## Overview
Does a few things:
- Renames `enableSyncDefaultUpdates` to
`forceConcurrentByDefaultForTesting`
- Changes the way it's used so it's dead-code eliminated separate from
`allowConcurrentByDefault`
- Deletes a bunch of the gated code
The gates that are deleted are unnecessary now. We were keeping them
when we originally thought we would come back to being concurrent by
default. But we've shifted and now sync-by default is the desired
behavior long term, so there's no need to keep all these forked tests
around.
I'll follow up to delete more of the forked behavior if possible.
Ideally we wouldn't need this flag even if we're still using
`allowConcurrentByDefault`.
This puts the change introduced by #26611 behind a flag until Meta is
able to roll it out. Disabling the flag reverts back to the old
behavior, where retries are throttled if there's still data remaining in
the tree, but not if all the data has finished loading.
The new behavior is still enabled in the public builds.
This lets you pass a function to `<form action={...}>` or `<button
formAction={...}>` or `<input type="submit formAction={...}>`. This will
behave basically like a `javascript:` URL except not quite implemented
that way. This is a convenience for the `onSubmit={e => {
e.preventDefault(); const fromData = new FormData(e.target); ... }`
pattern.
You can still implement a custom `onSubmit` handler and if it calls
`preventDefault`, it won't invoke the action, just like it would if you
used a full page form navigation or javascript urls. It behaves just
like a navigation and we might implement it with the Navigation API in
the future.
Currently this is just a synchronous function but in a follow up this
will accept async functions, handle pending states and handle errors.
This is implemented by setting `javascript:` URLs, but these only exist
to trigger an error message if something goes wrong instead of
navigating away. Like if you called `stopPropagation` to prevent React
from handling it or if you called `form.submit()` instead of
`form.requestSubmit()` which by-passes the `submit` event. If CSP is
used to ban `javascript:` urls, those will trigger errors when these
URLs are invoked which would be a different error message but it's still
there to notify the user that something went wrong in the plumbing.
Next up is improving the SSR state with action replaying and progressive
enhancement.
Implements initial (client-only) support for async actions behind a
flag. This is an experimental feature and the design isn't completely
finalized but we're getting closer. It will be layered alongside other
features we're working on, so it may not feel complete when considered
in isolation.
The basic description is you can pass an async function to
`startTransition` and all the transition updates that are scheduled
inside that async function will be grouped together. The `isPending`
flag will be set to true immediately, and only set back to false once
the async action has completed (as well as all the updates that it
triggers).
The ideal behavior would be that all updates spawned by the async action
are automatically inferred and grouped together; however, doing this
properly requires the upcoming (stage 2) Async Context API, which is not
yet implemented by browsers. In the meantime, we will fake this by
grouping together all transition updates that occur until the async
function has terminated. This can lead to overgrouping between unrelated
actions, which is not wrong per se, just not ideal.
If the `useTransition` hook is removed from the UI before an async
action has completed — for example, if the user navigates to a new page
— subsequent transitions will no longer be grouped with together with
that action.
Another consequence of the lack of Async Context is that if you call
`setState` inside an action but after an `await`, it must be wrapped in
`startTransition` in order to be grouped properly. If we didn't require
this, then there would be no way to distinguish action updates from
urgent updates caused by user input, too. This is an unfortunate footgun
but we can likely detect the most common mistakes using a lint rule.
Once Async Context lands in browsers, we can start warning in dev if we
detect an update that hasn't been wrapped in `startTransition`. Then,
longer term, once the feature is ubiquitous, we can rely on it for real
and allow you to call `setState` without the additional wrapper.
Things that are _not_ yet implemented in this PR, but will be added as
follow ups:
- Support for non-hook form of `startTransition`
- Canceling the async action scope if the `useTransition` hook is
deleted from the UI
- Anything related to server actions
This removes the concept of `prepareUpdate()`, behind a flag.
React Native already does everything in the commit phase, but generates
a temporary update payload before applying it.
React Fabric does it both in the render phase. Now it just moves it to a
single host config.
