dioxus/packages/core/src/virtual_dom.rs

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//! # VirtualDOM Implementation for Rust
//! This module provides the primary mechanics to create a hook-based, concurrent VDOM for Rust.
//!
//! In this file, multiple items are defined. This file is big, but should be documented well to
//! navigate the innerworkings of the Dom. We try to keep these main mechanics in this file to limit
//! the possible exposed API surface (keep fields private). This particular implementation of VDOM
//! is extremely efficient, but relies on some unsafety under the hood to do things like manage
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//! micro-heaps for components. We are currently working on refactoring the safety out into safe(r)
//! abstractions, but current tests (MIRI and otherwise) show no issues with the current implementation.
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//!
//! Included is:
//! - The [`VirtualDom`] itself
//! - The [`Scope`] object for mangning component lifecycle
//! - The [`ActiveFrame`] object for managing the Scope`s microheap
//! - The [`Context`] object for exposing VirtualDOM API to components
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//! - The [`NodeFactory`] object for lazyily exposing the `Context` API to the nodebuilder API
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//!
//! This module includes just the barebones for a complete VirtualDOM API.
//! Additional functionality is defined in the respective files.
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use crate::innerlude::*;
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use futures_util::{Future, FutureExt};
use std::{
any::{Any, TypeId},
pin::Pin,
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rc::Rc,
};
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/// An integrated virtual node system that progresses events and diffs UI trees.
/// Differences are converted into patches which a renderer can use to draw the UI.
///
///
///
///
///
///
///
pub struct VirtualDom {
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scheduler: Scheduler,
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base_scope: ScopeId,
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root_fc: Box<dyn Any>,
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root_props: Pin<Box<dyn std::any::Any>>,
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}
impl VirtualDom {
/// Create a new VirtualDOM with a component that does not have special props.
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///
/// # Description
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///
/// Later, the props can be updated by calling "update" with a new set of props, causing a set of re-renders.
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///
/// This is useful when a component tree can be driven by external state (IE SSR) but it would be too expensive
/// to toss out the entire tree.
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///
///
/// # Example
/// ```
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/// fn Example(cx: Context<()>) -> DomTree {
/// cx.render(rsx!( div { "hello world" } ))
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/// }
///
/// let dom = VirtualDom::new(Example);
/// ```
///
/// Note: the VirtualDOM is not progressed, you must either "run_with_deadline" or use "rebuild" to progress it.
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pub fn new(root: FC<()>) -> Self {
Self::new_with_props(root, ())
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}
/// Create a new VirtualDOM with the given properties for the root component.
///
/// # Description
///
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/// Later, the props can be updated by calling "update" with a new set of props, causing a set of re-renders.
///
/// This is useful when a component tree can be driven by external state (IE SSR) but it would be too expensive
/// to toss out the entire tree.
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///
///
/// # Example
/// ```
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/// #[derive(PartialEq, Props)]
/// struct SomeProps {
/// name: &'static str
/// }
///
/// fn Example(cx: Context<SomeProps>) -> DomTree {
/// cx.render(rsx!{ div{ "hello {cx.name}" } })
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/// }
///
/// let dom = VirtualDom::new(Example);
/// ```
///
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/// Note: the VirtualDOM is not progressed on creation. You must either "run_with_deadline" or use "rebuild" to progress it.
///
/// ```rust
/// let mut dom = VirtualDom::new_with_props(Example, SomeProps { name: "jane" });
/// let mutations = dom.rebuild();
/// ```
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pub fn new_with_props<P: Properties + 'static>(root: FC<P>, root_props: P) -> Self {
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let scheduler = Scheduler::new();
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let root_props: Pin<Box<dyn Any>> = Box::pin(root_props);
let props_ptr = root_props.downcast_ref::<P>().unwrap() as *const P;
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let base_scope = scheduler.pool.insert_scope_with_key(|myidx| {
let caller = NodeFactory::create_component_caller(root, props_ptr as *const _);
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Scope::new(
caller,
myidx,
None,
0,
ScopeChildren(&[]),
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scheduler.pool.channel.clone(),
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)
});
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Self {
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root_fc: Box::new(root),
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base_scope,
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scheduler,
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root_props,
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}
}
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/// Get the [`Scope`] for the root component.
