'use client' import type { CacheNode, LazyCacheNode, LoadingModuleData, } from '../../shared/lib/app-router-context.shared-runtime' import type { FlightRouterState, FlightSegmentPath, } from '../../server/app-render/types' import type { ErrorComponent } from './error-boundary' import { ACTION_SERVER_PATCH, type FocusAndScrollRef, } from './router-reducer/router-reducer-types' import React, { useContext, use, startTransition, Suspense, useDeferredValue, type JSX, } from 'react' import ReactDOM from 'react-dom' import { LayoutRouterContext, GlobalLayoutRouterContext, TemplateContext, } from '../../shared/lib/app-router-context.shared-runtime' import { fetchServerResponse } from './router-reducer/fetch-server-response' import { unresolvedThenable } from './unresolved-thenable' import { ErrorBoundary } from './error-boundary' import { matchSegment } from './match-segments' import { disableSmoothScrollDuringRouteTransition } from '../../shared/lib/router/utils/disable-smooth-scroll' import { RedirectBoundary } from './redirect-boundary' import { HTTPAccessFallbackBoundary } from './http-access-fallback/error-boundary' import { createRouterCacheKey } from './router-reducer/create-router-cache-key' import { hasInterceptionRouteInCurrentTree } from './router-reducer/reducers/has-interception-route-in-current-tree' import { dispatchAppRouterAction } from './use-action-queue' import { useRouterBFCache, type RouterBFCacheEntry } from './bfcache' import { normalizeAppPath } from '../../shared/lib/router/utils/app-paths' const Activity = process.env.__NEXT_ROUTER_BF_CACHE ? (require('react') as typeof import('react')).unstable_Activity : null! /** * Add refetch marker to router state at the point of the current layout segment. * This ensures the response returned is not further down than the current layout segment. */ function walkAddRefetch( segmentPathToWalk: FlightSegmentPath | undefined, treeToRecreate: FlightRouterState ): FlightRouterState { if (segmentPathToWalk) { const [segment, parallelRouteKey] = segmentPathToWalk const isLast = segmentPathToWalk.length === 2 if (matchSegment(treeToRecreate[0], segment)) { if (treeToRecreate[1].hasOwnProperty(parallelRouteKey)) { if (isLast) { const subTree = walkAddRefetch( undefined, treeToRecreate[1][parallelRouteKey] ) return [ treeToRecreate[0], { ...treeToRecreate[1], [parallelRouteKey]: [ subTree[0], subTree[1], subTree[2], 'refetch', ], }, ] } return [ treeToRecreate[0], { ...treeToRecreate[1], [parallelRouteKey]: walkAddRefetch( segmentPathToWalk.slice(2), treeToRecreate[1][parallelRouteKey] ), }, ] } } } return treeToRecreate } const __DOM_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE = ( ReactDOM as any ).__DOM_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE // TODO-APP: Replace with new React API for finding dom nodes without a `ref` when available /** * Wraps ReactDOM.findDOMNode with additional logic to hide React Strict Mode warning */ function findDOMNode( instance: React.ReactInstance | null | undefined ): Element | Text | null { // Tree-shake for server bundle if (typeof window === 'undefined') return null // __DOM_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE.findDOMNode is null during module init. // We need to lazily reference it. const internal_reactDOMfindDOMNode = __DOM_INTERNALS_DO_NOT_USE_OR_WARN_USERS_THEY_CANNOT_UPGRADE.findDOMNode return internal_reactDOMfindDOMNode(instance) } const rectProperties = [ 'bottom', 'height', 'left', 'right', 'top', 'width', 'x', 'y', ] as const /** * Check if a HTMLElement is hidden or fixed/sticky position */ function shouldSkipElement(element: HTMLElement) { // we ignore fixed or sticky positioned elements since they'll likely pass the "in-viewport" check // and will result in a situation we bail on scroll because of something like a fixed nav, // even though the actual page content is offscreen if (['sticky', 'fixed'].includes(getComputedStyle(element).position)) { if (process.env.NODE_ENV === 'development') { console.warn( 'Skipping auto-scroll behavior due to `position: sticky` or `position: fixed` on element:', element ) } return true } // Uses `getBoundingClientRect` to check if the element is hidden instead of `offsetParent` // because `offsetParent` doesn't consider document/body const rect = element.getBoundingClientRect() return rectProperties.every((item) => rect[item] === 0) } /** * Check if the top corner of the HTMLElement is in the viewport. */ function topOfElementInViewport(element: HTMLElement, viewportHeight: number) { const rect = element.getBoundingClientRect() return rect.top >= 0 && rect.top <= viewportHeight } /** * Find the DOM node for a hash fragment. * If `top` the page has to scroll to the top of the page. This mirrors the browser's behavior. * If the hash fragment is an id, the page has to scroll to the element with that id. * If the hash fragment is a name, the page has to scroll to the first element with that name. */ function getHashFragmentDomNode(hashFragment: string) { // If the hash fragment is `top` the page has to scroll to the top of the page. if (hashFragment === 'top') { return document.body } // If the hash fragment is an id, the page has to scroll to the element with that id. return ( document.getElementById(hashFragment) ?? // If the hash fragment is a name, the page has to scroll to the first element with that name. document.getElementsByName(hashFragment)[0] ) } interface ScrollAndFocusHandlerProps { focusAndScrollRef: FocusAndScrollRef children: React.ReactNode segmentPath: FlightSegmentPath } class InnerScrollAndFocusHandler extends React.Component { handlePotentialScroll = () => { // Handle scroll and focus, it's only applied once in the first useEffect that triggers that changed. const { focusAndScrollRef, segmentPath } = this.props if (focusAndScrollRef.apply) { // segmentPaths is an array of segment paths that should be scrolled to // if the current segment path is not in the array, the scroll is not applied // unless the array is empty, in which case the scroll is always applied if ( focusAndScrollRef.segmentPaths.length !== 0 && !focusAndScrollRef.segmentPaths.some((scrollRefSegmentPath) => segmentPath.every((segment, index) => matchSegment(segment, scrollRefSegmentPath[index]) ) ) ) { return } let domNode: | ReturnType | ReturnType = null const hashFragment = focusAndScrollRef.hashFragment if (hashFragment) { domNode = getHashFragmentDomNode(hashFragment) } // `findDOMNode` is tricky because it returns just the first child if the component is a fragment. // This already caused a bug where the first child was a in head. if (!domNode) { domNode = findDOMNode(this) } // If there is no DOM node this layout-router level is skipped. It'll be handled higher-up in the tree. if (!(domNode instanceof Element)) { return } // Verify if the element is a HTMLElement and if we want to consider it for scroll behavior. // If the element is skipped, try to select the next sibling and try again. while (!(domNode instanceof HTMLElement) || shouldSkipElement(domNode)) { if (process.env.NODE_ENV !== 'production') { if (domNode.parentElement?.localName === 'head') { // TODO: We enter this state when metadata was rendered as part of the page or via Next.js. // This is always a bug in Next.js and caused by React hoisting metadata. // We need to replace `findDOMNode` in favor of Fragment Refs (when available) so that we can skip over metadata. } } // No siblings found that match the criteria are found, so handle scroll higher up in the tree instead. if (domNode.nextElementSibling === null) { return } domNode = domNode.nextElementSibling } // State is mutated to ensure that the focus and scroll is applied only once. focusAndScrollRef.apply = false focusAndScrollRef.hashFragment = null focusAndScrollRef.segmentPaths = [] disableSmoothScrollDuringRouteTransition( () => { // In case of hash scroll, we only need to scroll the element into view if (hashFragment) { ;(domNode as HTMLElement).scrollIntoView() return } // Store the current viewport height because reading `clientHeight` causes a reflow, // and it won't change during this function. const htmlElement = document.documentElement const viewportHeight = htmlElement.clientHeight // If the element's top edge is