rdflib-endpoint
is a SPARQL endpoint based on RDFLib to easily serve RDF files locally, machine learning models, or any other logic implemented in Python via custom SPARQL functions.
It aims to enable python developers to easily deploy functions that can be queried in a federated fashion using SPARQL. For example: using a python function to resolve labels for specific identifiers, or run a classifier given entities retrieved using a SERVICE
query to another SPARQL endpoint.
Feel free to create an issue, or send a pull request if you are facing issues or would like to see a feature implemented.
rdflib-endpoint
can be used directly from the terminal to quickly serve RDF files through a SPARQL endpoint automatically deployed locally.
It can also be used to define custom SPARQL functions: the user defines and registers custom SPARQL functions, and/or populate the RDFLib Graph using Python, then the endpoint is started using uvicorn
/gunicorn
.
The deployed SPARQL endpoint can be used as a SERVICE
in a federated SPARQL query from regular triplestores SPARQL endpoints. Tested on OpenLink Virtuoso (Jena based) and Ontotext GraphDB (RDF4J based). The endpoint is CORS enabled by default to enable querying it from client JavaScript (can be turned off).
Built with RDFLib and FastAPI.
This package requires Python >=3.8, install it from PyPI with:
pip install rdflib-endpoint
The uvicorn
and gunicorn
dependencies are not included by default, if you want to install them use the optional dependency web
:
pip install "rdflib-endpoint[web]"
If you want to use rdlib-endpoint
as a CLI you can install with the optional dependency cli
:
pip install "rdflib-endpoint[web,cli]"
If you want to use oxigraph as backend triplestore you can install with the optional dependency oxigraph
:
pip install "rdflib-endpoint[web,cli,oxigraph]"
Warning
Oxigraph and oxrdflib
do not support custom functions, so it can be only used to deploy graphs without custom functions.
rdflib-endpoint
can be used from the command line interface to perform basic utility tasks, such as serving or converting RDF files locally.
Make sure you installed rdflib-endpoint
with the cli
optional dependencies:
pip install "rdflib-endpoint[cli]"
Use rdflib-endpoint
as a command line interface (CLI) in your terminal to quickly serve one or multiple RDF files as a SPARQL endpoint.
You can use wildcard and provide multiple files, for example to serve all turtle, JSON-LD and nquads files in the current folder you could run:
rdflib-endpoint serve *.ttl *.jsonld *.nq
Then access the YASGUI SPARQL editor on http://localhost:8000
If you installed with the Oxigraph optional dependency you can use it as backend triplestore, it is faster and supports some functions that are not supported by the RDFLib query engine (such as COALESCE()
):
rdflib-endpoint serve --store Oxigraph "*.ttl" "*.jsonld" "*.nq"
rdflib-endpoint
can also be used to quickly merge and convert files from multiple formats to a specific format:
rdflib-endpoint convert "*.ttl" "*.jsonld" "*.nq" --output "merged.trig"
rdflib-endpoint
enables you to easily define and deploy SPARQL endpoints based on RDFLib Graph, ConjunctiveGraph, and Dataset. Additionally it provides helpers to defines custom functions in the endpoint.
Checkout the example
folder for a complete working app example to get started, including a docker deployment. A good way to create a new SPARQL endpoint is to copy this example
folder, and start from it.
Deploy your SPARQL endpoint as a standalone API:
from rdflib import ConjunctiveGraph
from rdflib_endpoint import SparqlEndpoint
# Start the SPARQL endpoint based on a RDFLib Graph and register your custom functions
g = ConjunctiveGraph()
# TODO: Add triples in your graph
# Then use either SparqlEndpoint or SparqlRouter, they take the same arguments
app = SparqlEndpoint(
graph=g,
path="/",
cors_enabled=True,
# Metadata used for the SPARQL service description and Swagger UI:
title="SPARQL endpoint for RDFLib graph",
description="A SPARQL endpoint to serve machine learning models, or any other logic implemented in Python. \n[Source code](https://github.com/vemonet/rdflib-endpoint)",
version="0.1.0",
public_url='https://your-endpoint-url/',
# Example query displayed in YASGUI default tab
example_query="""PREFIX myfunctions: <https://w3id.org/um/sparql-functions/>
SELECT ?concat ?concatLength WHERE {
BIND("First" AS ?first)
BIND(myfunctions:custom_concat(?first, "last") AS ?concat)
}""",
# Additional example queries displayed in additional YASGUI tabs
example_queries = {
"Bio2RDF query": {
"endpoint": "https://bio2rdf.org/sparql",
"query": """SELECT DISTINCT * WHERE {
?s a ?o .