///
/// This is useful for traversing the tree from the root for heuristics or altnerative renderers that use Dioxus
/// directly.
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pub fn base_scope(&self) -> &Scope {
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self.scheduler.pool.get_scope(self.base_scope).unwrap()
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}
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/// Get the [`Scope`] for a component given its [`ScopeId`]
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pub fn get_scope(&self, id: ScopeId) -> Option<&Scope> {
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self.scheduler.pool.get_scope(id)
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}
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/// Update the root props of this VirtualDOM.
///
/// This method retuns None if the old props could not be removed. The entire VirtualDOM will be rebuilt immediately,
/// so calling this method will block the main thread until computation is done.
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///
/// ## Example
///
/// ```rust
/// #[derive(Props, PartialEq)]
/// struct AppProps {
/// route: &'static str
/// }
/// static App: FC<AppProps> = |cx| cx.render(rsx!{ "route is {cx.route}" });
///
/// let mut dom = VirtualDom::new_with_props(App, AppProps { route: "start" });
///
/// let mutations = dom.update_root_props(AppProps { route: "end" }).unwrap();
/// ```
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pub fn update_root_props<'s, P: 'static>(&'s mut self, root_props: P) -> Option<Mutations<'s>> {
let root_scope = self.scheduler.pool.get_scope_mut(self.base_scope).unwrap();
root_scope.ensure_drop_safety(&self.scheduler.pool);
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let mut root_props: Pin<Box<dyn Any>> = Box::pin(root_props);
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if let Some(props_ptr) = root_props.downcast_ref::<P>().map(|p| p as *const P) {
std::mem::swap(&mut self.root_props, &mut root_props);
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let root = *self.root_fc.downcast_ref::<FC<P>>().unwrap();
let new_caller = NodeFactory::create_component_caller(root, props_ptr as *const _);
root_scope.update_scope_dependencies(new_caller, ScopeChildren(&[]));
Some(self.rebuild())
} else {
None
}
}
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/// Performs a *full* rebuild of the virtual dom, returning every edit required to generate the actual dom rom scratch
///
/// The diff machine expects the RealDom's stack to be the root of the application
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///
/// Events like garabge collection, application of refs, etc are not handled by this method and can only be progressed
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/// through "run". We completely avoid the task scheduler infrastructure.
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pub fn rebuild<'s>(&'s mut self) -> Mutations<'s> {
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let mut fut = self.rebuild_async().boxed_local();
loop {
if let Some(edits) = (&mut fut).now_or_never() {
break edits;
}
}
}
/// Rebuild the dom from the ground up
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///
/// This method is asynchronous to prevent the application from blocking while the dom is being rebuilt. Computing
/// the diff and creating nodes can be expensive, so we provide this method to avoid blocking the main thread. This
/// method can be useful when needing to perform some crucial periodic tasks.
pub async fn rebuild_async<'s>(&'s mut self) -> Mutations<'s> {
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let mut shared = self.scheduler.pool.clone();
let mut diff_machine = DiffMachine::new(Mutations::new(), &mut shared);
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let cur_component = self
.scheduler
.pool
.get_scope_mut(self.base_scope)
.expect("The base scope should never be moved");
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// We run the component. If it succeeds, then we can diff it and add the changes to the dom.
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if cur_component.run_scope(&self.scheduler.pool) {
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diff_machine
.stack
.create_node(cur_component.frames.fin_head(), MountType::Append);
diff_machine.stack.scope_stack.push(self.base_scope);
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// let completed = diff_machine.work();
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} else {
// todo: should this be a hard error?
log::warn!(
"Component failed to run succesfully during rebuild.
