I'm trying to get rid of all meta programming in the module scope so
that closure can do a better job figuring out cyclic dependencies and
ability to reorder.
This is converting a lot of the patterns that assign functions
conditionally to using function declarations instead.
```
let fn;
if (__DEV__) {
fn = function() {
...
};
}
```
->
```
function fn() {
if (__DEV__) {
...
}
}
```
## Based on #25634
Like promises, this adds support for Context as a React node.
In this initial implementation, the context dependency is added to the
parent of child node. This allows the parent to re-reconcile its
children when the context updates, so that it can delete the old node if
the identity of the child has changed (i.e. if the key or type of an
element has changed). But it also means that the parent will replay its
entire begin phase. Ideally React would delete the old node and mount
the new node without reconciling all the children. I'll leave this for a
future optimization.
Implements Promise as a valid React node types. The idea is that any
type that can be unwrapped with `use` should also be renderable.
When the reconciler encounters a Usable in a child position, it will
transparently unwrap the value before reconciling it. The value of the
inner value will determine the identity of the child during
reconciliation, not the Usable object that wraps around it.
Unlike `use`, the reconciler will recursively unwrap the value until it
reaches a non-Usable type, e.g. `Usable<Usable<Usable<T>>>` will resolve
to T.
In this initial commit, I've added support for Promises. I will do
Context in the [next
step](https://github.com/facebook/react/pull/25641).
Being able to render a promise as a child has several interesting
implications. The Server Components response format can use this feature
in its implementation — instead of wrapping references to client
components in `React.lazy`, it can just use a promise.
This also fulfills one of the requirements for async components on the
client, because an async component always returns a promise for a React
node. However, we will likely warn and/or lint against this for the time
being because there are major caveats if you re-render an async
component in response to user input. (Note: async components already
work in a Server Components environment — the caveats only apply to
running them in the browser.)
To suspend, React uses the same algorithm as `use`: by throwing an
exception to unwind the stack, then replaying the begin phase once the
promise resolves. It's a little weird to suspend during reconciliation,
however, `lazy` already does this so if there were any obvious bugs
related to that we likely would have already found them.
Still, the structure is a bit unfortunate. Ideally, we shouldn't need to
replay the entire begin phase of the parent fiber in order to reconcile
the children again. This would require a somewhat significant refactor,
because reconciliation happens deep within the begin phase, and
depending on the type of work, not always at the end. We should consider
as a future improvement.
This adds `encodeReply` to the Flight Client and `decodeReply` to the
Flight Server.
Basically, it's a reverse Flight. It serializes values passed from the
client to the server. I call this a "Reply". The tradeoffs and
implementation details are a bit different so it requires its own
implementation but is basically a clone of the Flight Server/Client but
in reverse. Either through callServer or ServerContext.
The goal of this project is to provide the equivalent serialization as
passing props through RSC to client. Except React Elements and
Components and such. So that you can pass a value to the client and back
and it should have the same serialization constraints so when we add
features in one direction we should mostly add it in the other.
Browser support for streaming request bodies are currently very limited
in that only Chrome supports it. So this doesn't produce a
ReadableStream. Instead `encodeReply` produces either a JSON string or
FormData. It uses a JSON string if it's a simple enough payload. For
advanced features it uses FormData. This will also let the browser
stream things like File objects (even though they're not yet supported
since it follows the same rules as the other Flight).
On the server side, you can either consume this by blocking on
generating a FormData object or you can stream in the
`multipart/form-data`. Even if the client isn't streaming data, the
network does. On Node.js busboy seems to be the canonical library for
this, so I exposed a `decodeReplyFromBusboy` in the Node build. However,
if there's ever a web-standard way to stream form data, or if a library
wins in that space we can support it. We can also just build a multipart
parser that takes a ReadableStream built-in.
On the server, server references passed as arguments are loaded from
Node or Webpack just like the client or SSR does. This means that you
can create higher order functions on the client or server. This can be
tokenized when done from a server components but this is a security
implication as it might be tempting to think that these are not fungible
but you can swap one function for another on the client. So you have to
basically treat an incoming argument as insecure, even if it's a
function.
