The Eclipse Layout Kernel (ELK) implements an infrastructure to connect diagram editors or viewers to automatic layout algorithms. This library takes the layout-relevant part of ELK and makes it available to the JavaScript world. ELK's flagship is a layer-based layout algorithm that is particularly suited for node-link diagrams with an inherent direction and ports (explicit attachment points on a node's border). It is based on the ideas originally introduced by Sugiyama et al. An example can be seen in the screenshot below.
Note that elkjs is not a diagramming framework itself - it computes positions for the elements of a diagram.
elkjs is the successor of klayjs.
Demonstrator
You can see elkjs live in action in conjunction with TypeFox's sprotty diagramming framework.
FAQs and Recurring Issues
The following list includes some recurring topics that may have been addressed in issues already:
-
#100, elk#355, elk#627 - How to consider previous layout results, including
- dynamic layout, and
- incrementally adding nodes and edges to an existing layout.
-
elk#315: Standalone edge routing.
-
#85 elkjs itself is a graph layout engine only. In other words, no rendering, styling, etc. is provided.
-
#127, #141, #142 - Issues due to the underlying code transpilation by GWT and/or due to the outdated usage of js modules:
g is not defined
,Can't resolve web-worker
, and- general usage as part of react, webpack, etc.
- #6 Poor modularization
- Contributions here are welcome!
Installation
The latest released version:
npm install elkjs
Development version based on ELK's master
branch.
npm install elkjs@next
Releases and Versioning
Releases are partly synchronized with ELK's versions: the minor version number is always the same but the revision number may diverge. For instance, elkjs 0.3.0 equals the functionality of ELK 0.3.0 but elkjs 0.3.2 may be different from ELK 0.3.2. This is necessary as there may be fixes that solely concern elkjs and should be released independently of ELK.
Files
The library consists of two main files:
elk-api.js
: Provides the API and only the API.elk-worker.js
: Provides the code that actually knows how to lay out a graph. This is the file that is generated from ELK's Java code base using GWT.
Two further files are provided:
elk.bundled.js
: A bundled version of the two previous files, ready to be dropped into a browser's<script>
tag. The file is processed by browserify and theELK
is exposed as a global variable (if run in a browser).main.js
: Main file of the node.js module. Allows to conveniently writerequire('elkjs')
instead of composing the files from above.
Example
A small example using node.js, for further use cases see the next section.
const ELK = require('elkjs')
const elk = new ELK()
const graph = {
id: "root",
layoutOptions: { 'elk.algorithm': 'layered' },
children: [
{ id: "n1", width: 30, height: 30 },
{ id: "n2", width: 30, height: 30 },
{ id: "n3", width: 30, height: 30 }
],
edges: [
{ id: "e1", sources: [ "n1" ], targets: [ "n2" ] },
{ id: "e2", sources: [ "n1" ], targets: [ "n3" ] }
]
}
elk.layout(graph)
.then(console.log)
.catch(console.error)
Note that in case you get errors, you may want to switch to the non-minified version to get a proper stack trace.
Layout Options
You can use layout options to configure the layout algorithm.
For that you attach a layoutOptions
object
to the graph element that holds key/value pairs
representing the desired layout options.
See, for instance, root
in the example above.
It is possible to only use the suffix of a layout option:
algorithm
instead of org.eclipse.elk.layered
.
However, if the suffix is not unique the layout option
may be ignored. To be safe, you should always start the
layout options with the elk.
part.
A list of all options and further details of their exact effects
is available in ELK's documentation.
It is possible to pass global layout options
as part of the layout
method's second argument.
The options are then applied to every graph element
unless the element specifies the option itself:
elk.layout(graph, {
layoutOptions: { ... }
})
Additionally, ELK
's constructor accepts an object
with layout options that is used with every
layout
call that does not specify layout options:
const elk = new ELK({
defaultLayoutOptions: { ... }
})
Usage
Since laying out diagrams can be a time-consuming job (even for the computer), and since we don't want to freeze your UI, Web Workers are supported out of the box. The following examples illustrate how the library can be used either with and without a Web Worker.
node.js
const ELK = require('elkjs')
// without web worker
const elk = new ELK()
elk.layout(graph)
.then(console.log)
const ELK = require('elkjs')
// with web worker
const elk = new ELK({
workerUrl: './node_modules/elkjs/lib/elk-worker.min.js'
})
elk.layout(graph)
.then(console.log)
Since version 10.x, node.js comes with a worker threads implementation that is similar to,
but not equal to, a browser's Worker
class.
To ease implementation on our side, we use a library, web-worker
,
that provides a wrapper around node's worker_threads
, which is API-compatible to a browser's `Worker.
Any other library that provides the standard Web Worker methods should be fine though.
The package is not installed automatically to avoid
the unnecessary dependency for everyone who is not
interested in using a web worker.
A warning is raised if one requests a web worker
without having installed the package.
elkjs falls back to the non-Web Worker version in that case.
