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Referenced in https://github.com/rtfeldman/roc/pull/1905 |
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Hello.roc | ||
index.html | ||
README.md | ||
test-node.js |
Hello, World!
To run, go to the project home directory and run:
$ cargo run -- build --backend=wasm32 examples/hello-web/Hello.roc
Then cd
into the example directory and run any web server that can handle WebAssembly.
For example with http-server
:
cd examples/hello-web
npm install -g http-server
http-server
Now open your browser at http://localhost:8080
Design Notes
This demonstrates the basic design of hosts: Roc code gets compiled into a pure
function (in this case, a thunk that always returns "Hello, World!"
) and
then the host calls that function. Fundamentally, that's the whole idea! The host
might not even have a main
- it could be a library, a plugin, anything.
Everything else is built on this basic "hosts calling linked pure functions" design.
For example, things get more interesting when the compiled Roc function returns
a Task
- that is, a tagged union data structure containing function pointers
to callback closures. This lets the Roc pure function describe arbitrary
chainable effects, which the host can interpret to perform I/O as requested by
the Roc program. (The tagged union Task
would have a variant for each supported
I/O operation.)
In this trivial example, it's very easy to line up the API between the host and the Roc program. In a more involved host, this would be much trickier - especially if the API were changing frequently during development.
The idea there is to have a first-class concept of "glue code" which host authors
can write (it would be plain Roc code, but with some extra keywords that aren't
available in normal modules - kinda like port module
in Elm), and which
describe both the Roc-host/C boundary as well as the Roc-host/Roc-app boundary.
Roc application authors only care about the Roc-host/Roc-app portion, and the
host author only cares about the Roc-host/C boundary when implementing the host.
Using this glue code, the Roc compiler can generate C header files describing the
boundary. This not only gets us host compatibility with C compilers, but also
Rust FFI for free, because rust-bindgen
generates correct Rust FFI bindings from C headers.