lean-client-js-browser
This is a JavaScript library to interface with the server mode of the Lean theorem prover.
This package contains the web browser version. It communicates with an Emscripten build of Lean in a WebWorker, using WebAssembly if available.
This package works only with emscripten v2+ bundles of Lean due to breaking changes for old bundles.
The original version was authored by Bryan Gin-ge Chen.
The original version was authored by Gabriel Ebner.
How to use
You will need to place the files from the Lean Emscripten build (downloadable from here, see the lean-*-browser.zip
files) and a suitable .zip
bundle of .olean
files (see instructions here) into a subdirectory of this directory called dist/
for the demo files to work. The library.zip
file is cached in IndexedDB to save on downloading, provided that its associated library.info.json
is present at the same path.
The main class is WebWorkerTransport
. The constructor takes a LeanJsOptions
object with the following fields:
libraryZip
: URL to library.zip
. Must end in .zip
. This field is used to generate the default values for some of the optional fields below.libraryMeta
(optional): URL to library.info.json
, a JSON file whose keys are the Lean packages contained in library.zip
and whose values are URL prefixes that point to the Lean source files. (default: the value of libraryZip
with the final .zip
replaced with .info.json
)libraryOleanMap
(optional): URL to library.olean_map.json
, a JSON file whose keys are the filenames of the oleans in library.zip
(with .olean removed) and whose values are the name of the Lean package that they originate from (default: the value of libraryZip
with the final .zip
replaced with .olean_map.json
)libraryKey
(optional): name for the key used in the indexedDB cache (default: the filename of libraryZip
with .zip
removed)- At least one of
javascript
or (webassemblyWasm
+ webassemblyJs
) must be provided:
javascript
: URL to lean_js_js.js
- Both of the following fields should be provided to use the WebAssembly version of the Lean server:
webassemblyWasm
: URL to lean_js_wasm.wasm
webassemblyJs
: URL to lean_js_wasm.js
memoryMB
(optional): size of memory in MB provided (default: 256)dbName
(optional): name of the IndexedDB database used to cache (default: leanlibrary
)
The WebWorkerTransport
object that is returned should be passed to the Server
constructor. See the lean-client-js
library for more information about the Server
class.
See demo.ts
for an example on how to use this package in a TypeScript project. After building, see dist/lib_test.html
for how to use this package in a webpage.
See leanprover-community/lean-web-editor
and mpedramfar/Lean-game-maker
for example TypeScript projects that use this library.
See these Observable notebooks for example webpages that use the UMD module leanBrowser.js
.
Building
To build the demo file, follow the directions in the README file in the parent package lean-client-js
. The demo file will be written to dist/demo.html
.
Running ../node_modules/.bin/webpack
from this directory will build and output the test file dist/lib_test.html
as well as a UMD module dist/leanBrowser.js
for use in webpages.
Once the files are built, you can check them out by starting a local web server (from the dist/
directory) and navigating to /index.html
or /lib_test.html
.
About this fork
This version of lean-client-js-browser
has two main differences from the original:
-
First, it removes the BrowserInProcessTransport
class which allowed running the Lean Emscripten server in the browser's main thread. You must use WebWorkerTransport
, which runs the server in a WebWorker.
-
Second, it caches the library.zip
file in the browser's IndexedDB store. The database name is determined by opts.dbName
. This DB contains two "Object stores", one named library
and one named meta
:
meta
is a key-value store, where the key used is given by opts.libName
and the values are JSON objects which map the Lean package names in the ZIP file to source linkslibrary
is another key-value store, where the keys are the same as in meta
and the values are the ZIP files stored as binary blobs.