Browser
<html>
<script src="./elk.bundled.js"></script>
<script type="text/javascript">
const elk = new ELK()
elk.layout(graph)
.then(function(g) {
document.body.innerHTML = "<pre>" + JSON.stringify(g, null, " ") + "</pre>"
})
</script>
</html>
<html>
<script src="./elk-api.js"></script> <!-- use elk-api.js here! -->
<script type="text/javascript">
const elk = new ELK({
workerUrl: './elk-worker.js'
})
elk.layout(graph)
.then(function(g) {
document.body.innerHTML = "<pre>" + JSON.stringify(g, null, " ") + "</pre>"
})
</script>
</html>
Typescript
import ELK from 'elkjs/lib/elk.bundled.js'
const elk = new ELK()
import ELK from 'elkjs/lib/elk-api'
const elk = new ELK({
workerUrl: './elk-worker.min.js'
})
Debugging
For debugging purposes you may want to use the non-minified versions that are available as well. In this case the non-minified webworker version can be configured like so:
const ELK = require('elkjs/lib/elk-api.js')
const elk = new ELK({
workerFactory: function(url) { // the value of 'url' is irrelevant here
const { Worker } = require('elkjs/lib/elk-worker.js') // non-minified
return new Worker(url)
}
})
API
The elkjs library provides a single object: the ELK
. The ELK
has a constructor that can be used
to construct it:
new ELK(options)
- theELK
can be fed with options, all of which are optional:defaultLayoutOptions
- an object with default layout options specified as key/value pairs that are used if no further layout options are passed to thelayout(graph, options)
method (see below). Default:{}
.algorithms
- an array of algorithm ids (only the suffix). Default:[ 'layered', 'stress', 'mrtree', 'radial', 'force', 'disco' ]
. Note that thebox
,fixed
, andrandom
layouters are always included.workerUrl
- a path to theelk-worker.js
script. As a consequence theELK
will use a Web Worker to execute the layout. Default:undefined
.
Apart from that the ELK
offers the following methods:
layout(graph, options)
graph
- the graph to be laid out in ELK JSON. Mandatory!options
- a configuration object. Optional.layoutOptions
: its most important purpose is to pass global layout options. That is, layout options that are applied to every graph element unless the element specifies the option itself.logging
: boolean (since 0.6.0). Whether logging information shall be passed back as part of the laid out graph.false
by default.measureExecutionTime
: boolean (since 0.6.0). Whether execution time (in seconds) information shall be passed back as part of the laid out graph.false
by default.
- returns a
Promise
, which passes either the laid out graph on success or a (hopefully helpful) error on failure.
knownLayoutOptions()
- returns an array of of known layout options. For each option additional information
such as its
id
andgroup
is given.
- returns an array of of known layout options. For each option additional information
such as its
knownLayoutAlgorithms()
- returns an array of registered layout algorithms (see above) alongside further information about each algorithm.
knownLayoutCategories()
- returns an array of registered layout categories.
terminateWorker()
- in case a Web Worker is used, the worker'sterminate()
method is called.
The three methods starting with known
basically return information
that, in the Java world, would be retrieved from the LayoutMetaDataService
.
Logging and Execution Times
(Since 0.6.0)
ELK provides some means to log debug information during layout algorithm execution.
The details can be found in the Algorithm Debugging section of ELK's documentation.
Not all of it is available in elkjs though, for instance, it is not possible to save intermediate results of the laid out graphs.
Furthermore, while internally execution time is measured in nanoseconds on the Java side,
in elkjs we have to resort to milliseconds.
Note that the returned execution times are in seconds.
For small graphs this may often result in execution times being reported as 0
.
See below an example call and the example output.
elk.layout(simpleGraph, {
layoutOptions: {
'algorithm': 'layered'
},
logging: true,
measureExecutionTime: true
})
{
"id": "root",
"children": [ ... ],
"edges": [ ... ],
"logging": {
"name": "Recursive Graph Layout",
"executionTime": 0.000096,
"children": [ {
"name": "Layered layout",
"logs": [
"ELK Layered uses the following 17 modules:",
" Slot 01: org.eclipse.elk.alg.layered.p1cycles.GreedyCycleBreaker",
[ ... ]
" Slot 16: org.eclipse.elk.alg.layered.intermediate.ReversedEdgeRestorer"
],
"executionTime": 0.000072,
"children": [ { "name": "Greedy cycle removal", "executionTime": 0.000002 },
[ ... ]
{ "name": "Restoring reversed edges", "executionTime": 0 } ]
} ]
}
}
Building
For building, a checkout of the ELK repository is required and should be located in the same directory as the checkout of this repository. Like so:
some_dir/
├── elkjs
└── elk
npm install
npm run build
For a new release, the following version numbers have to be changed:
version
inpackage.json
,melk
inbuild.gradle
, and- don't forget to checkout the correct release tag of ELK's repository.
Afterwards you can find the created files in the lib
folder.
Current procedure
git checkout -b releases/0.x.x
# Update versions and commit the changes
npm install
npm run build
npm run test
# Add ./lib/ directory and commit
git tag 0.x.x
# Push release branch an tags to remote
npm publish
Links
In the following a list of asorted links to other projects and sites that may prove helpful:
- Execution time comparison to Java ELK
- How to specify node label placement
- How to enforce certain node positioning (topological)
Example Users of elkjs
- Schematics
- netlistsvg - electronic and gate level schematics as SVG
- d3-hwschematic - interactive digital circuit analysis and documentation, particularly for FPGA-based designs
- Cytoscape adapter
- reaflow - Node-based editor built on elkjs in React
- Wrapping elkjs into a docker-based microservice
- sprotty - A diagramming framework
- Eclipse 4diac
- capellambse-context-diagrams - Generating systems engineering context diagrams for Capella in Python
Note: We are happy to extend this list further, so please contact us if you have a project to add