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ReactChildFiber.old.js
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ReactChildFiber.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 {ReactElement} from 'shared/ReactElementType';
import type {ReactPortal} from 'shared/ReactTypes';
import type {BlockComponent} from 'react/src/ReactBlock';
import type {LazyComponent} from 'react/src/ReactLazy';
import type {Fiber} from './ReactInternalTypes';
import type {Lanes} from './ReactFiberLane';
import getComponentName from 'shared/getComponentName';
import {Placement, Deletion} from './ReactFiberFlags';
import {
getIteratorFn,
REACT_ELEMENT_TYPE,
REACT_FRAGMENT_TYPE,
REACT_PORTAL_TYPE,
REACT_LAZY_TYPE,
REACT_BLOCK_TYPE,
} from 'shared/ReactSymbols';
import {
FunctionComponent,
ClassComponent,
HostText,
HostPortal,
ForwardRef,
Fragment,
SimpleMemoComponent,
Block,
} from './ReactWorkTags';
import invariant from 'shared/invariant';
import {
warnAboutStringRefs,
enableBlocksAPI,
enableLazyElements,
} from 'shared/ReactFeatureFlags';
import {
createWorkInProgress,
resetWorkInProgress,
createFiberFromElement,
createFiberFromFragment,
createFiberFromText,
createFiberFromPortal,
} from './ReactFiber.old';
import {emptyRefsObject} from './ReactFiberClassComponent.old';
import {isCompatibleFamilyForHotReloading} from './ReactFiberHotReloading.old';
import {StrictMode} from './ReactTypeOfMode';
let didWarnAboutMaps;
let didWarnAboutGenerators;
let didWarnAboutStringRefs;
let ownerHasKeyUseWarning;
let ownerHasFunctionTypeWarning;
let warnForMissingKey = (child: mixed, returnFiber: Fiber) => {};
if (__DEV__) {
didWarnAboutMaps = false;
didWarnAboutGenerators = false;
didWarnAboutStringRefs = {};
/**
* Warn if there's no key explicitly set on dynamic arrays of children or
* object keys are not valid. This allows us to keep track of children between
* updates.
*/
ownerHasKeyUseWarning = {};
ownerHasFunctionTypeWarning = {};
warnForMissingKey = (child: mixed, returnFiber: Fiber) => {
if (child === null || typeof child !== 'object') {
return;
}
if (!child._store || child._store.validated || child.key != null) {
return;
}
invariant(
typeof child._store === 'object',
'React Component in warnForMissingKey should have a _store. ' +
'This error is likely caused by a bug in React. Please file an issue.',
);
child._store.validated = true;
const componentName = getComponentName(returnFiber.type) || 'Component';
if (ownerHasKeyUseWarning[componentName]) {
return;
}
ownerHasKeyUseWarning[componentName] = true;
console.error(
'Each child in a list should have a unique ' +
'"key" prop. See https://reactjs.org/link/warning-keys for ' +
'more information.',
);
};
}
const isArray = Array.isArray;
function coerceRef(
returnFiber: Fiber,
current: Fiber | null,
element: ReactElement,
) {
const mixedRef = element.ref;
if (
mixedRef !== null &&
typeof mixedRef !== 'function' &&
typeof mixedRef !== 'object'
) {
if (__DEV__) {
// TODO: Clean this up once we turn on the string ref warning for
// everyone, because the strict mode case will no longer be relevant
if (
(returnFiber.mode & StrictMode || warnAboutStringRefs) &&
// We warn in ReactElement.js if owner and self are equal for string refs
// because these cannot be automatically converted to an arrow function
// using a codemod. Therefore, we don't have to warn about string refs again.
