amirho/react
1
0
Fork 0
mirror of https://github.com/facebook/react.git synced 2026-02-21 19:31:52 +00:00
Code Issues Packages Projects Releases Wiki Activity

[compiler] Implement exhaustive dependency checking for manual memoization (#34394)

Browse Source 
The compiler currently drops manual memoization and rewrites it using
its own inference. If the existing manual memo dependencies has missing
or extra dependencies, compilation can change behavior by running the
computation more often (if deps were missing) or less often (if there
were extra deps). We currently address this by relying on the developer
to use the ESLint plugin and have `eslint-disable-next-line
react-hooks/exhaustive-deps` suppressions in their code. If a
suppression exists, we skip compilation.

But not everyone is using the linter! Relying on the linter is also
imprecise since it forces us to bail out on exhaustive-deps checks that
only effect (ahem) effects — and while it isn't good to have incorrect
deps on effects, it isn't a problem for compilation.

So this PR is a rough sketch of validating manual memoization
dependencies in the compiler. Long-term we could use this to also check
effect deps and replace the ExhaustiveDeps lint rule, but for now I'm
focused specifically on manual memoization use-cases. If this works, we
can stop bailing out on ESLint suppressions, since the compiler will
implement all the appropriate checks (we already check rules of hooks).

---
[//]: # (BEGIN SAPLING FOOTER)
Stack created with [Sapling](https://sapling-scm.com). Best reviewed
with [ReviewStack](https://reviewstack.dev/facebook/react/pull/34394).
* #34472
* #34471
* __->__ #34394
This commit is contained in:
Joseph Savona
2025-11-20 19:26:26 -08:00
committed by GitHub
parent 50e7ec8a69
commit bcc3fd8b05
9 changed files with 1144 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files

24
compiler/packages/babel-plugin-react-compiler/src/CompilerError.ts
View File

@@ -304,6 +304,30 @@ export class CompilerError extends Error {
disabledDetails: Array<CompilerErrorDetail | CompilerDiagnostic> = [];
printedMessage: string | null = null;
static simpleInvariant(
condition: unknown,
options: {
reason: CompilerDiagnosticOptions['reason'];
description?: CompilerDiagnosticOptions['description'];
loc: SourceLocation;
},
): asserts condition {
if (!condition) {
const errors = new CompilerError();
errors.pushDiagnostic(
CompilerDiagnostic.create({
reason: options.reason,
description: options.description ?? null,
category: ErrorCategory.Invariant,
}).withDetails({
kind: 'error',
loc: options.loc,
message: options.reason,
}),
);
throw errors;
}
}
static invariant(
condition: unknown,
options: Omit<CompilerDiagnosticOptions, 'category'>,

6
compiler/packages/babel-plugin-react-compiler/src/Entrypoint/Pipeline.ts
View File

@@ -105,6 +105,7 @@ import {validateNoDerivedComputationsInEffects} from '../Validation/ValidateNoDe
import {validateNoDerivedComputationsInEffects_exp} from '../Validation/ValidateNoDerivedComputationsInEffects_exp';
import {nameAnonymousFunctions} from '../Transform/NameAnonymousFunctions';
import {optimizeForSSR} from '../Optimization/OptimizeForSSR';
import {validateExhaustiveDependencies} from '../Validation/ValidateExhaustiveDependencies';
import {validateSourceLocations} from '../Validation/ValidateSourceLocations';
export type CompilerPipelineValue =
@@ -302,6 +303,11 @@ function runWithEnvironment(
inferReactivePlaces(hir);
log({kind: 'hir', name: 'InferReactivePlaces', value: hir});
if (env.config.validateExhaustiveMemoizationDependencies) {
// NOTE: this relies on reactivity inference running first
validateExhaustiveDependencies(hir).unwrap();
}
rewriteInstructionKindsBasedOnReassignment(hir);
log({
kind: 'hir',

5
compiler/packages/babel-plugin-react-compiler/src/HIR/Environment.ts
View File

@@ -218,6 +218,11 @@ export const EnvironmentConfigSchema = z.object({
*/
validatePreserveExistingMemoizationGuarantees: z.boolean().default(true),
/**
* Validate that dependencies supplied to manual memoization calls are exhaustive.
*/
validateExhaustiveMemoizationDependencies: z.boolean().default(false),
/**
* When this is true, rather than pruning existing manual memoization but ensuring or validating
* that the memoized values remain memoized, the compiler will simply not prune existing calls to

