Command-line tool and library to extract taxonomies from Wikidata.
wikidata-taxonomy requires at least NodeJs version 6.
Install globally to make command wdtaxonomy
accessible from your shell $PATH
:
$ npm install -g wikidata-taxonomy
Installation and usage as module and in web applications is described below.
This module provides the command wdtaxonomy
. By default, a usage help is printed:
$ wdtaxonomy
Usage: wdtaxonomy [options] <id>
extract taxonomies from Wikidata
Options:
-V, --version output the version number
-b, --brief omit counting instances and sites
-c, --children get direct subclasses only
-C, --color enforce color output
-d, --descr include item descriptions
-e, --sparql-endpoint <url> customize the SPARQL endpoint
-f, --format <txt|csv|tsv|json|ndjson> output format
-i, --instances include instances
-I, --no-instancecount omit counting instances
-j, --json use JSON output format
-l, --lang <lang> specify the language to use
-L, --no-labels omit all labels
-m, --mappings <ids> mapping properties (e.g. P1709)
-n, --no-colors disable color output
-o, --output <file> write result to a file
-P, --property <id> hierarchy property (e.g. P279)
-R, --prune <criteria> prune hierarchies (e.g. mappings)
-p, --post use HTTP POST to disable caching
-r, --reverse get superclasses instead
-s, --sparql print SPARQL query and exit
-S, --no-sitecount omit counting sites
-t, --total count total number of instances
-u, --user <name> user to the SPARQL endpoint
-U, --uris show full URIs in output formats
-v, --verbose make the output more verbose
-w, --password <string> password to the SPARQL endpoint
-h, --help output usage information
The first arguments needs to be a Wikidata identifier to be used as root of the taxonomy. For instance extract a taxonomy of planets (Q634):
$ wdtaxonomy Q634
To look up by label, use wikidata-cli (e.g wd id planet
or wd f planet
).
The extracted taxonomy by default is based on statements using the property "subclass of" (P279) or "subproperty of" (P1647). Taxonomy extraction and output can be controlled by several options. Option --sparql
(or -s
) prints the underlying SPARQL queries instead of executing them.
Direct subclasses of planet (Q634) with description and mappings:
$ wdtaxonomy Q634 -c -d -m =
The hierarchy properties P279 ("subclass of") and P31 ("instance of") to build taxonomies from can be changed with option property
(-P
).
Members of (P463) the European Union (Q458):
$ wdtaxonomy Q458 -P P463
Members of (P463) the European Union (Q458) and number of its citizens in Wikidata (P27):
$ wdtaxonomy Q458 -P 463/27
Wikiversity (Q370) editions mapped to their homepage URL (P856):
$ wdtaxonomy Q370 -i -m P856
Biological taxonomy of mammals (Q7377):
$ wdtaxonomy Q7377 -P P171 --brief
Property constraints (Q21502402) with number of properties that have each constraint:
$ wdtaxonomy Q21502402 -P 279,2302
As Wikidata is no strict ontology, subproperties are not factored in. For instance this query does not include members of the European Union although P463 is a subproperty of P361.
Parts of (P361) the European Union (Q458):
$ wdtaxonomy Q458 -P P361
A taxonomy of subproperties can be queried like taxonomies of items. The hierarchy property is set to P1647 ("subproperty of") by default:
$ wdtaxonomy P361
$ wdtaxonomy P361 -P P1647 # equivalent
Subproperties of "part of" (P361) and which of them have an inverse property (P1696):
$ wdtaxonomy P361 -P P1647/P1696
Inverse properties are neither factored in so queries like these do not necessarily return the same results:
What hand (Q33767) is part of (P361):
$ wdtaxonomy Q33767 -P 361 -r
What parts the hand (Q33767) has (P527):
$ wdtaxonomy Q33767 -P 527
Don't count instance and sites. Same as -S/--no-sitecount
and -I/--no-instancecount
.
Get direct subclasses only
Include item descriptions
SPARQL endpoint to query (default: https://query.wikidata.org/sparql)
Include instances
Don't count number of instances
Language to get labels in (default: en
)
Omit all labels. This allows for querying larger taxonomies (several thousands of classes), especially if combined with option --brief
.
