To add a quad in the store: ```python s = NamedNode('http://example.com/subject') p = NamedNode('http://example.com/predicate') o = NamedNode('http://example.com/object') g = NamedNode('http://example.com/graph') store.add((s, p, o, g)) ``` If a triple is provided, it is added to the default graph i.e. `store.add((s, p, o, g))` is the same as `store.add((s, p, o, DefaultGraph()))` #### `remove` To remove a quad from the store: ```python store.remove((s, p, o, g)) ``` #### `__contains__` Checks if a quad is in the store: ```python assert (s, p, o, g) in store ``` #### `__len__` Returns the number of quads in the store: ```python assert len(store) == 1 ``` #### `__iter__` Iterates on all quads in the store: ```python assert list(iter(store)) == [(s, p, o, g)] ``` #### `match` Returns all the quads matching a given pattern using an iterator. Return all the quads with the subject `s`: ```python assert list(store.match(s, None, None, None)) == [(s, p, o, g)] ``` Return all the quads in the default graph: ```python assert list(store.match(s, None, None, DefaultGraph())) == [] ``` #### `query` Executes a [SPARQL 1.1 Query](https://www.w3.org/TR/sparql11-query/). The `ASK` queries return a boolean: ```python assert store.query('ASK { ?s ?s ?s }') ``` The `SELECT` queries return an iterator of query solutions that could be indexed by variable name or position in the `SELECT` clause: ```python for solution in store.query('SELECT ?s WHERE { ?s ?p ?o }'): assert solution[0] == solution['s'] ``` The `CONSTRUCT` and `DESCRIBE` queries return an iterator of triples: ```python for (s, p, o) in store.query('CONSTRUCT { ?s ?p ?o } WHERE { ?s ?p ?o }'): print(s) ``` ### `load` Loads serialized RDF triples or quad into the store. The method arguments are: 1. `data`: the serialized RDF triples or quads. 2. `mime_type`: the MIME type of the serialization. See below for the supported mime types. 3. `base_iri`: the base IRI used to resolve the relative IRIs in the serialization. 4. `to_named_graph`: for triple serialization formats, the name of the named graph the triple should be loaded to. The available formats are: * [Turtle](https://www.w3.org/TR/turtle/): `text/turtle` * [TriG](https://www.w3.org/TR/trig/): `application/trig` * [N-Triples](https://www.w3.org/TR/n-triples/): `application/n-triples` * [N-Quads](https://www.w3.org/TR/n-quads/): `application/n-quads` * [RDF XML](https://www.w3.org/TR/rdf-syntax-grammar/): `application/rdf+xml` Example of loading a Turtle file into the named graph `` with the base IRI `http://example.com`: ```python store.load(' <> .', mime_type='text/turtle', base_iri="http://example.com", to_graph=NamedNode('http://example.com/graph')) ``` ## How to contribute The Oxigraph bindings are written in Rust using [PyO3](https://github.com/PyO3/pyo3). They are build using [Maturin](https://github.com/PyO3/maturin). Maturin could be installed using the usual `pip install maturin`. To install development version of Oxigraph just run `maturin develop`. The Python bindings tests are written in Python. To run them use the usual `python -m unittest` in the `tests` directory.