already in the viewport, exit early. if (topOfElementInViewport(domNode as HTMLElement, viewportHeight)) { return } // Otherwise, try scrolling go the top of the document to be backward compatible with pages // scrollIntoView() called on `` element scrolls horizontally on chrome and firefox (that shouldn't happen) // We could use it to scroll horizontally following RTL but that also seems to be broken - it will always scroll left // scrollLeft = 0 also seems to ignore RTL and manually checking for RTL is too much hassle so we will scroll just vertically htmlElement.scrollTop = 0 // Scroll to domNode if domNode is not in viewport when scrolled to top of document if (!topOfElementInViewport(domNode as HTMLElement, viewportHeight)) { // Scroll into view doesn't scroll horizontally by default when not needed ;(domNode as HTMLElement).scrollIntoView() } }, { // We will force layout by querying domNode position dontForceLayout: true, onlyHashChange: focusAndScrollRef.onlyHashChange, } ) // Mutate after scrolling so that it can be read by `disableSmoothScrollDuringRouteTransition` focusAndScrollRef.onlyHashChange = false // Set focus on the element domNode.focus() } } componentDidMount() { this.handlePotentialScroll() } componentDidUpdate() { // Because this property is overwritten in handlePotentialScroll it's fine to always run it when true as it'll be set to false for subsequent renders. if (this.props.focusAndScrollRef.apply) { this.handlePotentialScroll() } } render() { return this.props.children } } function ScrollAndFocusHandler({ segmentPath, children, }: { segmentPath: FlightSegmentPath children: React.ReactNode }) { const context = useContext(GlobalLayoutRouterContext) if (!context) { throw new Error('invariant global layout router not mounted') } return ( {children} ) } /** * InnerLayoutRouter handles rendering the provided segment based on the cache. */ function InnerLayoutRouter({ tree, segmentPath, cacheNode, url, }: { tree: FlightRouterState segmentPath: FlightSegmentPath cacheNode: CacheNode url: string }) { const context = useContext(GlobalLayoutRouterContext) if (!context) { throw new Error('invariant global layout router not mounted') } const { tree: fullTree } = context // `rsc` represents the renderable node for this segment. // If this segment has a `prefetchRsc`, it's the statically prefetched data. // We should use that on initial render instead of `rsc`. Then we'll switch // to `rsc` when the dynamic response streams in. // // If no prefetch data is available, then we go straight to rendering `rsc`. const resolvedPrefetchRsc = cacheNode.prefetchRsc !== null ? cacheNode.prefetchRsc : cacheNode.rsc // We use `useDeferredValue` to handle switching between the prefetched and // final values. The second argument is returned on initial render, then it // re-renders with the first argument. const rsc: any = useDeferredValue(cacheNode.rsc, resolvedPrefetchRsc) // `rsc` is either a React node or a promise for a React node, except we // special case `null` to represent that this segment's data is missing. If // it's a promise, we need to unwrap it so we can determine whether or not the // data is missing. const resolvedRsc: React.ReactNode = typeof rsc === 'object' && rsc !== null && typeof rsc.then === 'function' ? use(rsc) : rsc if (!resolvedRsc) { // The data for this segment is not available, and there's no pending // navigation that will be able to fulfill it. We need to fetch more from // the server and patch the cache. // Check if there's already a pending request. let lazyData = cacheNode.lazyData if (lazyData === null) { /** * Router state with refetch marker added */ // TODO-APP: remove '' const refetchTree = walkAddRefetch(['', ...segmentPath], fullTree) const includeNextUrl = hasInterceptionRouteInCurrentTree(fullTree) const navigatedAt = Date.now() cacheNode.lazyData = lazyData = fetchServerResponse( new URL(url, location.origin), { flightRouterState: refetchTree, nextUrl: includeNextUrl ? context.nextUrl : null, } ).then((serverResponse) => { startTransition(() => { dispatchAppRouterAction({ type: ACTION_SERVER_PATCH, previousTree: