Following #28768, add a path to testing Fast JSX on www.
We want to measure the impact of Fast JSX and enable a path to testing
before string refs are completely removed in www (which is a work in
progress).
Without `disableStringRefs`, we need to copy any object with a `ref` key
so we can pass it through `coerceStringRef()` and copy it into the
object. This de-opt path is what is gated behind
`enableFastJSXWithStringRefs`.
The additional checks should have no perf impact in OSS as the flags
remain true there and the build output is not changed. For www, I've
benchmarked the addition of the boolean checks with values cached at
module scope. There is no significant change observed from our
benchmarks and any latency will apply to test and control branches
evenly. This added experiment complexity is temporary. We should be able
to clean it up, along with the flag checks for `enableRefAsProp` and
`disableStringRefs` shortly.
DiffTrain build for [1beb73de0f](https://github.com/facebook/react/commit/1beb73de0f7c3261a0de37620453b102caaa6236)
When a React PR is opened CI will report large size changes. But for
critical packages like react-dom it reports always. In React 19 we moved
the build for react-dom the client reconciler from react-dom to
react-dom/client
This change adds react-dom-client artifacts for stable and oss channels
since that is originally what was being tracked. But since
react-dom/client always imports react-dom I left the original react-dom
packages as critical as well. They are small but it would be good to
keep an eye on them
DiffTrain build for [c7b1ae5a9e](https://github.com/facebook/react/commit/c7b1ae5a9ed58abece101d09c47ddd1e0b181fe2)
It turns out we already made refs writable in #25696, which has been in
canary for over a year. The approach in that PR also has the benefit of
being slightly more perf sensitive because it still uses a shared object
until the fiber is mounted. So let's just go back to that.
DiffTrain build for [d285b3acba](https://github.com/facebook/react/commit/d285b3acbade77f9b17e6171dbda69ff4a033878)
This PR reorganizes the `react-dom` entrypoint to only pull in code that
is environment agnostic. Previously if you required anything from this
entrypoint in any environment the entire client reconciler was loaded.
In a prior release we added a server rendering stub which you could
alias in server environments to omit this unecessary code. After landing
this change this entrypoint should not load any environment specific
code.
While a few APIs are truly client (browser) only such as createRoot and
hydrateRoot many of the APIs you import from this package are only
useful in the browser but could concievably be imported in shared code
(components running in Fizz or shared components as part of an RSC app).
To avoid making these require opting into the client bundle we are
keeping them in the `react-dom` entrypoint and changing their
implementation so that in environments where they are not particularly
useful they do something benign and expected.
#### Removed APIs
The following APIs are being removed in the next major. Largely they
have all been deprecated already and are part of legacy rendering modes
where concurrent features of React are not available
* `render`
* `hydrate`
* `findDOMNode`
* `unmountComponentAtNode`
* `unstable_createEventHandle`
* `unstable_renderSubtreeIntoContainer`
* `unstable_runWithPrioirty`
#### moved Client APIs
These APIs were available on both `react-dom` (with a warning) and
`react-dom/client`. After this change they are only available on
`react-dom/client`
* `createRoot`
* `hydrateRoot`
#### retained APIs
These APIs still exist on the `react-dom` entrypoint but have normalized
behavior depending on which renderers are currently in scope
* `flushSync`: will execute the function (if provided) inside the
flushSync implemention of FlightServer, Fizz, and Fiber DOM renderers.
* `unstable_batchedUpdates`: This is a noop in concurrent mode because
it is now the only supported behavior because there is no legacy
rendering mode
* `createPortal`: This just produces an object. It can be called from
anywhere but since you will probably not have a handle on a DOM node to
pass to it it will likely warn in environments other than the browser
* preloading APIS such as `preload`: These methods will execute the
preload across all renderers currently in scope. Since we resolve the
Request object on the server using AsyncLocalStorage or the current
function stack in practice only one renderer should act upon the
preload.
In addition to these changes the server rendering stub now just rexports
everything from `react-dom`. In a future minor we will add a warning
when using the stub and in the next major we will remove the stub
altogether
DiffTrain build for [cb151849e1](https://github.com/facebook/react/commit/cb151849e13f46ec64570519cb93d5939fb60cab)
This removes the automatic patching of the global `fetch` function in
Server Components environments to dedupe requests using `React.cache`, a
behavior that some RSC framework maintainers have objected to.