22
compiler/packages/babel-plugin-react-compiler/src/HIR/HIR.ts
View File

@@ -1680,6 +1680,28 @@ export function areEqualPaths(a: DependencyPath, b: DependencyPath): boolean {
)
);
}
export function isSubPath(
subpath: DependencyPath,
path: DependencyPath,
): boolean {
return (
subpath.length <= path.length &&
subpath.every(
(item, ix) =>
item.property === path[ix].property &&
item.optional === path[ix].optional,
)
);
}
export function isSubPathIgnoringOptionals(
subpath: DependencyPath,
path: DependencyPath,
): boolean {
return (
subpath.length <= path.length &&
subpath.every((item, ix) => item.property === path[ix].property)
);
}
export function getPlaceScope(
id: InstructionId,

749
compiler/packages/babel-plugin-react-compiler/src/Validation/ValidateExhaustiveDependencies.ts Normal file
View File

@@ -0,0 +1,749 @@
/**
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*/
import prettyFormat from 'pretty-format';
import {CompilerDiagnostic, CompilerError, SourceLocation} from '..';
import {ErrorCategory} from '../CompilerError';
import {
areEqualPaths,
BlockId,
DependencyPath,
FinishMemoize,
HIRFunction,
Identifier,
IdentifierId,
InstructionKind,
isSubPath,
LoadGlobal,
ManualMemoDependency,
Place,
StartMemoize,
} from '../HIR';
import {
eachInstructionLValue,
eachInstructionValueLValue,
eachInstructionValueOperand,
eachTerminalOperand,
} from '../HIR/visitors';
import {Result} from '../Utils/Result';
import {retainWhere} from '../Utils/utils';
const DEBUG = false;
/**
* Validates that existing manual memoization had exhaustive dependencies.
* Memoization with missing or extra reactive dependencies is invalid React
* and compilation can change behavior, causing a value to be computed more
* or less times.
*
* TODOs:
* - Better handling of cases where we infer multiple dependencies related to a single
* variable. Eg if the user has dep `x` and we inferred `x.y, x.z`, the user's dep
* is sufficient.
* - Handle cases where the user deps were not simple identifiers + property chains.
* We try to detect this in ValidateUseMemo but we miss some cases. The problem
* is that invalid forms can be value blocks or function calls that don't get
* removed by DCE, leaving a structure like:
*
* StartMemoize
* t0 = <value to memoize>
* ...non-DCE'd code for manual deps...
* FinishMemoize decl=t0
*
* When we go to compute the dependencies, we then think that the user's manual dep
* logic is part of what the memo computation logic.
*/
export function validateExhaustiveDependencies(
fn: HIRFunction,
): Result<void, CompilerError> {
const reactive = collectReactiveIdentifiersHIR(fn);
const temporaries: Map<IdentifierId, Temporary> = new Map();
for (const param of fn.params) {
const place = param.kind === 'Identifier' ? param : param.place;
temporaries.set(place.identifier.id, {
kind: 'Local',
identifier: place.identifier,
path: [],
context: false,
loc: place.loc,
});
}
const error = new CompilerError();
let startMemo: StartMemoize | null = null;
function onStartMemoize(
value: StartMemoize,
dependencies: Set<InferredDependency>,
locals: Set<IdentifierId>,
): void {
CompilerError.simpleInvariant(startMemo == null, {
reason: 'Unexpected nested memo calls',
loc: value.loc,
});
startMemo = value;
dependencies.clear();
locals.clear();
}
function onFinishMemoize(
value: FinishMemoize,
dependencies: Set<InferredDependency>,
locals: Set<IdentifierId>,
): void {
CompilerError.simpleInvariant(
startMemo != null && startMemo.manualMemoId === value.manualMemoId,
{
reason: 'Found FinishMemoize without corresponding StartMemoize',
loc: value.loc,
},
);
visitCandidateDependency(value.decl, temporaries, dependencies, locals);
const inferred: Array<InferredDependency> = Array.from(dependencies);
// Sort dependencies by name, and path, with shorter/non-optional paths first
inferred.sort((a, b) => {
if (a.kind === 'Global' && b.kind == 'Global') {
return a.binding.name.localeCompare(b.binding.name);
} else if (a.kind == 'Local' && b.kind == 'Local') {
CompilerError.simpleInvariant(
a.identifier.name != null &&
a.identifier.name.kind === 'named' &&
b.identifier.name != null &&
