This repository contains the code for the leanprover-community fork of the Lean live editor.
You will need to install nodejs (which should include npm) to try this out locally.
npm install
./fetch_lean_js.sh
./node_modules/.bin/webpack-dev-server
(You only need to run npm install
and ./fetch_lean_js.sh
once after you download this repository.)
The fetch_lean_js.sh
script fetches a precompiled javascript version as well as a library.zip
file containing the olean files for mathlib
.
It is also possible to build your own Javascript / WebAssembly version of the community fork of Lean 3. See the instructions here. Prebuilt versions are also included with the leanprover-community lean releases. Copy the files lean_js_js.js
, lean_js_wasm.js
and lean_js_wasm.wasm
to the dist/
directory. Note that if you choose to go this route, you will also have to recompile the .olean
files in library.zip
(see below).
npm install
./fetch_lean_js.sh
NODE_ENV=production ./node_modules/.bin/webpack
(You only need to run npm install
and ./fetch_lean_js.sh
if you haven't already done so above.)
Then copy the ./dist
directory wherever you want.
If you want to include custom libraries, then you need to build a suitable library.zip
file yourself.
The main tool provided by this repository is a Python script, mk_library.py
, which requires Python 3.7 or greater. Type ./mk_library.py -h
to see all command-line options.
By default, the script will run leanpkg build
in the /combined_lib/
subdirectory, or a Lean package that you specify with -i
, thus generating up-to-date .olean
files. You may see "Lean version mismatch" warnings; these should be safe to ignore. (The -c
command-line flag skips this step if you only want bundle Lean's core library files.) The script then copies all .olean
files that it can find in the leanpkg.path
into a ZIP bundle (placed at dist/library.zip
by default, can be specified with -o
). This script will also generate a pair of .json
files which are used by lean-client-js-browser
:
- dist/library.info.json
contains GitHub URL prefixes to the precise commits of the Lean packages contained in library.zip
and is used for caching,
- dist/library.olean_map.json
is used to help resolve references to individual .lean
files returned by the Lean server to their URLs on GitHub.
Here are step-by-step instructions for the most common use-cases:
- Install Lean 3. If you plan to use the prebuilt JS/WASM versions of Lean downloaded from the leanprover-community/lean site, i.e. if you are not compiling Lean with Emscripten yourself, I recommend using
elan
to install the latest community version using the commandelan toolchain install leanprover-community/lean:3.15.0
(replace3.15.0
with whatever the latest released version is). If you then checkelan show
, you should see a new toolchain with the name:leanprover-community/lean:3.15.0
. CAVEAT: if you want to bundle mathlib, make sure the version of Lean you install is compatible with the version of mathlib you want to use. If you are compiling Lean yourself, useelan toolchain link
to set up anelan
toolchain that points to the location of Lean on your computer. Then below, when you editleanpkg.toml
, ensure thatlean_version
points to this toolchain. - To make a ZIP bundle containing only Lean's core libraries, run
./mk_library.py -c
. You can set the output ZIP file location with./mk_library.py -c -o /path/to/output.zip
. - To make a ZIP bundle containing all of the
.olean
files in one or multiple Lean packages:- Edit
combined_lib/leanpkg.toml
:lean_version
needs to point to the same version of Lean as the Emscripten build of Lean you plan to use. If you've installed the community version of Lean withelan
as above, then you'll want that line to readlean_version = "leanprover-community/lean:3.15.0"
.- Add the libraries you want to bundle to the
[dependencies]
section. You can use eitherleanpkg add
or enter them manually with the formatmathlib = {git = "https://github.com/leanprover-community/mathlib", rev = "0c627fb3535d14955b2c2a24805b7cf473b4202f"}
(for dependencies retrievable using git) ormathlib = {path = "/path/to/mathlib/"}
(for local dependencies). - In this use-case, it's important that you don't add a line with the
path
option toleanpkg.toml
. Note that technically, such Lean packages are deprecated andleanpkg
will emit a warning. Nonetheless, doing things this way causesleanpkg build
to build all the Lean files in the packages you include, instead of just the ones depended on by the files in/src
.
- Run
./mk_library.py
. You can set the output ZIP file location with./mk_library.py -o /path/to/output.zip
.
- Edit
- To make a ZIP bundle from a single Lean package (containing only the
.olean
files needed for the files in itssrc/
directory):- To make a new Lean package, use
leanproject new
following the instructions here. - If you have an existing Lean package, you might want to make a new copy of it since otherwise you'll have to recompile when you work on it again.
- Edit
lean_version
in the package'sleanpkg.toml
. It needs to point to the same version of Lean as the Emscripten build of Lean you plan to use. If you installed the latest community Lean withelan
as above, then that line should readlean_version = "leanprover-community/lean:3.15.0"
. - Delete
_target/
in your Lean package directory if it already exists and runleanpkg configure
to wipe all.olean
files in the dependencies. This step is necessary since the script in the next step will copy all.olean
files that it can find after rebuilding. - Run
./mk_library.py -i /path/to/your_lean_package
. You can set the output ZIP file location with./mk_library.py -i /path/to/your_lean_package -o /path/to/output.zip
.
- To make a new Lean package, use