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ReactFiberWorkLoop.old.js
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ReactFiberWorkLoop.old.js
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/**
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*
* @flow
*/
import type {Thenable, Wakeable} from 'shared/ReactTypes';
import type {Fiber, FiberRoot} from './ReactInternalTypes';
import type {Lanes, Lane} from './ReactFiberLane';
import type {ReactPriorityLevel} from './ReactInternalTypes';
import type {Interaction} from 'scheduler/src/Tracing';
import type {SuspenseState} from './ReactFiberSuspenseComponent.old';
import type {Effect as HookEffect} from './ReactFiberHooks.old';
import type {StackCursor} from './ReactFiberStack.old';
import {
warnAboutDeprecatedLifecycles,
enableSuspenseServerRenderer,
replayFailedUnitOfWorkWithInvokeGuardedCallback,
enableProfilerTimer,
enableProfilerCommitHooks,
enableSchedulerTracing,
warnAboutUnmockedScheduler,
deferRenderPhaseUpdateToNextBatch,
decoupleUpdatePriorityFromScheduler,
enableDebugTracing,
enableSchedulingProfiler,
enableScopeAPI,
} from 'shared/ReactFeatureFlags';
import ReactSharedInternals from 'shared/ReactSharedInternals';
import invariant from 'shared/invariant';
import {
scheduleCallback,
cancelCallback,
getCurrentPriorityLevel,
runWithPriority,
shouldYield,
requestPaint,
now,
NoPriority as NoSchedulerPriority,
ImmediatePriority as ImmediateSchedulerPriority,
UserBlockingPriority as UserBlockingSchedulerPriority,
NormalPriority as NormalSchedulerPriority,
flushSyncCallbackQueue,
scheduleSyncCallback,
} from './SchedulerWithReactIntegration.old';
import {
logCommitStarted,
logCommitStopped,
logLayoutEffectsStarted,
logLayoutEffectsStopped,
logPassiveEffectsStarted,
logPassiveEffectsStopped,
logRenderStarted,
logRenderStopped,
} from './DebugTracing';
import {
markCommitStarted,
markCommitStopped,
markLayoutEffectsStarted,
markLayoutEffectsStopped,
markPassiveEffectsStarted,
markPassiveEffectsStopped,
markRenderStarted,
markRenderYielded,
markRenderStopped,
} from './SchedulingProfiler';
// The scheduler is imported here *only* to detect whether it's been mocked
import * as Scheduler from 'scheduler';
import {__interactionsRef, __subscriberRef} from 'scheduler/tracing';
import {
prepareForCommit,
resetAfterCommit,
scheduleTimeout,
cancelTimeout,
noTimeout,
warnsIfNotActing,
beforeActiveInstanceBlur,
afterActiveInstanceBlur,
clearContainer,
} from './ReactFiberHostConfig';
import {
createWorkInProgress,
assignFiberPropertiesInDEV,
} from './ReactFiber.old';
import {
NoMode,
StrictMode,
ProfileMode,
BlockingMode,
ConcurrentMode,
} from './ReactTypeOfMode';
import {
HostRoot,
IndeterminateComponent,
ClassComponent,
SuspenseComponent,
SuspenseListComponent,
FunctionComponent,
ForwardRef,
MemoComponent,
SimpleMemoComponent,
Block,
OffscreenComponent,
LegacyHiddenComponent,
ScopeComponent,
} from './ReactWorkTags';
import {LegacyRoot} from './ReactRootTags';
import {
NoFlags,
PerformedWork,
Placement,
Update,
PlacementAndUpdate,
Deletion,
Ref,
ContentReset,
Snapshot,
Callback,
Passive,
PassiveUnmountPendingDev,
Incomplete,
HostEffectMask,
Hydrating,
HydratingAndUpdate,
} from './ReactFiberFlags';
import {
NoLanePriority,
SyncLanePriority,
SyncBatchedLanePriority,
InputDiscreteLanePriority,
DefaultLanePriority,
NoLanes,
NoLane,
SyncLane,
SyncBatchedLane,
OffscreenLane,
NoTimestamp,
findUpdateLane,
findTransitionLane,
findRetryLane,
includesSomeLane,
isSubsetOfLanes,
mergeLanes,
removeLanes,
pickArbitraryLane,
hasDiscreteLanes,
includesNonIdleWork,
includesOnlyRetries,
includesOnlyTransitions,
getNextLanes,
returnNextLanesPriority,
setCurrentUpdateLanePriority,
getCurrentUpdateLanePriority,
markStarvedLanesAsExpired,
