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//! Support for long-lived closures in `wasm-bindgen`
//!
//! This module defines the `Closure` type which is used to pass "owned
//! closures" from Rust to JS. Some more details can be found on the `Closure`
//! type itself.
use std::fmt;
#[cfg(feature = "nightly")]
use std::marker::Unsize;
use std::mem::{self, ManuallyDrop};
use std::prelude::v1::*;
use crate::convert::*;
use crate::describe::*;
use crate::throw_str;
use crate::JsValue;
use crate::UnwrapThrowExt;
/// A handle to both a closure in Rust as well as JS closure which will invoke
/// the Rust closure.
///
/// A `Closure` is the primary way that a `'static` lifetime closure is
/// transferred from Rust to JS. `Closure` currently requires that the closures
/// it's created with have the `'static` lifetime in Rust for soundness reasons.
///
/// This type is a "handle" in the sense that whenever it is dropped it will
/// invalidate the JS closure that it refers to. Any usage of the closure in JS
/// after the `Closure` has been dropped will raise an exception. It's then up
/// to you to arrange for `Closure` to be properly deallocate at an appropriate
/// location in your program.
///
/// The type parameter on `Closure` is the type of closure that this represents.
/// Currently this can only be the `Fn` and `FnMut` traits with up to 7
/// arguments (and an optional return value). The arguments/return value of the
/// trait must be numbers like `u32` for now, although this restriction may be
/// lifted in the future!
///
/// # Examples
///
/// Here are a number of examples of using `Closure`.
///
/// ## Using the `setInterval` API
///
/// Sample usage of `Closure` to invoke the `setInterval` API.
///
/// ```rust,no_run
/// use wasm_bindgen::prelude::*;
///
/// #[wasm_bindgen]
/// extern "C" {
/// fn setInterval(closure: &Closure<dyn FnMut()>, time: u32) -> i32;
/// fn clearInterval(id: i32);
///
/// #[wasm_bindgen(js_namespace = console)]
/// fn log(s: &str);
/// }
///
/// #[wasm_bindgen]
/// pub struct IntervalHandle {
/// interval_id: i32,
/// _closure: Closure<dyn FnMut()>,
/// }
///
/// impl Drop for IntervalHandle {
/// fn drop(&mut self) {
/// clearInterval(self.interval_id);
/// }
/// }
///
/// #[wasm_bindgen]
/// pub fn run() -> IntervalHandle {
/// // First up we use `Closure::wrap` to wrap up a Rust closure and create
/// // a JS closure.
/// let cb = Closure::wrap(Box::new(|| {
/// log("interval elapsed!");
/// }) as Box<dyn FnMut()>);
///
/// // Next we pass this via reference to the `setInterval` function, and
/// // `setInterval` gets a handle to the corresponding JS closure.
/// let interval_id = setInterval(&cb, 1_000);
///
/// // If we were to drop `cb` here it would cause an exception to be raised
/// // whenever the interval elapses. Instead we *return* our handle back to JS
/// // so JS can decide when to cancel the interval and deallocate the closure.
/// IntervalHandle {
/// interval_id,
/// _closure: cb,
/// }
/// }
/// ```
///
/// ## Casting a `Closure` to a `js_sys::Function`
///
/// This is the same `setInterval` example as above, except it is using
/// `web_sys` (which uses `js_sys::Function` for callbacks) instead of manually
/// writing bindings to `setInterval` and other Web APIs.
///
/// ```rust,ignore
/// use wasm_bindgen::JsCast;
///
/// #[wasm_bindgen]
/// pub struct IntervalHandle {
/// interval_id: i32,
/// _closure: Closure<dyn FnMut()>,
/// }
///
/// impl Drop for IntervalHandle {
/// fn drop(&mut self) {
/// let window = web_sys::window().unwrap();
/// window.clear_interval_with_handle(self.interval_id);
/// }
/// }
///
/// #[wasm_bindgen]
/// pub fn run() -> Result<IntervalHandle, JsValue> {
/// let cb = Closure::wrap(Box::new(|| {
/// web_sys::console::log_1(&"inverval elapsed!".into());
/// }) as Box<dyn FnMut()>);
///
/// let window = web_sys::window().unwrap();
/// let interval_id = window.set_interval_with_callback_and_timeout_and_arguments_0(
/// // Note this method call, which uses `as_ref()` to get a `JsValue`
/// // from our `Closure` which is then converted to a `&Function`
/// // using the `JsCast::unchecked_ref` function.
