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impls.rs
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impls.rs
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use core::char;
use core::mem::{self, ManuallyDrop};
use crate::convert::traits::{WasmAbi, WasmPrimitive};
use crate::convert::{FromWasmAbi, IntoWasmAbi, LongRefFromWasmAbi, RefFromWasmAbi};
use crate::convert::{OptionFromWasmAbi, OptionIntoWasmAbi, ReturnWasmAbi};
use crate::{Clamped, JsError, JsValue, UnwrapThrowExt};
if_std! {
use std::boxed::Box;
use std::convert::{TryFrom, TryInto};
use std::fmt::Debug;
use std::vec::Vec;
}
// Primitive types can always be passed over the ABI.
impl<T: WasmPrimitive> WasmAbi for T {
type Prim1 = Self;
type Prim2 = ();
type Prim3 = ();
type Prim4 = ();
#[inline]
fn split(self) -> (Self, (), (), ()) {
(self, (), (), ())
}
#[inline]
fn join(prim: Self, _: (), _: (), _: ()) -> Self {
prim
}
}
impl<T: WasmAbi<Prim4 = ()>> WasmAbi for Option<T> {
/// Whether this `Option` is a `Some` value.
type Prim1 = u32;
type Prim2 = T::Prim1;
type Prim3 = T::Prim2;
type Prim4 = T::Prim3;
#[inline]
fn split(self) -> (u32, T::Prim1, T::Prim2, T::Prim3) {
match self {
None => (
0,
Default::default(),
Default::default(),
Default::default(),
),
Some(value) => {
let (prim1, prim2, prim3, ()) = value.split();
(1, prim1, prim2, prim3)
}
}
}
#[inline]
fn join(is_some: u32, prim1: T::Prim1, prim2: T::Prim2, prim3: T::Prim3) -> Self {
if is_some == 0 {
None
} else {
Some(T::join(prim1, prim2, prim3, ()))
}
}
}
macro_rules! type_wasm_native {
($($t:tt as $c:tt)*) => ($(
impl IntoWasmAbi for $t {
type Abi = $c;
#[inline]
fn into_abi(self) -> $c { self as $c }
}
impl FromWasmAbi for $t {
type Abi = $c;
#[inline]
unsafe fn from_abi(js: $c) -> Self { js as $t }
}
impl IntoWasmAbi for Option<$t> {
type Abi = Option<$c>;
#[inline]
fn into_abi(self) -> Self::Abi {
self.map(|v| v as $c)
}
}
impl FromWasmAbi for Option<$t> {
type Abi = Option<$c>;
#[inline]
unsafe fn from_abi(js: Self::Abi) -> Self {
js.map(|v: $c| v as $t)
}
}
)*)
}
type_wasm_native!(
i32 as i32
isize as i32
u32 as u32
usize as u32
i64 as i64
u64 as u64
f32 as f32
f64 as f64
);
macro_rules! type_abi_as_u32 {
($($t:tt)*) => ($(
impl IntoWasmAbi for $t {
type Abi = u32;
#[inline]
fn into_abi(self) -> u32 { self as u32 }
}
impl FromWasmAbi for $t {
type Abi = u32;
#[inline]
unsafe fn from_abi(js: u32) -> Self { js as $t }
}
impl OptionIntoWasmAbi for $t {
#[inline]
fn none() -> u32 { 0x00FF_FFFFu32 }
}
impl OptionFromWasmAbi for $t {
#[inline]
fn is_none(js: &u32) -> bool { *js == 0x00FF_FFFFu32 }
}
)*)
}
type_abi_as_u32!(i8 u8 i16 u16);
impl IntoWasmAbi for bool {
type Abi = u32;
#[inline]
fn into_abi(self) -> u32 {
self as u32
}
}
impl FromWasmAbi for bool {
type Abi = u32;
#[inline]
unsafe fn from_abi(js: u32) -> bool {
js != 0
}
}
impl OptionIntoWasmAbi for bool {
#[inline]
fn none() -> u32 {
0x00FF_FFFFu32
}
}
impl OptionFromWasmAbi for bool {
#[inline]
fn is_none(js: &u32) -> bool {
*js == 0x00FF_FFFFu32
}
}
impl IntoWasmAbi for char {
type Abi = u32;
#[inline]
fn into_abi(self) -> u32 {
self as u32
}
}
impl FromWasmAbi for char {
type Abi = u32;
#[inline]
unsafe fn from_abi(js: u32) -> char {
char::from_u32_unchecked(js)
}
}
impl OptionIntoWasmAbi for char {
#[inline]
fn none() -> u32 {
0x00FF_FFFFu32
}
}
impl OptionFromWasmAbi for char {
#[inline]
fn is_none(js: &u32) -> bool {
*js == 0x00FF_FFFFu32
}
}
impl<T> IntoWasmAbi for *const T {
type Abi = u32;
#[inline]
fn into_abi(self) -> u32 {
self as u32
}
}
impl<T> FromWasmAbi for *const T {
type Abi = u32;
#[inline]
unsafe fn from_abi(js: u32) -> *const T {
js as *const T
}
}
impl<T> IntoWasmAbi for *mut T {
type Abi = u32;
#[inline]
fn into_abi(self) -> u32 {
self as u32
}
}
impl<T> FromWasmAbi for *mut T {
type Abi = u32;
#[inline]
unsafe fn from_abi(js: u32) -> *mut T {
js as *mut T
}
}
impl IntoWasmAbi for JsValue {
type Abi = u32;
#[inline]
fn into_abi(self) -> u32 {
let ret = self.idx;