I'm not too happy with the naming parity:
Encode `server.renderToReadableStream` Decode: `client.createFromFetch`
Decode `client.encodeReply` Decode: `server.decodeReply`
This is mainly an implementation details of frameworks but it's annoying
nonetheless. This comes from that `renderToReadableStream` does do some
"rendering" by unwrapping server components etc. The `create` part comes
from the parity with Fizz/Fiber where you `render` on the server and
`create` a root on the client.
Open to bike-shedding this some more.
---------
Co-authored-by: Josh Story <josh.c.story@gmail.com>
## Summary
Adds support for returning `undefined` from Server Components.
Also fixes a bug where rendering an empty fragment would throw the same
error as returning undefined.
## How did you test this change?
- [x] test failed with same error message I got when returning undefined
from Server Components in a Next.js app
- [x] test passes after adding encoding for `undefined`
This is just moving some stuff around and renaming things.
This tuple is opaque to the Flight implementation and we should probably
encode it separately as a single string instead of a model object.
The term "Metadata" isn't the same as when used for ClientReferences so
it's not really the right term anyway.
I also made it optional since a bound function with no arguments bound
is technically different than a raw instance of that function (it's a
clone).
I also renamed the type ReactModel to ReactClientValue. This is the
generic serializable type for something that can pass through the
serializable boundary from server to client. There will be another one
for client to server.
I also filled in missing classes and ensure the serializable sub-types
are explicit. E.g. Array and Thenable.
We rely heavily on being able to batch rendering after multiple fetches
etc. have completed on the server. However, we only do this in the
Node.js build. Node.js `setImmediate` has the exact semantics we need.
To be after the current cycle of I/O so that we can collect after all
those I/O events already in the queue has been processed.
This doesn't exist in standard browsers, so we ended up not using it
there. We could've used `setTimeout` but that risks being throttled
which would severely negatively affect the performance so we just did it
synchronously there. We probably could just use the `scheduler` there.
Now we have a separate build for Edge where `setTimeout(..., 0)`
actually behaves like `setImmediate` which is what we want. So we can
just use that in that build.
@Jarred-Sumner not sure what you want for Bun.
We support any super type of anything that we can serialize. Meaning
that as long as the Type that's passed through is less precise, it means
that we can encoded it as any subtype and therefore the incoming type
doesn't have to be the subtype in that case. Basically, as long as
you're only passing through an `Iterable<T>` in TypeScript, then you can
pass any `Iterable<T>` and we'll treat it as an array.
For example we support Promises *and* Thenables but both are encoded as
Promises.
We support Arrays and since Arrays are also Iterables, we can support
Iterables.
For @wongmjane
Previously when a called server reference function was rejected, the
emitted error chunk was not flushed, and the request was not properly
closed.
Co-authored-by: Sebastian Markbage <sebastian@calyptus.eu>
We always look up these references in a map so it doesn't matter what
their value is. It could be a hash for example.
The loaders now encode a single $$id instead of filepath + name.
This changes the react-client-manifest to have a single level. The value
inside the map is still split into module id + export name because
that's what gets looked up in webpack.
The react-ssr-manifest is still two levels because that's a reverse
lookup.
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
We encode strings 2048 UTF-8 bytes at a time. If the string we are
encoding crosses to the next chunk but the current chunk doesn't fit an
integral number of characters, we need to make sure not to send the
whole buffer, only the bytes that are actually meaningful.
Fixes#24985. I was able to verify that this fixes the repro shared in
the issue (be careful when testing because the null bytes do not show
when printed to my terminal, at least). However, I don't see a clear way
to add a test for this that will be resilient to small changes in how we
encode the markup (since it depends on where specific multibyte
characters fall against the 2048-byte boundaries).
We currently have an awkward set up because the server can be used in
two ways. Either you can have the server code prebundled using Webpack
(what Next.js does in practice) or you can use an unbundled Node.js
server (what the reference implementation does).
The `/client` part of RSC is actually also available on the server when
it's used as a consumer for SSR. This should also be specialized
depending on if that server is Node or Edge and if it's bundled or
unbundled.
Currently we still assume Edge will always be bundled since we don't
have an interceptor for modules there.
I don't think we'll want to support this many combinations of setups for
every bundler but this might be ok for the reference implementation.
This PR doesn't actually change anything yet. It just updates the
plumbing and the entry points that are built and exposed. In follow ups
I'll fork the implementation and add more features.