/// cb.as_ref().unchecked_ref(),
/// 1_000,
/// )?;
///
/// // Same as above.
/// Ok(IntervalHandle {
/// interval_id,
/// _closure: cb,
/// })
/// }
/// ```
///
/// ## Using `FnOnce` and `Closure::once` with `requestAnimationFrame`
///
/// Because `requestAnimationFrame` only calls its callback once, we can use
/// `FnOnce` and `Closure::once` with it.
///
/// ```rust,no_run
/// use wasm_bindgen::prelude::*;
///
/// #[wasm_bindgen]
/// extern "C" {
/// fn requestAnimationFrame(closure: &Closure<dyn FnMut()>) -> u32;
/// fn cancelAnimationFrame(id: u32);
///
/// #[wasm_bindgen(js_namespace = console)]
/// fn log(s: &str);
/// }
///
/// #[wasm_bindgen]
/// pub struct AnimationFrameHandle {
/// animation_id: u32,
/// _closure: Closure<dyn FnMut()>,
/// }
///
/// impl Drop for AnimationFrameHandle {
/// fn drop(&mut self) {
/// cancelAnimationFrame(self.animation_id);
/// }
/// }
///
/// // A type that will log a message when it is dropped.
/// struct LogOnDrop(&'static str);
/// impl Drop for LogOnDrop {
/// fn drop(&mut self) {
/// log(self.0);
/// }
/// }
///
/// #[wasm_bindgen]
/// pub fn run() -> AnimationFrameHandle {
/// // We are using `Closure::once` which takes a `FnOnce`, so the function
/// // can drop and/or move things that it closes over.
/// let fired = LogOnDrop("animation frame fired or canceled");
/// let cb = Closure::once(move || drop(fired));
///
/// // Schedule the animation frame!
/// let animation_id = requestAnimationFrame(&cb);
///
/// // Again, return a handle to JS, so that the closure is not dropped
/// // immediately and JS can decide whether to cancel the animation frame.
/// AnimationFrameHandle {
/// animation_id,
/// _closure: cb,
/// }
/// }
/// ```
///
/// ## Converting `FnOnce`s directly into JavaScript Functions with `Closure::once_into_js`
///
/// If we don't want to allow a `FnOnce` to be eagerly dropped (maybe because we
/// just want it to drop after it is called and don't care about cancellation)
/// then we can use the `Closure::once_into_js` function.
///
/// This is the same `requestAnimationFrame` example as above, but without
/// supporting early cancellation.
///
/// ```
/// use wasm_bindgen::prelude::*;
///
/// #[wasm_bindgen]
/// extern "C" {
/// // We modify the binding to take an untyped `JsValue` since that is what
/// // is returned by `Closure::once_into_js`.
/// //
/// // If we were using the `web_sys` binding for `requestAnimationFrame`,
/// // then the call sites would cast the `JsValue` into a `&js_sys::Function`
/// // using `f.unchecked_ref::<js_sys::Function>()`. See the `web_sys`
/// // example above for details.
/// fn requestAnimationFrame(callback: JsValue);
///
/// #[wasm_bindgen(js_namespace = console)]
/// fn log(s: &str);
/// }
///
/// // A type that will log a message when it is dropped.
/// struct LogOnDrop(&'static str);
/// impl Drop for LogOnDrop {
/// fn drop(&mut self) {
/// log(self.0);
/// }
/// }
///
/// #[wasm_bindgen]
/// pub fn run() {
/// // We are using `Closure::once_into_js` which takes a `FnOnce` and
/// // converts it into a JavaScript function, which is returned as a
/// // `JsValue`.
