We're seeing errors when testing useResourceEffect in SSR and it turns
out we're missing the noop dispatcher function on Fizz.
I tested a local build with this change and it resolved the late
mutation errors in the e2e tests.
## Summary
This PR improves the Trace Updates feature by letting developers see
component names directly on the update overlay. Before this change, the
overlay only highlighted updated regions, leaving it unclear which
components were involved. With this update, you can now match visual
updates to their corresponding components, making it much easier to
debug rendering performance.
### New Feature: Show component names while highlighting
When the new **"Show component names while highlighting"** setting is
enabled, the update overlay display the names of affected components
above the rectangles, along with the update count. This gives immediate
context about what’s rendering and why. The preference is stored in
local storage and synced with the backend, so it’s remembered across
sessions.
### Improvements to Drawing Logic
The drawing logic has been updated to make the overlay sharper and
easier to read. Overlay now respect device pixel ratios, so they look
great on high-DPI screens. Outlines have also been made crisper, which
makes it easier to spot exactly where updates are happening.
> [!NOTE]
> **Grouping Logic and Limitations**
> Updates are grouped by their screen position `(left, top coordinates)`
to combine overlapping or nearby regions into a single group. Groups are
sorted by the highest update count within each group, making the most
frequently updated components stand out.
> Overlapping labels may still occur when multiple updates involve
components that overlap but are not in the exact same position. This is
intentional, as the logic aims to maintain a straightforward mapping
between update regions and component names without introducing
unnecessary complexity.
### Testing
This PR also adds tests for the new `groupAndSortNodes` utility, which
handles the logic for grouping and sorting updates. The tests ensure the
behavior is reliable across different scenarios.
## Before & After
https://github.com/user-attachments/assets/6ea0fe3e-9354-44fa-95f3-9a867554f74chttps://github.com/user-attachments/assets/32af4d98-92a5-47dd-a732-f05c2293e41b
---------
Co-authored-by: Ruslan Lesiutin <rdlesyutin@gmail.com>
When scheduling the initial root and when using
`unstable_scheduleHydration` we should use the Hydration Lanes rather
than the raw update lane. This ensures that we're always hydrating using
a Hydration Lane or the Offscreen Lane rather than other lanes getting
some random hydration in it.
This fixes an issue where updating a root while it is still hydrating
causes it to trigger client rendering when it could just hydrate and
then apply the update on top of that.
It also fixes a potential performance issue where
`unstable_scheduleHydration` gets batched with an update that then ends
up forcing an update of a boundary that requires it to rewind to do the
hydration lane anyway. Might as well just start with the hydration
without the update applied first.
I added a kill switch (`enableHydrationLaneScheduling`) just in case but
seems very safe given that using `unstable_scheduleHydration` at all is
very rare and updating the root before the shell hydrates is extremely
rare (and used to trigger a recoverable error).
Follow up to #31725.
I diffed against the Turbopack one to find any unexpected discrepancies.
Some parts are forked enough that it's hard to diff but I think I got
most of it.
We're still publishing RCs and creating canary version strings using the
RC naming convention. Setting the `canaryChannelLabel` back to canary
fixes the version names and tags after the 19 stable release.
<img width="966" alt="Screenshot 2024-12-10 at 10 49 19 PM"
src="https://github.com/user-attachments/assets/27a21bdf-86b9-4203-893b-89523e698138">
This emits a tree view visualization of the timing information for each
Server Component provided in the RSC payload.
The unique thing about this visualization is that the end time of each
Server Component spans the end of the last child. Now what is
conceptually a blocking child is kind of undefined in RSC. E.g. if
you're not using a Promise on the client, or if it is wrapped in
Suspense, is it really blocking the parent?
Here I reconstruct parent-child relationship by which chunks reference
other chunks. A child can belong to more than one parent like when we
dedupe the result of a Server Component.
Then I wait until the whole RSC payload has streamed in, and then I
traverse the tree collecting the end time from children as I go and emit
the `performance.measure()` calls on the way up.
There's more work for this visualization in follow ups but this is the
basics. For example, since the Server Component time span includes async
work it's possible for siblings to execute their span in parallel (Foo
and Bar in the screenshot are parallel siblings). To deal with this we
need to spawn parallel work into separate tracks. Each one can be deep
due to large trees. This can makes this type of visualization unwieldy
when you have a lot of parallelism. Therefore I also plan another
flatter Timeline visualization in a follow up.