---------
Co-authored-by: dan <dan.abramov@me.com>
## Hoistables
In the original implementation of Float, all hoisted elements were
treated like Resources. They had deduplication semantics and hydrated
based on a key. This made certain kinds of hoists very challenging such
as sequences of meta tags for `og:image:...` metadata. The reason is
each tag along is not dedupable based on only it's intrinsic properties.
two identical tags may need to be included and hoisted together with
preceding meta tags that describe a semantic object with a linear set of
html nodes.
It was clear that the concept of Browser Resources (stylesheets /
scripts / preloads) did not extend universally to all hositable tags
(title, meta, other links, etc...)
Additionally while Resources benefit from deduping they suffer an
inability to update because while we may have multiple rendered elements
that refer to a single Resource it isn't unambiguous which element owns
the props on the underlying resource. We could try merging props, but
that is still really hard to reason about for authors. Instead we
restrict Resource semantics to freezing the props at the time the
Resource is first constructed and warn if you attempt to render the same
Resource with different props via another rendered element or by
updating an existing element for that Resource.
This lack of updating restriction is however way more extreme than
necessary for instances that get hoisted but otherwise do not dedupe;
where there is a well defined DOM instance for each rendered element. We
should be able to update props on these instances.
Hoistable is a generalization of what Float tries to model for hoisting.
Instead of assuming every hoistable element is a Resource we now have
two distinct categories, hoistable elements and hoistable resources. As
one might guess the former has semantics that match regular Host
Components except the placement of the node is usually in the <head>.
The latter continues to behave how the original implementation of
HostResource behaved with the first iteration of Float
### Hoistable Element
On the server hoistable elements render just like regular tags except
the output is stored in special queues that can be emitted in the stream
earlier than they otherwise would be if rendered in place. This also
allow for instance the ability to render a hoistable before even
rendering the <html> tag because the queues for hoistable elements won't
flush until after we have flushed the preamble (`<DOCTYPE
html><html><head>`).
On the client, hoistable elements largely operate like HostComponents.
The most notable difference is in the hydration strategy. If we are
hydrating and encounter a hoistable element we will look for all tags in
the document that could potentially be a match and we check whether the
attributes match the props for this particular instance. We also do this
in the commit phase rather than the render phase. The reason hydration
can be done for HostComponents in render is the instance will be removed
from the document if hydration fails so mutating it in render is safe.
For hoistables the nodes are not in a hydration boundary (Root or
SuspenseBoundary at time of writing) and thus if hydration fails and we
may have an instance marked as bound to some Fiber when that Fiber never
commits. Moving the hydration matching to commit ensures we will always
succeed in pairing the hoisted DOM instance with a Fiber that has
committed.
### Hoistable Resource
On the server and client the semantics of Resources are largely the same
they just don't apply to title, meta, and most link tags anymore.
Resources hoist and dedupe via an `href` key and are ref counted. In a
future update we will add a garbage collector so we can clean up
Resources that no longer have any references
## `<style>` support
In earlier implementations there was no support for <style> tags. This
PR adds support for treating `<style href="..."
precedence="...">...</style>` as a Resource analagous to `<link
rel="stylesheet" href="..." precedence="..." />`
It may seem odd at first to require an href to get Resource semantics
for a style tag. The rationale is that these are for inlining of actual
external stylesheets as an optimization and for URI like scoping of
inline styles for css-in-js libraries. The href indicates that the key
space for `<style>` and `<link rel="stylesheet" />` Resources is shared.
and the precedence is there to allow for interleaving of both kinds of
Style resources. This is an advanced feature that we do not expect most
app developers to use directly but will be quite handy for various
styling libraries and for folks who want to inline as much as possible
once Fizz supports this feature.
## refactor notes
* HostResource Fiber type is renamed HostHoistable to reflect the
generalization of the concept
* The Resource object representation is modified to reduce hidden class
checks and to use less memory overall
* The thing that distinguishes a resource from an element is whether the
Fiber has a memoizedState. If it does, it will use resource semantics,
otherwise element semantics
* The time complexity of matching hositable elements for hydration
should be improved
This is the first of a series of PRs, that let you pass functions, by
reference, to the client and back. E.g. through Server Context. It's
like client references but they're opaque on the client and resolved on
the server.