/// let fired = LogOnDrop("animation frame fired");
/// let cb = Closure::once_into_js(move || drop(fired));
///
/// // Schedule the animation frame!
/// requestAnimationFrame(cb);
///
/// // No need to worry about whether or not we drop a `Closure`
/// // here or return some sort of handle to JS!
/// }
/// ```
pub struct Closure<T: ?Sized> {
js: ManuallyDrop<JsValue>,
data: ManuallyDrop<Box<T>>,
}
union FatPtr<T: ?Sized> {
ptr: *mut T,
fields: (usize, usize),
}
impl<T> Closure<T>
where
T: ?Sized + WasmClosure,
{
/// A more ergonomic version of `Closure::wrap` that does the boxing and
/// cast to trait object for you.
///
/// *This method requires the `nightly` feature of the `wasm-bindgen` crate
/// to be enabled, meaning this is a nightly-only API. Users on stable
/// should use `Closure::wrap`.*
#[cfg(feature = "nightly")]
pub fn new<F>(t: F) -> Closure<T>
where
F: Unsize<T> + 'static,
{
Closure::wrap(Box::new(t) as Box<T>)
}
/// Creates a new instance of `Closure` from the provided boxed Rust
/// function.
///
/// Note that the closure provided here, `Box<T>`, has a few requirements
/// associated with it:
///
/// * It must implement `Fn` or `FnMut` (for `FnOnce` functions see
/// `Closure::once` and `Closure::once_into_js`).
///
/// * It must be `'static`, aka no stack references (use the `move`
/// keyword).
///
/// * It can have at most 7 arguments.
///
/// * Its arguments and return values are all types that can be shared with
/// JS (i.e. have `#[wasm_bindgen]` annotations or are simple numbers,
/// etc.)
pub fn wrap(mut data: Box<T>) -> Closure<T> {
assert_eq!(mem::size_of::<*const T>(), mem::size_of::<FatPtr<T>>());
let (a, b) = unsafe {
FatPtr {
ptr: &mut *data as *mut T,
}
.fields
};
// Here we need to create a `JsValue` with the data and `T::invoke()`
// function pointer. To do that we... take a few unconventional turns.
// In essence what happens here is this:
//
// 1. First up, below we call a function, `breaks_if_inlined`. This
// function, as the name implies, does not work if it's inlined.
// More on that in a moment.
// 2. This function internally calls a special import recognized by the
// `wasm-bindgen` CLI tool, `__wbindgen_describe_closure`. This
// imported symbol is similar to `__wbindgen_describe` in that it's
// not intended to show up in the final binary but it's an
// intermediate state for a `wasm-bindgen` binary.
// 3. The `__wbindgen_describe_closure` import is namely passed a
// descriptor function, monomorphized for each invocation.
//
// Most of this doesn't actually make sense to happen at runtime! The
// real magic happens when `wasm-bindgen` comes along and updates our
// generated code. When `wasm-bindgen` runs it performs a few tasks:
//
// * First, it finds all functions that call
// `__wbindgen_describe_closure`. These are all `breaks_if_inlined`
// defined below as the symbol isn't called anywhere else.
// * Next, `wasm-bindgen` executes the `breaks_if_inlined`
// monomorphized functions, passing it dummy arguments. This will
// execute the function just enough to invoke the special import,
// namely telling us about the function pointer that is the describe
// shim.
// * This knowledge is then used to actually find the descriptor in the
// function table which is then executed to figure out the signature
// of the closure.
// * Finally, and probably most heinously, the call to
// `breaks_if_inlined` is rewritten to call an otherwise globally
// imported function. This globally imported function will generate
// the `JsValue` for this closure specialized for the signature in
// question.
//
// Later on `wasm-gc` will clean up all the dead code and ensure that
// we don't actually call `__wbindgen_describe_closure` at runtime. This
// means we will end up not actually calling `breaks_if_inlined` in the
// final binary, all calls to that function should be pruned.