We may revisit this decision in the future, but for now it's not worth
the controversy.
Frameworks that have already shipped this behavior, like Next.js, can
reimplement it in userspace.
I considered keeping the implementation in the codebase and disabling it
by setting `enableFetchInstrumentation` to `false` everywhere, but since
that also disables the tests, it doesn't seem worth it because without
test coverage the behavior is likely to drift regardless. We can just
revert this PR later if desired.
DiffTrain build for [a94838df1c](https://github.com/facebook/react/commit/a94838df1c598a3993316ff453c84f3688537a97)
Stacked on #28849, #28854, #28853. Behind a flag.
If you're following along from the side-lines. This is probably not what
you think it is.
It's NOT a way to get updates to a component over time. The
AsyncIterable works like an Iterable already works in React which is how
an Array works. I.e. it's a list of children - not the value of a child
over time.
It also doesn't actually render one component at a time. The way it
works is more like awaiting the entire list to become an array and then
it shows up. Before that it suspends the parent.
To actually get these to display one at a time, you have to opt-in with
`<SuspenseList>` to describe how they should appear. That's really the
interesting part and that not implemented yet.
Additionally, since these are effectively Async Functions and uncached
promises, they're not actually fully "supported" on the client yet for
the same reason rendering plain Promises and Async Functions aren't.
They warn. It's only really useful when paired with RSC that produces
instrumented versions of these. Ideally we'd published instrumented
helpers to help with map/filter style operations that yield new
instrumented AsyncIterables.
The way the implementation works basically just relies on unwrapThenable
and otherwise works like a plain Iterator.
There is one quirk with these that are different than just promises. We
ask for a new iterator each time we rerender. This means that upon retry
we kick off another iteration which itself might kick off new requests
that block iterating further. To solve this and make it actually
efficient enough to use on the client we'd need to stash something like
a buffer of the previous iteration and maybe iterator on the iterable so
that we can continue where we left off or synchronously iterate if we've
seen it before. Similar to our `.value` convention on Promises.
In Fizz, I had to do a special case because when we render an iterator
child we don't actually rerender the parent again like we do in Fiber.
However, it's more efficient to just continue on where we left off by
reusing the entries from the thenable state from before in that case.
DiffTrain build for [9f2eebd807](https://github.com/facebook/react/commit/9f2eebd807bf53b7d9901cf0b768762948224cae)
We have changed the shape (and the runtime) of React Elements. To help
avoid precompiled or inlined JSX having subtle breakages or deopting
hidden classes, I renamed the symbol so that we can early error if
private implementation details are used or mismatching versions are
used.
Why "transitional"? Well, because this is not the last time we'll change
the shape. This is just a stepping stone to removing the `ref` field on
the elements in the next version so we'll likely have to do it again.
DiffTrain build for [3b551c8284](https://github.com/facebook/react/commit/3b551c82844bcfde51f0febb8e42c1a0d777df2c)
Stacked on #28853 and #28854.
React supports rendering `Iterable` and will soon support
`AsyncIterable`. As long as it's multi-shot since during an update we
may have to rerender with new inputs an loop over the iterable again.
Therefore the `Iterator` and `AsyncIterator` types are not supported
directly as a child of React - and really it shouldn't pass between
Hooks or components neither for this reason. For parity, that's also the
case when used in Server Components.
However, there is a special case when the component rendered itself is a
generator function. While it returns as a child an `Iterator`, the React
Element itself can act as an `Iterable` because we can re-evaluate the
function to create a new generator whenever we need to.
It's also very convenient to use generator functions over constructing
an `AsyncIterable`. So this is a proposal to special case the
`Generator`/`AsyncGenerator` returned by a (Async) Generator Function.
In Flight this means that when we render a Server Component we can
serialize this value as an `Iterable`/`AsyncIterable` since that's
effectively what rendering it on the server reduces down to. That way if
Fiber can receive the result in any position.
For SuspenseList this would also need another special case because the
children of SuspenseList represent "rows".
`<SuspenseList><Component /></SuspenseList>` currently is a single "row"
even if the component renders multiple children or is an iterator. This
is currently different if Component is a Server Component because it'll
reduce down to an array/AsyncIterable and therefore be treated as one
row per its child. This is different from `<SuspenseList><Component
/><Component /></SuspenseList>` since that has a wrapper array and so
this is always two rows.