mem::forget(self);
ret
}
}
impl FromWasmAbi for JsValue {
type Abi = u32;
#[inline]
unsafe fn from_abi(js: u32) -> JsValue {
JsValue::_new(js)
}
}
impl<'a> IntoWasmAbi for &'a JsValue {
type Abi = u32;
#[inline]
fn into_abi(self) -> u32 {
self.idx
}
}
impl RefFromWasmAbi for JsValue {
type Abi = u32;
type Anchor = ManuallyDrop<JsValue>;
#[inline]
unsafe fn ref_from_abi(js: u32) -> Self::Anchor {
ManuallyDrop::new(JsValue::_new(js))
}
}
impl LongRefFromWasmAbi for JsValue {
type Abi = u32;
type Anchor = JsValue;
#[inline]
unsafe fn long_ref_from_abi(js: u32) -> Self::Anchor {
Self::from_abi(js)
}
}
impl<T: OptionIntoWasmAbi> IntoWasmAbi for Option<T> {
type Abi = T::Abi;
#[inline]
fn into_abi(self) -> T::Abi {
match self {
None => T::none(),
Some(me) => me.into_abi(),
}
}
}
impl<T: OptionFromWasmAbi> FromWasmAbi for Option<T> {
type Abi = T::Abi;
#[inline]
unsafe fn from_abi(js: T::Abi) -> Self {
if T::is_none(&js) {
None
} else {
Some(T::from_abi(js))
}
}
}
impl<T: IntoWasmAbi> IntoWasmAbi for Clamped<T> {
type Abi = T::Abi;
#[inline]
fn into_abi(self) -> Self::Abi {
self.0.into_abi()
}
}
impl<T: FromWasmAbi> FromWasmAbi for Clamped<T> {
type Abi = T::Abi;
#[inline]
unsafe fn from_abi(js: T::Abi) -> Self {
Clamped(T::from_abi(js))
}
}
impl IntoWasmAbi for () {
type Abi = ();
#[inline]
fn into_abi(self) {
self
}
}
impl<T: WasmAbi<Prim3 = (), Prim4 = ()>> WasmAbi for Result<T, u32> {
type Prim1 = T::Prim1;
type Prim2 = T::Prim2;
// The order of primitives here is such that we can pop() the possible error
// first, deal with it and move on. Later primitives are popped off the
// stack first.
/// If this `Result` is an `Err`, the error value.
type Prim3 = u32;
/// Whether this `Result` is an `Err`.
type Prim4 = u32;
#[inline]
fn split(self) -> (T::Prim1, T::Prim2, u32, u32) {
match self {
Ok(value) => {
let (prim1, prim2, (), ()) = value.split();
(prim1, prim2, 0, 0)
}
Err(err) => (Default::default(), Default::default(), err, 1),
}
}
#[inline]
fn join(prim1: T::Prim1, prim2: T::Prim2, err: u32, is_err: u32) -> Self {
if is_err == 0 {
Ok(T::join(prim1, prim2, (), ()))
} else {
Err(err)
}
}
}
impl<T, E> ReturnWasmAbi for Result<T, E>
where
T: IntoWasmAbi,
E: Into<JsValue>,
T::Abi: WasmAbi<Prim3 = (), Prim4 = ()>,
{
type Abi = Result<T::Abi, u32>;
#[inline]
fn return_abi(self) -> Self::Abi {
match self {
Ok(v) => Ok(v.into_abi()),
Err(e) => {
let jsval = e.into();
Err(jsval.into_abi())
}
}
}
}
impl IntoWasmAbi for JsError {
type Abi = <JsValue as IntoWasmAbi>::Abi;
fn into_abi(self) -> Self::Abi {
self.value.into_abi()
}
}
if_std! {
// Note: this can't take `&[T]` because the `Into<JsValue>` impl needs
// ownership of `T`.
pub fn js_value_vector_into_abi<T: Into<JsValue>>(vector: Box<[T]>) -> <Box<[JsValue]> as IntoWasmAbi>::Abi {
let js_vals: Box<[JsValue]> = vector
.into_vec()
.into_iter()
.map(|x| x.into())
.collect();
js_vals.into_abi()
}
pub unsafe fn js_value_vector_from_abi<T: TryFrom<JsValue>>(js: <Box<[JsValue]> as FromWasmAbi>::Abi) -> Box<[T]> where T::Error: Debug {
let js_vals = <Vec<JsValue> as FromWasmAbi>::from_abi(js);
let mut result = Vec::with_capacity(js_vals.len());
for value in js_vals {
// We push elements one-by-one instead of using `collect` in order to improve
// error messages. When using `collect`, this `expect_throw` is buried in a
// giant chain of internal iterator functions, which results in the actual
// function that takes this `Vec` falling off the end of the call stack.
// So instead, make sure to call it directly within this function.
//
// This is only a problem in debug mode. Since this is the browser's error stack
// we're talking about, it can only see functions that actually make it to the
// final wasm binary (i.e., not inlined functions). All of those internal
// iterator functions get inlined in release mode, and so they don't show up.
result.push(value.try_into().expect_throw("array contains a value of the wrong type"));
}
result.into_boxed_slice()
}
}