getLanesToRetrySynchronouslyOnError,
getMostRecentEventTime,
markRootUpdated,
markRootSuspended as markRootSuspended_dontCallThisOneDirectly,
markRootPinged,
markRootExpired,
markDiscreteUpdatesExpired,
markRootFinished,
schedulerPriorityToLanePriority,
lanePriorityToSchedulerPriority,
} from './ReactFiberLane';
import {requestCurrentTransition, NoTransition} from './ReactFiberTransition';
import {beginWork as originalBeginWork} from './ReactFiberBeginWork.old';
import {completeWork} from './ReactFiberCompleteWork.old';
import {unwindWork, unwindInterruptedWork} from './ReactFiberUnwindWork.old';
import {
throwException,
createRootErrorUpdate,
createClassErrorUpdate,
} from './ReactFiberThrow.old';
import {
commitBeforeMutationLifeCycles as commitBeforeMutationEffectOnFiber,
commitLifeCycles as commitLayoutEffectOnFiber,
commitPlacement,
commitWork,
commitDeletion,
commitDetachRef,
commitAttachRef,
commitPassiveEffectDurations,
commitResetTextContent,
isSuspenseBoundaryBeingHidden,
} from './ReactFiberCommitWork.old';
import {enqueueUpdate} from './ReactUpdateQueue.old';
import {resetContextDependencies} from './ReactFiberNewContext.old';
import {
resetHooksAfterThrow,
ContextOnlyDispatcher,
getIsUpdatingOpaqueValueInRenderPhaseInDEV,
} from './ReactFiberHooks.old';
import {createCapturedValue} from './ReactCapturedValue';
import {
push as pushToStack,
pop as popFromStack,
createCursor,
} from './ReactFiberStack.old';
import {
recordCommitTime,
recordPassiveEffectDuration,
startPassiveEffectTimer,
startProfilerTimer,
stopProfilerTimerIfRunningAndRecordDelta,
} from './ReactProfilerTimer.old';
// DEV stuff
import getComponentName from 'shared/getComponentName';
import ReactStrictModeWarnings from './ReactStrictModeWarnings.old';
import {
isRendering as ReactCurrentDebugFiberIsRenderingInDEV,
current as ReactCurrentFiberCurrent,
resetCurrentFiber as resetCurrentDebugFiberInDEV,
setCurrentFiber as setCurrentDebugFiberInDEV,
} from './ReactCurrentFiber';
import {
invokeGuardedCallback,
hasCaughtError,
clearCaughtError,
} from 'shared/ReactErrorUtils';
import {onCommitRoot as onCommitRootDevTools} from './ReactFiberDevToolsHook.old';
import {onCommitRoot as onCommitRootTestSelector} from './ReactTestSelectors';
// Used by `act`
import enqueueTask from 'shared/enqueueTask';
import {doesFiberContain} from './ReactFiberTreeReflection';
const ceil = Math.ceil;
const {
ReactCurrentDispatcher,
ReactCurrentOwner,
IsSomeRendererActing,
} = ReactSharedInternals;
type ExecutionContext = number;
export const NoContext = /* */ 0b0000000;
const BatchedContext = /* */ 0b0000001;
const EventContext = /* */ 0b0000010;
const DiscreteEventContext = /* */ 0b0000100;
const LegacyUnbatchedContext = /* */ 0b0001000;
const RenderContext = /* */ 0b0010000;
const CommitContext = /* */ 0b0100000;
export const RetryAfterError = /* */ 0b1000000;
type RootExitStatus = 0 | 1 | 2 | 3 | 4 | 5;
const RootIncomplete = 0;
const RootFatalErrored = 1;
const RootErrored = 2;
const RootSuspended = 3;
const RootSuspendedWithDelay = 4;
const RootCompleted = 5;
// Describes where we are in the React execution stack
let executionContext: ExecutionContext = NoContext;
// The root we're working on
let workInProgressRoot: FiberRoot | null = null;
// The fiber we're working on
let workInProgress: Fiber | null = null;
// The lanes we're rendering
let workInProgressRootRenderLanes: Lanes = NoLanes;
// Stack that allows components to change the render lanes for its subtree
// This is a superset of the lanes we started working on at the root. The only
// case where it's different from `workInProgressRootRenderLanes` is when we
// enter a subtree that is hidden and needs to be unhidden: Suspense and
// Offscreen component.
