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extern crate proc_macro;
use proc_macro::TokenStream;
use quote::quote;
use syn::parse_macro_input;
/// This macro expands to a set of `pub` Rust modules:
///
/// * The `types` module contains definitions for each `typename` declared in
/// the witx document. Type names are translated to the Rust-idiomatic
/// CamelCase.
///
/// * For each `module` defined in the witx document, a Rust module is defined
/// containing definitions for that module. Module names are translated to the
/// Rust-idiomatic snake\_case.
///
/// * For each `@interface func` defined in a witx module, an abi-level
/// function is generated which takes ABI-level arguments, along with
/// a ref that impls the module trait, and a `GuestMemory` implementation.
/// Users typically won't use these abi-level functions: Either the
/// `wasmtime_integration` macro or the `lucet-wiggle` crates adapt these
/// to work with a particular WebAssembly engine.
///
/// * A public "module trait" is defined (called the module name, in
/// SnakeCase) which has a `&self` method for each function in the
/// module. These methods takes idiomatic Rust types for each argument
/// and return `Result<($return_types),$error_type>`
///
/// * When the `wiggle` crate is built with the `wasmtime_integration`
/// feature, each module contains an `add_to_linker` function to add it to
/// a `wasmtime::Linker`.
///
/// Arguments are provided using Rust struct value syntax.
///
/// * `witx` takes a list of string literal paths. Paths are relative to the
/// CARGO_MANIFEST_DIR of the crate where the macro is invoked. Alternatively,
/// `witx_literal` takes a string containing a complete witx document.
/// * Optional: `errors` takes a mapping of witx identifiers to types, e.g
/// `{ errno => YourErrnoType }`. This allows you to use the `UserErrorConversion`
/// trait to map these rich errors into the flat witx type, or to terminate
/// WebAssembly execution by trapping.
/// * Optional: `async` takes a set of witx modules and functions which are
/// made Rust `async` functions in the module trait.
///
/// ## Example
///
/// ```
/// use wiggle::GuestPtr;
/// wiggle::from_witx!({
/// witx_literal: "
/// (typename $errno
/// (enum (@witx tag u32)
/// $ok
/// $invalid_arg
/// $io
/// $overflow))
/// (typename $alias_to_float f32)
/// (module $example
/// (@interface func (export \"int_float_args\")
/// (param $an_int u32)
/// (param $some_floats (list f32))
/// (result $r (expected (error $errno))))
/// (@interface func (export \"double_int_return_float\")
/// (param $an_int u32)
/// (result $r (expected $alias_to_float (error $errno)))))
/// ",
/// errors: { errno => YourRichError },
/// async: { example::double_int_return_float },
/// });
///
/// /// Witx generates a set of traits, which the user must impl on a
/// /// type they define. We call this the ctx type. It stores any context
/// /// these functions need to execute.
/// pub struct YourCtxType {}
///
/// /// Witx provides a hook to translate "rich" (arbitrary Rust type) errors
/// /// into the flat error enums used at the WebAssembly interface. You will
/// /// need to impl the `types::UserErrorConversion` trait to provide a translation
/// /// from this rich type.
/// #[derive(Debug)]
/// pub enum YourRichError {
/// InvalidArg(String),
/// Io(std::io::Error),
/// Overflow,
/// Trap(String),
/// }
///
/// /// The above witx text contains one module called `$example`. So, we must
/// /// implement this one method trait for our ctx type.
/// #[wiggle::async_trait]
/// /// We specified in the `async_` field that `example::double_int_return_float`
/// /// is an asynchronous method. Therefore, we use the `async_trait` proc macro
/// /// to define this trait, so that `double_int_return_float` can be an `async fn`.
/// /// `wiggle::async_trait` is defined as `#[async_trait::async_trait(?Send)]` -
/// /// in wiggle, async methods do not have the Send constaint.
/// impl example::Example for YourCtxType {
/// /// The arrays module has two methods, shown here.