!(
element._owner &&
element._self &&
element._owner.stateNode !== element._self
)
) {
const componentName = getComponentName(returnFiber.type) || 'Component';
if (!didWarnAboutStringRefs[componentName]) {
if (warnAboutStringRefs) {
console.error(
'Component "%s" contains the string ref "%s". Support for string refs ' +
'will be removed in a future major release. We recommend using ' +
'useRef() or createRef() instead. ' +
'Learn more about using refs safely here: ' +
'https://reactjs.org/link/strict-mode-string-ref',
componentName,
mixedRef,
);
} else {
console.error(
'A string ref, "%s", has been found within a strict mode tree. ' +
'String refs are a source of potential bugs and should be avoided. ' +
'We recommend using useRef() or createRef() instead. ' +
'Learn more about using refs safely here: ' +
'https://reactjs.org/link/strict-mode-string-ref',
mixedRef,
);
}
didWarnAboutStringRefs[componentName] = true;
}
}
}
if (element._owner) {
const owner: ?Fiber = (element._owner: any);
let inst;
if (owner) {
const ownerFiber = ((owner: any): Fiber);
invariant(
ownerFiber.tag === ClassComponent,
'Function components cannot have string refs. ' +
'We recommend using useRef() instead. ' +
'Learn more about using refs safely here: ' +
'https://reactjs.org/link/strict-mode-string-ref',
);
inst = ownerFiber.stateNode;
}
invariant(
inst,
'Missing owner for string ref %s. This error is likely caused by a ' +
'bug in React. Please file an issue.',
mixedRef,
);
const stringRef = '' + mixedRef;
// Check if previous string ref matches new string ref
if (
current !== null &&
current.ref !== null &&
typeof current.ref === 'function' &&
current.ref._stringRef === stringRef
) {
return current.ref;
}
const ref = function(value) {
let refs = inst.refs;
if (refs === emptyRefsObject) {
// This is a lazy pooled frozen object, so we need to initialize.
refs = inst.refs = {};
}
if (value === null) {
delete refs[stringRef];
} else {
refs[stringRef] = value;
}
};
ref._stringRef = stringRef;
return ref;
} else {
invariant(
typeof mixedRef === 'string',
'Expected ref to be a function, a string, an object returned by React.createRef(), or null.',
);
invariant(
element._owner,
'Element ref was specified as a string (%s) but no owner was set. This could happen for one of' +
' the following reasons:\n' +
'1. You may be adding a ref to a function component\n' +
"2. You may be adding a ref to a component that was not created inside a component's render method\n" +
'3. You have multiple copies of React loaded\n' +
'See https://reactjs.org/link/refs-must-have-owner for more information.',
mixedRef,
);
}
}
return mixedRef;
}
function throwOnInvalidObjectType(returnFiber: Fiber, newChild: Object) {
if (returnFiber.type !== 'textarea') {
invariant(
false,
'Objects are not valid as a React child (found: %s). ' +
'If you meant to render a collection of children, use an array ' +
'instead.',
Object.prototype.toString.call(newChild) === '[object Object]'
? 'object with keys {' + Object.keys(newChild).join(', ') + '}'
: newChild,
);
}
}
function warnOnFunctionType(returnFiber: Fiber) {
if (__DEV__) {
const componentName = getComponentName(returnFiber.type) || 'Component';
if (ownerHasFunctionTypeWarning[componentName]) {
return;
}
ownerHasFunctionTypeWarning[componentName] = true;
console.error(
'Functions are not valid as a React child. This may happen if ' +
'you return a Component instead of <Component /> from render. ' +
'Or maybe you meant to call this function rather than return it.',
);
}
}
// We avoid inlining this to avoid potential deopts from using try/catch.
/** @noinline */
function resolveLazyType<T, P>(
lazyComponent: LazyComponent<T, P>,
): LazyComponent<T, P> | T {
try {
// If we can, let's peek at the resulting type.
const payload = lazyComponent._payload;
const init = lazyComponent._init;
return init(payload);
} catch (x) {
// Leave it in place and let it throw again in the begin phase.
return lazyComponent;
}
}
// This wrapper function exists because I expect to clone the code in each path
// to be able to optimize each path individually by branching early. This needs
// a compiler or we can do it manually. Helpers that don't need this branching
// live outside of this function.
function ChildReconciler(shouldTrackSideEffects) {
function deleteChild(returnFiber: Fiber, childToDelete: Fiber): void {
if (!shouldTrackSideEffects) {
// Noop.
return;
}
// Deletions are added in reversed order so we add it to the front.