For DOM I forked updateProperties into one that does diffing and
updating in one pass vs just applying a pre-diffed updatePayload.
There are a few downsides of this approach:
- If only "children" has changed, we end up scheduling an update to be
done in the commit phase. Since we traverse through it anyway, it's
probably not much extra.
- It does more work in the commit phase so for a large tree that is
mostly unchanged, it'll stall longer.
- It does some extra work for special cases since that work happens if
anything has changed. We no longer have a deep bailout.
- The special cases now have to each replicate the "clean up old props"
loop, leading to extra code.
The benefit is that this doesn't allocate temporary extra objects
(possibly multiple per element if the array has to resize). It's less
work overall. It also gives us an option to reuse this function for a
sync render optimization.
Another benefit is that if we do the loop in the commit phase I can do
further optimizations by reading all props that I need for special cases
in that loop instead of polymorphic reads from props. This is what I'd
like to do in future refactors that would be stacked on top of this
change.
This reverts commit b2ae9ddb3b.
While the feature flag is fully rolled out, these tests are also testing
behavior set with an unstable flag on root, which for now we want to
preserve.
Not sure if there's a better way then adding a dynamic feature flag to
the www build?
When React receives new input (via `setState`, a Suspense promise
resolution, and so on), it needs to ensure there's a rendering task
associated with the update. Most of this happens
`ensureRootIsScheduled`.
If a single event contains multiple updates, we end up running the
scheduling code once per update. But this is wasteful because we really
only need to run it once, at the end of the event (or in the case of
flushSync, at the end of the scope function's execution).
So this PR moves the scheduling logic to happen in a microtask instead.
In some cases, we will force it run earlier than that, like for
`flushSync`, but since updates are batched by default, it will almost
always happen in the microtask. Even for discrete updates.
In production, this should have no observable behavior difference. In a
testing environment that uses `act`, this should also not have a
behavior difference because React will push these tasks to an internal
`act` queue.
However, tests that do not use `act` and do not simulate an actual
production environment (like an e2e test) may be affected. For example,
before this change, if a test were to call `setState` outside of `act`
and then immediately call `jest.runAllTimers()`, the update would be
synchronously applied. After this change, that will no longer work
because the rendering task (a timer, in this case) isn't scheduled until
after the microtask queue has run.
I don't expect this to be an issue in practice because most people do
not write their tests this way. They either use `act`, or they write
e2e-style tests.
The biggest exception has been... our own internal test suite. Until
recently, many of our tests were written in a way that accidentally
relied on the updates being scheduled synchronously. Over the past few
weeks, @tyao1 and I have gradually converted the test suite to use a new
set of testing helpers that are resilient to this implementation detail.
(There are also some old Relay tests that were written in the style of
React's internal test suite. Those will need to be fixed, too.)
The larger motivation behind this change, aside from a minor performance
improvement, is we intend to use this new microtask to perform
additional logic that doesn't yet exist. Like inferring the priority of
a custom event.
This flag is already enabled everywhere except for www, which is blocked
by a few tests that assert on the old behavior. Once www is ready, I'll
land this.
This is a change to some undefined behavior that we though we would do
at one point but decided not to roll out. It's already disabled
everywhere, so this just deletes the branch from the implementation and
the tests.
Today if something suspends, React will continue rendering the siblings
of that component.
Our original rationale for prerendering the siblings of a suspended
component was to initiate any lazy fetches that they might contain. This
was when we were more bullish about lazy fetching being a good idea some
of the time (when combined with prefetching), as opposed to our latest
thinking, which is that it's almost always a bad idea.
Another rationale for the original behavior was that the render was I/O
bound, anyway, so we might as do some extra work in the meantime. But
this was before we had the concept of instant loading states: when
navigating to a new screen, it's better to show a loading state as soon
as you can (often a skeleton UI), rather than delay the transition.
(There are still cases where we block the render, when a suitable
loading state is not available; it's just not _all_ cases where
something suspends.) So the biggest issue with our existing
implementation is that the prerendering of the siblings happens within
the same render pass as the one that suspended — _before_ the loading
state appears.