//
// Most things in the work loop should deal with workInProgressRootRenderLanes.
// Most things in begin/complete phases should deal with subtreeRenderLanes.
let subtreeRenderLanes: Lanes = NoLanes;
const subtreeRenderLanesCursor: StackCursor<Lanes> = createCursor(NoLanes);
// Whether to root completed, errored, suspended, etc.
let workInProgressRootExitStatus: RootExitStatus = RootIncomplete;
// A fatal error, if one is thrown
let workInProgressRootFatalError: mixed = null;
// "Included" lanes refer to lanes that were worked on during this render. It's
// slightly different than `renderLanes` because `renderLanes` can change as you
// enter and exit an Offscreen tree. This value is the combination of all render
// lanes for the entire render phase.
let workInProgressRootIncludedLanes: Lanes = NoLanes;
// The work left over by components that were visited during this render. Only
// includes unprocessed updates, not work in bailed out children.
let workInProgressRootSkippedLanes: Lanes = NoLanes;
// Lanes that were updated (in an interleaved event) during this render.
let workInProgressRootUpdatedLanes: Lanes = NoLanes;
// Lanes that were pinged (in an interleaved event) during this render.
let workInProgressRootPingedLanes: Lanes = NoLanes;
let mostRecentlyUpdatedRoot: FiberRoot | null = null;
// The most recent time we committed a fallback. This lets us ensure a train
// model where we don't commit new loading states in too quick succession.
let globalMostRecentFallbackTime: number = 0;
const FALLBACK_THROTTLE_MS: number = 500;
// The absolute time for when we should start giving up on rendering
// more and prefer CPU suspense heuristics instead.
let workInProgressRootRenderTargetTime: number = Infinity;
// How long a render is supposed to take before we start following CPU
// suspense heuristics and opt out of rendering more content.
const RENDER_TIMEOUT_MS = 500;
function resetRenderTimer() {
workInProgressRootRenderTargetTime = now() + RENDER_TIMEOUT_MS;
}
export function getRenderTargetTime(): number {
return workInProgressRootRenderTargetTime;
}
let nextEffect: Fiber | null = null;
let hasUncaughtError = false;
let firstUncaughtError = null;
let legacyErrorBoundariesThatAlreadyFailed: Set<mixed> | null = null;
let rootDoesHavePassiveEffects: boolean = false;
let rootWithPendingPassiveEffects: FiberRoot | null = null;
let pendingPassiveEffectsRenderPriority: ReactPriorityLevel = NoSchedulerPriority;
let pendingPassiveEffectsLanes: Lanes = NoLanes;
let pendingPassiveHookEffectsMount: Array<HookEffect | Fiber> = [];
let pendingPassiveHookEffectsUnmount: Array<HookEffect | Fiber> = [];
let pendingPassiveProfilerEffects: Array<Fiber> = [];
let rootsWithPendingDiscreteUpdates: Set<FiberRoot> | null = null;
// Use these to prevent an infinite loop of nested updates
const NESTED_UPDATE_LIMIT = 50;
let nestedUpdateCount: number = 0;
let rootWithNestedUpdates: FiberRoot | null = null;
const NESTED_PASSIVE_UPDATE_LIMIT = 50;
let nestedPassiveUpdateCount: number = 0;
// Marks the need to reschedule pending interactions at these lanes
// during the commit phase. This enables them to be traced across components
// that spawn new work during render. E.g. hidden boundaries, suspended SSR
// hydration or SuspenseList.
// TODO: Can use a bitmask instead of an array
let spawnedWorkDuringRender: null | Array<Lane | Lanes> = null;
// If two updates are scheduled within the same event, we should treat their
// event times as simultaneous, even if the actual clock time has advanced
// between the first and second call.
let currentEventTime: number = NoTimestamp;
let currentEventWipLanes: Lanes = NoLanes;
let currentEventPendingLanes: Lanes = NoLanes;
// Dev only flag that tracks if passive effects are currently being flushed.