It probably makes sense to special case a single-element child in
`SuspenseList` to represent a component that generates rows. That way
you can use an `AsyncGeneratorFunction` to do this.
DiffTrain build for [5b903cdaa9](https://github.com/facebook/react/commit/5b903cdaa94c78e8fabb985d8daca5bd7d266323)
This doesn't change production behavior. We always render Iterables to
our best effort in prod even if they're Iterators.
But this does change the DEV warnings which indicates which are valid
patterns to use.
It's a footgun to use an Iterator as a prop when you pass between
components because if an intermediate component rerenders without its
parent, React won't be able to iterate it again to reconcile and any
mappers won't be able to re-apply. This is actually typically not a
problem when passed only to React host components but as a pattern it's
a problem for composability.
We used to warn only for Generators - i.e. Iterators returned from
Generator functions. This adds a warning for Iterators created by other
means too (e.g. Flight or the native Iterator utils). The heuristic is
to check whether the Iterator is the same as the Iterable because that
means it's not possible to get new iterators out of it. This case used
to just yield non-sense like empty sets in DEV but not in prod.
However, a new realization is that when the Component itself is a
Generator Function, it's not actually a problem. That's because the
React Element itself works as an Iterable since we can ask for new
generators by calling the function again. So this adds a special case to
allow the Generator returned from a Generator Function's direct child.
The principle is “don’t pass iterators around” but in this case there is
no iterator floating around because it’s between React and the JS VM.
Also see #28849 for context on AsyncIterables.
Related to this, but Hooks should ideally be banned in these for the
same reason they're banned in Async Functions.
DiffTrain build for [368202181e](https://github.com/facebook/react/commit/368202181e772d411b2445930aea1edd9428b09b)
This disables symbol renaming in production builds. The original
variable and function names are preserved. All other forms of
compression applied by Closure (dead code elimination, inlining, etc)
are unchanged — the final program is identical to what we were producing
before, just in a more readable form.
The motivation is to make it easier to debug React issues that only
occur in production — the same reason we decided to start shipping
sourcemaps in #28827 and #28827.
However, because most apps run their own minification step on their npm
dependencies, it's not necessary for us to minify the symbols before
publishing — it'll be handled the app, if desired.
This is the same strategy Meta has used to ship React for years. The
React build itself has unminified symbols, but they get minified as part
of Meta's regular build pipeline.
Even if an app does not minify their npm dependencies, gzip covers most
of the cost of symbol renaming anyway.
This saves us from having to ship sourcemaps, which means even apps that
don't have sourcemaps configured will be able to debug the React build
as easily as they would any other npm dependency.
DiffTrain build for [857ee8cdf9](https://github.com/facebook/react/commit/857ee8cdf9af81bc94a7f04528fbda7fb2510eb4)
Adds an experimental feature flag to the implementation of useMemoCache,
the internal cache used by the React Compiler (Forget).
When enabled, instead of treating the cache as copy-on-write, like we do
with fibers, we share the same cache instance across all render
attempts, even if the component is interrupted before it commits.
If an update is interrupted, either because it suspended or because of
another update, we can reuse the memoized computations from the previous
attempt. We can do this because the React Compiler performs atomic
writes to the memo cache, i.e. it will not record the inputs to a
memoization without also recording its output.
This gives us a form of "resuming" within components and hooks.
This only works when updating a component that already mounted. It has
no impact during initial render, because the memo cache is stored on the
fiber, and since we have not implemented resuming for fibers, it's
always a fresh memo cache, anyway.
However, this alone is pretty useful — it happens whenever you update
the UI with fresh data after a mutation/action, which is extremely
common in a Suspense-driven (e.g. RSC or Relay) app.
So the impact of this feature is faster data mutations/actions (when the
React Compiler is used).
DiffTrain build for [ea26e38e33](https://github.com/facebook/react/commit/ea26e38e33bffeba1ecc42688d7e8cd7e0da1c02)
Meta uses various tools built on top of the "react-reconciler" package
but that package needs to match the version of the "react" package.
This means that it should be synced at the same time. However, more than
that the feature flags between the "react" package and the
"react-reconciler" package needs to line up. Since FB has custom feature
flags, it can't use the OSS version of react-reconciler.