//
// See crates/cli-support/src/js/closures.rs for a more information
// about what's going on here.
extern "C" fn describe<T: WasmClosure + ?Sized>() {
inform(CLOSURE);
T::describe()
}
#[inline(never)]
unsafe fn breaks_if_inlined<T: WasmClosure + ?Sized>(a: usize, b: usize) -> u32 {
super::__wbindgen_describe_closure(a as u32, b as u32, describe::<T> as u32)
}
let idx = unsafe { breaks_if_inlined::<T>(a, b) };
Closure {
js: ManuallyDrop::new(JsValue::_new(idx)),
data: ManuallyDrop::new(data),
}
}
/// Release memory management of this closure from Rust to the JS GC.
///
/// When a `Closure` is dropped it will release the Rust memory and
/// invalidate the associated JS closure, but this isn't always desired.
/// Some callbacks are alive for the entire duration of the program or for a
/// lifetime dynamically managed by the JS GC. This function can be used
/// to drop this `Closure` while keeping the associated JS function still
/// valid.
///
/// By default this function will leak memory. This can be dangerous if this
/// function is called many times in an application because the memory leak
/// will overwhelm the page quickly and crash the wasm.
///
/// If the browser, however, supports weak references, then this function
/// will not leak memory. Instead the Rust memory will be reclaimed when the
/// JS closure is GC'd. Weak references are not enabled by default since
/// they're still a proposal for the JS standard. They can be enabled with
/// `WASM_BINDGEN_WEAKREF=1` when running `wasm-bindgen`, however.
pub fn into_js_value(self) -> JsValue {
let idx = self.js.idx;
mem::forget(self);
JsValue::_new(idx)
}
/// Same as `into_js_value`, but doesn't return a value.
pub fn forget(self) {
drop(self.into_js_value());
}
}
// NB: we use a specific `T` for this `Closure<T>` impl block to avoid every
// call site having to provide an explicit, turbo-fished type like
// `Closure::<dyn FnOnce()>::once(...)`.
impl Closure<dyn FnOnce()> {
/// Create a `Closure` from a function that can only be called once.
///
/// Since we have no way of enforcing that JS cannot attempt to call this
/// `FnOne(A...) -> R` more than once, this produces a `Closure<dyn FnMut(A...)
/// -> R>` that will dynamically throw a JavaScript error if called more
/// than once.
///
/// # Example
///
/// ```rust,no_run
/// use wasm_bindgen::prelude::*;
///
/// // Create an non-`Copy`, owned `String`.
/// let mut s = String::from("Hello");
///
/// // Close over `s`. Since `f` returns `s`, it is `FnOnce` and can only be
/// // called once. If it was called a second time, it wouldn't have any `s`
/// // to work with anymore!
/// let f = move || {
/// s += ", World!";
/// s
/// };
///
/// // Create a `Closure` from `f`. Note that the `Closure`'s type parameter
/// // is `FnMut`, even though `f` is `FnOnce`.
/// let closure: Closure<dyn FnMut() -> String> = Closure::once(f);
/// ```
pub fn once<F, A, R>(fn_once: F) -> Closure<F::FnMut>
where
F: 'static + WasmClosureFnOnce<A, R>,
{
Closure::wrap(fn_once.into_fn_mut())
}
/// Convert a `FnOnce(A...) -> R` into a JavaScript `Function` object.
///
/// If the JavaScript function is invoked more than once, it will throw an
/// exception.
///
/// Unlike `Closure::once`, this does *not* return a `Closure` that can be
/// dropped before the function is invoked to deallocate the closure. The
/// only way the `FnOnce` is deallocated is by calling the JavaScript
/// function. If the JavaScript function is never called then the `FnOnce`
/// and everything it closes over will leak.
///
/// ```rust,ignore
/// use js_sys;
/// use wasm_bindgen::{prelude::*, JsCast};
///
/// let f = Closure::once_into_js(move || {
/// // ...
/// });
///
/// assert!(f.is_instance_of::<js_sys::Function>());
/// ```
pub fn once_into_js<F, A, R>(fn_once: F) -> JsValue
where
F: 'static + WasmClosureFnOnce<A, R>,
{
fn_once.into_js_function()
}
}
/// A trait for converting an `FnOnce(A...) -> R` into a `FnMut(A...) -> R` that
/// will throw if ever called more than once.