b.identifier.name.kind === 'named',
{
reason: 'Expected dependencies to be named variables',
loc: a.loc,
},
);
if (a.identifier.id !== b.identifier.id) {
return a.identifier.name.value.localeCompare(b.identifier.name.value);
}
if (a.path.length !== b.path.length) {
// if a's path is shorter this returns a negative, sorting a first
return a.path.length - b.path.length;
}
for (let i = 0; i < a.path.length; i++) {
const aProperty = a.path[i];
const bProperty = b.path[i];
const aOptional = aProperty.optional ? 0 : 1;
const bOptional = bProperty.optional ? 0 : 1;
if (aOptional !== bOptional) {
// sort non-optionals first
return aOptional - bOptional;
} else if (aProperty.property !== bProperty.property) {
return String(aProperty.property).localeCompare(
String(bProperty.property),
);
}
}
return 0;
} else {
const aName =
a.kind === 'Global' ? a.binding.name : a.identifier.name?.value;
const bName =
b.kind === 'Global' ? b.binding.name : b.identifier.name?.value;
if (aName != null && bName != null) {
return aName.localeCompare(bName);
}
return 0;
}
});
// remove redundant inferred dependencies
retainWhere(inferred, (dep, ix) => {
const match = inferred.findIndex(prevDep => {
return (
isEqualTemporary(prevDep, dep) ||
(prevDep.kind === 'Local' &&
dep.kind === 'Local' &&
prevDep.identifier.id === dep.identifier.id &&
isSubPath(prevDep.path, dep.path))
);
});
// only retain entries that don't have a prior match
return match === -1 || match >= ix;
});
// Validate that all manual dependencies belong there
if (DEBUG) {
console.log('manual');
console.log(
(startMemo.deps ?? [])
.map(x => ' ' + printManualMemoDependency(x))
.join('\n'),
);
console.log('inferred');
console.log(
inferred.map(x => ' ' + printInferredDependency(x)).join('\n'),
);
}
const manualDependencies = startMemo.deps ?? [];
const matched: Set<ManualMemoDependency> = new Set();
const missing: Array<Extract<InferredDependency, {kind: 'Local'}>> = [];
const extra: Array<ManualMemoDependency> = [];
for (const inferredDependency of inferred) {
if (inferredDependency.kind === 'Global') {
for (const manualDependency of manualDependencies) {
if (
manualDependency.root.kind === 'Global' &&
manualDependency.root.identifierName ===
inferredDependency.binding.name
) {
matched.add(manualDependency);
extra.push(manualDependency);
}
}
continue;
}
CompilerError.simpleInvariant(inferredDependency.kind === 'Local', {
reason: 'Unexpected function dependency',
loc: value.loc,
});
let hasMatchingManualDependency = false;
for (const manualDependency of manualDependencies) {
if (
manualDependency.root.kind === 'NamedLocal' &&
manualDependency.root.value.identifier.id ===
inferredDependency.identifier.id &&
(areEqualPaths(manualDependency.path, inferredDependency.path) ||
isSubPath(manualDependency.path, inferredDependency.path))
) {
hasMatchingManualDependency = true;
matched.add(manualDependency);
}
}
if (!hasMatchingManualDependency) {
missing.push(inferredDependency);
}
}
for (const dep of startMemo.deps ?? []) {
if (
matched.has(dep) ||
(dep.root.kind === 'NamedLocal' &&
!reactive.has(dep.root.value.identifier.id))
) {
continue;
}
extra.push(dep);
}
if (missing.length !== 0) {
// Error
const diagnostic = CompilerDiagnostic.create({
category: ErrorCategory.PreserveManualMemo,
reason: 'Found non-exhaustive dependencies',
description:
'Missing dependencies can cause a value not to update when those inputs change, ' +
'resulting in stale UI. This memoization cannot be safely rewritten by the compiler.',
});
for (const dep of missing) {
diagnostic.withDetails({
kind: 'error',
message: `Missing dependency \`${printInferredDependency(dep)}\``,
loc: dep.loc,
});
}
error.pushDiagnostic(diagnostic);
} else if (extra.length !== 0) {
const diagnostic = CompilerDiagnostic.create({
category: ErrorCategory.PreserveManualMemo,
reason: 'Found unnecessary memoization dependencies',
description:
'Unnecessary dependencies can cause a value to update more often than necessary, ' +
'which can cause effects to run more than expected. This memoization cannot be safely ' +
'rewritten by the compiler',
});