// At this point, the return fiber's effect list is empty except for
// deletions, so we can just append the deletion to the list. The remaining
// effects aren't added until the complete phase. Once we implement
// resuming, this may not be true.
const last = returnFiber.lastEffect;
if (last !== null) {
last.nextEffect = childToDelete;
returnFiber.lastEffect = childToDelete;
} else {
returnFiber.firstEffect = returnFiber.lastEffect = childToDelete;
}
childToDelete.nextEffect = null;
childToDelete.flags = Deletion;
}
function deleteRemainingChildren(
returnFiber: Fiber,
currentFirstChild: Fiber | null,
): null {
if (!shouldTrackSideEffects) {
// Noop.
return null;
}
// TODO: For the shouldClone case, this could be micro-optimized a bit by
// assuming that after the first child we've already added everything.
let childToDelete = currentFirstChild;
while (childToDelete !== null) {
deleteChild(returnFiber, childToDelete);
childToDelete = childToDelete.sibling;
}
return null;
}
function mapRemainingChildren(
returnFiber: Fiber,
currentFirstChild: Fiber,
): Map<string | number, Fiber> {
// Add the remaining children to a temporary map so that we can find them by
// keys quickly. Implicit (null) keys get added to this set with their index
// instead.
const existingChildren: Map<string | number, Fiber> = new Map();
let existingChild = currentFirstChild;
while (existingChild !== null) {
if (existingChild.key !== null) {
existingChildren.set(existingChild.key, existingChild);
} else {
existingChildren.set(existingChild.index, existingChild);
}
existingChild = existingChild.sibling;
}
return existingChildren;
}
function useFiber(fiber: Fiber, pendingProps: mixed): Fiber {
// We currently set sibling to null and index to 0 here because it is easy
// to forget to do before returning it. E.g. for the single child case.
const clone = createWorkInProgress(fiber, pendingProps);
clone.index = 0;
clone.sibling = null;
return clone;
}
function placeChild(
newFiber: Fiber,
lastPlacedIndex: number,
newIndex: number,
): number {
newFiber.index = newIndex;
if (!shouldTrackSideEffects) {
// Noop.
return lastPlacedIndex;
}
const current = newFiber.alternate;
if (current !== null) {
const oldIndex = current.index;
if (oldIndex < lastPlacedIndex) {
// This is a move.
newFiber.flags = Placement;
return lastPlacedIndex;
} else {
// This item can stay in place.
return oldIndex;
}
} else {
// This is an insertion.
newFiber.flags = Placement;
return lastPlacedIndex;
}
}
function placeSingleChild(newFiber: Fiber): Fiber {
// This is simpler for the single child case. We only need to do a
// placement for inserting new children.
if (shouldTrackSideEffects && newFiber.alternate === null) {
newFiber.flags = Placement;
}
return newFiber;
}
function updateTextNode(
returnFiber: Fiber,
current: Fiber | null,
textContent: string,
lanes: Lanes,
) {
if (current === null || current.tag !== HostText) {
// Insert
const created = createFiberFromText(textContent, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
} else {
// Update
const existing = useFiber(current, textContent);
existing.return = returnFiber;
return existing;
}
}
function updateElement(
returnFiber: Fiber,
current: Fiber | null,
element: ReactElement,
lanes: Lanes,
): Fiber {
if (current !== null) {
if (
current.elementType === element.type ||
// Keep this check inline so it only runs on the false path:
(__DEV__ ? isCompatibleFamilyForHotReloading(current, element) : false)
) {
// Move based on index
const existing = useFiber(current, element.props);
existing.ref = coerceRef(returnFiber, current, element);
existing.return = returnFiber;
if (__DEV__) {
existing._debugSource = element._source;
existing._debugOwner = element._owner;
}
return existing;
} else if (enableBlocksAPI && current.tag === Block) {
// The new Block might not be initialized yet. We need to initialize
// it in case initializing it turns out it would match.