What we should do instead is immediately unwind the stack as soon as
something suspends, to unblock the loading state.
If we want to preserve the ability to prerender the siblings, what we
could do is schedule special render pass immediately after the fallback
is displayed. This is likely what we'll do in the future. However, in
the new implementation of `use`, there's another reason we don't
prerender siblings: so we can preserve the state of the stack when
something suspends, and resume where we left of when the promise
resolves without replaying the parents. The only way to do this
currently is to suspend the entire work loop. Fiber does not currently
support rendering multiple siblings in "parallel". Once you move onto
the next sibling, the stack of the previous sibling is discarded and
cannot be restored. We do plan to implement this feature, but it will
require a not-insignificant refactor.
Given that lazy data fetching is already bad for performance, the best
trade off for now seems to be to disable prerendering of siblings. This
gives us the best performance characteristics when you're following best
practices (i.e. hoist data fetches to Server Components or route
loaders), at the expense of making an already bad pattern a bit worse.
Later, when we implement resumable context stacks, we can reenable
sibling prerendering. Though even then the use case will mostly be to
prerender the CPU-bound work, not lazy fetches.
We disallow empty strings for `href` and `src` since they're common
mistakes that end up loading the current page as a preload, image or
link. We also disallow it for `action`. You have to pass `null` which is
the same.
However, for `formAction` passing `null` is not the same as passing
empty string. Passing empty string overrides the form's action to be the
current page even if the form's action was set to something else.
There's no easy way to express the same thing `#` show up in the user
visible URLs and `?` clears the search params.
Since this is also not a common mistake, we can just allow this.
There is a problem with <style> as resource. For css-in-js libs there
may be an very large number of these hoistables being created. The
number of style tags can grow quickly and to help reduce the prevalence
of this FIzz now aggregates all style tags for a given precedence into a
single tag. The client can 'hydrate' against these compound tags but
currently on the client insertions are done individually.
additionally drops the implementation where style tags are embedding in
a template for one where `media="not all"` is set. The idea is to have
the browser construct the underlying stylesheet eagerly which does not
happen if the tag is embedded in a template
Key Decision:
One choice made in this PR is that we flush style tags eagerly even if a
boundary is blocked that is the only thing that depends on that style
rule. The reason we are starting with this implementation is that it
allows a very condensed representation of the style resources. If we
tracked which rules were used in which boundaries we would need a style
resource for every rendered <style> tag. This could be problematic for
css-in-js libs that might render hundreds or thousands of style tags.
The tradeoff here is we slightly delay content reveal in some cases (we
send extra bytes) but we have fewer DOM tags and faster SSR runtime
The old version of prettier we were using didn't support the Flow syntax
to access properties in a type using `SomeType['prop']`. This updates
`prettier` and `rollup-plugin-prettier` to the latest versions.
I added the prettier config `arrowParens: "avoid"` to reduce the diff
size as the default has changed in Prettier 2.0. The largest amount of
changes comes from function expressions now having a space. This doesn't
have an option to preserve the old behavior, so we have to update this.
I noticed this was an experiment concluded 16 months ago (#21679) that
this extra work is beneficial
to break up cycles leaking memory in product code.
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## Summary
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This is the other approach for unifying default and sync lane
https://github.com/facebook/react/pull/25524.
The approach in that PR is to merge default and continuous lane into the
sync lane, and use a new field to track the priority. But there are a
couple places that field will be needed, and it is difficult to
correctly reset the field when there is no sync lane.
In this PR we take the other approach that doesn't remove any lane, but
batch them to get the behavior we want.
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yarn test
Co-authored-by: Andrew Clark <hi@andrewclark.io>
We originally had grand plans for using this Event concept for more but
now it's only meant to be used in combination with effects.
It's an Event in the FRP terms, that is triggered from an Effect.
Technically it can also be from another function that itself is
triggered from an existing side-effect but that's kind of an advanced
case.