diagnostic.withDetails({
kind: 'error',
message: `Unnecessary dependencies ${extra.map(dep => `\`${printManualMemoDependency(dep)}\``).join(', ')}`,
loc: value.loc,
});
error.pushDiagnostic(diagnostic);
}
dependencies.clear();
locals.clear();
startMemo = null;
}
collectDependencies(fn, temporaries, {
onStartMemoize,
onFinishMemoize,
});
return error.asResult();
}
function addDependency(
dep: Temporary,
dependencies: Set<InferredDependency>,
locals: Set<IdentifierId>,
): void {
if (dep.kind === 'Function') {
for (const x of dep.dependencies) {
addDependency(x, dependencies, locals);
}
} else if (dep.kind === 'Global') {
dependencies.add(dep);
} else if (!locals.has(dep.identifier.id)) {
dependencies.add(dep);
}
}
function visitCandidateDependency(
place: Place,
temporaries: Map<IdentifierId, Temporary>,
dependencies: Set<InferredDependency>,
locals: Set<IdentifierId>,
): void {
const dep = temporaries.get(place.identifier.id);
if (dep != null) {
addDependency(dep, dependencies, locals);
}
}
/**
* This function determines the dependencies of the given function relative to
* its external context. Dependencies are collected eagerly, the first time an
* external variable is referenced, as opposed to trying to delay or aggregate
* calculation of dependencies until they are later "used".
*
* For example, in
*
* ```
* function f() {
* let x = y; // we record a dependency on `y` here
* ...
* use(x); // as opposed to trying to delay that dependency until here
* }
* ```
*
* That said, LoadLocal/LoadContext does not immediately take a dependency,
* we store the dependency in a temporary and set it as used when that temporary
* is referenced as an operand.
*
* As we proceed through the function we track local variables that it creates
* and don't consider later references to these variables as dependencies.
*
* For function expressions we first collect the function's dependencies by
* calling this function recursively, _without_ taking into account whether
* the "external" variables it accesses are actually external or just locals
* in the parent. We then prune any locals and immediately consider any
* remaining externals that it accesses as a dependency:
*
* ```
* function Component() {
* const local = ...;
* const f = () => { return [external, local] };
* }
* ```
*
* Here we calculate `f` as having dependencies `external, `local` and save
* this into `temporaries`. We then also immediately take these as dependencies
* at the Component scope, at which point we filter out `local` as a local variable,
* leaving just a dependency on `external`.
*
* When calling this function on a top-level component or hook, the collected dependencies
* will only contain the globals that it accesses which isn't useful. Instead, passing
* onStartMemoize/onFinishMemoize callbacks allows looking at the dependencies within
* blocks of manual memoization.
*/
function collectDependencies(
fn: HIRFunction,
temporaries: Map<IdentifierId, Temporary>,
callbacks: {
onStartMemoize: (
startMemo: StartMemoize,
dependencies: Set<InferredDependency>,
locals: Set<IdentifierId>,
) => void;
onFinishMemoize: (
finishMemo: FinishMemoize,
dependencies: Set<InferredDependency>,
locals: Set<IdentifierId>,
) => void;
} | null,
): Extract<Temporary, {kind: 'Function'}> {
const optionals = findOptionalPlaces(fn);
if (DEBUG) {
console.log(prettyFormat(optionals));
}
const locals: Set<IdentifierId> = new Set();
const dependencies: Set<InferredDependency> = new Set();
function visit(place: Place): void {
visitCandidateDependency(place, temporaries, dependencies, locals);
}
for (const block of fn.body.blocks.values()) {
for (const phi of block.phis) {
let deps: Array<Temporary> | null = null;
for (const operand of phi.operands.values()) {
const dep = temporaries.get(operand.identifier.id);
if (dep == null) {
continue;
}
if (deps == null) {
deps = [dep];
} else {
deps.push(dep);
}
}
if (deps == null) {
continue;
} else if (deps.length === 1) {
temporaries.set(phi.place.identifier.id, deps[0]!);
} else {
temporaries.set(phi.place.identifier.id, {
kind: 'Function',
dependencies: new Set(deps),
});
}
}