/// /// Note that the `GuestPtr` type comes from `wiggle`,
/// /// whereas the witx-defined types like `Excuse` and `Errno` come
/// /// from the `pub mod types` emitted by the `wiggle::from_witx!`
/// /// invocation above.
/// fn int_float_args(&mut self, _int: u32, _floats: &GuestPtr<[f32]>)
/// -> Result<(), YourRichError> {
/// unimplemented!()
/// }
/// async fn double_int_return_float(&mut self, int: u32)
/// -> Result<f32, YourRichError> {
/// Ok(int.checked_mul(2).ok_or(YourRichError::Overflow)? as f32)
/// }
/// }
///
/// /// For all types used in the `error` an `expected` in the witx document,
/// /// you must implement `GuestErrorType` which tells wiggle-generated
/// /// code what value to return when the method returns Ok(...).
/// impl wiggle::GuestErrorType for types::Errno {
/// fn success() -> Self {
/// unimplemented!()
/// }
/// }
///
/// /// If you specify a `error` mapping to the macro, you must implement the
/// /// `types::UserErrorConversion` for your ctx type as well. This trait gives
/// /// you an opportunity to store or log your rich error type, while returning
/// /// a basic witx enum to the WebAssembly caller. It also gives you the ability
/// /// to terminate WebAssembly execution by trapping.
///
/// impl types::UserErrorConversion for YourCtxType {
/// fn errno_from_your_rich_error(&mut self, e: YourRichError)
/// -> Result<types::Errno, wiggle::Trap>
/// {
/// println!("Rich error: {:?}", e);
/// match e {
/// YourRichError::InvalidArg{..} => Ok(types::Errno::InvalidArg),
/// YourRichError::Io{..} => Ok(types::Errno::Io),
/// YourRichError::Overflow => Ok(types::Errno::Overflow),
/// YourRichError::Trap(s) => Err(wiggle::Trap::String(s)),
/// }
/// }
/// }
///
/// # fn main() { println!("this fools doc tests into compiling the above outside a function body")
/// # }
/// ```
#[proc_macro]
pub fn from_witx(args: TokenStream) -> TokenStream {
let config = parse_macro_input!(args as wiggle_generate::Config);
let doc = config.load_document();
let names = wiggle_generate::Names::new(quote!(wiggle));
let settings = wiggle_generate::CodegenSettings::new(
&config.errors,
&config.async_,
&doc,
cfg!(feature = "wasmtime") && config.wasmtime,
)
.expect("validating codegen settings");
let code = wiggle_generate::generate(&doc, &names, &settings);
let metadata = if cfg!(feature = "wiggle_metadata") {
wiggle_generate::generate_metadata(&doc, &names)
} else {
quote!()
};
TokenStream::from(quote! { #code #metadata })
}
#[proc_macro_attribute]
pub fn async_trait(attr: TokenStream, item: TokenStream) -> TokenStream {
let _ = parse_macro_input!(attr as syn::parse::Nothing);
let item = proc_macro2::TokenStream::from(item);
TokenStream::from(quote! {
#[wiggle::async_trait_crate::async_trait]
#item
})
}
#[cfg(feature = "wasmtime")]
/// Define the structs required to integrate a Wiggle implementation with Wasmtime.
///
/// ## Arguments
///
/// Arguments are provided using struct syntax e.g. `{ arg_name: value }`.
///
/// * `target`: The path of the module where the Wiggle implementation is defined.
#[proc_macro]
pub fn wasmtime_integration(args: TokenStream) -> TokenStream {
let config = parse_macro_input!(args as wiggle_generate::WasmtimeConfig);
let doc = config.c.load_document();
let names = wiggle_generate::Names::new(quote!(wiggle));
let settings = wiggle_generate::CodegenSettings::new(
&config.c.errors,
&config.c.async_,
&doc,
cfg!(feature = "wasmtime"),
)
.expect("validating codegen settings");
let modules = doc.modules().map(|module| {
wiggle_generate::wasmtime::link_module(&module, &names, Some(&config.target), &settings)
});
quote!( #(#modules)* ).into()
}