// Had to disable the lint rule because isServer type is defined as false // in solid-js/web package. I'll create a GitHub issue with them to see // why that happens. import { hydrate, notifyManager, shouldThrowError } from '@tanstack/query-core' import { isServer } from 'solid-js/web' import { createComputed, createMemo, createResource, createSignal, on, onCleanup, } from 'solid-js' import { createStore, reconcile, unwrap } from 'solid-js/store' import { useQueryClient } from './QueryClientProvider' import { useIsRestoring } from './isRestoring' import type { UseBaseQueryOptions } from './types' import type { Accessor, Signal } from 'solid-js' import type { QueryClient } from './QueryClient' import type { Query, QueryKey, QueryObserver, QueryObserverResult, } from '@tanstack/query-core' function reconcileFn( store: QueryObserverResult, result: QueryObserverResult, reconcileOption: | string | false | ((oldData: TData | undefined, newData: TData) => TData), queryHash?: string, ): QueryObserverResult { if (reconcileOption === false) return result if (typeof reconcileOption === 'function') { const newData = reconcileOption(store.data, result.data as TData) return { ...result, data: newData } as typeof result } let data = result.data if (store.data === undefined) { try { data = structuredClone(data) } catch (error) { if (process.env.NODE_ENV !== 'production') { if (error instanceof Error) { console.warn( `Unable to correctly reconcile data for query key: ${queryHash}. ` + `Possibly because the query data contains data structures that aren't supported ` + `by the 'structuredClone' algorithm. Consider using a callback function instead ` + `to manage the reconciliation manually.\n\n Error Received: ${error.name} - ${error.message}`, ) } } } } const newData = reconcile(data, { key: reconcileOption })(store.data) return { ...result, data: newData } as typeof result } /** * Solid's `onHydrated` functionality will silently "fail" (hydrate with an empty object) * if the resource data is not serializable. */ const hydratableObserverResult = < TQueryFnData, TError, TData, TQueryKey extends QueryKey, TDataHydratable, >( query: Query, result: QueryObserverResult, ) => { if (!isServer) return result const obj: any = { ...unwrap(result), // During SSR, functions cannot be serialized, so we need to remove them // This is safe because we will add these functions back when the query is hydrated refetch: undefined, } // If the query is an infinite query, we need to remove additional properties if ('fetchNextPage' in result) { obj.fetchNextPage = undefined obj.fetchPreviousPage = undefined } // We will also attach the dehydrated state of the query to the result // This will be removed on client after hydration obj.hydrationData = { state: query.state, queryKey: query.queryKey, queryHash: query.queryHash, ...(query.meta && { meta: query.meta }), } return obj } // Base Query Function that is used to create the query. export function useBaseQuery< TQueryFnData, TError, TData, TQueryData, TQueryKey extends QueryKey, >( options: Accessor< UseBaseQueryOptions >, Observer: typeof QueryObserver, queryClient?: Accessor, ) { type ResourceData = QueryObserverResult const client = createMemo(() => useQueryClient(queryClient?.())) const isRestoring = useIsRestoring() // There are times when we run a query on the server but the resource is never read // This could lead to times when the queryObserver is unsubscribed before the resource has loaded // Causing a time out error. To prevent this we will queue the unsubscribe if the cleanup is called // before the resource has loaded let unsubscribeQueued = false const defaultedOptions = createMemo(() => { const defaultOptions = client().defaultQueryOptions(options()) defaultOptions._optimisticResults = isRestoring() ? 'isRestoring' : 'optimistic' defaultOptions.structuralSharing = false if (isServer) { defaultOptions.retry = false defaultOptions.throwOnError = true } return defaultOptions }) const initialOptions = defaultedOptions() const [observer, setObserver] = createSignal( new Observer(client(), defaultedOptions()), ) let observerResult = observer().getOptimisticResult(defaultedOptions()) const [state, setState] = createStore>(observerResult) const createServerSubscriber = ( resolve: ( data: ResourceData | PromiseLike | undefined, ) => void, reject: (reason?: any) => void, ) => { return observer().subscribe((result) => { notifyManager.batchCalls(() => { const query = observer().getCurrentQuery() const unwrappedResult = hydratableObserverResult(query, result) if (unwrappedResult.isError) { reject(unwrappedResult.error) unsubscribeIfQueued() } else { resolve(unwrappedResult) unsubscribeIfQueued() } })() }) } const unsubscribeIfQueued = () => { if (unsubscribeQueued) { unsubscribe?.