DiffTrain build for [446aa9a632](https://github.com/facebook/react/commit/446aa9a632670eb9a373d897309452e24c10c55e)
In #26446 we started publishing non-minified versions of our production
build artifacts, along with source maps, for easier debugging of React
when running in production mode.
The way it's currently set up is that these builds are generated
*before* Closure compiler has run. Which means it's missing many of the
optimizations that are in the final build, like dead code elimination.
This PR changes the build process to run Closure on the non-minified
production builds, too, by moving the sourcemap generation to later in
the pipeline.
The non-minified builds will still preserve the original symbol names,
and we'll use Prettier to add back whitespace. This is the exact same
approach we've been using for years to generate production builds for
Meta.
The idea is that the only difference between the minified and non-
minified builds is whitespace and symbol mangling. The semantic
structure of the program should be identical.
To implement this, I disabled symbol mangling when running Closure
compiler. Then, in a later step, the symbols are mangled by Terser. This
is when the source maps are generated.
DiffTrain build for [0e0b69321a](https://github.com/facebook/react/commit/0e0b69321a6fcfe8a3eaae3b1016beb110437b38)
Stacked on #28872
renderToStaticNodeStream was not originally deprecated when
renderToNodeStream was deprecated because it did not yet have a clear
analog in the modern streaming implementation for SSR. In React 19 we
have already removed renderToNodeStream. This change removes
renderToStaticNodeStream as well because you can replicate it's
semantics using renderToPipeableStream with onAllReady or
renderToReadableStream with await stream.allready.
DiffTrain build for [33a32441e9](https://github.com/facebook/react/commit/33a32441e991e126e5e874f831bd3afc237a3ecf)
This commit adds warnings indicating that `renderToStaticNodeStream`
will be removed in an upcoming React release. This API has been legacy,
is not widely used (renderToStaticMarkup is more common) and has
semantically eqiuvalent implementations with renderToReadableStream and
renderToPipeableStream.
DiffTrain build for [d329ff9d9e](https://github.com/facebook/react/commit/d329ff9d9e87f3f909f98cf63701ef3795cf2584)
stacked on #28870
inline script children have been encoded as HTML for a while now but
this can easily break script parsing so practically if you were
rendering inline scripts you were using dangerouslySetInnerHTML. This is
not great because now there is no escaping at all so you have to be even
more careful. While care should always be taken when rendering untrusted
script content driving users to use dangerous APIs is not the right
approach and in this PR the escaping functionality used for
bootstrapScripts and importMaps is being extended to any inline script.
the approach is to escape 's' or 'S" with the appropriate unicode code
point if it is inside a <script or </script sequence. This has the nice
benefit of minimally escaping the text for readability while still
preserving full js parsing capabilities. As articulated when we
introduced this escaping for prior use cases this is only safe because
we are escaping the entire script content. It would be unsafe if we were
not escaping the entirety of the script because we would no longer be
able to ensure there are no earlier or later <script sequences that put
the parser in unexpected states.
DiffTrain build for [561c023708](https://github.com/facebook/react/commit/561c023708bc0cb04613f89da821dc3c55245f01)
style text content has historically been escaped as HTML which is
non-sensical and often leads users to using dangerouslySetInnerHTML as a
matter of course. While rendering untrusted style rules is a security
risk React doesn't really provide any special protection here and
forcing users to use a completely unescaped API is if anything worse. So
this PR updates the style escaping rules for Fizz to only escape the
text content to ensure the tag scope cannot be closed early. This is
accomplished by encoding "s" and "S" as hexadecimal unicode
representation "\73 " and "\53 " respectively when found within a
sequence like </style>. We have to be careful to support casing here
just like with the script closing tag regex for bootstrap scripts.
DiffTrain build for [aead514db2](https://github.com/facebook/react/commit/aead514db2808a2e82c128aa4db459939ab88b58)
Previously, the `refs` property of a class component instance was
read-only by user code — only React could write to it, and until/unless
a string ref was used, it pointed to a shared empty object that was
frozen in dev to prevent userspace mutations.
Because string refs are deprecated, we want users to be able to codemod
all their string refs to callback refs. The safest way to do this is to
output a callback ref that assigns to `this.refs`.