Lookup mappings based on given comma-separated properties such as P1709 (equivalent class). The following keywords can be used as shortcuts:
equal
or=
: equivalent property (P1628), equivalent class (P1709), and exact match (P2888)broader
: external superproperty (P2235)narrower
: narrower external class (P3950), external subproperty (P2236)class
: properties for mapping classesproperty
: properties for mapping propertiesall
all properties for ontology mapping (instances of Q30249126)
Get superclasses instead of subclasses up to the root
Don't count number of sites
Count total (transitive) number of instances, including instances of subclasses
Use HTTP POST to disable caching
Don't actually perform a query but print SPARQL query and exit
User to the SPARQL endpoint
Password to the SPARQL endpoint
enable color output if it's disabled (e.g. when output is piped or written to a file)
Output format
Use JSON output format. Same as --format json
but shorter.
disable color output
write result to a file given by name
prune hierarchy to all entries with any of a given criteria plus their broader concepts and all top concepts:
mappings
: has mappingssites
: has sitesinstances
: has instancesoccurences
: has sites or instances
Multiple criteria can be combined as alternatives with comma.
Show full URIs in output formats, e.g. http://www.wikidata.org/entity/Q1 instead of Q1
Show verbose error messages
By default, the taxonomy is printed in "text
" format with colored Unicode characters:
$ wdtaxonomy Q17362350
planet of the Solar System (Q17362350) •2 ↑
├──outer planet (Q30014) •25 ×4 ↑↑
└──inner planets (Q3504248) •8 ×4 ↑↑
The output contains item labels, Wikidata identifiers, the number of Wikimedia
sites connected to each item (indicated by bullet character "•
"), the number
of instances (property P31), indicated by a multiplication sign "×
"), and
an upwards arrow ("↑
") as indicator for additional superclasses.
Option "--instances
" (or "-i
") explicitly includes instances:
$ wdtaxonomy -i Q17362350
planet of the Solar System (Q17362350) •2 ↑
├──outer planet (Q30014) •25 ↑↑
| -Saturn (Q193)
| -Jupiter (Q319)
| -Uranus (Q324)
| -Neptune (Q332)
└──inner planets (Q3504248) •8 ↑↑
-Earth (Q2)
-Mars (Q111)
-Mercury (Q308)
-Venus (Q313)
Classes that occur at multiple places in the taxonomy (multihierarchy) are marked like in the following example:
$ wdtaxonomy Q634
planet (Q634) •202 ×7 ↑
├──extrasolar planet (Q44559) •88 ×833 ↑
| ├──circumbinary planet (Q205901) •15 ×10
| ├──super-Earth (Q327757) •32 ×46 ↑
...
├──terrestrial planet (Q128207) •70 ×7
| ╞══super-Earth (Q327757) •32 ×46 ↑ …
...
Option --format json
serializes the taxonomy as JSON object. The format follows specification of JSKOS Concept Schemes:
{
"type": [ "http://www.w3.org/2004/02/skos/core#ConceptScheme" ],
"modified": "2017-11-06T10:25:54.966Z",
"license": [
{
"uri": "http://creativecommons.org/publicdomain/zero/1.0/",
"notation": [ "CC0" ]
}
],
"languages": [ "en" ],
"topConcepts": [
{ "uri": "http://www.wikidata.org/entity/Q17362350" }
],
"concepts": [ ]
}
Field concepts
contains an array of all extracted Wikidata entities (usually classes and instances) as JSKOS Concepts:
{
"uri": "http://www.wikidata.org/entity/Q17362350",
"notation": [ "Q17362350" ],
"prefLabel": {
"en": "planet of the Solar System"
},
"scopeNote": {
"en": [ "inner and outer planets of our solar system" ]
},
"broader": [
{ "uri": "http://www.wikidata.org/entity/Q634" }
],
"narrower": [
{ "uri": "http://www.wikidata.org/entity/Q30014" },
{ "uri": "http://www.wikidata.org/entity/Q3504248" }
]
}
Instances (option --instances
) are linked via field subjectOf
the same way as field broader
and narrower
.
The number of instances and sites, if counted is given as array of JSKOS Concept Occurrences in field occurrences
, each identified by subfield relation
:
{
"uri": "http://www.wikidata.org/entity/Q30014",
"notation": [ "Q30014" ],
"prefLabel": {
"en": "outer planet of the Solar system"
},
"occurrences": [
{
"relation": "http://www.wikidata.org/entity/P31",
"count": 4
},
{
"relation": "http://schema.org/about",
"count": 25
}
]
}
Mappings (option --mappings
) are stored in field mappings
as array of JSKOS Concept Mappings:
[
{
"from": {
"memberSet": [
{ "uri": "http://www.wikidata.org/entity/Q634" }
]
},
"to": {
"memberSet": [
{ "uri": "http://dbpedia.org/ontology/Planet" }
]
},
"type": [
"http://www.w3.org/2004/02/skos/core#exactMatch",
"http://www.w3.org/2002/07/owl#equivalentClass",
"http://www.wikidata.org/entity/P1709"
]
}
]
The mapping type is given in field type
with the Wikidata property URI as last array element and the SKOS mapping relation URI as first.