The canonical case is an effect that triggers an event:
```js
const onHappened = useEffectEvent(() => ...);
useEffect(() => {
onHappened();
}, []);
```
We've heard from multiple contributors that the Reconciler forking
mechanism was confusing and/or annoying to deal with. Since it's
currently unused and there's no immediate plans to start using it again,
this removes the forking.
Fully removing the fork is split into 2 steps to preserve file history:
**This PR**
- remove `enableNewReconciler` feature flag.
- remove `unstable_isNewReconciler` export
- remove eslint rules for cross fork imports
- remove `*.new.js` files and update imports
- merge non-suffixed files into `*.old` files where both exist
(sometimes types were defined there)
**#25775**
- rename `*.old` files
This improves the error message a bit and ensures that we recommend
putting the key first, not last, which ensures that the faster
`jsx-runtime` is used.
This only affects the modern "automatic" JSX transform.
* Add fetch instrumentation in cached contexts
* Avoid unhandled rejection errors for Promises that we intentionally ignore
In the final passes, we ignore the newly generated Promises and use
the previous ones. This ensures that if those generate errors, that we
intentionally ignore those.
* Add extra fetch properties if there were any
* Facebook -> Meta in copyright
rg --files | xargs sed -i 's#Copyright (c) Facebook, Inc. and its affiliates.#Copyright (c) Meta Platforms, Inc. and affiliates.#g'
* Manual tweaks
* Add feature flag for external Fizz runtime
Only enabled for www for now
* Add option to load Fizz runtime from external file
When unstable_externalRuntimeSrc is provided, React will inject a script
tag that points to the provided URL.
Then, instead of emitting inline scripts, the Fizz stream will emit
HTML nodes with data attributes that encode the instructions. The
external runtime will detect these with a mutation observer and
translate them into runtime commands. This part isn't implemented in
this PR, though — all this does is set up the option to use
an external runtime, and inject the script tag.
The external runtime is injected at the same time as bootstrap scripts.
This commit adds a new hook `useEvent` per the RFC [here](https://github.com/reactjs/rfcs/pull/220), gated as experimental.
Co-authored-by: Rick Hanlon <rickhanlonii@gmail.com>
Co-authored-by: Rick Hanlon <rickhanlonii@fb.com>
Co-authored-by: Lauren Tan <poteto@users.noreply.github.com>
* Internal `act`: Unwrapping resolved promises
This update our internal implementation of `act` to support React's new
behavior for unwrapping promises. Like we did with Scheduler, when
something suspends, it will yield to the main thread so the microtasks
can run, then continue in a new task.
I need to implement the same behavior in the public version of `act`,
but there are some additional considerations so I'll do that in a
separate commit.
* Move throwException to after work loop resumes
throwException is the function that finds the nearest boundary and
schedules it for a second render pass. We should only call it right
before we unwind the stack — not if we receive an immediate ping and
render the fiber again.
This was an oversight in 8ef3a7c that I didn't notice because it happens
to mostly work, anyway. What made me notice the mistake is that
throwException also marks the entire render phase as suspended
(RootDidSuspend or RootDidSuspendWithDelay), which is only supposed to
be happen if we show a fallback. One consequence was that, in the
RootDidSuspendWithDelay case, the entire commit phase was blocked,
because that's the exit status we use to block a bad fallback
from appearing.
* Use expando to check whether promise has resolved
Add a `status` expando to a thrown thenable to track when its value has
resolved.
In a later step, we'll also use `value` and `reason` expandos to track
the resolved value.
This is not part of the official JavaScript spec — think of
it as an extension of the Promise API, or a custom interface that is a
superset of Thenable. However, it's inspired by the terminology used
by `Promise.allSettled`.
The intent is that this will be a public API — Suspense implementations
can set these expandos to allow React to unwrap the value synchronously
without waiting a microtask.
* Scaffolding for `experimental_use` hook
Sets up a new experimental hook behind a feature flag, but does not
implement it yet.
* use(promise)
Adds experimental support to Fiber for unwrapping the value of a promise
inside a component. It is not yet implemented for Server Components,
but that is planned.
