Hacky retry pipeline for when transforming `fire(...)` calls encounters
validation, todo, or memoization invariant bailouts. Would love feedback
on how we implement this to be extensible to other compiler
non-memoization features (e.g. inlineJSX)
Some observations:
- Compiler "front-end" passes (e.g. lower, type, effect, and mutability
inferences) should be shared for all compiler features -- memo and
otherwise
- Many passes (anything dealing with reactive scope ranges, scope blocks
/ dependencies, and optimizations such as ReactiveIR #31974) can be left
out of the retry pipeline. This PR hackily skips memoization features by
removing reactive scope creation, but we probably should restructure the
pipeline to skip these entirely on a retry
- We should maintain a canonical set of "validation flags"
Note the newly added fixtures are prefixed with `bailout-...` when the
retry fire pipeline is used. These fixture outputs contain correctly
inserted `useFire` calls and no memoization.
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## Summary
Our [LlamaIndex](https://www.llamaindex.ai/) Product is blocked by this
bug
Fixes: https://github.com/facebook/react/issues/32137
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For now we just reject all calls of impure functions, and the validation
is off by default. Going forward we can make this more precise and only
reject impure functions called during render.
Note that I was intentionally imprecise in the return type of these
functions in order to avoid changing output of existing code. We lie to
the compiler and say that Date.now, performance.now, and Math.random
return unknown mutable objects rather than primitives. Once the
validation is complete and vetted we can switch this to be more precise.
- Adds @compilationMode(all|infer|syntax|annotation) and
@panicMode(none) directives. This is now shared with our test infra
- Playground still defaults to `infer` mode while tests default to `all`
mode
- See added fixture tests
Traverse the compiled functions to ensure there are no lingering fires
and that all
fire calls are inside an effect lambda.
Also corrects the import to import from the compiler runtime instead
--
This is the diff with the meaningful changes. The approach is:
1. Collect fire callees and remove fire() calls, create a new binding
for the useFire result
2. Update LoadLocals for captured callees to point to the useFire result
3. Update function context to reference useFire results
4. Insert useFire calls after getting to the component scope
This approach aims to minimize the amount of new bindings we introduce
for the function expressions
to minimize bookkeeping for dependency arrays. We keep all of the
LoadLocals leading up to function
calls as they are and insert new instructions to load the originally
captured function, call useFire,
and store the result in a new promoted temporary. The lvalues that
referenced the original callee are
changed to point to the new useFire result.
This is the minimal diff to implement the expected behavior (up to
importing the useFire call, next diff)
and further stacked diffs implement error handling. The rules for fire
are:
1. If you use fire for a callee in the effect once you must use it for
every time you call it in that effect
2. You can only use fire in a useEffect lambda/functions defined inside
the useEffect lambda
There is still more work to do here, like updating the effect dependency
array and handling object methods
--
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31796).
* #31811
* #31798
* #31797
* __->__ #31796
We report a false positive for the combination of a ref-accessing
function placed inside an array which is they type-cast. Here we teach
ref validation about type casts. I also tried other variants like
`return ref as const` but those already worked.
Closes#31864
Add shape / type for global Object.keys. This is useful because
- it has an Effect.Read (not an Effect.Capture) as it cannot alias its
argument.
- Object.keys return an array
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31583).
* __->__ #31583
* #31582
We previously didn't track context variables in the hoistable values
sidemap of `propagateScopeDependencies`. This was overly conservative as
we *do* track the mutable range of context variables, and it is safe to
hoist accesses to context variables after their last direct / aliased
maybe-assignment.
```js
function Component({value}) {
// start of mutable range for `x`
let x = DEFAULT;
const setX = () => x = value;
const aliasedSet = maybeAlias(setX);
maybeCall(aliasedSet);
// end of mutable range for `x`
// here, we should be able to take x (and property reads
// off of x) as dependencies
return <Jsx value={x} />
}
```
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31582).
* #31583
* __->__ #31582
Compiler playground now runs the entire program through
`babel-plugin-react-compiler` instead of a custom pipeline which
previously duplicated function inference logic from `Program.ts`. In
addition, the playground output reflects the tranformed file (instead of
a "virtual file" of manually concatenated functions).
This helps with the following:
- Reduce potential discrepencies between playground and babel plugin
behavior. See attached fixture output for an example where we previously
diverged.
- Let playground users see compiler-inserted imports (e.g. `_c` or
`useFire`)
This also helps us repurpose playground into a more general tool for
compiler-users instead of just for compiler engineers.
- imports and other functions are preserved.
We differentiate between imports and globals in many cases (e.g.
`inferEffectDeps`), so it may be misleading to omit imports in printed
output
- playground now shows other program-changing behavior like position of
outlined functions and hoisted declarations
- emitted compiled functions do not need synthetic names
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31774).
* #31809
* __->__ #31774
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}
}
```
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
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](5b0ef217ef/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](5b0ef217ef/scripts/rollup/bundles.js (L120))
the runtime for internal builds.