Option --format ndjson
serializes JSON field concepts
with one record per line. The order if records is same as in txt, json, and csv format but each concept is only included once.
CSV and TSV format are optimized for comparing differences in time. Each output row consists of five fields:
-
level in the hierarchy indicated by zero or more "
-
" (default) or "=
" characters (multihierarchy). -
id of the item. Items on the same level are sorted by their id.
-
label of the item. Language can be selected with option
--language
. The label in csv format is quoted. -
sites: number of connected sites (Wikipedia and related project editions). Larger numbers may indicate more established concepts.
-
parents outside of the hierarchy, indicated by zero or more "
^
" characters.
For instance the CSV output for Q634 would be like this:
$ wdtaxonomy -f csv Q634
level,id,label,sites,instances,parents
,Q634,"planet",196,7,^
-,Q44559,"extrasolar planet",81,833,^
--,Q205901,"circumbinary planet",14,10,
--,Q327757,"super-Earth",32,46,
...
-,Q128207,"terrestrial planet",67,7,
==,Q327757,"super-Earth",32,46,
...
In this example there are 196 Wikipedia editions or other sites with an article
about planets and seven Wikidata items are direct instance of a planet. At the
end of the line "^
" indicates that "planet" has one superclass. In the next
rows "extrasolar planet" (Q44559) is a subclass of planet with another
superclass indicated by "^
". Both "circumbinary planet" and "super-Earth" are
subclasses of "extrasolar planet". The latter also occurs as subclass of
"terrestrial planet" where it is marked by "==
" instead of "--
".
Add wikidata-taxonomy
as dependency to you package.json
:
$ npm install wikidata-taxonomy --save
The library provides:
-
queryTaxonomy(id, options)
returns a promise with a taxonomy extracted from Wikidata as JSKOS Concept Scheme. See JSON format of the command line client for documentation.const { queryTaxonomy } = require('wikidata-taxonomy') var options = { lang: 'fr', brief: true } queryTaxonomy('Q634', lang) .then(taxonomy => { taxonomy.concepts.forEach(concept => { var qid = concept.notation[0] var label = (concept.prefLabel || {}).fr || '???' console.log('%s %s', qid, label) }) }) .catch(error => console.error("E",error))
Options roughly equivalent command line query options:
- boolean flags
brief
,children
,description
,labels
,total
,instances
,instancecount
,sitecount
,reverse
,post
- SPARQL endpoint configuration with
endpoint
,user
,password
- language tag
language
orlang
- array
property
(set to['P279', 'P31']
by default) - array or string
mappings
- boolean flags
-
serializeTaxonomy
contains serializers to be called with a taxonomy, an output stream, and optional configuration:const { serializeTaxonomy } = require('wikidata-taxonomy') // serialize taxonomy to stream serializeTaxonomy.csv(taxonomy, process.stdout) serializeTaxonomy.txt(taxonomy, process.stdout, {colors: true}) // FIXME serializeTaxonomy.json(taxonomy, process.stdout) serializeTaxonomy.ndjson(taxonomy, process.stdout)
Experimental support of this library in web application is given with file wikidata-taxonomy.js
in directoy dist
. The gh-pages
branch contains a sample application, also available at http://jakobvoss.de/wikidata-taxonomy/.
Requires wikidata-sdk and a HTTP client library. The latter can be attached to window.requestPromise
(before wikidata-taxonomy is loaded). Axios is detected by default.
<html>
<head>
<script src="https://unpkg.com/wikidata-sdk/dist/wikidata-sdk.min.js"></script>
<script src="https://unpkg.com/axios/dist/axios.min.js"></script>
<script src="https://unpkg.com/wikidata-taxonomy/dist/wikidata-taxonomy.min.js"></script>
</head>
<body>
...
</body>
</html>
Release notes are listed in file CHANGES.md in the source code repository.
This document
Related tools
- wikidata-sdk is used by this module
- wikidata-cli provide more generic command line tools for Wikidata
- taxonomy browser is a web application based on Wikidata dumps
- Wikidata Graph Builder another web application
- wdmapper Wikidata authority file mapping tool
- Wikidata ontology explorer
Publications
- Jakob Voß (2016): Classification of Knowledge Organization Systems with Wikidata. CEUR Workshop Proceedings 1676. http://ceur-ws.org/Vol-1676/paper2.pdf (=Q27261879)