// We warn about state updates for unmounted components differently in this case.
let isFlushingPassiveEffects = false;
let focusedInstanceHandle: null | Fiber = null;
let shouldFireAfterActiveInstanceBlur: boolean = false;
export function getWorkInProgressRoot(): FiberRoot | null {
return workInProgressRoot;
}
export function requestEventTime() {
if ((executionContext & (RenderContext | CommitContext)) !== NoContext) {
// We're inside React, so it's fine to read the actual time.
return now();
}
// We're not inside React, so we may be in the middle of a browser event.
if (currentEventTime !== NoTimestamp) {
// Use the same start time for all updates until we enter React again.
return currentEventTime;
}
// This is the first update since React yielded. Compute a new start time.
currentEventTime = now();
return currentEventTime;
}
export function getCurrentTime() {
return now();
}
export function requestUpdateLane(fiber: Fiber): Lane {
// Special cases
const mode = fiber.mode;
if ((mode & BlockingMode) === NoMode) {
return (SyncLane: Lane);
} else if ((mode & ConcurrentMode) === NoMode) {
return getCurrentPriorityLevel() === ImmediateSchedulerPriority
? (SyncLane: Lane)
: (SyncBatchedLane: Lane);
} else if (
!deferRenderPhaseUpdateToNextBatch &&
(executionContext & RenderContext) !== NoContext &&
workInProgressRootRenderLanes !== NoLanes
) {
// This is a render phase update. These are not officially supported. The
// old behavior is to give this the same "thread" (expiration time) as
// whatever is currently rendering. So if you call `setState` on a component
// that happens later in the same render, it will flush. Ideally, we want to
// remove the special case and treat them as if they came from an
// interleaved event. Regardless, this pattern is not officially supported.
// This behavior is only a fallback. The flag only exists until we can roll
// out the setState warning, since existing code might accidentally rely on
// the current behavior.
return pickArbitraryLane(workInProgressRootRenderLanes);
}
// The algorithm for assigning an update to a lane should be stable for all
// updates at the same priority within the same event. To do this, the inputs
// to the algorithm must be the same. For example, we use the `renderLanes`
// to avoid choosing a lane that is already in the middle of rendering.
//
// However, the "included" lanes could be mutated in between updates in the
// same event, like if you perform an update inside `flushSync`. Or any other
// code path that might call `prepareFreshStack`.
//
// The trick we use is to cache the first of each of these inputs within an
// event. Then reset the cached values once we can be sure the event is over.
// Our heuristic for that is whenever we enter a concurrent work loop.
//
// We'll do the same for `currentEventPendingLanes` below.
if (currentEventWipLanes === NoLanes) {
currentEventWipLanes = workInProgressRootIncludedLanes;
}
const isTransition = requestCurrentTransition() !== NoTransition;
if (isTransition) {
if (currentEventPendingLanes !== NoLanes) {
currentEventPendingLanes =
mostRecentlyUpdatedRoot !== null
? mostRecentlyUpdatedRoot.pendingLanes
: NoLanes;
}
return findTransitionLane(currentEventWipLanes, currentEventPendingLanes);
}
// TODO: Remove this dependency on the Scheduler priority.
// To do that, we're replacing it with an update lane priority.
const schedulerPriority = getCurrentPriorityLevel();
// The old behavior was using the priority level of the Scheduler.
// This couples React to the Scheduler internals, so we're replacing it
// with the currentUpdateLanePriority above. As an example of how this
// could be problematic, if we're not inside `Scheduler.runWithPriority`,
// then we'll get the priority of the current running Scheduler task,
// which is probably not what we want.
let lane;
if (
// TODO: Temporary. We're removing the concept of discrete updates.
(executionContext & DiscreteEventContext) !== NoContext &&
schedulerPriority === UserBlockingSchedulerPriority
) {
lane = findUpdateLane(InputDiscreteLanePriority, currentEventWipLanes);
} else {
const schedulerLanePriority = schedulerPriorityToLanePriority(
schedulerPriority,
);
if (decoupleUpdatePriorityFromScheduler) {
// In the new strategy, we will track the current update lane priority
// inside React and use that priority to select a lane for this update.
