Create closure type; allow async event handlers in props; allow short hand event handlers (#2437)

* create closure type; allow async event handlers in props; allow shorthand event handlers

* test forwarding event handlers with the shorthand syntax

* fix clippy

* fix imports in spawn async doctest
This commit is contained in:
Evan Almloff 2024-06-11 03:47:07 +02:00 committed by GitHub
parent 79e18c2d62
commit d795995e20
No known key found for this signature in database
GPG key ID: B5690EEEBB952194
11 changed files with 294 additions and 103 deletions

View file

@ -89,7 +89,7 @@ fn app() -> Element {
#[component]
fn CalculatorKey(name: String, onclick: EventHandler<MouseEvent>, children: Element) -> Element {
rsx! {
button { class: "calculator-key {name}", onclick: move |e| onclick.call(e), {&children} }
button { class: "calculator-key {name}", onclick, {children} }
}
}

View file

@ -21,7 +21,7 @@
//!
//! ### Events
//! - Handle events with the "onXYZ" syntax
//! - Closures can capture their environment with the 'a lifetime
//! - Closures can capture their environment with the 'static lifetime
//!
//!
//! ### Components

View file

@ -27,12 +27,18 @@ fn app() -> Element {
}
#[component]
fn Component(a: i32, b: i32, c: i32, children: Element, onclick: EventHandler) -> Element {
fn Component(
a: i32,
b: i32,
c: i32,
children: Element,
onclick: EventHandler<MouseEvent>,
) -> Element {
rsx! {
div { "{a}" }
div { "{b}" }
div { "{c}" }
div { {children} }
div { onclick: move |_| onclick.call(()) }
div { onclick }
}
}

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@ -25,7 +25,7 @@ fn app() -> Element {
div { class: "flex items-start justify-center flex-row",
SearchBox { country }
div { class: "flex flex-wrap w-full px-2",
div { class: "bg-gray-900 text-white relative min-w-0 break-words rounded-lg overflow-hidden shadow-sm mb-4 w-full bg-white dark:bg-gray-600",
div { class: "bg-gray-900 text-white relative min-w-0 break-words rounded-lg overflow-hidden shadow-sm mb-4 w-full dark:bg-gray-600",
div { class: "px-6 py-6 relative",
if let Some(Ok(weather)) = current_weather.read().as_ref() {
CountryData {
@ -122,7 +122,7 @@ fn SearchBox(mut country: Signal<WeatherLocation>) -> Element {
placeholder: "Country name",
"type": "text",
autofocus: true,
oninput: move |e| input.set(e.value())
oninput: move |e: FormEvent| input.set(e.value())
}
svg {
class: "w-4 h-4 absolute left-2.5 top-3.5",

