This repo contains an RDF data shapes library implemented in Rust. The implementation supports ShEx, SHACL, DCTap and conversions between different RDF data modeling formalisms.
The code can be used as a Rust library but it also contains a binary called rdfsx which can be used as an RDF playground.
We provide binaries for Linux, Windows, Mac and Docker (see releases), as well as Python bindings.
You can download a binary from the latest release page. There you will also find the compiled packages for the installation on your system using a package manager.
Download the binary from [https://github.com/weso/shapes-rs/releases] and install the .deb package running the following commands after replacing X.X.X by the latest version:
wget https://github.com/weso/shapes-rs/releases/download/X.X.X/rdfsx_vX.X.X_amd64.deb
sudo dpkg -i rdfsx_vX.X.X_amd64.deb
The binary can be downloaded from [https://github.com/weso/shapes-rs/releases]
The binary is available at: [https://github.com/weso/shapes-rs/releases]
Compiling from source
shapes-rs has been implemented in Rust and is compiled using cargo. The command cargo run can be used to compile and run locally the code.
For example:
cargo run -- validate --data examples/user.ttl --schema examples/user.shex --shapemap examples/user.sm
Install cargo deb (only the first time)
cargo install cargo-deb
Create the .deb package by:
cargo deb
And run:
sudo dpkg -i target/debian/shapes-rs_0.0.11-1_amd64.deb
The library is also published as a Docker image.
The folder examples contains several example files with ShEx schemas and RDF data.
rdfsx validate --data examples/user.ttl --schema examples/user.shex --shapemap examples/user.smWe maintain a Wiki page with some common Usage scenarios and How-to guides.
It is possible to change the debug level information with:
export RUST_LOG=valuewhere value can be debug to show more verbose information or info to show basic information.
RDF Data shapes implementation in Rust
Usage: rdfsx [OPTIONS] [COMMAND]
Commands:
shapemap Information about ShEx shapemaps
shex Information about ShEx schemas
validate RDF Validation using ShEx or SHACL
shex-validate RDF Validation using ShEx schemas
shacl-validate RDF Validation using SHACL shapes
data Information about RDF data
node Information about RDF nodes which are part of RDF Graphs
shacl Information about SHACL shapes
dctap Information and processing of DCTAP files
convert Conversion between different Data modeling technologies
help Print this message or the help of the given subcommand(s)
Options:
-d, --debug...
-h, --help Print help (see more with '--help')
-V, --version Print version$ rdfsx shex --help
Information about ShEx schemas
Usage: rdfsx shex [OPTIONS] --schema <Schema file name>
Options:
-s, --schema <Schema file name>
-f, --format <Schema format>
[default: shexc] [possible values: internal, shexc, shexj, turtle, ntriples, rdfxml, trig, n3, nquads]
-r, --result-format <Result schema format>
[default: shexj] [possible values: internal, shexc, shexj, turtle, ntriples, rdfxml, trig, n3, nquads]
-t, --show elapsed time
--statistics
-o, --output-file <Output file name, default = terminal>
-h, --help
Print help$ rdfsx data --help
Information about RDF data
Usage: rdfsx data [OPTIONS] --data <RDF data path>
Options:
-d, --data <RDF data path>
-t, --data-format <RDF Data format>
[default: turtle] [possible values: turtle, ntriples, rdfxml, trig, n3, nquads]
-o, --output-file <Output file name, default = terminal>
-h, --help
Print helpThis command can be useful to obtain the neighbourhood of a node.
$ rdfsx node --help
Information about RDF nodes which are part of RDF Graphs
Usage: rdfsx node [OPTIONS] --node <NODE>
Options:
-n, --node <NODE>
-d, --data <RDF data path>
-t, --data-format <RDF Data format>
[default: turtle] [possible values: turtle, ntriples, rdfxml, trig, n3, nquads]
-e, --endpoint <Endpoint with RDF data>
-m, --show-node-mode <Show Node Mode>
[default: outgoing] [possible values: outgoing, incoming, both]
--show hyperlinks
-p, --predicates <PREDICATES>
-o, --output-file <Output file name, default = terminal>
-h, --help
Print helpFor example, the following command shows the neighbourhood of node wd:Q80 in the Wikidata endpoint.