fullTree, serverResponse, navigatedAt, }) }) return serverResponse }) // Suspend while waiting for lazyData to resolve use(lazyData) } // Suspend infinitely as `changeByServerResponse` will cause a different part of the tree to be rendered. // A falsey `resolvedRsc` indicates missing data -- we should not commit that branch, and we need to wait for the data to arrive. use(unresolvedThenable) as never } // If we get to this point, then we know we have something we can render. const subtree = ( // The layout router context narrows down tree and childNodes at each level. {resolvedRsc} ) // Ensure root layout is not wrapped in a div as the root layout renders `` return subtree } /** * Renders suspense boundary with the provided "loading" property as the fallback. * If no loading property is provided it renders the children without a suspense boundary. */ function LoadingBoundary({ loading, children, }: { loading: LoadingModuleData | Promise children: React.ReactNode }): JSX.Element { // If loading is a promise, unwrap it. This happens in cases where we haven't // yet received the loading data from the server — which includes whether or // not this layout has a loading component at all. // // It's OK to suspend here instead of inside the fallback because this // promise will resolve simultaneously with the data for the segment itself. // So it will never suspend for longer than it would have if we didn't use // a Suspense fallback at all. let loadingModuleData if ( typeof loading === 'object' && loading !== null && typeof (loading as any).then === 'function' ) { const promiseForLoading = loading as Promise loadingModuleData = use(promiseForLoading) } else { loadingModuleData = loading as LoadingModuleData } if (loadingModuleData) { const loadingRsc = loadingModuleData[0] const loadingStyles = loadingModuleData[1] const loadingScripts = loadingModuleData[2] return ( {loadingStyles} {loadingScripts} {loadingRsc} } > {children} ) } return <>{children} } function RenderChildren({ children }: { children: React.ReactNode }) { return <>{children} } /** * OuterLayoutRouter handles the current segment as well as rendering of other segments. * It can be rendered next to each other with a different `parallelRouterKey`, allowing for Parallel routes. */ export default function OuterLayoutRouter({ parallelRouterKey, error, errorStyles, errorScripts, templateStyles, templateScripts, template, notFound, forbidden, unauthorized, gracefullyDegrade, segmentViewBoundaries, }: { parallelRouterKey: string error: ErrorComponent | undefined errorStyles: React.ReactNode | undefined errorScripts: React.ReactNode | undefined templateStyles: React.ReactNode | undefined templateScripts: React.ReactNode | undefined template: React.ReactNode notFound: React.ReactNode | undefined forbidden: React.ReactNode | undefined unauthorized: React.ReactNode | undefined gracefullyDegrade?: boolean segmentViewBoundaries?: React.ReactNode }) { const context = useContext(LayoutRouterContext) if (!context) { throw new Error('invariant expected layout router to be mounted') } const { parentTree, parentCacheNode, parentSegmentPath, url } = context // Get the CacheNode for this segment by reading it from the parent segment's // child map. const parentParallelRoutes = parentCacheNode.parallelRoutes let segmentMap = parentParallelRoutes.get(parallelRouterKey) // If the parallel router cache node does not exist yet, create it. // This writes to the cache when there is no item in the cache yet. It never *overwrites* existing cache items which is why it's safe in concurrent mode. if (!segmentMap) { segmentMap = new Map() parentParallelRoutes.set(parallelRouterKey, segmentMap) } const parentTreeSegment = parentTree[0] const segmentPath = parentSegmentPath === null ? // TODO: The root segment value is currently omitted from the segment // path. This has led to a bunch of special cases scattered throughout // the code. We should clean this up. [parallelRouterKey] : parentSegmentPath.concat([parentTreeSegment, parallelRouterKey]) // The "state" key of a segment is the one passed to React — it represents the // identity