View file

@ -520,7 +520,7 @@ mod struct_info {
empty_type, empty_type_tuple, expr_to_single_string, make_punctuated_single,
modify_types_generics_hack, path_to_single_string, strip_raw_ident_prefix, type_tuple,
};
use super::{child_owned_type, looks_like_event_handler_type, looks_like_signal_type};
use super::{child_owned_type, looks_like_callback_type, looks_like_signal_type};
#[derive(Debug)]
pub struct StructInfo<'a> {
@ -634,12 +634,12 @@ mod struct_info {
let event_handlers_fields: Vec<_> = self
.included_fields()
.filter(|f| looks_like_event_handler_type(f.ty))
.filter(|f| looks_like_callback_type(f.ty))
.collect();
let regular_fields: Vec<_> = self
.included_fields()
.filter(|f| !looks_like_signal_type(f.ty) && !looks_like_event_handler_type(f.ty))
.filter(|f| !looks_like_signal_type(f.ty) && !looks_like_callback_type(f.ty))
.map(|f| {
let name = f.name;
quote!(#name)
@ -1593,7 +1593,7 @@ Finally, call `.build()` to create the instance of `{name}`.
}
/// A helper function for paring types with a single generic argument.
fn extract_base_type_without_single_generic(ty: &Type) -> Option<syn::Path> {
fn extract_base_type_without_generics(ty: &Type) -> Option<syn::Path> {
let Type::Path(ty) = ty else {
return None;
};
@ -1670,11 +1670,11 @@ fn remove_option_wrapper(type_: Type) -> Type {
/// Check if a type should be owned by the child component after conversion
fn child_owned_type(ty: &Type) -> bool {
looks_like_signal_type(ty) || looks_like_event_handler_type(ty)
looks_like_signal_type(ty) || looks_like_callback_type(ty)
}
fn looks_like_signal_type(ty: &Type) -> bool {
match extract_base_type_without_single_generic(ty) {
match extract_base_type_without_generics(ty) {
Some(path_without_generics) => {
path_without_generics == parse_quote!(dioxus_core::prelude::ReadOnlySignal)
|| path_without_generics == parse_quote!(prelude::ReadOnlySignal)
@ -1684,13 +1684,16 @@ fn looks_like_signal_type(ty: &Type) -> bool {
}
}
fn looks_like_event_handler_type(ty: &Type) -> bool {
fn looks_like_callback_type(ty: &Type) -> bool {
let type_without_option = remove_option_wrapper(ty.clone());
match extract_base_type_without_single_generic(&type_without_option) {
match extract_base_type_without_generics(&type_without_option) {
Some(path_without_generics) => {
path_without_generics == parse_quote!(dioxus_core::prelude::EventHandler)
|| path_without_generics == parse_quote!(prelude::EventHandler)
|| path_without_generics == parse_quote!(EventHandler)
|| path_without_generics == parse_quote!(dioxus_core::prelude::Callback)
|| path_without_generics == parse_quote!(prelude::Callback)
|| path_without_generics == parse_quote!(Callback)
}
None => false,
}
@ -1709,20 +1712,21 @@ fn test_looks_like_type() {
ReadOnlySignal<Option<i32>, UnsyncStorage>
)));
assert!(looks_like_event_handler_type(&parse_quote!(
assert!(looks_like_callback_type(&parse_quote!(
Option<EventHandler>
)));
assert!(looks_like_event_handler_type(&parse_quote!(
assert!(looks_like_callback_type(&parse_quote!(
std::option::Option<EventHandler<i32>>
)));
assert!(looks_like_event_handler_type(&parse_quote!(
assert!(looks_like_callback_type(&parse_quote!(
Option<EventHandler<MouseEvent>>
)));
assert!(looks_like_event_handler_type(&parse_quote!(
EventHandler<i32>
)));
assert!(looks_like_event_handler_type(&parse_quote!(EventHandler)));
assert!(looks_like_callback_type(&parse_quote!(EventHandler<i32>)));
assert!(looks_like_callback_type(&parse_quote!(EventHandler)));
assert!(looks_like_callback_type(&parse_quote!(Callback<i32>)));
assert!(looks_like_callback_type(&parse_quote!(Callback<i32, u32>)));
}
#[test]

View file

@ -0,0 +1,65 @@
use dioxus::prelude::*;
// This test just checks that event handlers compile without explicit type annotations
// It will not actually run any code
#[test]
#[allow(unused)]
fn event_handlers_compile() {
fn app() -> Element {
let mut todos = use_signal(String::new);
rsx! {
input {
// Normal event handlers work without explicit type annotations
oninput: move |evt| todos.set(evt.value()),
}
button {
// async event handlers work without explicit type annotations
onclick: |event| async move {
println!("{event:?}");
},
}
// New! You can now use async closures for custom event handlers!
// This shouldn't require an explicit type annotation
TakesEventHandler { onclick: |event| async move {
println!("{event:?}");
} }
// Or you can accept a callback that returns a value
// This shouldn't require an explicit type annotation
TakesEventHandlerWithArg { double: move |value| (value * 2) as i32 }
}
}
#[component]
fn TakesEventHandler(onclick: EventHandler<MouseEvent>) -> Element {
rsx! {
button {
// You can pass in EventHandlers directly to events
onclick: onclick,
"Click!"
}
button {
// Or use the shorthand syntax
onclick,
"Click!"
}
// You should also be able to forward event handlers to other components with the shorthand syntax
TakesEventHandler {
onclick
}
}
}
#[component]
fn TakesEventHandlerWithArg(double: Callback<u32, i32>) -> Element {
let mut count = use_signal(|| 2);
rsx! {
button {
// Callbacks let you easily inject custom logic into your components
onclick: move |_| count.set(double(count()) as u32),
"{count}"
}
}
}
}