() unsubscribeQueued = false } } const createClientSubscriber = () => { const obs = observer() return obs.subscribe((result) => { observerResult = result queueMicrotask(() => { if (unsubscribe) { refetch() } }) }) } function setStateWithReconciliation(res: typeof observerResult) { const opts = observer().options // @ts-expect-error - Reconcile option is not correctly typed internally const reconcileOptions = opts.reconcile setState((store) => { return reconcileFn( store, res, reconcileOptions === undefined ? false : reconcileOptions, opts.queryHash, ) }) } function createDeepSignal(): Signal { return [ () => state, (v: any) => { const unwrapped = unwrap(state) if (typeof v === 'function') { v = v(unwrapped) } // Hydration data exists on first load after SSR, // and should be removed from the observer result if (v?.hydrationData) { const { hydrationData, ...rest } = v v = rest } setStateWithReconciliation(v) }, ] as Signal } /** * Unsubscribe is set lazily, so that we can subscribe after hydration when needed. */ let unsubscribe: (() => void) | null = null /* Fixes #7275 In a few cases, the observer could unmount before the resource is loaded. This leads to Suspense boundaries to be suspended indefinitely. This resolver will be called when the observer is unmounting but the resource is still in a loading state */ let resolver: ((value: ResourceData) => void) | null = null const [queryResource, { refetch }] = createResource( () => { const obs = observer() return new Promise((resolve, reject) => { resolver = resolve if (isServer) { unsubscribe = createServerSubscriber(resolve, reject) } else if (!unsubscribe && !isRestoring()) { unsubscribe = createClientSubscriber() } obs.updateResult() if ( observerResult.isError && !observerResult.isFetching && !isRestoring() && shouldThrowError(obs.options.throwOnError, [ observerResult.error, obs.getCurrentQuery(), ]) ) { setStateWithReconciliation(observerResult) return reject(observerResult.error) } if (!observerResult.isLoading) { resolver = null return resolve( hydratableObserverResult(obs.getCurrentQuery(), observerResult), ) } setStateWithReconciliation(observerResult) }) }, { storage: createDeepSignal, get deferStream() { return options().deferStream }, /** * If this resource was populated on the server (either sync render, or streamed in over time), onHydrated * will be called. This is the point at which we can hydrate the query cache state, and setup the query subscriber. * * Leveraging onHydrated allows us to plug into the async and streaming support that solidjs resources already support. * * Note that this is only invoked on the client, for queries that were originally run on the server. */ onHydrated(_k, info) { if (info.value && 'hydrationData' in info.value) { hydrate(client(), { // @ts-expect-error - hydrationData is not correctly typed internally queries: [{ ...info.value.hydrationData }], }) } if (unsubscribe) return /** * Do not refetch query on mount if query was fetched on server, * even if `staleTime` is not set. */ const newOptions = { ...initialOptions } if ( (initialOptions.staleTime || !initialOptions.initialData) && info.value ) { newOptions.refetchOnMount = false } // Setting the options as an immutable object to prevent // wonky behavior with observer subscriptions observer().setOptions(newOptions) setStateWithReconciliation(observer().getOptimisticResult(newOptions)) unsubscribe = createClientSubscriber() }, }, ) createComputed( on( client, (c) => { if (unsubscribe) { unsubscribe() } const newObserver = new Observer(c, defaultedOptions()) unsubscribe = createClientSubscriber() setObserver(newObserver) }, { defer: true, }, ), ) createComputed( on( isRestoring, (restoring) => { if (!restoring && !isServer) { refetch() } }, { defer: true }, ), ) onCleanup(() => { if (isServer && queryResource.loading) { unsubscribeQueued = true return } if (unsubscribe) { unsubscribe() unsubscribe = null } if (resolver && !isServer) { resolver(observerResult) resolver = null } }) createComputed( on( [observer, defaultedOptions], ([obs, opts]) => { obs.setOptions(opts) setStateWithReconciliation(obs.getOptimisticResult(opts)) refetch() }, { defer: true }, ), ) const handler = { get( target: QueryObserverResult, prop: keyof QueryObserverResult, ): any { if (prop === 'data') { if (state.data !== undefined) { return queryResource.latest?.data } return queryResource()?.data } return Reflect.get(target, prop) }, } return new Proxy(state, handler) }