To do this, for security, you must opt-in to exposing these functions to
the client using the `"use server"` directive. The `"use client"`
directive lets you enter the client from the server. The `"use server"`
directive lets you enter the server from the client.
This works by tagging those functions as Server References. We could
potentially expand this to other non-serializable or stateful objects
too like classes.
This only implements server->server CJS imports and server->server ESM
imports. We really should add a loader to the webpack plug-in for
client->server imports too. I'll leave closures as an exercise for
integrators.
You can't "call" a client reference on the server, however, you can
"call" a server reference on the client. This invokes a callback on the
Flight client options called `callServer`. This lets a router implement
calling back to the server. Effectively creating an RPC. This is using
JSON for serializing those arguments but more utils coming from
client->server serialization.
We currently abuse the browser builds for Web streams derived
environments. We already have a special build for Bun but we should also
have one for [other "edge"
runtimes](https://runtime-keys.proposal.wintercg.org/) so that we can
maximally take advantage of the APIs that exist on each platform.
In practice, we currently check for a global property called
`AsyncLocalStorage` in the server browser builds which we shouldn't
really do since browsers likely won't ever have it. Additionally, this
should probably move to an import which we can't add to actual browser
builds where that will be an invalid import. So it has to be a separate
build. That's not done yet in this PR but Vercel will follow
Cloudflare's lead here.
The `deno` key still points to the browser build since there's no
AsyncLocalStorage there but it could use this same or a custom build if
support is added.
The "dom" configuration is actually the node specific configuration. It
just happened to be that this was the mainline variant before so it was
implied but with so many variants, this is less obvious now.
The "bun" configuration is specifically for "bun". There's no "native"
renderer for "bun" yet.
This lets you pass Promises from server components to client components
and `use()` them there.
We still don't support Promises as children on the client, so we need to
support both. This will be a lot simpler when we remove the need to
encode children as lazy since we don't need the lazy encoding anymore
then.
I noticed that this test failed because we don't synchronously resolve
instrumented Promises if they're lazy. The second fix calls `.then()`
early to ensure that this lazy initialization can happen eagerly. ~It
felt silly to do this with an empty function or something, so I just did
the attachment of ping listeners early here. It's also a little silly
since they will ping the currently running render for no reason if it's
synchronously available.~ EDIT: That didn't work because a ping might
interrupt the current render. Probably need a bigger refactor.
We could add another extension but we've already taken a lot of
liberties with the Promise protocol. At least this is one that doesn't
need extension of the protocol as much. Any sub-class of promises could
do this.
This is just shifting around some encoding strategies for Flight in
preparation for more types.
```
S1:"react.suspense"
J2:["$", "$1", {children: "@3"}]
J3:"Hello"
```
```
1:"$Sreact.suspense"
2:["$", "$1", {children: "$L3"}]
3:"Hello"
```
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.
This renames Module References to Client References, since they are in
the server->client direction.
I also changed the Proxies exposed from the `node-register` loader to
provide better error messages. Ideally, some of this should be
replicated in the ESM loader too but neither are the source of truth.
We'll replicate this in the static form in the Next.js loaders. cc
@huozhi @shuding
- All references are now functions so that when you call them on the
server, we can yield a better error message.
- References that are themselves already referring to an export name are
now proxies that error when you dot into them.
- `use(...)` can now be used on a client reference to unwrap it server
side and then pass a reference to the awaited value.
These suppressions are no longer required.
Generated using:
```sh
flow/tool update-suppressions .
```
followed by adding back 1 or 2 suppressions that were only triggered in
some configurations.
This enables the "exact_empty_objects" setting for Flow which makes
empty objects exact instead of building up the type as properties are
added in code below. This is in preparation to Flow 191 which makes this
the default and removes the config.
More about the change in the Flow blog
[here](https://medium.com/flow-type/improved-handling-of-the-empty-object-in-flow-ead91887e40c).
This setting is an incremental path to the next Flow version enforcing
type annotations on most functions (except some inline callbacks).
Used
```
node_modules/.bin/flow codemod annotate-functions-and-classes --write .
```
to add a majority of the types with some hand cleanup when for large
inferred objects that should just be `Fiber` or weird constructs
including `any`.
Suppressed the remaining issues.
Builds on #25918
Flow introduced a new syntax to annotated the context type of a
function, this tries to update the rest and add 1 example usage.