View file

@ -1,7 +1,8 @@
use crate::{global_context::current_scope_id, Runtime, ScopeId};
use crate::{global_context::current_scope_id, properties::SuperFrom, Runtime, ScopeId};
use generational_box::GenerationalBox;
use std::{
cell::{Cell, RefCell},
marker::PhantomData,
rc::Rc,
};
@ -147,7 +148,6 @@ impl<T: std::fmt::Debug> std::fmt::Debug for Event<T> {
///
/// This makes it possible to pass `move |evt| {}` style closures into components as property fields.
///
///
/// # Example
///
/// ```rust, no_run
@ -169,7 +169,37 @@ impl<T: std::fmt::Debug> std::fmt::Debug for Event<T> {
/// }
/// }
/// ```
pub struct EventHandler<T = ()> {
pub type EventHandler<T = ()> = Callback<T>;
/// The callback type generated by the `rsx!` macro when an `on` field is specified for components.
///
/// This makes it possible to pass `move |evt| {}` style closures into components as property fields.
///
///
/// # Example
///
/// ```rust, ignore
/// rsx!{
/// MyComponent { onclick: move |evt| {
/// tracing::debug!("clicked");
/// 42
/// } }
/// }
///
/// #[derive(Props)]
/// struct MyProps {
/// onclick: Callback<MouseEvent, i32>,
/// }
///
/// fn MyComponent(cx: MyProps) -> Element {
/// rsx!{
/// button {
/// onclick: move |evt| println!("number: {}", cx.onclick.call(evt)),
/// }
/// }
/// }
/// ```
pub struct Callback<Args = (), Ret = ()> {
pub(crate) origin: ScopeId,
/// During diffing components with EventHandler, we move the EventHandler over in place instead of rerunning the child component.
///
@ -190,87 +220,172 @@ pub struct EventHandler<T = ()> {
///
/// We double box here because we want the data to be copy (GenerationalBox) and still update in place (ExternalListenerCallback)
/// This isn't an ideal solution for performance, but it is non-breaking and fixes the issues described in <https://github.com/DioxusLabs/dioxus/pull/2298>
pub(super) callback: GenerationalBox<Option<ExternalListenerCallback<T>>>,
pub(super) callback: GenerationalBox<Option<ExternalListenerCallback<Args, Ret>>>,
}
impl<T> std::fmt::Debug for EventHandler<T> {
impl<Args, Ret> std::fmt::Debug for Callback<Args, Ret> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
f.debug_struct("EventHandler")
f.debug_struct("Callback")
.field("origin", &self.origin)
.field("callback", &self.callback)
.finish()
}
}
impl<T: 'static> Default for EventHandler<T> {
impl<T: 'static, Ret: Default + 'static> Default for Callback<T, Ret> {
fn default() -> Self {
EventHandler::new(|_| {})
Callback::new(|_| Ret::default())
}
}
impl<F: FnMut(T) + 'static, T: 'static> From<F> for EventHandler<T> {
fn from(f: F) -> Self {
EventHandler::new(f)
/// A helper trait for [`Callback`]s that allows functions to accept a [`Callback`] that may return an async block which will automatically be spawned.
///
/// ```rust, no_run
/// use dioxus::prelude::*;
/// fn accepts_fn<Ret: dioxus_core::SpawnIfAsync<Marker>, Marker>(callback: impl FnMut(u32) -> Ret + 'static) {
/// let callback = Callback::new(callback);
/// }
/// // You can accept both async and non-async functions
/// accepts_fn(|x| async move { println!("{}", x) });
/// accepts_fn(|x| println!("{}", x));
/// ```
#[rustversion::attr(
since(1.78.0),
diagnostic::on_unimplemented(
message = "`SpawnIfAsync` is not implemented for `{Self}`",
label = "Return Value",
note = "Closures (or event handlers) in dioxus need to return either: nothing (the unit type `()`), or an async block that dioxus will automatically spawn",
note = "You likely need to add a semicolon to the end of the event handler to make it return nothing",
)
)]
pub trait SpawnIfAsync<Marker, Ret = ()>: Sized {
/// Spawn the value into the dioxus runtime if it is an async block
fn spawn(self) -> Ret;
}
// Support for FnMut -> Ret for any return type
impl<Ret> SpawnIfAsync<(), Ret> for Ret {
fn spawn(self) -> Ret {
self
}
}
impl<T> Copy for EventHandler<T> {}
// Support for FnMut -> async { anything } for the unit return type
#[doc(hidden)]
pub struct AsyncMarker<O>(PhantomData<O>);
impl<F: std::future::Future<Output = O> + 'static, O> SpawnIfAsync<AsyncMarker<O>, ()> for F {
fn spawn(self) {
crate::prelude::spawn(async move {
self.await;
});
}
}
impl<T> Clone for EventHandler<T> {
// We can't directly forward the marker because it would overlap with a bunch of other impls, so we wrap it in another type instead
#[doc(hidden)]
pub struct MarkerWrapper<T>(PhantomData<T>);
// Closure can be created from FnMut -> async { anything } or FnMut -> Ret
impl<
Function: FnMut(Args) -> Spawn + 'static,
Args: 'static,
Spawn: SpawnIfAsync<Marker, Ret> + 'static,
Ret: 'static,
Marker,
> SuperFrom<Function, MarkerWrapper<Marker>> for Callback<Args, Ret>
{
fn super_from(input: Function) -> Self {