So to support this, we need to make `this.refs` writable by userspace.
DiffTrain build for [ea24427d16](https://github.com/facebook/react/commit/ea24427d16f3ac9b0f3bb45cdc7919ac208130c9)
In React 19 React will finally stop publishing UMD builds. This is
motivated primarily by the lack of use of UMD format and the added
complexity of maintaining build infra for these releases. Additionally
with ESM becoming more prevalent in browsers and services like esm.sh
which can host React as an ESM module there are other options for doing
script tag based react loading.
This PR removes all the UMD build configs and forks.
There are some fixtures that still have references to UMD builds however
many of them already do not work (for instance they are using legacy
features like ReactDOM.render) and rather than block the removal on
these fixtures being brought up to date we'll just move forward and fix
or removes fixtures as necessary in the future.
DiffTrain build for [da6ba53b10](https://github.com/facebook/react/commit/da6ba53b10d8240fc251ba14a3e5878604d3dc7d)
This wasn't clearly articulated and tested why the code structure is
like this but I think the logic is correct - or at least consistent with
the weird semantics.
We place this top-level fragment check inside the recursion so that you
can resolve how many every Lazy or Usable wrappers you want and it still
preserves the same semantics if they weren't there (which they might not
be as a matter of a race condition).
However, we don't actually recurse with the top-level fragment
unwrapping itself because nesting a bunch of keyless fragments isn't the
same as a single fragment/element.
DiffTrain build for [4ca20fd36b](https://github.com/facebook/react/commit/4ca20fd36b2444a74279e7022f89894710b1daab)
This adds support in Flight for serializing four kinds of streams:
- `ReadableStream` with objects as a model. This is a single shot
iterator so you can read it only once. It can contain any value
including Server Components. Chunks are encoded as is so if you send in
10 typed arrays, you get the same typed arrays out on the other side.
- Binary `ReadableStream` with `type: 'bytes'` option. This supports the
BYOB protocol. In this mode, the receiving side just gets `Uint8Array`s
and they can be split across any single byte boundary into arbitrary
chunks.
- `AsyncIterable` where the `AsyncIterator` function is different than
the `AsyncIterable` itself. In this case we assume that this might be a
multi-shot iterable and so we buffer its value and you can iterate it
multiple times on the other side. We support the `return` value as a
value in the single completion slot, but you can't pass values in
`next()`. If you want single-shot, return the AsyncIterator instead.
- `AsyncIterator`. These gets serialized as a single-shot as it's just
an iterator.
`AsyncIterable`/`AsyncIterator` yield Promises that are instrumented
with our `.status`/`.value` convention so that they can be synchronously
looped over if available. They are also lazily parsed upon read.
We can't do this with `ReadableStream` because we use the native
implementation of `ReadableStream` which owns the promises.
The format is a leading row that indicates which type of stream it is.
Then a new row with the same ID is emitted for every chunk. Followed by
either an error or close row.
`AsyncIterable`s can also be returned as children of Server Components
and then they're conceptually the same as fragment arrays/iterables.
They can't actually be used as children in Fizz/Fiber but there's a
separate plan for that. Only `AsyncIterable` not `AsyncIterator` will be
valid as children - just like sync `Iterable` is already supported but
single-shot `Iterator` is not. Notably, neither of these streams
represent updates over time to a value. They represent multiple values
in a list.
When the server stream is aborted we also close the underlying stream.
However, closing a stream on the client, doesn't close the underlying
stream.
A couple of possible follow ups I'm not planning on doing right now:
- [ ] Free memory by releasing the buffer if an Iterator has been
exhausted. Single shots could be optimized further to release individual
items as you go.
- [ ] We could clean up the underlying stream if the only pending data
that's still flowing is from streams and all the streams have cleaned
up. It's not very reliable though. It's better to do cancellation for
the whole stream - e.g. at the framework level.
- [ ] Implement smarter Binary Stream chunk handling. Currently we wait
until we've received a whole row for binary chunks and copy them into
consecutive memory. We need this to preserve semantics when passing
typed arrays. However, for binary streams we don't need that. We can
just send whatever pieces we have so far.