- 2b1fb91a55 already added the changes
required for eslint.
- Jest transform is updated to use the recommended `hermes-parser` which
can parse current and Flow syntax and will be updated in the future.
- Rollup uses a new plugin to strip the flow types. This isn't ideal as
the npm module is deprecated in favor of using `hermes-parser`, but I
couldn't figure out how to integrate that with Rollup.
Hermes parser is the preferred parser for Flow code going forward. We
need to upgrade to this parser to support new Flow syntax like function
`this` context type annotations or `ObjectType['prop']` syntax.
Unfortunately, there's quite a few upgrades here to make it work somehow
(dependencies between the changes)
- ~Upgrade `eslint` to `8.*`~ reverted this as the React eslint plugin
tests depend on the older version and there's a [yarn
bug](https://github.com/yarnpkg/yarn/issues/6285) that prevents
`devDependencies` and `peerDependencies` to different versions.
- Remove `eslint-config-fbjs` preset dependency and inline the rules,
imho this makes it a lot clearer what the rules are.
- Remove the turned off `jsx-a11y/*` rules and it's dependency instead
of inlining those from the `fbjs` config.
- Update parser and dependency from `babel-eslint` to `hermes-eslint`.
- `ft-flow/no-unused-expressions` rule replaces `no-unused-expressions`
which now allows standalone type asserts, e.g. `(foo: number);`
- Bunch of globals added to the eslint config
- Disabled `no-redeclare`, seems like the eslint upgrade started making
this more precise and warn against re-defined globals like
`__EXPERIMENTAL__` (in rollup scripts) or `fetch` (when importing fetch
from node-fetch).
- Minor lint fixes like duplicate keys in objects.
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();
}, []);
```
### Changes made:
- Running with enableFizzExternalRuntime (feature flag) and
unstable_externalRuntimeSrc (param) will generate html nodes with data
attributes that encode Fizz instructions.
```
<div
hidden data-rxi=""
data-bid="param0"
data-dgst="param1"
></div>
```
- Added an external runtime browser script
`ReactDOMServerExternalRuntime`, which processes and removes these nodes
- This runtime should be passed as to renderInto[...] via
`unstable_externalRuntimeSrc`
- Since this runtime is render blocking (for all streamed suspense
boundaries and segments), we want this to reach the client as early as
possible. By default, Fizz will send this script at the end of the shell
when it detects dynamic content (e.g. suspenseful pending tasks), but it
can be sent even earlier by calling `preinit(...)` inside a component.
- The current implementation relies on Float to dedupe sending
`unstable_externalRuntimeSrc`, so `enableFizzExternalRuntime` is only
valid when `enableFloat` is also set.
## Edit
Went for another approach after talking with @gnoff. The approach is
now:
- add a dev-only error when a precomputed chunk is too big to be written
- suggest to copy it before passing it to `writeChunk`
This PR also includes porting the React Float tests to use the browser
build of Fizz so that we can test it out on that environment (which is
the one used by next).
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## Summary
Someone reported [a bug](https://github.com/vercel/next.js/issues/42466)
in Next.js that pointed to an issue with Node 18 in the streaming
renderer when using importing a CSS module where it only returned a
malformed bootstraping script only after loading the page once.
After investigating a bit, here's what I found:
- when using a CSS module in Next, we go into this code path, which
writes the aforementioned bootstrapping script
5f7ef8c4cb/packages/react-dom-bindings/src/server/ReactDOMServerFormatConfig.js (L2443-L2447)
- the reason for the malformed script is that
`completeBoundaryWithStylesScript1FullBoth` is emptied after the call to
`writeChunk`
- it gets emptied in `writeChunk` because we stream the chunk directly
without copying it in this codepath
a438590144/packages/react-server/src/ReactServerStreamConfigBrowser.js (L63)
- the reason why it only happens from Node 18 is because the Webstreams
APIs are available natively from that version and in their
implementation, [`enqueue` transfers the array buffer
ownership](9454ba6138/lib/internal/webstreams/readablestream.js (L2641)),
thus making it unavailable/empty for subsequent calls. In older Node
versions, we don't encounter the bug because we are using a polyfill in
Next.js, [which does not implement properly the array buffer transfer
behaviour](d354a7457c/src/lib/abstract-ops/ecmascript.ts (L16)).