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
This is for researching/prototyping, not a feature we are releasing
imminently.
Putting up an early version of inferring effect dependencies to get
feedback on the approach. We do not plan to ship this as-is, and may not
start by going after direct `useEffect` calls. Until we make that
decision, the heuristic I use to detect when to insert effect deps will
suffice for testing.
The approach is simple: when we see a useEffect call with no dep array
we insert the deps inferred for the lambda passed in. If the first
argument is not a lambda then we do not do anything.
This diff is the easy part. I think the harder part will be ensuring
that we can infer the deps even when we have to bail out of memoization.
We have no other features that *must* run regardless of rules of react
violations. Does anyone foresee any issues using the compiler passes to
infer reactive deps when there may be violations?
I have a few questions:
1. Will there ever be more than one instruction in a block containing a
useEffect? if no, I can get rid of the`addedInstrs` variable that I use
to make sure I insert the effect deps array temp creation at the right
spot.
2. Are there any cases for resolving the first argument beyond just
looking at the lvalue's identifier id that I'll need to take into
account? e.g., do I need to recursively resolve certain bindings?
---------
Co-authored-by: Mofei Zhang <feifei0@meta.com>
```
=> Found "react@0.0.0-experimental-4beb1fd8-20241118"
info Reasons this module exists
- "_project_#babel-plugin-react-compiler" depends on it
- Hoisted from "_project_#babel-plugin-react-compiler#react"
- Hoisted from "_project_#snap#react"
info Disk size without dependencies: "252KB"
info Disk size with unique dependencies: "252KB"
info Disk size with transitive dependencies: "252KB"
info Number of shared dependencies: 0
✨ Done in 0.60s.
```
```
=> Found "react-dom@0.0.0-experimental-4beb1fd8-20241118"
info Reasons this module exists
- "_project_#babel-plugin-react-compiler" depends on it
- Hoisted from "_project_#babel-plugin-react-compiler#react-dom"
- Hoisted from "_project_#snap#react-dom"
info Disk size without dependencies: "8.04MB"
info Disk size with unique dependencies: "8.17MB"
info Disk size with transitive dependencies: "8.17MB"
info Number of shared dependencies: 1
✨ Done in 0.56s.
```
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31585).
* #31586
* __->__ #31585
Since `enableRefAsProp` shipped everywhere, the ReactElement
implementation on prod puts refs on both `element.ref` and
`element.props.ref`. Here we let the `ref` case fall through so its now
available on props, matching the JSX runtime.
Now that we rely on function context exclusively, let's clean up
`HIRFunction.context` after DCE. This PR is in preparation of #31204,
which would otherwise have unnecessary declarations (of context values
that become entirely DCE'd)
'
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31202).
* __->__ #31202
* #31203
* #31201
* #31200
* #31521
`JSXMemberExpression` is currently the only instruction (that I know of)
that directly references identifier lvalues without a corresponding
`LoadLocal`.
This has some side effects:
- deadcode elimination and constant propagation now reach
JSXMemberExpressions
- we can delete `LoweredFunction.dependencies` without dangling
references (previously, the only reference to JSXMemberExpression
objects in HIR was in function dependencies)
- JSXMemberExpression now is consistent with all other instructions
(e.g. has a rvalue-producing LoadLocal)
'
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31201).
* #31202
* #31203
* __->__ #31201
* #31200
* #31521
Recursively visit inner function instructions to extract dependencies
instead of using `LoweredFunction.dependencies` directly.
This is currently gated by enableFunctionDependencyRewrite, which needs
to be removed before we delete `LoweredFunction.dependencies` altogether
(#31204).
Some nice side effects
- optional-chaining deps for inner functions
- full DCE and outlining for inner functions (see #31202)
- fewer extraneous instructions (see #31204)
-
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31200).
* #31202
* #31203
* #31201
* __->__ #31200
* #31521
We were previously filtering out `ref.current` dependencies in
propagateScopeDependencies:checkValidDependency`. This is incorrect.
Instead, we now always take a dependency on ref values (the outer box)
as they may be reactive. Pruning is done in
pruneNonReactiveDependencies.
This PR includes a small patch to `collectReactiveIdentifier`. Prior to
this, we conservatively assumed that pruned scopes always produced
reactive declarations. This assumption fixed a bug with non-reactivity,
but some of these declarations are `useRef` calls. Now we have special
handling for this case
```js
// This often produces a pruned scope
React.useRef(1);
```
---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/31521).
* #31202
* #31203
* #31201
* #31200
* __->__ #31521
Previously, we bailed out on outlining jsx that had children that were
not part of the outlined jsx.
Now, we add support for children by treating as attributes.
Previously, we would skip outlining jsx expressions that had duplicate
jsx attributes as we would not rename them causing incorrect
compilation.
In this PR, we add outlining support for duplicate jsx attributes by
renaming them.