rdfsx node -e wikidata -n wd:Q80$ rdfsx validate --help
RDF Validation using ShEx or SHACL
Usage: rdfsx validate [OPTIONS] --schema <Schema file name>
Options:
-M, --mode <Validation mode>
[default: shex] [possible values: shex, shacl]
-s, --schema <Schema file name>
-f, --schema-format <Schema format>
[default: shexc] [possible values: internal, shexc, shexj, turtle, ntriples, rdfxml, trig, n3, nquads]
-m, --shapemap <ShapeMap file name>
--shapemap-format <ShapeMap format>
[default: compact] [possible values: compact, internal]
-n, --node <NODE>
-l, --shape-label <shape label (default = START)>
-d, --data <RDF data path>
-t, --data-format <RDF Data format>
[default: turtle] [possible values: turtle, ntriples, rdfxml, trig, n3, nquads]
-e, --endpoint <Endpoint with RDF data>
--max-steps <max steps to run>
[default: 100]
-o, --output-file <Output file name, default = terminal>
-h, --help
Print help
Example: Assuming there a ShEx file in examples/user.shex and an RDF turtle file in examples/user.ttl we can ask to validate node :a with shape label :User using:
rdfsx validate -s examples/user.shex -d examples/user.ttl -n :a -l :UserIf there is a shapemap in examples/user.sm, we can validate using:
rdfsx validate -s examples/user.shex -d examples/user.ttl -m examples/user.smrdfsx shacl-validate --shapes examples/simple_shacl.ttl --data examples/simple.ttl$ rdfsx convert --help
Conversion between different Data modeling technologies
Usage: rdfsx convert [OPTIONS] --input-mode <Input mode> --source-file <Source file name> --export-mode <Result mode>
Options:
-m, --input-mode <Input mode>
[possible values: shex, dctap]
-s, --source-file <Source file name>
-f, --format <Input file format>
[default: shexc] [possible values: csv, shexc, shexj, turtle]
-r, --result-format <Result format>
[default: default] [possible values: default, internal, json, shexc, shexj, turtle, plantuml, html, svg, png]
-o, --output-file <Output file name, default = terminal>
-t, --target-folder <Target folder>
-l, --shape-label <shape label (default = START)>
-x, --export-mode <Result mode>
[possible values: sparql, shex, uml, html]
-h, --help
Print helpThe repo is divided in the following modules:
- iri_s defines simple IRIs.
- srdf simple RDF model which will be used for validation.
- prefixmap Prefix maps implementation.
- shapemap ShapeMap implementation.
- shex_ast defines the ShEx Abstract syntax
- shex_compact contains the code required to handle ShEx compact syntax.
- shex_validation contains the code required to validate RDF using ShEx.
- shex_testsuite contains the code required to run the ShEx testsuite.
- shacl_ast defines the SHACL core Abstract syntax.
- shacl_validation contains the code required to validate RDF using SHACL.
- dctap contains the code required to do handle DCTAP files.
- shapes_converter contains the code required to do conversion between different shapes formalisms.
cargo workspaces publish The project is using cargo workspaces wihch can be installed with:
cargo install cargo-workspaces
In order to test all the sub-projects
cargo test --all
Testing one specific subproject:
cargo test -p shex_validation
The ShEx testsuite is included in a git submodule. In order to obtain it, it is necessary to do:
git submodule update --init --recursive
cargo run -p shex_testsuiteUsage: shex_testsuite [OPTIONS]
Options:
-m, --manifest <Manifest FILE (.jsonld)>
Name of Manifest file [default: shex_testsuite/shexTest/validation/manifest.jsonld]
-c, --config <Config file>
[default: shex_testsuite/config.yml]
-x, --run_mode <MANIFEST_RUN_MODE>
[default: collect-errors] [possible values: collect-errors, fail-first-error]
-f, --manifest_mode <MANIFEST_MODE>
[possible values: schemas, validation, negative-syntax, negative-structure]
-p, --print_result_mode <PRINT_RESULT_MODE>
[default: basic] [possible values: basic, failed, passed, not-implemented, all]
-e, --entry <Entry names>
-t, --trait <Trait names>
-h, --help
Print help
-V, --version
Print versioncargo run -p shex_testsuite -- -m shex_testsuite/shexTest/validation/manifest.jsonld validation
cargo run -p shex_testsuite -- -m shex_testsuite/shexTest/schemas/manifest.jsonld -f schemas -p failedLicensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.