Callback::new(input)
}
}
#[test]
fn closure_types_infer() {
#[allow(unused)]
fn compile_checks() {
// You should be able to use a closure as a callback
let callback: Callback<(), ()> = Callback::new(|_| {});
// Or an async closure
let callback: Callback<(), ()> = Callback::new(|_| async {});
// You can also pass in a closure that returns a value
let callback: Callback<(), u32> = Callback::new(|_| 123);
// Or pass in a value
let callback: Callback<u32, ()> = Callback::new(|value: u32| async move {
println!("{}", value);
});
}
}
impl<Args, Ret> Copy for Callback<Args, Ret> {}
impl<Args, Ret> Clone for Callback<Args, Ret> {
fn clone(&self) -> Self {
*self
}
}
impl<T: 'static> PartialEq for EventHandler<T> {
impl<Args: 'static, Ret: 'static> PartialEq for Callback<Args, Ret> {
fn eq(&self, _: &Self) -> bool {
true
}
}
type ExternalListenerCallback<T> = Rc<RefCell<dyn FnMut(T)>>;
type ExternalListenerCallback<Args, Ret> = Rc<RefCell<dyn FnMut(Args) -> Ret>>;
impl<T: 'static> EventHandler<T> {
/// Create a new [`EventHandler`] from an [`FnMut`]. The callback is owned by the current scope and will be dropped when the scope is dropped.
impl<Args: 'static, Ret: 'static> Callback<Args, Ret> {
/// Create a new [`Callback`] from an [`FnMut`]. The callback is owned by the current scope and will be dropped when the scope is dropped.
/// This should not be called directly in the body of a component because it will not be dropped until the component is dropped.
#[track_caller]
pub fn new(mut f: impl FnMut(T) + 'static) -> EventHandler<T> {
pub fn new<MaybeAsync: SpawnIfAsync<Marker, Ret>, Marker>(
mut f: impl FnMut(Args) -> MaybeAsync + 'static,
) -> Self {
let owner = crate::innerlude::current_owner::<generational_box::UnsyncStorage>();
let callback = owner.insert(Some(Rc::new(RefCell::new(move |event: T| {
f(event);
})) as Rc<RefCell<dyn FnMut(T)>>));
EventHandler {
let callback = owner.insert(Some(
Rc::new(RefCell::new(move |event: Args| f(event).spawn()))
as Rc<RefCell<dyn FnMut(Args) -> Ret>>,
));
Self {
callback,
origin: current_scope_id().expect("to be in a dioxus runtime"),
}
}
/// Leak a new [`EventHandler`] that will not be dropped unless it is manually dropped.
/// Leak a new [`Callback`] that will not be dropped unless it is manually dropped.
#[track_caller]
pub fn leak(mut f: impl FnMut(T) + 'static) -> EventHandler<T> {
let callback = GenerationalBox::leak(Some(Rc::new(RefCell::new(move |event: T| {
f(event);
})) as Rc<RefCell<dyn FnMut(T)>>));
EventHandler {
pub fn leak(mut f: impl FnMut(Args) -> Ret + 'static) -> Self {
let callback =
GenerationalBox::leak(Some(Rc::new(RefCell::new(move |event: Args| f(event)))
as Rc<RefCell<dyn FnMut(Args) -> Ret>>));
Self {
callback,
origin: current_scope_id().expect("to be in a dioxus runtime"),
}
}
/// Call this event handler with the appropriate event type
/// Call this callback with the appropriate argument type
///
/// This borrows the event using a RefCell. Recursively calling a listener will cause a panic.
pub fn call(&self, event: T) {
/// This borrows the callback using a RefCell. Recursively calling a callback will cause a panic.
pub fn call(&self, arguments: Args) -> Ret {
if let Some(callback) = self.callback.read().as_ref() {
Runtime::with(|rt| rt.scope_stack.borrow_mut().push(self.origin));
{
let value = {
let mut callback = callback.borrow_mut();
callback(event);
}
callback(arguments)
};
Runtime::with(|rt| rt.scope_stack.borrow_mut().pop());
value
} else {
panic!("Callback was manually dropped")
}
}
/// Create a `impl FnMut + Copy` closure from the Closure type
pub fn into_closure(self) -> impl FnMut(Args) -> Ret + Copy + 'static {
move |args| self.call(args)
}
/// Forcibly drop the internal handler callback, releasing memory
///
/// This will force any future calls to "call" to not doing anything
@ -280,22 +395,22 @@ impl<T: 'static> EventHandler<T> {
#[doc(hidden)]
/// This should only be used by the `rsx!` macro.
pub fn __set(&mut self, value: ExternalListenerCallback<T>) {
pub fn __set(&mut self, value: ExternalListenerCallback<Args, Ret>) {
self.callback.set(Some(value));
}
#[doc(hidden)]
/// This should only be used by the `rsx!` macro.
pub fn __take(&self) -> ExternalListenerCallback<T> {
pub fn __take(&self) -> ExternalListenerCallback<Args, Ret> {
self.callback
.read()
.clone()
.expect("EventHandler was manually dropped")
.expect("Callback was manually dropped")
}
}
impl<T: 'static> std::ops::Deref for EventHandler<T> {
type Target = dyn Fn(T) + 'static;
impl<Args: 'static, Ret: 'static> std::ops::Deref for Callback<Args, Ret> {
type Target = dyn Fn(Args) -> Ret + 'static;
fn deref(&self) -> &Self::Target {
// https://github.com/dtolnay/case-studies/tree/master/callable-types