for (const instr of block.instructions) {
const {lvalue, value} = instr;
switch (value.kind) {
case 'LoadGlobal': {
temporaries.set(lvalue.identifier.id, {
kind: 'Global',
binding: value.binding,
});
break;
}
case 'LoadContext':
case 'LoadLocal': {
if (locals.has(value.place.identifier.id)) {
break;
}
const temp = temporaries.get(value.place.identifier.id);
if (temp != null) {
if (temp.kind === 'Local') {
const local: Temporary = {...temp, loc: value.place.loc};
temporaries.set(lvalue.identifier.id, local);
} else {
temporaries.set(lvalue.identifier.id, temp);
}
}
break;
}
case 'DeclareLocal': {
const local: Temporary = {
kind: 'Local',
identifier: value.lvalue.place.identifier,
path: [],
context: false,
loc: value.lvalue.place.loc,
};
temporaries.set(value.lvalue.place.identifier.id, local);
locals.add(value.lvalue.place.identifier.id);
break;
}
case 'StoreLocal': {
if (value.lvalue.place.identifier.name == null) {
const temp = temporaries.get(value.value.identifier.id);
if (temp != null) {
temporaries.set(value.lvalue.place.identifier.id, temp);
}
break;
}
visit(value.value);
if (value.lvalue.kind !== InstructionKind.Reassign) {
const local: Temporary = {
kind: 'Local',
identifier: value.lvalue.place.identifier,
path: [],
context: false,
loc: value.lvalue.place.loc,
};
temporaries.set(value.lvalue.place.identifier.id, local);
locals.add(value.lvalue.place.identifier.id);
}
break;
}
case 'DeclareContext': {
const local: Temporary = {
kind: 'Local',
identifier: value.lvalue.place.identifier,
path: [],
context: true,
loc: value.lvalue.place.loc,
};
temporaries.set(value.lvalue.place.identifier.id, local);
break;
}
case 'StoreContext': {
visit(value.value);
if (value.lvalue.kind !== InstructionKind.Reassign) {
const local: Temporary = {
kind: 'Local',
identifier: value.lvalue.place.identifier,
path: [],
context: true,
loc: value.lvalue.place.loc,
};
temporaries.set(value.lvalue.place.identifier.id, local);
locals.add(value.lvalue.place.identifier.id);
}
break;
}
case 'Destructure': {
visit(value.value);
if (value.lvalue.kind !== InstructionKind.Reassign) {
for (const lvalue of eachInstructionValueLValue(value)) {
const local: Temporary = {
kind: 'Local',
identifier: lvalue.identifier,
path: [],
context: false,
loc: lvalue.loc,
};
temporaries.set(lvalue.identifier.id, local);
locals.add(lvalue.identifier.id);
}
}
break;
}
case 'PropertyLoad': {
if (typeof value.property === 'number') {
visit(value.object);
break;
}
const object = temporaries.get(value.object.identifier.id);
if (object != null && object.kind === 'Local') {
const optional = optionals.get(value.object.identifier.id) ?? false;
const local: Temporary = {
kind: 'Local',
identifier: object.identifier,
context: object.context,
path: [
...object.path,
{
optional,
property: value.property,
},
],
loc: value.loc,
};
temporaries.set(lvalue.identifier.id, local);
}
break;
}
case 'FunctionExpression':
case 'ObjectMethod': {
const functionDeps = collectDependencies(
value.loweredFunc.func,
temporaries,
null,
);
temporaries.set(lvalue.identifier.id, functionDeps);
addDependency(functionDeps, dependencies, locals);
break;
}
case 'StartMemoize': {
const onStartMemoize = callbacks?.onStartMemoize;
if (onStartMemoize != null) {
onStartMemoize(value, dependencies, locals);
}
break;
}
case 'FinishMemoize': {
const onFinishMemoize = callbacks?.onFinishMemoize;
if (onFinishMemoize != null) {
onFinishMemoize(value, dependencies, locals);
}
break;
}
case 'MethodCall': {
// Ignore the method itself
for (const operand of eachInstructionValueOperand(value)) {
if (operand.identifier.id === value.property.identifier.id) {
continue;
}
visit(operand);
}
break;
}
default: {
for (const operand of eachInstructionValueOperand(value)) {
visit(operand);
}
for (const lvalue of eachInstructionLValue(instr)) {
locals.add(lvalue.identifier.id);
}
}
}
}
for (const operand of eachTerminalOperand(block.terminal)) {
if (optionals.has(operand.identifier.id)) {
continue;
}
visit(operand);
}
}
return {kind: 'Function', dependencies};
}
function printInferredDependency(dep: InferredDependency): string {
switch (dep.kind) {
case 'Global': {
