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Brian Carroll d9af141a47 repl_www: match text styling to CLI
2022-03-17 10:40:47 +00:00
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public repl_www: match text styling to CLI 2022-03-17 10:40:47 +00:00
.gitignore repl_www: get rid of separate build directory, it's too annoying when editing JS/CSS. 2022-03-17 09:52:50 +00:00
architecture.png repl_www: add instructions to README 2022-02-26 13:13:57 +00:00
build.sh repl_www: get rid of separate build directory, it's too annoying when editing JS/CSS. 2022-03-17 09:52:50 +00:00
README.md Have web repl use /repl as its URL root 2022-03-02 18:34:47 -05:00
screenshot.png repl_www: add instructions to README 2022-02-26 13:13:57 +00:00

README.md

Web REPL

Running locally

1. Run the build script

This builds the compiler as a .wasm file, and generates JS glue code. It will cargo install the wasm-pack command line tool if you don't already have it. You should run it from the project root directory.

./repl_www/build.sh

All the final assets for the web REPL will end up in ./repl_www/build/

2. Run a local HTTP server

Browsers won't load .wasm files over the file:// protocol, so you need to serve the files in ./repl_www/build/ from a local web server. Any server will do, but this example should work on any system that has Python 3 installed:

cd repl_www/build
python3 -m http.server

3. Open your browser

You should be able to find the Roc REPL at http://127.0.0.1:8000/repl (or whatever port your web server mentioned when it started up.)

Warning: This is work in progress! Not all language features are implemented yet, error messages don't look nice yet, up/down arrows don't work for history, etc.

Screenshot

How it works

  • User types text into the HTML <input /> tag
  • JS detects the onchange event and passes the input text to the Roc compiler WebAssembly module
  • Roc compiler WebAssembly module
    • Parses the text (currently just a single line)
    • Type checks
    • Monomorphizes
    • Generates WebAssembly using the development backend (not LLVM)
    • Returns a slice of bytes to JavaScript
  • JavaScript
    • Takes the slice of bytes and creates a WebAssembly.Instance
    • Runs the WebAssembly app
    • Gets the memory address of the result and makes a copy of the app's entire memory buffer
    • Passes the result address and the memory buffer to the compiler for analysis
  • Roc compiler WebAssembly module
    • Analyses the bytes of the result, based on the known return type from earlier
    • Traverses the copied memory buffer to find any child values
    • Produces a user-friendly String and passes it to JavaScript
  • JavaScript
    • Displays the input and output text on the web page

High-level diagram

Related crates

There are several directories/packages involved here:

  • repl_www: The web page with its JavaScript and a build script
  • repl_wasm: The Rust crate that becomes the "compiler" WebAssembly module
  • repl_eval: REPL logic shared between repl_cli and repl_wasm