#[doc(hidden)]
pub trait WasmClosureFnOnce<A, R>: 'static {
type FnMut: ?Sized + 'static + WasmClosure;
fn into_fn_mut(self) -> Box<Self::FnMut>;
fn into_js_function(self) -> JsValue;
}
impl<T: ?Sized> AsRef<JsValue> for Closure<T> {
fn as_ref(&self) -> &JsValue {
&self.js
}
}
impl<T> WasmDescribe for Closure<T>
where
T: WasmClosure + ?Sized,
{
fn describe() {
inform(EXTERNREF);
}
}
// `Closure` can only be passed by reference to imports.
impl<'a, T> IntoWasmAbi for &'a Closure<T>
where
T: WasmClosure + ?Sized,
{
type Abi = u32;
fn into_abi(self) -> u32 {
(&*self.js).into_abi()
}
}
fn _check() {
fn _assert<T: IntoWasmAbi>() {}
_assert::<&Closure<dyn Fn()>>();
_assert::<&Closure<dyn Fn(String)>>();
_assert::<&Closure<dyn Fn() -> String>>();
_assert::<&Closure<dyn FnMut()>>();
_assert::<&Closure<dyn FnMut(String)>>();
_assert::<&Closure<dyn FnMut() -> String>>();
}
impl<T> fmt::Debug for Closure<T>
where
T: ?Sized,
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "Closure {{ ... }}")
}
}
impl<T> Drop for Closure<T>
where
T: ?Sized,
{
fn drop(&mut self) {
unsafe {
// this will implicitly drop our strong reference in addition to
// invalidating all future invocations of the closure
if super::__wbindgen_cb_drop(self.js.idx) != 0 {
ManuallyDrop::drop(&mut self.data);
}
}
}
}
/// An internal trait for the `Closure` type.
///
/// This trait is not stable and it's not recommended to use this in bounds or
/// implement yourself.
#[doc(hidden)]
pub unsafe trait WasmClosure {
fn describe();
}
// The memory safety here in these implementations below is a bit tricky. We
// want to be able to drop the `Closure` object from within the invocation of a
// `Closure` for cases like promises. That means that while it's running we
// might drop the `Closure`, but that shouldn't invalidate the environment yet.
//
// Instead what we do is to wrap closures in `Rc` variables. The main `Closure`
// has a strong reference count which keeps the trait object alive. Each
// invocation of a closure then *also* clones this and gets a new reference
// count. When the closure returns it will release the reference count.
//
// This means that if the main `Closure` is dropped while it's being invoked
// then destruction is deferred until execution returns. Otherwise it'll
// deallocate data immediately.
macro_rules! doit {
($(
($($var:ident)*)
)*) => ($(
unsafe impl<$($var,)* R> WasmClosure for dyn Fn($($var),*) -> R + 'static
where $($var: FromWasmAbi + 'static,)*
R: ReturnWasmAbi + 'static,
{
fn describe() {
#[allow(non_snake_case)]
unsafe extern "C" fn invoke<$($var: FromWasmAbi,)* R: ReturnWasmAbi>(
a: usize,
b: usize,
$($var: <$var as FromWasmAbi>::Abi),*
) -> <R as ReturnWasmAbi>::Abi {
if a == 0 {
throw_str("closure invoked recursively or destroyed already");
}
// Make sure all stack variables are converted before we
// convert `ret` as it may throw (for `Result`, for
// example)
let ret = {
let f: *const dyn Fn($($var),*) -> R =
FatPtr { fields: (a, b) }.ptr;
$(
let $var = <$var as FromWasmAbi>::from_abi($var);
)*
(*f)($($var),*)
};
ret.return_abi()
}
inform(invoke::<$($var,)* R> as u32);
unsafe extern fn destroy<$($var: FromWasmAbi,)* R: ReturnWasmAbi>(
a: usize,
b: usize,
) {
// This can be called by the JS glue in erroneous situations
// such as when the closure has already been destroyed. If
// that's the case let's not make things worse by
// segfaulting and/or asserting, so just ignore null
// pointers.