This adds a new `react-server-dom-parcel-package`, which is an RSC
integration for the Parcel bundler. It is mostly copied from the
existing webpack/turbopack integrations, with some changes to utilize
Parcel runtime APIs for loading and executing bundles/modules.
See https://github.com/parcel-bundler/parcel/pull/10043 for the Parcel
side of this, which includes the plugin needed to generate client and
server references. https://github.com/parcel-bundler/rsc-examples also
includes examples of various ways to use RSCs with Parcel.
Differences from other integrations:
* Client and server modules are all part of the same graph, and we use
Parcel's
[environments](https://parceljs.org/plugin-system/transformer/#the-environment)
to distinguish them. The server is the Parcel build entry point, and it
imports and renders server components in route handlers. When a `"use
client"` directive is seen, the environment changes and Parcel creates a
new client bundle for the page, combining all client modules together.
CSS from both client and server components are also combined
automatically.
* There is no separate manifest file that needs to be passed around by
the user. A [Runtime](https://parceljs.org/plugin-system/runtime/)
plugin injects client and server references as needed into the relevant
bundles, and registers server action ids using `react-server-dom-parcel`
automatically.
* A special `<Resources>` component is also generated by Parcel to
render the `<script>` and `<link rel="stylesheet">` elements needed for
a page, using the relevant info from the bundle graph.
Note: I've already published a 0.0.x version of this package to npm for
testing purposes but happy to add whoever needs access to it as well.
### Questions
* How to test this in the React repo. I'll have integration tests in
Parcel, but setting up all the different mocks and environments to
simulate that here seems challenging. I could try to copy how
Webpack/Turbopack do it but it's a bit different.
* Where to put TypeScript types. Right now I have some ambient types in
my [example
repo](https://github.com/parcel-bundler/rsc-examples/blob/main/types.d.ts)
but it would be nice for users not to copy and paste these. Can I
include them in the package or do they need to maintained separately in
definitelytyped? I would really prefer not to have to maintain code in
three different repos ideally.
---------
Co-authored-by: Sebastian Markbage <sebastian@calyptus.eu>
# Summary
I'm working to get the main `react-native` package parsable by modern
Flow tooling (both `flow-bundler`, `flow-api-translator`).
This diff trivially removes some redundant Flow comment syntax in
`ReactNativeTypes.js`, which fixes parsing under these newer tools.
## How did you test this change?
Files were pasted into `react-native-github` under fbsource, where Flow
validates ✅.
Stacked on #31715.
This adds profiling data for Server Components to the RSC stream (but
doesn't yet use it for anything). This is on behind
`enableProfilerTimer` which is on for Dev and Profiling builds. However,
for now there's no Profiling build of Flight so in practice only in DEV.
It's gated on `enableComponentPerformanceTrack` which is experimental
only for now.
We first emit a timeOrigin in the beginning of the stream. This provides
us a relative time to emit timestamps against for cross environment
transfer so that we can log it in terms of absolute times. Using this as
a separate field allows the actual relative timestamps to be a bit more
compact representation and preserves floating point precision.
We emit a timestamp before emitting a Server Component which represents
the start time of the Server Component. The end time is either when the
next Server Component starts or when we finish the task.
We omit the end time for simple tasks that are outlined without Server
Components.
By encoding this as part of the debugInfo stream, this information can
be forwarded between Server to Server RSC.
When supporting ref as prop in
https://github.com/facebook/react/pull/31558, I missed fixing the
optimization to pass a spread-props-only props object in without an
additional object copy. In the case that we have only a ref along with a
spread, we cannot return only the spread object. This results in
dropping the ref.
In this example
```javascript
<Foo ref={ref} {...props} />
```
The bugged output is:
```javascript
{
// ...
props: props
}
```
With this change we now get the correct output:
```javascript
{
// ...
props: {ref: ref, ...props}
}
```
We added an experimental `prerender` API to flight. This change exposes
this API in stable channels prefixed as `unstable_prerender`. We have
high confidence this API should exist but because we have not yet
settled on how to handle resuming/replaying of RSC streams we may need
to change the API contract to suit future needs. This release will allow
us to get more usage out of the existing implemented functionality
without requiring you to use experimental builds which will open up
greater adoption and opportunity for feedback.
the `prerender` implementation is documented in the `react-server`
package. As with all RSC APIs implemented in bundler specific binding
packages these aren't intended to be called by end users but instead be
used by frameworks implementing React Server Components.
