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script-macro

An experimental way to write simple proc-macros inline with other source code.

Did you ever end up getting frustrated at the boilerplate involved in writing proc macros, and wished you could just write a Python or Bash script to generate the code instead?

pub fn add(left: usize, right: usize) -> usize {
    left + right
}

#[cfg(test)]
mod tests {
    use super::*;

    #[script_macro::run_script_on(r##"
        let output = item;

        for x in 0..10 {
            for y in 0..10 {
                output += `
                #[test]
                fn it_works_${x}_${y}() {
                    it_works(${x}, ${y}, ${x + y});
                }`;
            }
        }

        return output;
    "##)]
    fn it_works(x: usize, y: usize, out: usize) {
        assert_eq!(add(x, y), out);
    }
}

Macros are not Rust source code, instead they are written in the RHAI scripting language. This comes with advantages and disadvantages:

  • Downside: No access to the Rust crate ecosystem -- RHAI is its own entire separate language, and therefore you can't use Rust crates inside. RHAI can be extended with custom Rust functions, but script-macro does not support that yet. For now, script-macro exposes a few helpers commonly useful in code generation.

  • Upside: Sandboxability -- Proc macros executed with script-macro cannot access the internet or perform arbitrary syscalls. Proc macros are given full access to the filesystem via the functions available through rhai-fs, but in a future version this could be configurable, for example read-only access or restricted to certain directories.

  • Downside: Dependency on RHAI runtime -- RHAI is an entire language runtime that has to be compiled once before any of your proc macros run.

  • Upside: No recompilation when editing proc macros. -- Proc macros are interpreted scripts. When editing them, only the containing crate needs to be recompiled, not script-macro itself. This could end up being faster when dealing with a lot of proc macros.

    See also watt, which appears to have similar tradeoffs about compilation speed (compile runtime for all macros once, run all macros without compilation)

Seriously?

I seriously do wish that proc_macros were easier to write (inline with other code) and didn't contribute as much to compile time. One area where this comes up for me particularly often is programmatic test generation (or, parametrization).

This is my best shot at making this happen today, but that doesn't mean I'm convinced that the end result is viable for production use. I hope that it inspires somebody else to build something better.

API

There are two main macros to choose from:

  • script_macro::run_script_on -- Attribute macro that executes a given script with the annotated function/module's sourcecode available as a global string under item.

    The return value of the script is the source code that the item will be replaced with.

    Here is a simple script macro that adds #[test] to the annotated function.

    #[script_macro::run_script_on(r##"
        return "#[test]" + item;
    "##)]
    fn it_works(x: usize, y: usize, out: usize) {
        assert_eq!(add(x, y), out);
    }
  • script_macro::run_script -- Function macro that executes the given script. There are no inputs.

    script_macro::run_script!(r##"
        return `fn main() { println!("hello world"); }`;
    "##);

Script API

From within the script, the entire stdlib of RHAI + the functions in rhai-fs are available.

Additionally, the following functions are defined:

  • parse_yaml(String) -> Dynamic -- Takes YAML payload as string and returns the parsed payload as unstructured data (such as, RHAI object map or array).

  • parse_json(String) -> Dynamic -- Takes JSON payload as string and returns the parsed payload as unstructured data (such as, RHAI object map or array).

  • stringify_yaml(Dynamic) -> String -- Convert a RHAI object to a YAML string, inverse of parse_yaml.

  • stringify_json(Dynamic) -> String -- Convert a RHAI object to a YAML string, inverse of parse_json.

  • glob(String) -> Vec<PathBuf> -- Takes a glob pattern and returns a list of paths that match it.

  • basename(PathBuf) -> String -- Returns the .file_name() of the given path, or the entire path if there is none.

Examples

Check out the example crates to see all of the above in action.

License

Licensed under the MIT, see ./LICENSE.

See also

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