Chord PRO Released

Chord PRO is the full-featured chord visualization API, producing beautiful interactive visualizations, e.g. those featured on the front page of Reddit.

• Produce beautiful interactive Chord diagrams.
• Customize colours and font-sizes.
• Access Divided mode, enabling two sides to your diagram.
• Add images and text on hover,
• Access finer-customisations including HTML injection.
• Allows commercial use without open source requirement.
• Currently supports Python, JavaScript, and Rust, with many more to come (accepting requests).

Get it here!

Changelog:

• 14 July 2020 - ChordPRO can now be enabled by entering your license key.

• 29 June 2020 - Optimisation and bug fixes to the tooltip have massively improved the interactive performance of the visualisation (Rebuild your chord diagrams to take advantage of this change).

• 22 May 2020 - Optimisation and bug fixes have massively improved the interactive performance of the visualisation (Rebuild your chord diagrams to take advantage of this change).

• 21 May 2020 - Please update to the latest version of chord. Backwards compatability has been introduced, so from this version onwards, new versions won't break older ones!

Introduction

In a chord diagram (or radial network), entities are arranged radially as segments with their relationships visualised by arcs that connect them. The size of the segments illustrates the numerical proportions, whilst the size of the arc illustrates the significance of the relationships1.

Chord diagrams are useful when trying to convey relationships between different entities, and they can be beautiful and eye-catching.

The Chord Crate

I wasn't able to find any Rust crates for plotting chord diagrams, so I ported my own from Python to Rust.

You can get the package either from crates.io or from the GitHub repository. With your processed data, you should be able to plot something beautiful with just a single line, Chord{ matrix : matrix, names : names, .. Chord::default() }.show()

The primary support is for Jupyter Lab (not the older Jupyter Notebook).

Installation

Available on crates.io.

:dep chord = {Version = "0.1.1"}
use chord::{Chord, Plot};

Examples

You can see the actual interactive examples on this page. The below examples are screenshots.

The Dataset

The focus for this section will be the demonstration of the chord package. To keep it simple, we will use synthetic data that illustrates the co-occurrences between movie genres within the same movie.

let matrix: Vec<Vec<f64>> = vec![
    vec![0., 5., 6., 4., 7., 4.],
    vec![5., 0., 5., 4., 6., 5.],
    vec![6., 5., 0., 4., 5., 5.],
    vec![4., 4., 4., 0., 5., 5.],
    vec![7., 6., 5., 5., 0., 4.],
    vec![4., 5., 5., 5., 4., 0.],
];

let names: Vec<String> = vec![
    "Action",
    "Adventure",
    "Comedy",
    "Drama",
    "Fantasy",
    "Thriller",
]
.into_iter()
.map(String::from)
.collect();

Default Settings

Let's see what the Chord defaults produce when we invoke the show() method.

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    ..Chord::default()
}
.show();

You can also save it to a HTML file.

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    ..Chord::default()
}
.to_html();

Different Colours

The defaults are nice, but what if we want different colours? You can pass in almost anything from d3-scale-chromatic, or you could pass in a list of hexadecimal colour codes.

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    colors: "d3.schemeSet2".to_string(),
    ..Chord::default()
}
.show();

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    colors: format!("d3.schemeGnBu[{:?}]",names.len()).to_string(),
    ..Chord::default()
}
.show();

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    colors: "d3.schemeSet3".to_string(),
    ..Chord::default()
}
.show();

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    colors: format!("d3.schemePuRd[{:?}]",names.len()).to_string(),
    ..Chord::default()
}
.show();

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    colors: format!("d3.schemeYlGnBu[{:?}]",names.len()).to_string(),
    ..Chord::default()
}
.show();

let hex_colours : Vec<String> = vec!["#222222", "#333333", "#4c4c4c", "#666666", "#848484", "#9a9a9a"].into_iter()
.map(String::from)
.collect();

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    colors: format!("{:?}",hex_colours),
    ..Chord::default()
}
.show();

Label Styling

We can disable the wrapped labels, and even change the colour.

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    wrap_labels: false,
    label_color:"#4c40bf".to_string(),
    ..Chord::default()
}
.show();

Opacity

We can also change the default opacity of the relationships.

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    opacity: 0.1,
    ..Chord::default()
}
.show();

Diagram Size

We can change the maximum diagram size by specifying a width.

Chord {
    matrix: matrix.clone(),
    names: names.clone(),
    width: 400.0,
    ..Chord::default()
}
.show()

Credits

• d3-chord, Mike Bostock.
• d3-chord gradient fills, Nadieh Bremer.
• chord (Python), Shahin Rostami.
• chord (Rust), Shahin Rostami.