If promise has already resolved, the value can be unwrapped
"immediately" without showing a fallback. The trick we use to implement
this is to yield to the main thread (literally suspending the work
loop), wait for the microtask queue to drain, then check if the promise
resolved in the meantime. If so, we can resume the last attempted fiber
without unwinding the stack. This functionality was implemented in
previous commits.
Another feature is that the promises do not need to be cached between
attempts. Because we assume idempotent execution of components, React
will track the promises that were used during the previous attempt and
reuse the result. You shouldn't rely on this property, but during
initial render it mostly just works. Updates are trickier, though,
because if you used an uncached promise, we have no way of knowing
whether the underlying data has changed, so we have to unwrap the
promise every time. It will still work, but it's inefficient and can
lead to unnecessary fallbacks if it happens during a discrete update.
When we implement this for Server Components, this will be less of an
issue because there are no updates in that environment. However, it's
still better for performance to cache data requests, so the same
principles largely apply.
The intention is that this will eventually be the only supported way to
suspend on arbitrary promises. Throwing a promise directly will
be deprecated.
Implement basic support for "Resources". In the context of this commit, the only thing that is currently a Resource are
<link rel="stylesheet" precedence="some-value" ...>
Resources can be rendered anywhere in the react tree, even outside of normal parenting rules, for instance you can render a resource before you have rendered the <html><head> tags for your application. In the stream we reorder this so the browser always receives valid HTML and resources are emitted either in place (normal circumstances) or at the top of the <head> (when you render them above or before the <head> in your react tree)
On the client, resources opt into an entirely different hydration path. Instead of matching the location within the Document these resources are queried for in the entire document. It is an error to have more than one resource with the same href attribute.
The use of precedence here as an opt-in signal for resourcifying the link is in preparation for a more complete Resource implementation which will dedupe resource references (multiple will be valid), hoist to the appropriate container (body, head, or elsewhere), order (according to precedence) and Suspend boundaries that depend on them. More details will come in the coming weeks on this plan.
This feature is gated by an experimental flag and will only be made available in experimental builds until some future time.
This reverts commit 327e4a1f96.
Turns out we hadn't rolled this out internally yet — I mistook
enableClientRenderFallbackOnHydrationMismatch for
said enableClientRenderFallbackOnTextMismatch. Need to revert
until we finish rolling out the change.
* Flight side of server context
* 1 more test
* rm unused function
* flow+prettier
* flow again =)
* duplicate ReactServerContext across packages
* store default value when lazily initializing server context
* .
* better comment
* derp... missing import
* rm optional chaining
* missed feature flag
* React.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED ??
* add warning if non ServerContext passed into useServerContext
* pass context in as array of arrays
* make importServerContext nott pollute the global context state
* merge main
* remove useServerContext
* dont rely on object getters in ReactServerContext and disallow JSX
* add symbols to devtools + rename globalServerContextRegistry to just ContextRegistry
* gate test case as experimental
* feedback
* remove unions
* Lint
* fix oopsies (tests/lint/mismatching arguments/signatures
* lint again
* replace-fork
* remove extraneous change
* rebase
* 1 more test
* rm unused function
* flow+prettier
* flow again =)
* duplicate ReactServerContext across packages
* store default value when lazily initializing server context
* .
* better comment
* derp... missing import
* rm optional chaining
* missed feature flag
* React.__SECRET_INTERNALS_DO_NOT_USE_OR_YOU_WILL_BE_FIRED ??
* add warning if non ServerContext passed into useServerContext
* pass context in as array of arrays
* make importServerContext nott pollute the global context state
* merge main
* remove useServerContext
* dont rely on object getters in ReactServerContext and disallow JSX
* add symbols to devtools + rename globalServerContextRegistry to just ContextRegistry
* gate test case as experimental
* feedback
* remove unions
* Lint
* fix oopsies (tests/lint/mismatching arguments/signatures
* lint again
* replace-fork
* remove extraneous change
* rebase
* reinline
* rebase
* add back changes lost due to rebase being hard
* emit chunk for provider
* remove case for React provider type
* update type for SomeChunk
* enable flag with experimental
* add missing types
* fix flow type
* missing type
* t: any
* revert extraneous type change
* better type
* better type
* feedback
* change import to type import
* test?