let type = element.type;
if (type.$$typeof === REACT_LAZY_TYPE) {
type = resolveLazyType(type);
}
if (
type.$$typeof === REACT_BLOCK_TYPE &&
((type: any): BlockComponent<any, any>)._render ===
(current.type: BlockComponent<any, any>)._render
) {
// Same as above but also update the .type field.
const existing = useFiber(current, element.props);
existing.return = returnFiber;
existing.type = type;
if (__DEV__) {
existing._debugSource = element._source;
existing._debugOwner = element._owner;
}
return existing;
}
}
}
// Insert
const created = createFiberFromElement(element, returnFiber.mode, lanes);
created.ref = coerceRef(returnFiber, current, element);
created.return = returnFiber;
return created;
}
function updatePortal(
returnFiber: Fiber,
current: Fiber | null,
portal: ReactPortal,
lanes: Lanes,
): Fiber {
if (
current === null ||
current.tag !== HostPortal ||
current.stateNode.containerInfo !== portal.containerInfo ||
current.stateNode.implementation !== portal.implementation
) {
// Insert
const created = createFiberFromPortal(portal, returnFiber.mode, lanes);
created.return = returnFiber;
return created;
} else {
// Update
const existing = useFiber(current, portal.children || []);
existing.return = returnFiber;
return existing;
}
}
function updateFragment(
returnFiber: Fiber,
current: Fiber | null,
fragment: Iterable<*>,
lanes: Lanes,
key: null | string,
): Fiber {
if (current === null || current.tag !== Fragment) {
// Insert
const created = createFiberFromFragment(
fragment,
returnFiber.mode,
lanes,
key,
);
created.return = returnFiber;
return created;
} else {
// Update
const existing = useFiber(current, fragment);
existing.return = returnFiber;
return existing;
}
}
function createChild(
returnFiber: Fiber,
newChild: any,
lanes: Lanes,
): Fiber | null {
if (typeof newChild === 'string' || typeof newChild === 'number') {
// Text nodes don't have keys. If the previous node is implicitly keyed
// we can continue to replace it without aborting even if it is not a text
// node.
const created = createFiberFromText(
'' + newChild,
returnFiber.mode,
lanes,
);
created.return = returnFiber;
return created;
}
if (typeof newChild === 'object' && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE: {
const created = createFiberFromElement(
newChild,
returnFiber.mode,
lanes,
);
created.ref = coerceRef(returnFiber, null, newChild);
created.return = returnFiber;
return created;
}
case REACT_PORTAL_TYPE: {
const created = createFiberFromPortal(
newChild,
returnFiber.mode,
lanes,
);
created.return = returnFiber;
return created;
}
case REACT_LAZY_TYPE: {
if (enableLazyElements) {
const payload = newChild._payload;
const init = newChild._init;
return createChild(returnFiber, init(payload), lanes);
}
}
}
if (isArray(newChild) || getIteratorFn(newChild)) {
const created = createFiberFromFragment(
newChild,
returnFiber.mode,
lanes,
null,
);
created.return = returnFiber;
return created;
}
throwOnInvalidObjectType(returnFiber, newChild);
}
if (__DEV__) {
if (typeof newChild === 'function') {
warnOnFunctionType(returnFiber);
}
}
return null;
}
function updateSlot(
returnFiber: Fiber,
oldFiber: Fiber | null,
newChild: any,
lanes: Lanes,
): Fiber | null {
// Update the fiber if the keys match, otherwise return null.