// For now, we're just logging when they're different so we can assess.
const currentUpdateLanePriority = getCurrentUpdateLanePriority();
if (
schedulerLanePriority !== currentUpdateLanePriority &&
currentUpdateLanePriority !== NoLanePriority
) {
if (__DEV__) {
console.error(
'Expected current scheduler lane priority %s to match current update lane priority %s',
schedulerLanePriority,
currentUpdateLanePriority,
);
}
}
}
lane = findUpdateLane(schedulerLanePriority, currentEventWipLanes);
}
return lane;
}
function requestRetryLane(fiber: Fiber) {
// This is a fork of `requestUpdateLane` designed specifically for Suspense
// "retries" — a special update that attempts to flip a Suspense boundary
// from its placeholder state to its primary/resolved state.
// Special cases
const mode = fiber.mode;
if ((mode & BlockingMode) === NoMode) {
return (SyncLane: Lane);
} else if ((mode & ConcurrentMode) === NoMode) {
return getCurrentPriorityLevel() === ImmediateSchedulerPriority
? (SyncLane: Lane)
: (SyncBatchedLane: Lane);
}
// See `requestUpdateLane` for explanation of `currentEventWipLanes`
if (currentEventWipLanes === NoLanes) {
currentEventWipLanes = workInProgressRootIncludedLanes;
}
return findRetryLane(currentEventWipLanes);
}
export function scheduleUpdateOnFiber(
fiber: Fiber,
lane: Lane,
eventTime: number,
) {
checkForNestedUpdates();
warnAboutRenderPhaseUpdatesInDEV(fiber);
const root = markUpdateLaneFromFiberToRoot(fiber, lane);
if (root === null) {
warnAboutUpdateOnUnmountedFiberInDEV(fiber);
return null;
}
// Mark that the root has a pending update.
markRootUpdated(root, lane, eventTime);
if (root === workInProgressRoot) {
// Received an update to a tree that's in the middle of rendering. Mark
// that there was an interleaved update work on this root. Unless the
// `deferRenderPhaseUpdateToNextBatch` flag is off and this is a render
// phase update. In that case, we don't treat render phase updates as if
// they were interleaved, for backwards compat reasons.
if (
deferRenderPhaseUpdateToNextBatch ||
(executionContext & RenderContext) === NoContext
) {
workInProgressRootUpdatedLanes = mergeLanes(
workInProgressRootUpdatedLanes,
lane,
);
}
if (workInProgressRootExitStatus === RootSuspendedWithDelay) {
// The root already suspended with a delay, which means this render
// definitely won't finish. Since we have a new update, let's mark it as
// suspended now, right before marking the incoming update. This has the
// effect of interrupting the current render and switching to the update.
// TODO: Make sure this doesn't override pings that happen while we've
// already started rendering.
markRootSuspended(root, workInProgressRootRenderLanes);
}
}
// TODO: requestUpdateLanePriority also reads the priority. Pass the
// priority as an argument to that function and this one.
const priorityLevel = getCurrentPriorityLevel();
if (lane === SyncLane) {
if (
// Check if we're inside unbatchedUpdates
(executionContext & LegacyUnbatchedContext) !== NoContext &&
// Check if we're not already rendering
(executionContext & (RenderContext | CommitContext)) === NoContext
) {
// Register pending interactions on the root to avoid losing traced interaction data.
schedulePendingInteractions(root, lane);
// This is a legacy edge case. The initial mount of a ReactDOM.render-ed
// root inside of batchedUpdates should be synchronous, but layout updates
// should be deferred until the end of the batch.
performSyncWorkOnRoot(root);
} else {
ensureRootIsScheduled(root, eventTime);
schedulePendingInteractions(root, lane);
if (executionContext === NoContext) {
// Flush the synchronous work now, unless we're already working or inside
// a batch. This is intentionally inside scheduleUpdateOnFiber instead of
// scheduleCallbackForFiber to preserve the ability to schedule a callback
// without immediately flushing it. We only do this for user-initiated
// updates, to preserve historical behavior of legacy mode.
resetRenderTimer();
flushSyncCallbackQueue();
}
}
} else {
// Schedule a discrete update but only if it's not Sync.
if (
(executionContext & DiscreteEventContext) !== NoContext &&
// Only updates at user-blocking priority or greater are considered
// discrete, even inside a discrete event.