if a == 0 {
return;
}
drop(Box::from_raw(FatPtr::<dyn Fn($($var,)*) -> R> {
fields: (a, b)
}.ptr));
}
inform(destroy::<$($var,)* R> as u32);
<&Self>::describe();
}
}
unsafe impl<$($var,)* R> WasmClosure for dyn FnMut($($var),*) -> R + 'static
where $($var: FromWasmAbi + 'static,)*
R: ReturnWasmAbi + 'static,
{
fn describe() {
#[allow(non_snake_case)]
unsafe extern "C" fn invoke<$($var: FromWasmAbi,)* R: ReturnWasmAbi>(
a: usize,
b: usize,
$($var: <$var as FromWasmAbi>::Abi),*
) -> <R as ReturnWasmAbi>::Abi {
if a == 0 {
throw_str("closure invoked recursively or destroyed already");
}
// Make sure all stack variables are converted before we
// convert `ret` as it may throw (for `Result`, for
// example)
let ret = {
let f: *const dyn FnMut($($var),*) -> R =
FatPtr { fields: (a, b) }.ptr;
let f = f as *mut dyn FnMut($($var),*) -> R;
$(
let $var = <$var as FromWasmAbi>::from_abi($var);
)*
(*f)($($var),*)
};
ret.return_abi()
}
inform(invoke::<$($var,)* R> as u32);
unsafe extern fn destroy<$($var: FromWasmAbi,)* R: ReturnWasmAbi>(
a: usize,
b: usize,
) {
// See `Fn()` above for why we simply return
if a == 0 {
return;
}
drop(Box::from_raw(FatPtr::<dyn FnMut($($var,)*) -> R> {
fields: (a, b)
}.ptr));
}
inform(destroy::<$($var,)* R> as u32);
<&mut Self>::describe();
}
}
#[allow(non_snake_case, unused_parens)]
impl<T, $($var,)* R> WasmClosureFnOnce<($($var),*), R> for T
where T: 'static + FnOnce($($var),*) -> R,
$($var: FromWasmAbi + 'static,)*
R: ReturnWasmAbi + 'static
{
type FnMut = dyn FnMut($($var),*) -> R;
fn into_fn_mut(self) -> Box<Self::FnMut> {
let mut me = Some(self);
Box::new(move |$($var),*| {
let me = me.take().expect_throw("FnOnce called more than once");
me($($var),*)
})
}
fn into_js_function(self) -> JsValue {
use std::rc::Rc;
use crate::__rt::WasmRefCell;
let mut me = Some(self);
let rc1 = Rc::new(WasmRefCell::new(None));
let rc2 = rc1.clone();
let closure = Closure::wrap(Box::new(move |$($var),*| {
// Invoke ourself and get the result.
let me = me.take().expect_throw("FnOnce called more than once");
let result = me($($var),*);
// And then drop the `Rc` holding this function's `Closure`
// alive.
debug_assert_eq!(Rc::strong_count(&rc2), 1);
let option_closure = rc2.borrow_mut().take();
debug_assert!(option_closure.is_some());
drop(option_closure);
result
}) as Box<dyn FnMut($($var),*) -> R>);
let js_val = closure.as_ref().clone();
*rc1.borrow_mut() = Some(closure);
debug_assert_eq!(Rc::strong_count(&rc1), 2);
drop(rc1);
js_val
}
}
)*)
}
doit! {
()
(A)
(A B)
(A B C)
(A B C D)
(A B C D E)
(A B C D E F)
(A B C D E F G)
(A B C D E F G H)
}
// Copy the above impls down here for where there's only one argument and it's a
// reference. We could add more impls for more kinds of references, but it
// becomes a combinatorial explosion quickly. Let's see how far we can get with
// just this one! Maybe someone else can figure out voodoo so we don't have to
// duplicate.