return dep.binding.name;
}
case 'Local': {
CompilerError.simpleInvariant(
dep.identifier.name != null && dep.identifier.name.kind === 'named',
{
reason: 'Expected dependencies to be named variables',
loc: dep.loc,
},
);
return `${dep.identifier.name.value}${dep.path.map(p => (p.optional ? '?' : '') + '.' + p.property).join('')}`;
}
}
}
function printManualMemoDependency(dep: ManualMemoDependency): string {
let identifierName: string;
if (dep.root.kind === 'Global') {
identifierName = dep.root.identifierName;
} else {
const name = dep.root.value.identifier.name;
CompilerError.simpleInvariant(name != null && name.kind === 'named', {
reason: 'Expected manual dependencies to be named variables',
loc: dep.root.value.loc,
});
identifierName = name.value;
}
return `${identifierName}${dep.path.map(p => (p.optional ? '?' : '') + '.' + p.property).join('')}`;
}
function isEqualTemporary(a: Temporary, b: Temporary): boolean {
switch (a.kind) {
case 'Function': {
return false;
}
case 'Global': {
return b.kind === 'Global' && a.binding.name === b.binding.name;
}
case 'Local': {
return (
b.kind === 'Local' &&
a.identifier.id === b.identifier.id &&
areEqualPaths(a.path, b.path)
);
}
}
}
type Temporary =
| {kind: 'Global'; binding: LoadGlobal['binding']}
| {
kind: 'Local';
identifier: Identifier;
path: DependencyPath;
context: boolean;
loc: SourceLocation;
}
| {kind: 'Function'; dependencies: Set<Temporary>};
type InferredDependency = Extract<Temporary, {kind: 'Local' | 'Global'}>;
function collectReactiveIdentifiersHIR(fn: HIRFunction): Set<IdentifierId> {
const reactive = new Set<IdentifierId>();
for (const block of fn.body.blocks.values()) {
for (const instr of block.instructions) {
for (const lvalue of eachInstructionLValue(instr)) {
if (lvalue.reactive) {
reactive.add(lvalue.identifier.id);
}
}
for (const operand of eachInstructionValueOperand(instr.value)) {
if (operand.reactive) {
reactive.add(operand.identifier.id);
}
}
}
for (const operand of eachTerminalOperand(block.terminal)) {
if (operand.reactive) {
reactive.add(operand.identifier.id);
}
}
}
return reactive;
}
export function findOptionalPlaces(
fn: HIRFunction,
): Map<IdentifierId, boolean> {
const optionals = new Map<IdentifierId, boolean>();
const visited: Set<BlockId> = new Set();
for (const [, block] of fn.body.blocks) {
if (visited.has(block.id)) {
continue;
}
if (block.terminal.kind === 'optional') {
visited.add(block.id);
const optionalTerminal = block.terminal;
let testBlock = fn.body.blocks.get(block.terminal.test)!;
const queue: Array<boolean | null> = [block.terminal.optional];
loop: while (true) {
visited.add(testBlock.id);
const terminal = testBlock.terminal;
switch (terminal.kind) {
case 'branch': {
const isOptional = queue.pop();
CompilerError.simpleInvariant(isOptional !== undefined, {
reason:
'Expected an optional value for each optional test condition',
loc: terminal.test.loc,
});
if (isOptional != null) {
optionals.set(terminal.test.identifier.id, isOptional);
}
if (terminal.fallthrough === optionalTerminal.fallthrough) {
// found it
const consequent = fn.body.blocks.get(terminal.consequent)!;
const last = consequent.instructions.at(-1);
if (last !== undefined && last.value.kind === 'StoreLocal') {
if (isOptional != null) {
optionals.set(last.value.value.identifier.id, isOptional);
}
}
break loop;
} else {
testBlock = fn.body.blocks.get(terminal.fallthrough)!;
}
break;
}
case 'optional': {
queue.push(terminal.optional);
testBlock = fn.body.blocks.get(terminal.test)!;
break;
}
case 'logical':
case 'ternary': {
queue.push(null);
testBlock = fn.body.blocks.get(terminal.test)!;
break;
}
case 'sequence': {
// Do we need sequence?? In any case, don't push to queue bc there is no corresponding branch terminal
testBlock = fn.body.blocks.get(terminal.block)!;
break;
}
default: {
CompilerError.simpleInvariant(false, {
reason: `Unexpected terminal in optional`,
loc: terminal.loc,
});
}
}
}
CompilerError.simpleInvariant(queue.length === 0, {
reason:
'Expected a matching number of conditional blocks and branch points',
loc: block.terminal.loc,
});
}
}
return optionals;
}