DiffTrain build for [7909d8eabb](https://github.com/facebook/react/commit/7909d8eabb7a702618f51e16a351df41aa8da88e)
Hoistables should never flush before the preamble however there is a
surprisingly easy way to trigger this to happen by suspending in the
shell of the app. This change modifies the flushing behavior to not emit
any hoistables before the preamble has written. It accomplishes this by
aborting the flush early if there are any pending root tasks remaining.
It's unfortunate we need this extra condition but it's essential that we
don't emit anything before the preamble and at the moment I don't see a
way to do that without introducing a new condition.
There is a test that began to fail with this update. It turns out that
in node the root can be blocked during a resume even for a component
inside a Suspense boundary if that boundary was part of the prerender.
This means that with the current heuristic in this PR boundaries cannot
be flushed during resume until the root is unblocked. This is not ideal
but this is already how Edge works because the root blocks the stream in
that case. This just makes Node deopt in a similar way to edge. We
should improve this but we ought to do so in a way that works for edge
too and it needs to be more comprehensive.
DiffTrain build for [c8a035036d](https://github.com/facebook/react/commit/c8a035036d0f257c514b3628e927dd9dd26e5a09)
This removes defaultProps support for all component types except for
classes. We've chosen to continue supporting defaultProps for classes
because lots of older code relies on it, and unlike function components,
(which can use default params), there's no straightforward alternative.
By implication, it also removes support for setting defaultProps on
`React.lazy` wrapper. So this will not work:
```js
const MyClassComponent = React.lazy(() => import('./MyClassComponent'));
// MyClassComponent is not actually a class; it's a lazy wrapper. So
// defaultProps does not work.
MyClassComponent.defaultProps = { foo: 'bar' };
```
However, if you set the default props on the class itself, then it's
fine.
For classes, this change also moves where defaultProps are resolved.
Previously, defaultProps were resolved by the JSX runtime. This change
is only observable if you introspect a JSX element, which is relatively
rare but does happen.
In other words, previously `<ClassWithDefaultProp />.props.aDefaultProp`
would resolve to the default prop value, but now it does not.
DiffTrain build for [48b4ecc901](https://github.com/facebook/react/commit/48b4ecc9012638ed51b275aad24b2086b8215e32)
We currently support Blobs when passing from Client to Server so this
adds it in the other direction for parity - when `enableFlightBinary` is
enabled.
We intentionally only support the `Blob` type to pass-through, not
subtype `File`. That's because passing additional meta data like
filename might be an accidental leak. You can still pass a `File`
through but it'll appear as a `Blob` on the other side. It's also not
possible to create a faithful File subclass in all environments without
it actually being backed by a file.
This implementation isn't great but at least it works. It creates a few
indirections. This is because we need to be able to asynchronously emit
the buffers but we have to "block" the parent object from resolving
while it's loading.
Ideally, we should be able to create the Blob on the client early and
then stream in it lazily. Because the Blob API doesn't guarantee that
the data is available synchronously. Unfortunately, the native APIs
doesn't have this. We could implement custom versions of all the data
read APIs but then the blobs still wouldn't work with native APIs. So we
just have to wait until Blob accepts a stream in the constructor.
We should be able to stream each chunk early in the protocol though even
though we can't unblock the parent until they've all loaded. I didn't do
this yet mostly because of code structure and I'm lazy.
DiffTrain build for [c0b5d435986e7d9b52a529b73b9317a7e5772172](https://github.com/facebook/react/commit/c0b5d435986e7d9b52a529b73b9317a7e5772172)
This implements the concept of a DEV-only "owner" for Server Components.
The owner concept isn't really super useful. We barely use it anymore,
but we do have it as a concept in DevTools in a couple of cases so this
adds it for parity. However, this is mainly interesting because it could
be used to wire up future owner-based stacks.
I do this by outlining the DebugInfo for a Server Component
(ReactComponentInfo). Then I just rely on Flight deduping to refer to
that. I refer to the same thing by referential equality so that we can
associate a Server Component parent in DebugInfo with an owner.
If you suspend and replay a Server Component, we have to restore the
same owner. To do that, I did a little ugly hack and stashed it on the
thenable state object. Felt unnecessarily complicated to add a stateful
wrapper for this one dev-only case.
The owner could really be anything since it could be coming from a
different implementation. Because this is the first time we have an
owner other than Fiber, I have to fix up a bunch of places that assumes
Fiber. I mainly did the `typeof owner.tag === 'number'` to assume it's a
Fiber for now.