(priorityLevel === UserBlockingSchedulerPriority ||
priorityLevel === ImmediateSchedulerPriority)
) {
// This is the result of a discrete event. Track the lowest priority
// discrete update per root so we can flush them early, if needed.
if (rootsWithPendingDiscreteUpdates === null) {
rootsWithPendingDiscreteUpdates = new Set([root]);
} else {
rootsWithPendingDiscreteUpdates.add(root);
}
}
// Schedule other updates after in case the callback is sync.
ensureRootIsScheduled(root, eventTime);
schedulePendingInteractions(root, lane);
}
// We use this when assigning a lane for a transition inside
// `requestUpdateLane`. We assume it's the same as the root being updated,
// since in the common case of a single root app it probably is. If it's not
// the same root, then it's not a huge deal, we just might batch more stuff
// together more than necessary.
mostRecentlyUpdatedRoot = root;
}
// This is split into a separate function so we can mark a fiber with pending
// work without treating it as a typical update that originates from an event;
// e.g. retrying a Suspense boundary isn't an update, but it does schedule work
// on a fiber.
function markUpdateLaneFromFiberToRoot(
sourceFiber: Fiber,
lane: Lane,
): FiberRoot | null {
// Update the source fiber's lanes
sourceFiber.lanes = mergeLanes(sourceFiber.lanes, lane);
let alternate = sourceFiber.alternate;
if (alternate !== null) {
alternate.lanes = mergeLanes(alternate.lanes, lane);
}
if (__DEV__) {
if (
alternate === null &&
(sourceFiber.flags & (Placement | Hydrating)) !== NoFlags
) {
warnAboutUpdateOnNotYetMountedFiberInDEV(sourceFiber);
}
}
// Walk the parent path to the root and update the child expiration time.
let node = sourceFiber;
let parent = sourceFiber.return;
while (parent !== null) {
parent.childLanes = mergeLanes(parent.childLanes, lane);
alternate = parent.alternate;
if (alternate !== null) {
alternate.childLanes = mergeLanes(alternate.childLanes, lane);
} else {
if (__DEV__) {
if ((parent.flags & (Placement | Hydrating)) !== NoFlags) {
warnAboutUpdateOnNotYetMountedFiberInDEV(sourceFiber);
}
}
}
node = parent;
parent = parent.return;
}
if (node.tag === HostRoot) {
const root: FiberRoot = node.stateNode;
return root;
} else {
return null;
}
}
// Use this function to schedule a task for a root. There's only one task per
// root; if a task was already scheduled, we'll check to make sure the priority
// of the existing task is the same as the priority of the next level that the
// root has work on. This function is called on every update, and right before
// exiting a task.
function ensureRootIsScheduled(root: FiberRoot, currentTime: number) {
const existingCallbackNode = root.callbackNode;
// Check if any lanes are being starved by other work. If so, mark them as
// expired so we know to work on those next.
markStarvedLanesAsExpired(root, currentTime);
// Determine the next lanes to work on, and their priority.
const nextLanes = getNextLanes(
root,
root === workInProgressRoot ? workInProgressRootRenderLanes : NoLanes,
);
// This returns the priority level computed during the `getNextLanes` call.
const newCallbackPriority = returnNextLanesPriority();
if (nextLanes === NoLanes) {
// Special case: There's nothing to work on.
if (existingCallbackNode !== null) {
cancelCallback(existingCallbackNode);
root.callbackNode = null;
root.callbackPriority = NoLanePriority;
}
return;
}
// Check if there's an existing task. We may be able to reuse it.
if (existingCallbackNode !== null) {
const existingCallbackPriority = root.callbackPriority;
if (existingCallbackPriority === newCallbackPriority) {
// The priority hasn't changed. We can reuse the existing task. Exit.
return;
}
// The priority changed. Cancel the existing callback. We'll schedule a new
// one below.
cancelCallback(existingCallbackNode);
}
// Schedule a new callback.
let newCallbackNode;
if (newCallbackPriority === SyncLanePriority) {
// Special case: Sync React callbacks are scheduled on a special
// internal queue
newCallbackNode = scheduleSyncCallback(
performSyncWorkOnRoot.bind(null, root),
);
} else if (newCallbackPriority === SyncBatchedLanePriority) {
newCallbackNode = scheduleCallback(
ImmediateSchedulerPriority,
performSyncWorkOnRoot.bind(null, root),
);
} else {
const schedulerPriorityLevel = lanePriorityToSchedulerPriority(
newCallbackPriority,
);
newCallbackNode = scheduleCallback(
schedulerPriorityLevel,
performConcurrentWorkOnRoot.bind(null, root),
);
}
root.callbackPriority = newCallbackPriority;
root.callbackNode = newCallbackNode;
}
// This is the entry point for every concurrent task, i.e. anything that
// goes through Scheduler.