* test?
* remove react-dom
* remove react-native-renderer from react-server-native-relay/package.json
* gate change in FiberNewContext, getComponentNameFromType, use switch statement in FlightServer
* getComponentNameFromTpe: server context type gated and use displayName if available
* fallthrough
* lint....
* POP
* lint
There are a few internal tests that still need to be updated, so I'm
adding this flag back for www only.
The desired behavior rolled out to 10% public, so we're confident there
are no issues.
The open source behavior remains (skipUnmountedBoundaries = true).
@sebmarkbage and I audited the feature flags file to review the status
of each feature or experiment. Based on that, I've added some more
comments to the main ReactFeatureFlags module and rearranged them
into groups.
I haven't changed the value of any flags, yet. There are a few we're
going to land but I'll do them as separate PRs.
This is an old feature that we no longer support. `hydrateRoot` already
throws if you pass a comment node; this change makes `createRoot`
throw, too.
Still enabled in the Facebook build until we migrate the callers.
* custom element props
* custom element events
* use function type for on*
* tests, htmlFor
* className
* fix ReactDOMComponent-test
* started on adding feature flag
* added feature flag to all feature flag files
* everything passes
* tried to fix getPropertyInfo
* used @gate and __experimental__
* remove flag gating for test which already passes
* fix onClick test
* add __EXPERIMENTAL__ to www flags, rename eventProxy
* Add innerText and textContent to reservedProps
* Emit warning when assigning to read only properties in client
* Revert "Emit warning when assigning to read only properties in client"
This reverts commit 1a093e584ce50e2e634aa743e04f9cb8fc2b3f7d.
* Emit warning when assigning to read only properties during hydration
* yarn prettier-all
* Gate hydration warning test on flag
* Fix gating in hydration warning test
* Fix assignment to boolean properties
* Replace _listeners with random suffix matching
* Improve gating for hydration warning test
* Add outerText and outerHTML to server warning properties
* remove nameLower logic
* fix capture event listener test
* Add coverage for changing custom event listeners
* yarn prettier-all
* yarn lint --fix
* replace getCustomElementEventHandlersFromNode with getFiberCurrentPropsFromNode
* Remove previous value when adding event listener
* flow, lint, prettier
* Add dispatchEvent to make sure nothing crashes
* Add state change to reserved attribute tests
* Add missing feature flag test gate
* Reimplement SSR changes in ReactDOMServerFormatConfig
* Test hydration for objects and functions
* add missing test gate
* remove extraneous comment
* Add attribute->property test
I had to revert #22292 because there are some internal callers of
useMutableSource that we haven't migrated yet. This removes
useMutableSource from the open source build but keeps it in the
internal one.
* Re-add old Fabric Offscreen impl behind flag
There's a chance that #21960 will affect layout in a way that we don't
expect, so I'm adding back the old implementation so we can toggle the
feature with a flag.
The flag should read from the ReactNativeFeatureFlags shim so that we
can change it at runtime. I'll do that separately.
* Import dynamic RN flags from external module
Internal feature flags that we wish to control with a GK can now be
imported from an external module, which I've called
"ReactNativeInternalFeatureFlags".
We'll need to add this module to the downstream repo.
We can't yet use this in our tests, because we don't have a test
configuration that runs against the React Native feature flags fork. We
should set up that up the same way we did for www.
This PR exports a new top-level API, getInspectorDataForInstance, for React Native (both development and production). Although this change adds a new export to the DEV bundle, it only impacts the production bundle for internal builds (not what's published to NPM).
Currently, in a React 18 root, `act` only works if you mock the
Scheduler package. This was because we didn't want to add additional
checks at runtime.
But now that the `act` testing API is dev-only, we can simplify its
implementation.
