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BEAM Jupyter Kernels Tool

Build Status Binder

ierl is a command line tool based on erlang-jupyter to allow running and installing Jupyter kernels on the Erlang Virtual Machine written in pure Erlang. A precompiled version can be downloaded from the release page, download the ierl escript.

Currently, three kernels have been implemented to the point that they support running code, compiling modules, and code completion:

Erlang

Currently, only the f shell function to forget a variable is implemented. However, in contrast to the usual erl shell, this backend also supports defining modules inline, i.e. one can have a cell

-module(my_mod).

-export([
    func/1
]).

func(X) ->
    X.

and it will be compiled and usable after executing.

Elixir

If ierl has been built using mix (as are the releases that we provide here), Elixir will be embedded and work without the need to install it locally. Otherwise, ierl will try to guess the path by running the Elixir executable, so make sure that elixir's binary path is included in the PATH environment variable. It is also possible to override the Elixir installation path using the --path switch on installing the kernel.

The Jupyter Notebook will currently highlight the code as Ruby for lack of a built-in Elixir mode in CodeMirror, but I will look into bundling codemirror-mode-elixir in the future.

LFE

LFE is completely bundled and can be run without any further installation. The highlighting is currently just straight Common Lisp, which means quite a few things are not highlighted correctly (like defmodule, defrecord, atoms, etc.).

Common functionality

All kernels can access the jup_display functions to print non-text output (in particular on the Jupyter Notebook):

% Print 
DisplayRef = jup_display:display(#{ html => "<h1>Some Text</h1>" }).

The key of the passed map is either html, text, or a binary or string indicating an actual MIME type like text/html. The value is an IO list with data matching the MIME type. A displayed value can be updated within the same cell by using the returned reference:

jup_display:update(DisplayRef, #{ html => "<h1>Updated Text</h1>" }).

Currently, the Jupyter Notebook will also update output sections that were initialised before, but it's not specified, whether this implementation detail will stay.

Usage

The released escript can be run directly by either making it executable (chmod +x ierl) and using it directly (./ierl) or starting it explicitly with escript ierl (needed on Windows, for example). It will present the available commands and backends.

To install an Erlang kernel, run

./ierl install erlang

Analogously kernels for LFE and Elixir can be installed.

To specify the name of the installed kernelspec, pass it using --name. By default it will match the backend name (so erlang, elixir or lfe).

./ierl install erlang --name my_erlang_kernel

Remoting is also supported. Pass the node to connect to via --node and the cookie to use via --cookie.

./ierl install erlang --node remote_node@REMOTEHOST --cookie my_secret_cookie

If no name is given, it will be inferred from the kernel name and the node the kernel is supposed to run against.

The installed kernels will be immediately available in the Jupyter Notebook, to use them in the console run

jupyter console --kernel my_erlang_kernel

Building

Clone this repository and run

./_download_rebar3.sh

to download the most current rebar3. After this, run

./rebar3 escriptize

to download the dependencies and compile the escript. It will be created in _build/default/bin/ierl.

For development it might make sense to check out a local instance of erlang-jupyter by running

./_checkout_jupyter.sh