98
compiler/packages/babel-plugin-react-compiler/src/__tests__/fixtures/compiler/error.invalid-exhaustive-deps.expect.md Normal file
View File

@@ -0,0 +1,98 @@
## Input
```javascript
// @validateExhaustiveMemoizationDependencies
import {useMemo} from 'react';
import {Stringify} from 'shared-runtime';
function Component({x, y, z}) {
const a = useMemo(() => {
return x?.y.z?.a;
}, [x?.y.z?.a.b]);
const b = useMemo(() => {
return x.y.z?.a;
}, [x.y.z.a]);
const c = useMemo(() => {
return x?.y.z.a?.b;
}, [x?.y.z.a?.b.z]);
const d = useMemo(() => {
return x?.y?.[(console.log(y), z?.b)];
}, [x?.y, y, z?.b]);
const e = useMemo(() => {
const e = [];
e.push(x);
return e;
}, [x]);
const f = useMemo(() => {
return [];
}, [x, y.z, z?.y?.a]);
return <Stringify results={[a, b, c, d, e, f]} />;
}
```
## Error
```
Found 4 errors:
Compilation Skipped: Found non-exhaustive dependencies
Missing dependencies can cause a value not to update when those inputs change, resulting in stale UI. This memoization cannot be safely rewritten by the compiler..
error.invalid-exhaustive-deps.ts:7:11
5 | function Component({x, y, z}) {
6 | const a = useMemo(() => {
> 7 | return x?.y.z?.a;
| ^^^^^^^^^ Missing dependency `x?.y.z?.a`
8 | }, [x?.y.z?.a.b]);
9 | const b = useMemo(() => {
10 | return x.y.z?.a;
Compilation Skipped: Found non-exhaustive dependencies
Missing dependencies can cause a value not to update when those inputs change, resulting in stale UI. This memoization cannot be safely rewritten by the compiler..
error.invalid-exhaustive-deps.ts:10:11
8 | }, [x?.y.z?.a.b]);
9 | const b = useMemo(() => {
> 10 | return x.y.z?.a;
| ^^^^^^^^ Missing dependency `x.y.z?.a`
11 | }, [x.y.z.a]);
12 | const c = useMemo(() => {
13 | return x?.y.z.a?.b;
Compilation Skipped: Found non-exhaustive dependencies
Missing dependencies can cause a value not to update when those inputs change, resulting in stale UI. This memoization cannot be safely rewritten by the compiler..
error.invalid-exhaustive-deps.ts:13:11
11 | }, [x.y.z.a]);
12 | const c = useMemo(() => {
> 13 | return x?.y.z.a?.b;
| ^^^^^^^^^^^ Missing dependency `x?.y.z.a?.b`
14 | }, [x?.y.z.a?.b.z]);
15 | const d = useMemo(() => {
16 | return x?.y?.[(console.log(y), z?.b)];
Compilation Skipped: Found unnecessary memoization dependencies
Unnecessary dependencies can cause a value to update more often than necessary, which can cause effects to run more than expected. This memoization cannot be safely rewritten by the compiler.
error.invalid-exhaustive-deps.ts:23:20
21 | return e;
22 | }, [x]);
> 23 | const f = useMemo(() => {
| ^^^^^^^
> 24 | return [];
| ^^^^^^^^^^^^^^
> 25 | }, [x, y.z, z?.y?.a]);
| ^^^^ Unnecessary dependencies `x`, `y.z`, `z?.y?.a`
26 | return <Stringify results={[a, b, c, d, e, f]} />;
27 | }
28 |
```

