This commit adds experimental support for `WeakRef` to be used to automatically
free wasm objects instead of having to always call the `free` function manually.
Note that when enabled the `free` function for all exported objects is still
generated, it's just optionally invoked by the application.
Support isn't exposed through a CLI flag right now due to the early stages of
the `WeakRef` proposal, but the env var `WASM_BINDGEN_WEAKREF` can be used to
enable this generation. Upon doing so the output can then be edited slightly as
well to work in the SpiderMonkey shell and it looks like this is working!
Closes#704
This commit fixes annotations that include both the `constructor` and `catch`
attributes on imported types, ensuring that we infer the right type being
returned after extracting the first type parameter of the `Result`.
Closes#735
Instead of `dom_str`, `byte_str`, and `usv_str`, emit `str` for all of them.
Similarly for `unrestricted_f64` just do `f64` instead. This reflects how we
interpret the types already in terms of Rust types and although technically
makes it possible to have name collisions in WebIDL they don't come up in
practice.
This commit updates how we name overloaded methods. Previously all argument
names were concatenated, but after this commit it only concatenates argument
names where at least one possibility has a different type. Otherwise if all
possibilities have the same type name it in theory isn't adding too much more
information!
Additionally this commit also switches to using `_with_` consistently everywhere
instead of `_with_` for constructors and `_using_` for methods.
Closes#712
Without the "mixin" keyword, wasm_bindgen_webidl would report:
Partial interface WindowOrWorkerGlobalScope missing non-partial interface
Also, including the "mixin" keyword here is consistent with the official
webidl spec (for example see https://fetch.spec.whatwg.org/#fetch-method)
This commit adds support for generating bindings for dictionaries defined in
WebIDL. Dictionaries are associative arrays which are simply objects in JS with
named keys and some values. In Rust given a dictionary like:
dictionary Foo {
long field;
};
we'll generate a struct like:
pub struct Foo {
obj: js_sys::Object,
}
impl Foo {
pub fn new() -> Foo { /* make a blank object */ }
pub fn field(&mut self, val: i32) -> &mut Self {
// set the field using `js_sys::Reflect`
}
}
// plus a bunch of AsRef, From, and wasm abi impls
At the same time this adds support for partial dictionaries and dictionary
inheritance. All dictionary fields are optional by default and hence only have
builder-style setters, but dictionaries can also have required fields. Required
fields are exposed as arguments to the `new` constructor.
Closes#241
I think these might all be from before WebIDL mixins existed. Either way,
multiple inheritance of interfaces that don't have exposed interface objects is
equivalent to mixins.