of the UI tree. Whenever the state key changes, the tree is // recreated and the state is reset. In the App Router model, search params do // not cause state to be lost, so two segments with the same segment path but // different search params should have the same state key. // // The "cache" key of a segment, however, *does* include the search params, if // it's possible that the segment accessed the search params on the server. // (This only applies to page segments; layout segments cannot access search // params on the server.) const activeTree = parentTree[1][parallelRouterKey] const activeSegment = activeTree[0] const activeStateKey = createRouterCacheKey(activeSegment, true) // no search params // At each level of the route tree, not only do we render the currently // active segment — we also render the last N segments that were active at // this level inside a hidden boundary, to preserve their state // if or when the user navigates to them again. // // bfcacheEntry is a linked list of FlightRouterStates. let bfcacheEntry: RouterBFCacheEntry | null = useRouterBFCache( activeTree, activeStateKey ) let children: Array = [] do { const tree = bfcacheEntry.tree const stateKey = bfcacheEntry.stateKey const segment = tree[0] const cacheKey = createRouterCacheKey(segment) // Read segment path from the parallel router cache node. let cacheNode = segmentMap.get(cacheKey) if (cacheNode === undefined) { // When data is not available during rendering client-side we need to fetch // it from the server. const newLazyCacheNode: LazyCacheNode = { lazyData: null, rsc: null, prefetchRsc: null, head: null, prefetchHead: null, parallelRoutes: new Map(), loading: null, navigatedAt: -1, } // Flight data fetch kicked off during render and put into the cache. cacheNode = newLazyCacheNode segmentMap.set(cacheKey, newLazyCacheNode) } /* - Error boundary - Only renders error boundary if error component is provided. - Rendered for each segment to ensure they have their own error state. - When gracefully degrade for bots, skip rendering error boundary. - Loading boundary - Only renders suspense boundary if loading components is provided. - Rendered for each segment to ensure they have their own loading state. - Passed to the router during rendering to ensure it can be immediately rendered when suspending on a Flight fetch. */ const ErrorBoundaryComponent = gracefullyDegrade ? RenderChildren : ErrorBoundary let segmentBoundaryTriggerNode: React.ReactNode = null let segmentViewStateNode: React.ReactNode = null if ( process.env.NODE_ENV !== 'production' && process.env.__NEXT_DEVTOOL_SEGMENT_EXPLORER ) { const { SegmentBoundaryTriggerNode, SegmentViewStateNode } = require('../../next-devtools/userspace/app/segment-explorer-node') as typeof import('../../next-devtools/userspace/app/segment-explorer-node') const pagePrefix = normalizeAppPath(url) segmentViewStateNode = ( ) segmentBoundaryTriggerNode = ( <> ) } // TODO: The loading module data for a segment is stored on the parent, then // applied to each of that parent segment's parallel route slots. In the // simple case where there's only one parallel route (the `children` slot), // this is no different from if the loading module data where stored on the // child directly. But I'm not sure this actually makes sense when there are // multiple parallel routes. It's not a huge issue because you always have // the option to define a narrower loading boundary for a particular slot. But // this sort of smells like an implementation accident to me. const loadingModuleData = parentCacheNode.loading let child = ( {segmentBoundaryTriggerNode} {segmentViewStateNode} } > {templateStyles} {templateScripts} {template} ) if (process.env.NODE_ENV !== 'production') { const { SegmentStateProvider } = require('../../next-devtools/userspace/app/segment-explorer-node') as typeof import('../../next-devtools/userspace/app/segment-explorer-node') child = ( {child} {segmentViewBoundaries} ) } if (process.env.__NEXT_ROUTER_BF_CACHE) { child = ( {child} ) } children.push(child) bfcacheEntry = bfcacheEntry.next } while (bfcacheEntry !== null) return children }