27
compiler/packages/babel-plugin-react-compiler/src/__tests__/fixtures/compiler/error.invalid-exhaustive-deps.js Normal file
View File

@@ -0,0 +1,27 @@
// @validateExhaustiveMemoizationDependencies
import {useMemo} from 'react';
import {Stringify} from 'shared-runtime';
function Component({x, y, z}) {
const a = useMemo(() => {
return x?.y.z?.a;
}, [x?.y.z?.a.b]);
const b = useMemo(() => {
return x.y.z?.a;
}, [x.y.z.a]);
const c = useMemo(() => {
return x?.y.z.a?.b;
}, [x?.y.z.a?.b.z]);
const d = useMemo(() => {
return x?.y?.[(console.log(y), z?.b)];
}, [x?.y, y, z?.b]);
const e = useMemo(() => {
const e = [];
e.push(x);
return e;
}, [x]);
const f = useMemo(() => {
return [];
}, [x, y.z, z?.y?.a]);
return <Stringify results={[a, b, c, d, e, f]} />;
}

159
compiler/packages/babel-plugin-react-compiler/src/__tests__/fixtures/compiler/exhaustive-deps.expect.md Normal file
View File

@@ -0,0 +1,159 @@
## Input
```javascript
// @validateExhaustiveMemoizationDependencies
import {useMemo} from 'react';
import {makeObject_Primitives, Stringify} from 'shared-runtime';
function useHook1(x) {
return useMemo(() => {
return x?.y.z?.a;
}, [x?.y.z?.a]);
}
function useHook2(x) {
useMemo(() => {
return x.y.z?.a;
}, [x.y.z?.a]);
}
function useHook3(x) {
return useMemo(() => {
return x?.y.z.a?.b;
}, [x?.y.z.a?.b]);
}
function useHook4(x, y, z) {
return useMemo(() => {
return x?.y?.[(console.log(y), z?.b)];
}, [x?.y, y, z?.b]);
}
function useHook5(x) {
return useMemo(() => {
const e = [];
const local = makeObject_Primitives(x);
const fn = () => {
e.push(local);
};
fn();
return e;
}, [x]);
}
function useHook6(x) {
return useMemo(() => {
const f = [];
f.push(x.y.z);
f.push(x.y);
f.push(x);
return f;
}, [x]);
}
function Component({x, y, z}) {
const a = useHook1(x);
const b = useHook2(x);
const c = useHook3(x);
const d = useHook4(x, y, z);
const e = useHook5(x);
const f = useHook6(x);
return <Stringify results={[a, b, c, d, e, f]} />;
}
```
## Code
```javascript
import { c as _c } from "react/compiler-runtime"; // @validateExhaustiveMemoizationDependencies
import { useMemo } from "react";
import { makeObject_Primitives, Stringify } from "shared-runtime";
function useHook1(x) {
x?.y.z?.a;
return x?.y.z?.a;
}
function useHook2(x) {
x.y.z?.a;
}
function useHook3(x) {
x?.y.z.a?.b;
return x?.y.z.a?.b;
}
function useHook4(x, y, z) {
x?.y;
z?.b;
return x?.y?.[(console.log(y), z?.b)];
}
function useHook5(x) {
const $ = _c(2);
let e;
if ($[0] !== x) {
e = [];
const local = makeObject_Primitives(x);
const fn = () => {
e.push(local);
};
fn();
$[0] = x;
$[1] = e;
} else {
e = $[1];
}
return e;
}
function useHook6(x) {
const $ = _c(2);
let f;
if ($[0] !== x) {
f = [];
f.push(x.y.z);
f.push(x.y);
f.push(x);
$[0] = x;
$[1] = f;
} else {
f = $[1];
}
return f;
}
function Component(t0) {
const $ = _c(7);
const { x, y, z } = t0;
const a = useHook1(x);
const b = useHook2(x);
const c = useHook3(x);
const d = useHook4(x, y, z);
const e = useHook5(x);
const f = useHook6(x);
let t1;
if (
$[0] !== a ||
$[1] !== b ||
$[2] !== c ||
$[3] !== d ||
$[4] !== e ||
$[5] !== f
) {
t1 = <Stringify results={[a, b, c, d, e, f]} />;
$[0] = a;
$[1] = b;
$[2] = c;
$[3] = d;
$[4] = e;
$[5] = f;
$[6] = t1;
} else {
t1 = $[6];
}
return t1;
}
```
### Eval output
(kind: exception) Fixture not implemented

54
compiler/packages/babel-plugin-react-compiler/src/__tests__/fixtures/compiler/exhaustive-deps.js Normal file
View File

@@ -0,0 +1,54 @@
// @validateExhaustiveMemoizationDependencies
import {useMemo} from 'react';
import {makeObject_Primitives, Stringify} from 'shared-runtime';
function useHook1(x) {
return useMemo(() => {
return x?.y.z?.a;
}, [x?.y.z?.a]);
}
function useHook2(x) {
useMemo(() => {
return x.y.z?.a;
}, [x.y.z?.a]);
}
function useHook3(x) {
return useMemo(() => {
return x?.y.z.a?.b;
}, [x?.y.z.a?.b]);
}
function useHook4(x, y, z) {
return useMemo(() => {
return x?.y?.[(console.log(y), z?.b)];
}, [x?.y, y, z?.b]);
}
function useHook5(x) {
return useMemo(() => {
const e = [];
const local = makeObject_Primitives(x);
const fn = () => {
e.push(local);
};
fn();
return e;
}, [x]);
}
function useHook6(x) {
return useMemo(() => {
const f = [];
f.push(x.y.z);
f.push(x.y);
f.push(x);
return f;
}, [x]);
}
function Component({x, y, z}) {
const a = useHook1(x);
const b = useHook2(x);
const c = useHook3(x);
const d = useHook4(x, y, z);
const e = useHook5(x);
const f = useHook6(x);
return <Stringify results={[a, b, c, d, e, f]} />;
}