This does not result in a failed rebuild, but indicates a logic failure within your app."
);
}
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unsafe { std::mem::transmute(diff_machine.mutations) }
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}
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pub fn diff<'s>(&'s mut self) -> Mutations<'s> {
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let cur_component = self
.scheduler
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.pool
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.get_scope_mut(self.base_scope)
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.expect("The base scope should never be moved");
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if cur_component.run_scope(&self.scheduler.pool) {
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let mut diff_machine = DiffMachine::new(Mutations::new(), todo!());
diff_machine.diff_scope(self.base_scope);
diff_machine.mutations
} else {
Mutations::new()
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}
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}
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/// Runs the virtualdom immediately, not waiting for any suspended nodes to complete.
///
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/// This method will not wait for any suspended nodes to complete. If there is no pending work, then this method will
/// return "None"
pub fn run_immediate<'s>(&'s mut self) -> Option<Vec<Mutations<'s>>> {
if self.scheduler.has_any_work() {
Some(self.scheduler.work_sync())
} else {
None
}
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}
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/// Run the virtualdom with a deadline.
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///
/// This method will progress async tasks until the deadline is reached. If tasks are completed before the deadline,
/// and no tasks are pending, this method will return immediately. If tasks are still pending, then this method will
/// exhaust the deadline working on them.
///
/// This method is useful when needing to schedule the virtualdom around other tasks on the main thread to prevent
/// "jank". It will try to finish whatever work it has by the deadline to free up time for other work.
///
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/// Due to platform differences in how time is handled, this method accepts a future that resolves when the deadline
/// is exceeded. However, the deadline won't be met precisely, so you might want to build some wiggle room into the
/// deadline closure manually.
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///
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/// The deadline is polled before starting to diff components. This strikes a balance between the overhead of checking
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/// the deadline and just completing the work. However, if an individual component takes more than 16ms to render, then
/// the screen will "jank" up. In debug, this will trigger an alert.
///
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/// If there are no in-flight fibers when this method is called, it will await any possible tasks, aborting early if
/// the provided deadline future resolves.
///
/// For use in the web, it is expected that this method will be called to be executed during "idle times" and the
/// mutations to be applied during the "paint times" IE "animation frames". With this strategy, it is possible to craft
/// entirely jank-free applications that perform a ton of work.
///
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/// # Example
///
/// ```no_run
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/// static App: FC<()> = |cx| rsx!(in cx, div {"hello"} );
/// let mut dom = VirtualDom::new(App);
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/// loop {
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/// let deadline = TimeoutFuture::from_ms(16);
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/// let mutations = dom.run_with_deadline(deadline).await;
/// apply_mutations(mutations);
/// }
/// ```
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///
/// ## Mutations
///
/// This method returns "mutations" - IE the necessary changes to get the RealDOM to match the VirtualDOM. It also
/// includes a list of NodeRefs that need to be applied and effects that need to be triggered after the RealDOM has
/// applied the edits.
///
/// Mutations are the only link between the RealDOM and the VirtualDOM.
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pub async fn run_with_deadline<'s>(
&'s mut self,
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deadline: impl Future<Output = ()>,
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) -> Vec<Mutations<'s>> {
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let mut deadline = Box::pin(deadline.fuse());
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self.scheduler.work_with_deadline(deadline).await
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}
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pub fn get_event_sender(&self) -> futures_channel::mpsc::UnboundedSender<SchedulerMsg> {
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self.scheduler.pool.channel.sender.clone()
}
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pub fn has_work(&self) -> bool {
true
}
pub async fn wait_for_any_work(&mut self) {
let mut timeout = Box::pin(futures_util::future::pending().fuse());
self.scheduler.wait_for_any_trigger(&mut timeout).await;
}
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}
// TODO!
// These impls are actually wrong. The DOM needs to have a mutex implemented.
unsafe impl Sync for VirtualDom {}
unsafe impl Send for VirtualDom {}