View file

@ -60,10 +60,10 @@ pub(crate) mod innerlude {
pub use crate::innerlude::{
fc_to_builder, generation, schedule_update, schedule_update_any, use_hook, vdom_is_rendering,
AnyValue, Attribute, AttributeValue, CapturedError, Component, ComponentFunction, DynamicNode,
Element, ElementId, Event, Fragment, HasAttributes, IntoDynNode, Mutation, Mutations,
NoOpMutations, Properties, RenderReturn, Runtime, ScopeId, ScopeState, Task, Template,
TemplateAttribute, TemplateNode, VComponent, VNode, VNodeInner, VPlaceholder, VText,
VirtualDom, WriteMutations,
Element, ElementId, Event, Fragment, HasAttributes, IntoDynNode, MarkerWrapper, Mutation,
Mutations, NoOpMutations, Properties, RenderReturn, Runtime, ScopeId, ScopeState, SpawnIfAsync,
Task, Template, TemplateAttribute, TemplateNode, VComponent, VNode, VNodeInner, VPlaceholder,
VText, VirtualDom, WriteMutations,
};
/// The purpose of this module is to alleviate imports of many common types
@ -76,10 +76,10 @@ pub mod prelude {
provide_context, provide_root_context, queue_effect, remove_future, schedule_update,
schedule_update_any, spawn, spawn_forever, spawn_isomorphic, suspend, try_consume_context,
use_after_render, use_before_render, use_drop, use_error_boundary, use_hook,
use_hook_with_cleanup, wait_for_next_render, with_owner, AnyValue, Attribute, Component,
ComponentFunction, Element, ErrorBoundary, Event, EventHandler, Fragment, HasAttributes,
IntoAttributeValue, IntoDynNode, OptionStringFromMarker, Properties, Runtime, RuntimeGuard,
ScopeId, ScopeState, SuperFrom, SuperInto, Task, Template, TemplateAttribute, TemplateNode,
Throw, VNode, VNodeInner, VirtualDom,
use_hook_with_cleanup, wait_for_next_render, with_owner, AnyValue, Attribute, Callback,
Component, ComponentFunction, Element, ErrorBoundary, Event, EventHandler, Fragment,
HasAttributes, IntoAttributeValue, IntoDynNode, OptionStringFromMarker, Properties,
Runtime, RuntimeGuard, ScopeId, ScopeState, SuperFrom, SuperInto, Task, Template,
TemplateAttribute, TemplateNode, Throw, VNode, VNodeInner, VirtualDom,
};
}