const key = oldFiber !== null ? oldFiber.key : null;
if (typeof newChild === 'string' || typeof newChild === 'number') {
// Text nodes don't have keys. If the previous node is implicitly keyed
// we can continue to replace it without aborting even if it is not a text
// node.
if (key !== null) {
return null;
}
return updateTextNode(returnFiber, oldFiber, '' + newChild, lanes);
}
if (typeof newChild === 'object' && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE: {
if (newChild.key === key) {
if (newChild.type === REACT_FRAGMENT_TYPE) {
return updateFragment(
returnFiber,
oldFiber,
newChild.props.children,
lanes,
key,
);
}
return updateElement(returnFiber, oldFiber, newChild, lanes);
} else {
return null;
}
}
case REACT_PORTAL_TYPE: {
if (newChild.key === key) {
return updatePortal(returnFiber, oldFiber, newChild, lanes);
} else {
return null;
}
}
case REACT_LAZY_TYPE: {
if (enableLazyElements) {
const payload = newChild._payload;
const init = newChild._init;
return updateSlot(returnFiber, oldFiber, init(payload), lanes);
}
}
}
if (isArray(newChild) || getIteratorFn(newChild)) {
if (key !== null) {
return null;
}
return updateFragment(returnFiber, oldFiber, newChild, lanes, null);
}
throwOnInvalidObjectType(returnFiber, newChild);
}
if (__DEV__) {
if (typeof newChild === 'function') {
warnOnFunctionType(returnFiber);
}
}
return null;
}
function updateFromMap(
existingChildren: Map<string | number, Fiber>,
returnFiber: Fiber,
newIdx: number,
newChild: any,
lanes: Lanes,
): Fiber | null {
if (typeof newChild === 'string' || typeof newChild === 'number') {
// Text nodes don't have keys, so we neither have to check the old nor
// new node for the key. If both are text nodes, they match.
const matchedFiber = existingChildren.get(newIdx) || null;
return updateTextNode(returnFiber, matchedFiber, '' + newChild, lanes);
}
if (typeof newChild === 'object' && newChild !== null) {
switch (newChild.$$typeof) {
case REACT_ELEMENT_TYPE: {
const matchedFiber =
existingChildren.get(
newChild.key === null ? newIdx : newChild.key,
) || null;
if (newChild.type === REACT_FRAGMENT_TYPE) {
return updateFragment(
returnFiber,
matchedFiber,
newChild.props.children,
lanes,
newChild.key,
);
}
return updateElement(returnFiber, matchedFiber, newChild, lanes);
}
case REACT_PORTAL_TYPE: {
const matchedFiber =
existingChildren.get(
newChild.key === null ? newIdx : newChild.key,
) || null;
return updatePortal(returnFiber, matchedFiber, newChild, lanes);
}
case REACT_LAZY_TYPE:
if (enableLazyElements) {
const payload = newChild._payload;
const init = newChild._init;
return updateFromMap(
existingChildren,
returnFiber,
newIdx,
init(payload),
lanes,
);
}
}
if (isArray(newChild) || getIteratorFn(newChild)) {
const matchedFiber = existingChildren.get(newIdx) || null;
return updateFragment(returnFiber, matchedFiber, newChild, lanes, null);
}
throwOnInvalidObjectType(returnFiber, newChild);
}
if (__DEV__) {
if (typeof newChild === 'function') {
warnOnFunctionType(returnFiber);
}
}
return null;
}
/**
* Warns if there is a duplicate or missing key
*/
function warnOnInvalidKey(
child: mixed,
knownKeys: Set<string> | null,
returnFiber: Fiber,
): Set<string> | null {
if (__DEV__) {
if (typeof child !== 'object' || child === null) {
return knownKeys;
}
switch (child.$$typeof) {
case REACT_ELEMENT_TYPE:
case REACT_PORTAL_TYPE:
warnForMissingKey(child, returnFiber);
const key = child.key;
if (typeof key !== 'string') {
break;
}
if (knownKeys === null) {
knownKeys = new Set();
knownKeys.add(key);
break;
}
if (!knownKeys.has(key)) {
knownKeys.add(key);
break;
}
console.error(
'Encountered two children with the same key, `%s`. ' +
'Keys should be unique so that components maintain their identity ' +
'across updates. Non-unique keys may cause children to be ' +
'duplicated and/or omitted — the behavior is unsupported and ' +
'could change in a future version.',
key,
);
break;
case REACT_LAZY_TYPE:
if (enableLazyElements) {
const payload = child._payload;
const init = (child._init: any);
warnOnInvalidKey(init(payload), knownKeys, returnFiber);
break;
}
// We intentionally fallthrough here if enableLazyElements is not on.