Previously `prerender` was exposed unprefixed and only in the
experimental channel. This PR renames the export across all channels to
`unstable_prerender` so users of this previously unprefixed api will
need to update to the unstable form. This isn't a breaking change
because it was only exposed in the experimental channel which does not
follow semver. The reason we don't expose it under both names is that
users may feature detect the unprefixed form and then when we finally do
ship it as unprefixed we may change the function signature and break
this code. Changing the name now is much safer.
We shouldn't call onError/onPostpone when we halt a stream because that
node didn't error yet. Its digest would also get lost.
We also have a lot of error branches now for thenables and streams. This
unifies them under erroredTask. I'm not yet unifying the cases that
don't allocate a task for the error when those are outlined.
The need for this was removed in
https://github.com/facebook/react/pull/30831
Since the new DevTools version has been released for a while and we
expect people to more or less auto-update. Future versions of React
don't need this.
Once we remove the remaining uses of `getInstanceFromNode` e.g. in the
deprecated internal `findDOMNode`/`findNodeHandle` and the event system,
we can completely remove the tagging of DOM nodes.
This clarifies a few things by ensuring that there is always at least
one required field. This can be used to refine the object to one of the
specific types. However, it's probably just a matter of time until we
make this tagged unions instead. E.g. it would be nice to rename the
`name` field `ReactComponentInfo` to `type` and tag it with the React
Element symbol because then it's just the same as a React Element.
I also extract a time field. The idea is that this will advance (or
rewind) the time to the new timestamp and then anything below would be
defined as happening within that time stamp. E.g. to model the start and
end for a server component you'd do something like:
```
[
{time: 123},
{name: 'Component', ... },
{time: 124},
]
```
The reason this needs to be in the `ReactDebugInfo` is so that timing
information from one environment gets transferred into the next
environment. It lets you take a Promise from one world and transfer it
into another world and its timing information is preserved without
everything else being preserved.
I've gone back and forth on if this should be part of each other Info
object like `ReactComponentInfo` but since those can be deduped and can
change formats (e.g. this should really just be a React Element) it's
better to store this separately.
The time format is relative to a `timeOrigin` which is the current
environment's `timeOrigin`. When it's serialized between environments
this needs to be considered.
Emitting these timings is not yet implemented in this PR.
---------
Co-authored-by: eps1lon <sebastian.silbermann@vercel.com>
This is just moving some code into a helper.
We have a bunch of special cases for the return value slot of a Server
Component that's different from just rendering that inside an object.
This was getting a little tricky to reason about inline with the rest of
rendering.
Hints and Console logs are side-effects and don't belong to any
particular value. They're `void`. Therefore they don't need a row ID.
In the current parsing scheme it's ok to omit the id. It just becomes
`0` which is the initial value which is then unused for these row types.
So it looks like:
```
:HP[...]
:W[...]
0:{...}
```
We could patch the parsing to encode the tag in the ID so it's more like
the ID is the target of the side-effect.
```
H:P[...]
W:[...]
0:{...}
```
Or move the tagging to the beginning like it used to be.
But this seems simple enough for now.
To avoid GC pressure and accidentally hanging onto old trees Suspense
boundary retries are now implemented in the commit phase. I used the
Callback flag which was previously only used to schedule callbacks for
Class components. This isn't quite semantically equivalent but it's
unused and seemingly compatible.
When streaming SSR while hydrating React will wait for Suspense
boundaries to be revealed by the SSR stream before attempting to hydrate
them. The rationale here is that the Server render is likely further
ahead of whatever the client would produce so waiting to let the server
stream in the UI is preferable to retrying on the client and possibly
delaying how quickly the primary content becomes available. However If
the connection closes early (user hits stop for instance) or there is a
server error which prevents additional HTML from being delivered to the
client this can put React into a broken state where the boundary never
resolves nor errors and the hydration never retries that boundary
freezing it in it's fallback state.
Once the document has fully loaded we know there is not way any
additional Suspense boundaries can arrive. This update changes react-dom
on the client to schedule client renders for any unfinished Suspense
boundaries upon document loading.
The technique for client rendering a fallback is pretty straight
forward. When hydrating a Suspense boundary if the Document is in
'complete' readyState we interpret pending boundaries as fallback
boundaries. If the readyState is not 'complete' we register an event to
retry the boundary when the DOMContentLoaded event fires.