unsafe impl<A, R> WasmClosure for dyn Fn(&A) -> R
where
A: RefFromWasmAbi,
R: ReturnWasmAbi + 'static,
{
fn describe() {
#[allow(non_snake_case)]
unsafe extern "C" fn invoke<A: RefFromWasmAbi, R: ReturnWasmAbi>(
a: usize,
b: usize,
arg: <A as RefFromWasmAbi>::Abi,
) -> <R as ReturnWasmAbi>::Abi {
if a == 0 {
throw_str("closure invoked recursively or destroyed already");
}
// Make sure all stack variables are converted before we
// convert `ret` as it may throw (for `Result`, for
// example)
let ret = {
let f: *const dyn Fn(&A) -> R = FatPtr { fields: (a, b) }.ptr;
let arg = <A as RefFromWasmAbi>::ref_from_abi(arg);
(*f)(&*arg)
};
ret.return_abi()
}
inform(invoke::<A, R> as u32);
unsafe extern "C" fn destroy<A: RefFromWasmAbi, R: ReturnWasmAbi>(a: usize, b: usize) {
// See `Fn()` above for why we simply return
if a == 0 {
return;
}
drop(Box::from_raw(
FatPtr::<dyn Fn(&A) -> R> { fields: (a, b) }.ptr,
));
}
inform(destroy::<A, R> as u32);
<&Self>::describe();
}
}
unsafe impl<A, R> WasmClosure for dyn FnMut(&A) -> R
where
A: RefFromWasmAbi,
R: ReturnWasmAbi + 'static,
{
fn describe() {
#[allow(non_snake_case)]
unsafe extern "C" fn invoke<A: RefFromWasmAbi, R: ReturnWasmAbi>(
a: usize,
b: usize,
arg: <A as RefFromWasmAbi>::Abi,
) -> <R as ReturnWasmAbi>::Abi {
if a == 0 {
throw_str("closure invoked recursively or destroyed already");
}
// Make sure all stack variables are converted before we
// convert `ret` as it may throw (for `Result`, for
// example)
let ret = {
let f: *const dyn FnMut(&A) -> R = FatPtr { fields: (a, b) }.ptr;
let f = f as *mut dyn FnMut(&A) -> R;
let arg = <A as RefFromWasmAbi>::ref_from_abi(arg);
(*f)(&*arg)
};
ret.return_abi()
}
inform(invoke::<A, R> as u32);
unsafe extern "C" fn destroy<A: RefFromWasmAbi, R: ReturnWasmAbi>(a: usize, b: usize) {
// See `Fn()` above for why we simply return
if a == 0 {
return;
}
drop(Box::from_raw(
FatPtr::<dyn FnMut(&A) -> R> { fields: (a, b) }.ptr,
));
}
inform(destroy::<A, R> as u32);
<&mut Self>::describe();
}
}
#[allow(non_snake_case)]
impl<T, A, R> WasmClosureFnOnce<(&A,), R> for T
where
T: 'static + FnOnce(&A) -> R,
A: RefFromWasmAbi + 'static,
R: ReturnWasmAbi + 'static,
{
type FnMut = dyn FnMut(&A) -> R;
fn into_fn_mut(self) -> Box<Self::FnMut> {
let mut me = Some(self);
Box::new(move |arg| {
let me = me.take().expect_throw("FnOnce called more than once");
me(arg)
})
}
fn into_js_function(self) -> JsValue {
use crate::__rt::WasmRefCell;
use std::rc::Rc;
let mut me = Some(self);
let rc1 = Rc::new(WasmRefCell::new(None));
let rc2 = rc1.clone();
let closure = Closure::wrap(Box::new(move |arg: &A| {
// Invoke ourself and get the result.
let me = me.take().expect_throw("FnOnce called more than once");
let result = me(arg);
// And then drop the `Rc` holding this function's `Closure`
// alive.
debug_assert_eq!(Rc::strong_count(&rc2), 1);
let option_closure = rc2.borrow_mut().take();
debug_assert!(option_closure.is_some());
drop(option_closure);
result
}) as Box<dyn FnMut(&A) -> R>);
let js_val = closure.as_ref().clone();
*rc1.borrow_mut() = Some(closure);
debug_assert_eq!(Rc::strong_count(&rc1), 2);
drop(rc1);
js_val
}
}