This also doesn't actually add it to DevTools / RN Inspector yet. I just
ignore them there for now.
Because Server Components can be async the owner isn't tracked after an
await. We need per-component AsyncLocalStorage for that. This can be
done in a follow up.
DiffTrain build for [e0455fe62a648f541d2e029017465ae4b5f000a8](https://github.com/facebook/react/commit/e0455fe62a648f541d2e029017465ae4b5f000a8)
This removes defaultProps support for all component types except for
classes. We've chosen to continue supporting defaultProps for classes
because lots of older code relies on it, and unlike function components,
(which can use default params), there's no straightforward alternative.
By implication, it also removes support for setting defaultProps on
`React.lazy` wrapper. So this will not work:
```js
const MyClassComponent = React.lazy(() => import('./MyClassComponent'));
// MyClassComponent is not actually a class; it's a lazy wrapper. So
// defaultProps does not work.
MyClassComponent.defaultProps = { foo: 'bar' };
```
However, if you set the default props on the class itself, then it's
fine.
For classes, this change also moves where defaultProps are resolved.
Previously, defaultProps were resolved by the JSX runtime. This change
is only observable if you introspect a JSX element, which is relatively
rare but does happen.
In other words, previously `<ClassWithDefaultProp />.props.aDefaultProp`
would resolve to the default prop value, but now it does not.
DiffTrain build for [48b4ecc901](https://github.com/facebook/react/commit/48b4ecc9012638ed51b275aad24b2086b8215e32)
Based on:
- #28808
- #28804
---
This adds a React DOM method called requestFormReset that schedules a
form reset to occur when the current transition completes.
Internally, it's the same method that's called automatically whenever a
form action is submitted. It only affects uncontrolled form inputs. See
https://github.com/facebook/react/pull/28804 for details.
The reason for the public API is so UI libraries can implement their own
action-based APIs and maintain the form-resetting behavior, something
like this:
```js
function onSubmit(event) {
// Disable default form submission behavior
event.preventDefault();
const form = event.target;
startTransition(async () => {
// Request the form to reset once the action
// has completed
requestFormReset(form);
// Call the user-provided action prop
await action(new FormData(form));
})
}
```
DiffTrain build for [da69b6af96](https://github.com/facebook/react/commit/da69b6af9697b8042834644b14d0e715d4ace18a)
Based on:
- #28804
---
This sets adds a new ReactDOM export called requestFormReset, including
setting up the export and creating a method on the internal ReactDOM
dispatcher. It does not yet add any implementation.
Doing this in its own commit for review purposes.
The API itself will be explained in the next PR.
DiffTrain build for [374b5d26c2](https://github.com/facebook/react/commit/374b5d26c2a379fe87ee6817217c8956c4e39aac)
This updates the behavior of form actions to automatically reset the
form's uncontrolled inputs after the action finishes.
This is a frequent feature request for people using actions and it
aligns the behavior of client-side form submissions more closely with
MPA form submissions.
It has no impact on controlled form inputs. It's the same as if you
called `form.reset()` manually, except React handles the timing of when
the reset happens, which is tricky/impossible to get exactly right in
userspace.
The reset shouldn't happen until the UI has updated with the result of
the action. So, resetting inside the action is too early.
Resetting in `useEffect` is better, but it's later than ideal because
any effects that run before it will observe the state of the form before
it's been reset.
It needs to happen in the mutation phase of the transition. More
specifically, after all the DOM mutations caused by the transition have
been applied. That way the `defaultValue` of the inputs are updated
before the values are reset. The idea is that the `defaultValue`
represents the current, canonical value sent by the server.
Note: this change has no effect on form submissions that aren't
triggered by an action.
DiffTrain build for [41950d14a5](https://github.com/facebook/react/commit/41950d14a538aa7411b00b28bcd94ae95a45976e)
`<noscript>` scopes should be considered inert from the perspective of
Fizz since we assume they'll only be used in rare and adverse
circumstances. When we added preload support for img tags we did not
include the noscript scope check in the opt-out for preloading. This
change adds it in
fixes: #27910
DiffTrain build for [dc6a7e01e1](https://github.com/facebook/react/commit/dc6a7e01e1d2fa5eb4974f9bb66e9e8fb40f6ef8)
kassens
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