To test this I needed JSDOM to model readyState. We previously had a
temporary implementation of readyState for SSR streaming but I ended up
implementing this as a mock of JSDOM that implements a fake readyState
that is mutable. It starts off in 'loading' readyState and you can
advance it by mutating document.readyState. You can also reset it to
'loading'. It fires events when changing states.
This seems like the least invasive way to get closer-to-real-browser
behavior in a way that won't require remembering this subtle detail
every time you create a test that asserts Suspense resolution order.
Any LoadGlobal in the "infer deps" position can safely use an empty dep
array. Globals have no reactive deps!
I just keep messing up sapling. This is the revised version of #31662
Reverts facebook/react#31629
`@babel/plugin-proposal-private-methods` is not compatible with
`@babel/traverse` versions < 7.25 (see
https://github.com/babel/babel/issues/16851). Internally we have
partners that use a less modern babel version, and we expect this to be
an issue for older codebases in OSS as well.
Adds `target: 'donotuse_meta_internal'`, which inserts useMemoCache
imports directly from `react`. Note that this is only valid for Meta
bundles, as others do not [re-export the `c`
function](https://github.com/facebook/react/blob/5b0ef217ef32333a8e56f39be04327c89efa346f/packages/react/index.fb.js#L68-L70).
```js
// target=donotuse_meta_internal
import {c as _c} from 'react';
// target=19
import {c as _c} from 'react/compiler-runtime';
// target=17,18
import {c as _c} from 'react-compiler-runtime';
```
Meta is a bit special in that react runtime and compiler are guaranteed
to be up-to-date and compatible. It also has its own bundling and module
resolution logic, which makes importing from `react/compiler-runtime`
tricky.
I'm also fine with implementing the alternative which adds an internal
stub for `react-compiler-runtime` and
[bundles](https://github.com/facebook/react/blob/5b0ef217ef32333a8e56f39be04327c89efa346f/scripts/rollup/bundles.js#L120)
the runtime for internal builds.
## Overview
Changes the error message to say "Server Functions" instead of "Server
Actions" since this error can fire in cases like:
```
<button onClick={serverFunction} />
```
Which is calling a server function, not a server action.
Adds a way to configure how we insert deps for experimental purposes.
```
[
{
module: 'react',
imported: 'useEffect',
numRequiredArgs: 1,
},
{
module: 'MyExperimentalEffectHooks',
imported: 'useExperimentalEffect',
numRequiredArgs: 2,
},
]
```
would insert dependencies for calls of `useEffect` imported from `react`
if they have 1 argument and calls of useExperimentalEffect` from
`MyExperimentalEffectHooks` if they have 2 arguments. The pushed dep
array is appended to the arg list.
We didn't originally support holes within array patterns, so DCE was
only able to prune unused items from the end of an array pattern. Now
that we support holes we can replace any unused item with a hole, and
then just prune the items to the last identifier/spread entry.
Note: this was motivated by finding useState where either the state or
setState go unused — both are strong indications that you're violating
the rules in some way. By DCE-ing the unused portions of the useState
destructuring we can easily check if you're ignoring either value.
closes#31603
This is a redo of that PR not using ghstack
A long standing issue for React has been that if you reorder stateful
nodes, they may lose their state and reload. The thing moving loses its
state. There's no way to solve this in general where two stateful nodes
swap.
The [`moveBefore()`
proposal](https://chromestatus.com/feature/5135990159835136?gate=5177450351558656)
has now moved to
[intent-to-ship](https://groups.google.com/a/chromium.org/g/blink-dev/c/YE_xLH6MkRs/m/_7CD0NYMAAAJ).
This function is kind of like `insertBefore` but preserves state.
There's [a demo here](https://state-preserving-atomic-move.glitch.me/).
Ideally we'd port this demo to a fixture so we can try it.
Currently this flag is always off - even in experimental. That's because
this is still behind a Chrome flag so it's a little early to turn it on
even in experimental. So you need a custom build. It's on in RN but only
because it doesn't apply there which makes it easier to tell that it's
safe to ship once it's on everywhere else.
The other reason it's still off is because there's currently a semantic
breaking change. `moveBefore()` errors if both nodes are disconnected.
That happens if we're inside a completely disconnected React root.
That's not usually how you should use React because it means effects
can't read layout etc. However, it is currently supported. To handle
this we'd have to try/catch the `moveBefore` to handle this case but we
hope this semantic will change before it ships. Before we turn this on
in experimental we either have to wait for the implementation to not
error in the disconnected-disconnected case in Chrome or we'd have to
add try/catch.