} LIMIT 10""",
},
"Custom function": {
"query": """PREFIX myfunctions: <https://w3id.org/um/sparql-functions/>
SELECT ?concat ?concatLength WHERE {
BIND("First" AS ?first)
BIND(myfunctions:custom_concat(?first, "last") AS ?concat)
}""",
}
}
)
Finally deploy this app using uvicorn
(see below)
Deploy your SPARQL endpoint as an APIRouter
to include in an existing FastAPI
API. The SparqlRouter
constructor takes the same arguments as the SparqlEndpoint
, apart from enable_cors
which needs be enabled at the API level.
from fastapi import FastAPI
from rdflib import ConjunctiveGraph
from rdflib_endpoint import SparqlRouter
g = ConjunctiveGraph()
sparql_router = SparqlRouter(
graph=g,
path="/",
# Metadata used for the SPARQL service description and Swagger UI:
title="SPARQL endpoint for RDFLib graph",
description="A SPARQL endpoint to serve machine learning models, or any other logic implemented in Python. \n[Source code](https://github.com/vemonet/rdflib-endpoint)",
version="0.1.0",
public_url='https://your-endpoint-url/',
)
app = FastAPI()
app.include_router(sparql_router)
TODO: add docs to integrate to a Flask app
This option makes it easier to define functions in your SPARQL endpoint, e.g. BIND(myfunction:custom_concat("start", "end") AS ?concat)
. It can be used with the SparqlEndpoint
and SparqlRouter
classes.
Create a app/main.py
file in your project folder with your custom SPARQL functions, and endpoint parameters:
import rdflib
from rdflib import ConjunctiveGraph
from rdflib.plugins.sparql.evalutils import _eval
from rdflib_endpoint import SparqlEndpoint
def custom_concat(query_results, ctx, part, eval_part):
"""Concat 2 strings in the 2 senses and return the length as additional Length variable
"""
# Retrieve the 2 input arguments
argument1 = str(_eval(part.expr.expr[0], eval_part.forget(ctx, _except=part.expr._vars)))
argument2 = str(_eval(part.expr.expr[1], eval_part.forget(ctx, _except=part.expr._vars)))
evaluation = []
scores = []
# Prepare the 2 result string, 1 for eval, 1 for scores
evaluation.append(argument1 + argument2)
evaluation.append(argument2 + argument1)
scores.append(len(argument1 + argument2))
scores.append(len(argument2 + argument1))
# Append the results for our custom function
for i, result in enumerate(evaluation):
query_results.append(eval_part.merge({
part.var: rdflib.Literal(result),
# With an additional custom var for the length
rdflib.term.Variable(part.var + 'Length'): rdflib.Literal(scores[i])
}))
return query_results, ctx, part, eval_part
# Start the SPARQL endpoint based on a RDFLib Graph and register your custom functions
g = ConjunctiveGraph()
# Use either SparqlEndpoint or SparqlRouter, they take the same arguments
app = SparqlEndpoint(
graph=g,
path="/",
# Register the functions:
functions={
'https://w3id.org/um/sparql-functions/custom_concat': custom_concat
},
cors_enabled=True,
# Metadata used for the SPARQL service description and Swagger UI:
title="SPARQL endpoint for RDFLib graph",
description="A SPARQL endpoint to serve machine learning models, or any other logic implemented in Python. \n[Source code](https://github.com/vemonet/rdflib-endpoint)",
version="0.1.0",
public_url='https://your-endpoint-url/',
# Example queries displayed in the Swagger UI to help users try your function
example_query="""PREFIX myfunctions: <https://w3id.org/um/sparql-functions/>
SELECT ?concat ?concatLength WHERE {
BIND("First" AS ?first)
BIND(myfunctions:custom_concat(?first, "last") AS ?concat)
}"""
)
You can also directly provide the custom evaluation function, this will override the functions
.
Refer to the RDFLib documentation to define the custom evaluation function. Then provide it when instantiating the SPARQL endpoint:
import rdflib
from rdflib.plugins.sparql.evaluate import evalBGP
from rdflib.namespace import FOAF, RDF, RDFS
def custom_eval(ctx, part):
"""Rewrite triple patterns to get super-classes"""
if part.name == "BGP":
# rewrite triples
triples = []
for t in part.triples:
if t[1] == RDF.type:
bnode = rdflib.BNode()
triples.append((t[0], t[1], bnode))
triples.append((bnode, RDFS.subClassOf, t[2]))
else:
triples.append(t)
# delegate to normal evalBGP
return evalBGP(ctx, triples)
raise NotImplementedError()
app = SparqlEndpoint(
graph=g,
custom_eval=custom_eval
)
You can then run the SPARQL endpoint server from the folder where your script is defined with uvicorn
on http://localhost:8000 (it is installed automatically when you install the rdflib-endpoint
package)
uvicorn main:app --app-dir example/app --reload
Checkout in the
example/README.md
for more details, such as deploying it with docker.
Here are some projects using rdflib-endpoint
to deploy custom SPARQL endpoints with python:
- The Bioregistry, an open source, community curated registry, meta-registry, and compact identifier resolver.
- proycon/codemeta-server, server for codemeta, in memory triple store, SPARQL endpoint and simple web-based visualisation for end-user
To run the project in development and make a contribution checkout the contributing page.