function performConcurrentWorkOnRoot(root) {
// Since we know we're in a React event, we can clear the current
// event time. The next update will compute a new event time.
currentEventTime = NoTimestamp;
currentEventWipLanes = NoLanes;
currentEventPendingLanes = NoLanes;
invariant(
(executionContext & (RenderContext | CommitContext)) === NoContext,
'Should not already be working.',
);
// Flush any pending passive effects before deciding which lanes to work on,
// in case they schedule additional work.
const originalCallbackNode = root.callbackNode;
const didFlushPassiveEffects = flushPassiveEffects();
if (didFlushPassiveEffects) {
// Something in the passive effect phase may have canceled the current task.
// Check if the task node for this root was changed.
if (root.callbackNode !== originalCallbackNode) {
// The current task was canceled. Exit. We don't need to call
// `ensureRootIsScheduled` because the check above implies either that
// there's a new task, or that there's no remaining work on this root.
return null;
} else {
// Current task was not canceled. Continue.
}
}
// Determine the next expiration time to work on, using the fields stored
// on the root.
let lanes = getNextLanes(
root,
root === workInProgressRoot ? workInProgressRootRenderLanes : NoLanes,
);
if (lanes === NoLanes) {
// Defensive coding. This is never expected to happen.
return null;
}
let exitStatus = renderRootConcurrent(root, lanes);
if (
includesSomeLane(
workInProgressRootIncludedLanes,
workInProgressRootUpdatedLanes,
)
) {
// The render included lanes that were updated during the render phase.
// For example, when unhiding a hidden tree, we include all the lanes
// that were previously skipped when the tree was hidden. That set of
// lanes is a superset of the lanes we started rendering with.
//
// So we'll throw out the current work and restart.
prepareFreshStack(root, NoLanes);
} else if (exitStatus !== RootIncomplete) {
if (exitStatus === RootErrored) {
executionContext |= RetryAfterError;
// If an error occurred during hydration,
// discard server response and fall back to client side render.
if (root.hydrate) {
root.hydrate = false;
clearContainer(root.containerInfo);
}
// If something threw an error, try rendering one more time. We'll render
// synchronously to block concurrent data mutations, and we'll includes
// all pending updates are included. If it still fails after the second
// attempt, we'll give up and commit the resulting tree.
lanes = getLanesToRetrySynchronouslyOnError(root);
if (lanes !== NoLanes) {
exitStatus = renderRootSync(root, lanes);
}
}
if (exitStatus === RootFatalErrored) {
const fatalError = workInProgressRootFatalError;
prepareFreshStack(root, NoLanes);
markRootSuspended(root, lanes);
ensureRootIsScheduled(root, now());
throw fatalError;
}
// We now have a consistent tree. The next step is either to commit it,
// or, if something suspended, wait to commit it after a timeout.
const finishedWork: Fiber = (root.current.alternate: any);
root.finishedWork = finishedWork;
root.finishedLanes = lanes;
finishConcurrentRender(root, exitStatus, lanes);
}
ensureRootIsScheduled(root, now());
if (root.callbackNode === originalCallbackNode) {
// The task node scheduled for this root is the same one that's
// currently executed. Need to return a continuation.
return performConcurrentWorkOnRoot.bind(null, root);
}
return null;
}
function finishConcurrentRender(root, exitStatus, lanes) {
switch (exitStatus) {
case RootIncomplete:
case RootFatalErrored: {
invariant(false, 'Root did not complete. This is a bug in React.');
}
// Flow knows about invariant, so it complains if I add a break
// statement, but eslint doesn't know about invariant, so it complains
// if I do. eslint-disable-next-line no-fallthrough
case RootErrored: {
// We should have already attempted to retry this tree. If we reached
// this point, it errored again. Commit it.
commitRoot(root);
break;
}
case RootSuspended: {
markRootSuspended(root, lanes);
// We have an acceptable loading state. We need to figure out if we
// should immediately commit it or wait a bit.
if (
includesOnlyRetries(lanes) &&
// do not delay if we're inside an act() scope
!shouldForceFlushFallbacksInDEV()
) {
// This render only included retries, no updates. Throttle committing
// retries so that we don't show too many loading states too quickly.