// eslint-disable-next-lined no-fallthrough
default:
break;
}
}
return knownKeys;
}
function reconcileChildrenArray(
returnFiber: Fiber,
currentFirstChild: Fiber | null,
newChildren: Array<*>,
lanes: Lanes,
): Fiber | null {
// This algorithm can't optimize by searching from both ends since we
// don't have backpointers on fibers. I'm trying to see how far we can get
// with that model. If it ends up not being worth the tradeoffs, we can
// add it later.
// Even with a two ended optimization, we'd want to optimize for the case
// where there are few changes and brute force the comparison instead of
// going for the Map. It'd like to explore hitting that path first in
// forward-only mode and only go for the Map once we notice that we need
// lots of look ahead. This doesn't handle reversal as well as two ended
// search but that's unusual. Besides, for the two ended optimization to
// work on Iterables, we'd need to copy the whole set.
// In this first iteration, we'll just live with hitting the bad case
// (adding everything to a Map) in for every insert/move.
// If you change this code, also update reconcileChildrenIterator() which
// uses the same algorithm.
if (__DEV__) {
// First, validate keys.
let knownKeys = null;
for (let i = 0; i < newChildren.length; i++) {
const child = newChildren[i];
knownKeys = warnOnInvalidKey(child, knownKeys, returnFiber);
}
}
let resultingFirstChild: Fiber | null = null;
let previousNewFiber: Fiber | null = null;
let oldFiber = currentFirstChild;
let lastPlacedIndex = 0;
let newIdx = 0;
let nextOldFiber = null;
for (; oldFiber !== null && newIdx < newChildren.length; newIdx++) {
if (oldFiber.index > newIdx) {
nextOldFiber = oldFiber;
oldFiber = null;
} else {
nextOldFiber = oldFiber.sibling;
}
const newFiber = updateSlot(
returnFiber,
oldFiber,
newChildren[newIdx],
lanes,
);
if (newFiber === null) {
// TODO: This breaks on empty slots like null children. That's
// unfortunate because it triggers the slow path all the time. We need
// a better way to communicate whether this was a miss or null,
// boolean, undefined, etc.
if (oldFiber === null) {
oldFiber = nextOldFiber;
}
break;
}
if (shouldTrackSideEffects) {
if (oldFiber && newFiber.alternate === null) {
// We matched the slot, but we didn't reuse the existing fiber, so we
// need to delete the existing child.
deleteChild(returnFiber, oldFiber);
}
}
lastPlacedIndex = placeChild(newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
// TODO: Move out of the loop. This only happens for the first run.
resultingFirstChild = newFiber;
} else {
// TODO: Defer siblings if we're not at the right index for this slot.
// I.e. if we had null values before, then we want to defer this
// for each null value. However, we also don't want to call updateSlot
// with the previous one.
previousNewFiber.sibling = newFiber;
}
previousNewFiber = newFiber;
oldFiber = nextOldFiber;
}
if (newIdx === newChildren.length) {
// We've reached the end of the new children. We can delete the rest.
deleteRemainingChildren(returnFiber, oldFiber);
return resultingFirstChild;
}
if (oldFiber === null) {
// If we don't have any more existing children we can choose a fast path
// since the rest will all be insertions.