Now when an update is wrapped with `act`, React will bypass Scheduler
entirely and push its tasks onto a special internal queue. Then, when
the outermost `act` scope exists, we'll flush that queue.
I also removed the "wrong act" warning, because the plan is to move
`act` to an isomorphic entry point, simlar to `startTransition`. That's
not directly related to this PR, but I didn't want to bother
re-implementing that warning only to immediately remove it.
I'll add the isomorphic API in a follow up.
Note that the internal version of `act` that we use in our own tests
still depends on mocking the Scheduler package, because it needs to work
in production. I'm planning to move that implementation to a shared
(internal) module, too.
The following APIs have been added to the `react` stable entry point:
* `SuspenseList`
* `startTransition`
* `unstable_createMutableSource`
* `unstable_useMutableSource`
* `useDeferredValue`
* `useTransition`
The following APIs have been added or removed from the `react-dom` stable entry point:
* `createRoot`
* `unstable_createPortal` (removed)
The following APIs have been added to the `react-is` stable entry point:
* `SuspenseList`
* `isSuspenseList`
The following feature flags have been changed from experimental to true:
* `enableLazyElements`
* `enableSelectiveHydration`
* `enableSuspenseServerRenderer`
Tracked Fibers are called "updaters" and are exposed to DevTools via a 'memoizedUpdaters' property on the ReactFiberRoot. The implementation of this feature follows a vaguely similar approach as interaction tracing, but does not require reference counting since there is no subscriptions API.
This change is in support of a new DevTools Profiler feature that shows which Fiber(s) scheduled the selected commit in the Profiler.
All changes have been gated behind a new feature flag, 'enableUpdaterTracking', which is enabled for Profiling builds by default. We also only track updaters when DevTools has been detected, to avoid doing unnecessary work.
This commit contains a proposed change to layout effect semantics within Suspense subtrees: If a component mounts within a Suspense boundary and is later hidden (because of something else suspending) React will cleanup that component’s layout effects (including React-managed refs).
This change will hopefully fix existing bugs that occur because of things like reading layout in a hidden tree and will also enable a point at which to e.g. pause videos and hide user-managed portals. After the suspended boundary resolves, React will setup the component’s layout effects again (including React-managed refs).
The scenario described above is not common. The useTransition API should ensure that Suspense does not revert to its fallback state after being mounted.
Note that these changes are primarily written in terms of the (as of yet internal) Offscreen API as we intend to provide similar effects semantics within recently shown/hidden Offscreen trees in the future. (More to follow.)
(Note that all changes in this PR are behind a new feature flag, enableSuspenseLayoutEffectSemantics, which is disabled for now.)
This flag was meant to avoid flushing discrete updates unnecessarily,
if multiple discrete events were dispatched in response to the same
platform event.
But since we now flush all discrete events at the end of the task, in
a microtask, it no longer has any effect.
* Add feature flag: enableStrongMemoryCleanup
Add a feature flag that will test doing a recursive clean of an unmount
node. This will disconnect the fiber graph making leaks less severe.
* Detach sibling pointers in old child list
When a fiber is deleted, it's still part of the previous (alternate)
parent fiber's list of children. Because children are a linked list, an
earlier sibling that's still alive will be connected to the deleted
fiber via its alternate:
live fiber
--alternate--> previous live fiber
--sibling--> deleted fiber
We can't disconnect `alternate` on nodes that haven't been deleted
yet, but we can disconnect the `sibling` and `child` pointers.
Will use this feature flag to test the memory impact.
* Combine into single enum flag
I combined `enableStrongMemoryCleanup` and `enableDetachOldChildList`
into a single enum flag. The flag has three possible values. Each level
is a superset of the previous one and performs more aggressive clean up.
We will use this to compare the memory impact of each level.
* Add Flow type to new host config method
* Re-use existing recursive clean up path
We already have a recursive loop that visits every deleted fiber. We
can re-use that one for clean up instead of adding another one.
Co-authored-by: Andrew Clark <git@andrewclark.io>