I think the proper fix for this is to clone the array buffer before
enqueuing it. (we do this in the other code paths in the function later
on, see ```((currentView: any): Uint8Array).set(bytesToWrite,
writtenBytes);```
## How did you test this change?
Manually tested by applying the change in the compiled Next.js version.
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Co-authored-by: Sebastian Markbage <sebastian@calyptus.eu>
The old (unstable) mechanism for suspending was to throw a promise. The
purpose of throwing is to interrupt the component's execution, and also
to signal to React that the interruption was caused by Suspense as
opposed to some other error.
A flaw is that throwing is meant to be an implementation detail — if
code in userspace catches the promise, it can lead to unexpected
behavior.
With `use`, userspace code does not throw promises directly, but `use`
itself still needs to throw something to interrupt the component and
unwind the stack.
The solution is to throw an internal error. In development, we can
detect whether the error was caught by a userspace try/catch block and
log a warning — though it's not foolproof, since a clever user could
catch the object and rethrow it later.
The error message includes advice to move `use` outside of the try/catch
block.
I did not yet implement the warning in Flight.
There are two different switch statements that we use to unwrap a
`use`-ed promise, but there really only needs to be one. This was a
factoring artifact that arose because I implemented the yieldy `status`
instrumentation thing before I implemented `use` (for promises that are
thrown directly during render, which is the old Suspense pattern that
will be superseded by `use`).
Same as #25537 but for Flight.
I was going to wait to do this later because the temporary
implementation of async components uses some of the same code that
non-used wakables do, but it's not so bad. I just had to inline one bit
of code, which we'll remove when we unify the implementation with `use`.
This extends the scope of the cache and fetch instrumentation using
AsyncLocalStorage for microtasks. This is an intermediate step. It sets
up the dispatcher only once. This is unique to RSC because it uses the
react.shared-subset module for its shared state.
Ideally we should support multiple renderers. We should also have this
take over from an outer SSR's instrumented fetch. We should also be able
to have a fallback to global state per request where AsyncLocalStorage
doesn't exist and then the whole client-side solutions. I'm still
figuring out the right wiring for that so this is a temporary hack.
To derisk the rollout of `use`, and simplify the implementation, this
reverts the yield-to-microtasks behavior for promises that are thrown
directly (as opposed to being unwrapped by `use`).
We may add this back later. However, the plan is to deprecate throwing a
promise directly and migrate all existing Suspense code to `use`, so the
extra code probably isn't worth it.
escapeTextForBrowser accepts any type so flow did not identify that we
were escaping a Chunk rather than a string. It's tricky because we
sometimes want to be able to escape non strings.
I've also updated the types for `Chunk` and `escapeTextForBrowser`
so that we should be able to catch this statically in the future.
The reason this did not show up in tests is almost all of our tests of
float (the areas affected by transpositions) are tested using the Node
runtime where a chunk type is a string. It may be wise to run these
tests in every runtime in the future or at least make sure there is
broad representation of resources in each specific runtime test suite.
* 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
* [useEvent] Non-stable function identity
Since useEvent shouldn't go in the dependency list of whatever is
consuming it (which is enforced by the fact that useEvent functions are
always locally created and never passed by reference), its identity
doesn't matter. Effectively, this PR is a runtime assertion
that you can't rely on the return value of useEvent to be stable.
* Test: Events should see latest bindings
The key feature of useEvent that makes it different from useCallback
is that events always see the latest committed values. There's no such
thing as a "stale" event handler.
* Don't queue a commit effect on mount
* Inline event function wrapping
- Inlines wrapping of the callback
- Use a mutable ref-style object instead of a callable object
- Fix types
Co-authored-by: Andrew Clark <git@andrewclark.io>
* 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
* Print built-in specific error message for toJSON
This is a better message for Date.
Also, format the message to highlight the affected prop.
* Describe error messages using JSX elements in DEV
We don't have access to the grand parent objects on the stack so we stash
them on weakmaps so we can access them while printing error messages.
Might be a bit slow.
* Capitalize Server/Client Component
* Special case errror messages for children of host components
These are likely meant to be text content if they're not a supported object.
* Update error messages
This is a temporary step until we allow Promises everywhere.
Currently this serializes to a Lazy which can then be consumed in this same
slot by the client.