for (; newIdx < newChildren.length; newIdx++) {
const newFiber = createChild(returnFiber, newChildren[newIdx], lanes);
if (newFiber === null) {
continue;
}
lastPlacedIndex = placeChild(newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
// TODO: Move out of the loop. This only happens for the first run.
resultingFirstChild = newFiber;
} else {
previousNewFiber.sibling = newFiber;
}
previousNewFiber = newFiber;
}
return resultingFirstChild;
}
// Add all children to a key map for quick lookups.
const existingChildren = mapRemainingChildren(returnFiber, oldFiber);
// Keep scanning and use the map to restore deleted items as moves.
for (; newIdx < newChildren.length; newIdx++) {
const newFiber = updateFromMap(
existingChildren,
returnFiber,
newIdx,
newChildren[newIdx],
lanes,
);
if (newFiber !== null) {
if (shouldTrackSideEffects) {
if (newFiber.alternate !== null) {
// The new fiber is a work in progress, but if there exists a
// current, that means that we reused the fiber. We need to delete
// it from the child list so that we don't add it to the deletion
// list.
existingChildren.delete(
newFiber.key === null ? newIdx : newFiber.key,
);
}
}
lastPlacedIndex = placeChild(newFiber, lastPlacedIndex, newIdx);
if (previousNewFiber === null) {
resultingFirstChild = newFiber;
} else {
previousNewFiber.sibling = newFiber;
}
previousNewFiber = newFiber;
}
}
if (shouldTrackSideEffects) {
// Any existing children that weren't consumed above were deleted. We need
// to add them to the deletion list.
existingChildren.forEach(child => deleteChild(returnFiber, child));
}
return resultingFirstChild;
}
function reconcileChildrenIterator(
returnFiber: Fiber,
currentFirstChild: Fiber | null,
newChildrenIterable: Iterable<*>,
lanes: Lanes,
): Fiber | null {
// This is the same implementation as reconcileChildrenArray(),
// but using the iterator instead.
const iteratorFn = getIteratorFn(newChildrenIterable);
invariant(
typeof iteratorFn === 'function',
'An object is not an iterable. This error is likely caused by a bug in ' +
'React. Please file an issue.',
);
if (__DEV__) {
// We don't support rendering Generators because it's a mutation.
// See https://github.com/facebook/react/issues/12995
if (
typeof Symbol === 'function' &&
// $FlowFixMe Flow doesn't know about toStringTag
newChildrenIterable[Symbol.toStringTag] === 'Generator'
) {
if (!didWarnAboutGenerators) {
console.error(
'Using Generators as children is unsupported and will likely yield ' +
'unexpected results because enumerating a generator mutates it. ' +
'You may convert it to an array with `Array.from()` or the ' +
'`[...spread]` operator before rendering. Keep in mind ' +
'you might need to polyfill these features for older browsers.',
);
}
didWarnAboutGenerators = true;
}
// Warn about using Maps as children
if ((newChildrenIterable: any).entries === iteratorFn) {
if (!didWarnAboutMaps) {
console.error(
'Using Maps as children is not supported. ' +
'Use an array of keyed ReactElements instead.',
);
}
didWarnAboutMaps = true;
}
// First, validate keys.
// We'll get a different iterator later for the main pass.
const newChildren = iteratorFn.call(newChildrenIterable);
if (newChildren) {
let knownKeys = null;
let step = newChildren.next();
for (; !step.done; step = newChildren.next()) {
const child = step.value;
knownKeys = warnOnInvalidKey(child, knownKeys, returnFiber);
}
}
}
const newChildren = iteratorFn.call(newChildrenIterable);
invariant(newChildren != null, 'An iterable object provided no iterator.');
let resultingFirstChild: Fiber | null = null;
let previousNewFiber: Fiber | null = null;
let oldFiber = currentFirstChild;
let lastPlacedIndex = 0;
let newIdx = 0;
let nextOldFiber = null;
let step = newChildren.next();
for (
;
oldFiber !== null && !step.done;