View file

@ -25,16 +25,35 @@ macro_rules! impl_event {
#[doc(alias = $js_name)]
)?
#[inline]
pub fn $name<E: crate::EventReturn<T>, T>(mut _f: impl FnMut(::dioxus_core::Event<$data>) -> E + 'static) -> ::dioxus_core::Attribute {
pub fn $name<__Marker>(mut _f: impl ::dioxus_core::prelude::SuperInto<::dioxus_core::prelude::EventHandler<::dioxus_core::Event<$data>>, __Marker>) -> ::dioxus_core::Attribute {
let event_handler = _f.super_into();
::dioxus_core::Attribute::new(
impl_event!(@name $name $($js_name)?),
::dioxus_core::AttributeValue::listener(move |e: ::dioxus_core::Event<crate::PlatformEventData>| {
_f(e.map(|e|e.into())).spawn();
::dioxus_core::AttributeValue::listener(move |e: ::dioxus_core::Event<crate::PlatformEventData>| {
event_handler.call(e.map(|e| e.into()));
}),
None,
false,
).into()
}
#[doc(hidden)]
$( #[$attr] )*
pub mod $name {
use super::*;
// When expanding the macro, we use this version of the function if we see an inline closure to give better type inference
$( #[$attr] )*
pub fn call_with_explicit_closure<
__Marker,
Return: ::dioxus_core::SpawnIfAsync<__Marker> + 'static,
>(
event_handler: impl FnMut(::dioxus_core::Event<$data>) -> Return + 'static,
) -> ::dioxus_core::Attribute {
#[allow(deprecated)]
super::$name(event_handler)
}
}
)*
};
@ -367,31 +386,3 @@ pub fn event_bubbles(evt: &str) -> bool {
}
}
}
#[doc(hidden)]
#[rustversion::attr(
since(1.78.0),
diagnostic::on_unimplemented(
message = "`EventHandlerReturn` is not implemented for `{Self}`",
label = "Return Value",
note = "Event handlers in dioxus need to return either: nothing (the unit type `()`), or an async block that dioxus will automatically spawn",
note = "You likely need to add a semicolon to the end of the event handler to make it return nothing",
)
)]
pub trait EventReturn<P>: Sized {
fn spawn(self) {}
}
impl EventReturn<()> for () {}
#[doc(hidden)]
pub struct AsyncMarker;
impl<T> EventReturn<AsyncMarker> for T
where
T: std::future::Future<Output = ()> + 'static,
{
#[inline]
fn spawn(self) {
dioxus_core::prelude::spawn(self);
}
}

View file

@ -119,7 +119,7 @@ fn Route3(dynamic: String) -> Element {
rsx! {
input {
oninput: move |evt| {
oninput: move |evt: FormEvent| {
*current_route_str.write() = evt.value();
},
value: "{current_route_str}"

View file

@ -4,7 +4,7 @@ use super::*;
use proc_macro2::{Span, TokenStream as TokenStream2};
use quote::{quote, quote_spanned};
use syn::{parse_quote, spanned::Spanned, Expr, ExprIf, Ident, LitStr};
use syn::{parse_quote, spanned::Spanned, Expr, ExprClosure, ExprIf, Ident, LitStr};
#[derive(PartialEq, Eq, Clone, Debug, Hash)]
pub enum AttributeType {
@ -246,8 +246,18 @@ impl ToTokens for ElementAttrNamed {
}
ElementAttrValue::EventTokens(tokens) => match &self.attr.name {
ElementAttrName::BuiltIn(name) => {
let event_tokens_is_closure =
syn::parse2::<ExprClosure>(tokens.to_token_stream()).is_ok();
let function_name =
quote_spanned! { tokens.span() => dioxus_elements::events::#name };
let function = if event_tokens_is_closure {
// If we see an explicit closure, we can call the `call_with_explicit_closure` version of the event for better type inference
quote_spanned! { tokens.span() => #function_name::call_with_explicit_closure }
} else {
function_name
};
quote_spanned! { tokens.span() =>
dioxus_elements::events::#name(#tokens)
#function(#tokens)
}
}
ElementAttrName::Custom(_) => unreachable!("Handled elsewhere in the macro"),