const msUntilTimeout =
globalMostRecentFallbackTime + FALLBACK_THROTTLE_MS - now();
// Don't bother with a very short suspense time.
if (msUntilTimeout > 10) {
const nextLanes = getNextLanes(root, NoLanes);
if (nextLanes !== NoLanes) {
// There's additional work on this root.
break;
}
const suspendedLanes = root.suspendedLanes;
if (!isSubsetOfLanes(suspendedLanes, lanes)) {
// We should prefer to render the fallback of at the last
// suspended level. Ping the last suspended level to try
// rendering it again.
// FIXME: What if the suspended lanes are Idle? Should not restart.
const eventTime = requestEventTime();
markRootPinged(root, suspendedLanes, eventTime);
break;
}
// The render is suspended, it hasn't timed out, and there's no
// lower priority work to do. Instead of committing the fallback
// immediately, wait for more data to arrive.
root.timeoutHandle = scheduleTimeout(
commitRoot.bind(null, root),
msUntilTimeout,
);
break;
}
}
// The work expired. Commit immediately.
commitRoot(root);
break;
}
case RootSuspendedWithDelay: {
markRootSuspended(root, lanes);
if (includesOnlyTransitions(lanes)) {
// This is a transition, so we should exit without committing a
// placeholder and without scheduling a timeout. Delay indefinitely
// until we receive more data.
break;
}
if (!shouldForceFlushFallbacksInDEV()) {
// This is not a transition, but we did trigger an avoided state.
// Schedule a placeholder to display after a short delay, using the Just
// Noticeable Difference.
// TODO: Is the JND optimization worth the added complexity? If this is
// the only reason we track the event time, then probably not.
// Consider removing.
const mostRecentEventTime = getMostRecentEventTime(root, lanes);
const eventTimeMs = mostRecentEventTime;
const timeElapsedMs = now() - eventTimeMs;
const msUntilTimeout = jnd(timeElapsedMs) - timeElapsedMs;
// Don't bother with a very short suspense time.
if (msUntilTimeout > 10) {
// Instead of committing the fallback immediately, wait for more data
// to arrive.
root.timeoutHandle = scheduleTimeout(
commitRoot.bind(null, root),
msUntilTimeout,
);
break;
}
}
// Commit the placeholder.
commitRoot(root);
break;
}
case RootCompleted: {
// The work completed. Ready to commit.
commitRoot(root);
break;
}
default: {
invariant(false, 'Unknown root exit status.');
}
}
}
function markRootSuspended(root, suspendedLanes) {
// When suspending, we should always exclude lanes that were pinged or (more
// rarely, since we try to avoid it) updated during the render phase.
// TODO: Lol maybe there's a better way to factor this besides this
// obnoxiously named function :)
suspendedLanes = removeLanes(suspendedLanes, workInProgressRootPingedLanes);
suspendedLanes = removeLanes(suspendedLanes, workInProgressRootUpdatedLanes);
markRootSuspended_dontCallThisOneDirectly(root, suspendedLanes);
}
// This is the entry point for synchronous tasks that don't go
// through Scheduler
function performSyncWorkOnRoot(root) {
invariant(
(executionContext & (RenderContext | CommitContext)) === NoContext,
'Should not already be working.',
);
flushPassiveEffects();
let lanes;
let exitStatus;
if (
root === workInProgressRoot &&
includesSomeLane(root.expiredLanes, workInProgressRootRenderLanes)
) {
// There's a partial tree, and at least one of its lanes has expired. Finish
// rendering it before rendering the rest of the expired work.
lanes = workInProgressRootRenderLanes;
exitStatus = renderRootSync(root, lanes);
if (
includesSomeLane(
workInProgressRootIncludedLanes,
workInProgressRootUpdatedLanes,
)
) {
// The render included lanes that were updated during the render phase.
// For example, when unhiding a hidden tree, we include all the lanes
// that were previously skipped when the tree was hidden. That set of
// lanes is a superset of the lanes we started rendering with.
//
// Note that this only happens when part of the tree is rendered
// concurrently. If the whole tree is rendered synchronously, then there
// are no interleaved events.
lanes = getNextLanes(root, lanes);
exitStatus = renderRootSync(root, lanes);
}
} else {