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	import { QueriesObserver, noop } from '@tanstack/query-core'
	import { createStore, unwrap } from 'solid-js/store'
	import {
	batch,
	createComputed,
	createMemo,
	createRenderEffect,
	createResource,
	mergeProps,
	on,
	onCleanup,
	onMount,
	} from 'solid-js'
	import { useQueryClient } from './QueryClientProvider'
	import { useIsRestoring } from './isRestoring'
	import type { SolidQueryOptions, UseQueryResult } from './types'
	import type { Accessor } from 'solid-js'
	import type { QueryClient } from './QueryClient'
	import type {
	DefaultError,
	OmitKeyof,
	QueriesObserverOptions,
	QueriesPlaceholderDataFunction,
	QueryFunction,
	QueryKey,
	QueryObserverOptions,
	QueryObserverResult,
	ThrowOnError,
	} from '@tanstack/query-core'

	// This defines the `UseQueryOptions` that are accepted in `QueriesOptions` & `GetOptions`.
	// `placeholderData` function does not have a parameter
	type UseQueryOptionsForUseQueries<
	TQueryFnData = unknown,
	TError = DefaultError,
	TData = TQueryFnData,
	TQueryKey extends QueryKey = QueryKey,
	> = OmitKeyof<
	SolidQueryOptions<TQueryFnData, TError, TData, TQueryKey>,
	'placeholderData' \| 'suspense'
	> & {
	placeholderData?: TQueryFnData \| QueriesPlaceholderDataFunction<TQueryFnData>
	/**
	* @deprecated The `suspense` option has been deprecated in v5 and will be removed in the next major version.
	* The `data` property on useQueries is a plain object and not a SolidJS Resource.
	* It will not suspend when the data is loading.
	* Setting `suspense` to `true` will be a no-op.
	*/
	suspense?: boolean
	}

	// Avoid TS depth-limit error in case of large array literal
	type MAXIMUM_DEPTH = 20

	// Widen the type of the symbol to enable type inference even if skipToken is not immutable.
	type SkipTokenForUseQueries = symbol

	type GetOptions<T> =
	// Part 1: responsible for applying explicit type parameter to function arguments, if object { queryFnData: TQueryFnData, error: TError, data: TData }
	T extends {
	queryFnData: infer TQueryFnData
	error?: infer TError
	data: infer TData
	}
	? UseQueryOptionsForUseQueries<TQueryFnData, TError, TData>
	: T extends { queryFnData: infer TQueryFnData; error?: infer TError }
	? UseQueryOptionsForUseQueries<TQueryFnData, TError>
	: T extends { data: infer TData; error?: infer TError }
	? UseQueryOptionsForUseQueries<unknown, TError, TData>
	: // Part 2: responsible for applying explicit type parameter to function arguments, if tuple [TQueryFnData, TError, TData]
	T extends [infer TQueryFnData, infer TError, infer TData]
	? UseQueryOptionsForUseQueries<TQueryFnData, TError, TData>
	: T extends [infer TQueryFnData, infer TError]
	? UseQueryOptionsForUseQueries<TQueryFnData, TError>
	: T extends [infer TQueryFnData]
	? UseQueryOptionsForUseQueries<TQueryFnData>
	: // Part 3: responsible for inferring and enforcing type if no explicit parameter was provided
	T extends {
	queryFn?:
	\| QueryFunction<infer TQueryFnData, infer TQueryKey>
	\| SkipTokenForUseQueries
	select?: (data: any) => infer TData
	throwOnError?: ThrowOnError<any, infer TError, any, any>
	}
	? UseQueryOptionsForUseQueries<
	TQueryFnData,
	unknown extends TError ? DefaultError : TError,
	unknown extends TData ? TQueryFnData : TData,
	TQueryKey
	>
	: // Fallback
	UseQueryOptionsForUseQueries

	type GetResults<T> =
	// Part 1: responsible for mapping explicit type parameter to function result, if object
	T extends { queryFnData: any; error?: infer TError; data: infer TData }
	? UseQueryResult<TData, TError>
	: T extends { queryFnData: infer TQueryFnData; error?: infer TError }
	? UseQueryResult<TQueryFnData, TError>
	: T extends { data: infer TData; error?: infer TError }
	? UseQueryResult<TData, TError>
	: // Part 2: responsible for mapping explicit type parameter to function result, if tuple
	T extends [any, infer TError, infer TData]
	? UseQueryResult<TData, TError>
	: T extends [infer TQueryFnData, infer TError]
	? UseQueryResult<TQueryFnData, TError>
	: T extends [infer TQueryFnData]
	? UseQueryResult<TQueryFnData>
	: // Part 3: responsible for mapping inferred type to results, if no explicit parameter was provided
	T extends {
	queryFn?:
	\| QueryFunction<infer TQueryFnData, any>
	\| SkipTokenForUseQueries
	select?: (data: any) => infer TData
	throwOnError?: ThrowOnError<any, infer TError, any, any>
	}
	? UseQueryResult<
	unknown extends TData ? TQueryFnData : TData,
	unknown extends TError ? DefaultError : TError
	>
	: // Fallback
	UseQueryResult

	/**
	* QueriesOptions reducer recursively unwraps function arguments to infer/enforce type param
	*/
	type QueriesOptions<
	T extends Array<any>,
	TResult extends Array<any> = [],
	TDepth extends ReadonlyArray<number> = [],
	> = TDepth['length'] extends MAXIMUM_DEPTH
	? Array<UseQueryOptionsForUseQueries>
	: T extends []
	? []
	: T extends [infer Head]
	? [...TResult, GetOptions<Head>]
	: T extends [infer Head, ...infer Tail]
	? QueriesOptions<
	[...Tail],
	[...TResult, GetOptions<Head>],
	[...TDepth, 1]
	>
	: ReadonlyArray<unknown> extends T
	? T
	: // If T is some array but we couldn't assign unknown[] to it, then it must hold some known/homogenous type!
	// use this to infer the param types in the case of Array.map() argument
	T extends Array<
	UseQueryOptionsForUseQueries<
	infer TQueryFnData,
	infer TError,
	infer TData,
	infer TQueryKey
	>
	>
	? Array<
	UseQueryOptionsForUseQueries<
	TQueryFnData,
	TError,
	TData,
	TQueryKey
	>
	>
	: // Fallback
	Array<UseQueryOptionsForUseQueries>

	/**
	* QueriesResults reducer recursively maps type param to results
	*/
	type QueriesResults<
	T extends Array<any>,
	TResult extends Array<any> = [],
	TDepth extends ReadonlyArray<number> = [],
	> = TDepth['length'] extends MAXIMUM_DEPTH
	? Array<UseQueryResult>
	: T extends []
	? []
	: T extends [infer Head]
	? [...TResult, GetResults<Head>]
	: T extends [infer Head, ...infer Tail]
	? QueriesResults<
	[...Tail],
	[...TResult, GetResults<Head>],
	[...TDepth, 1]
	>
	: { [K in keyof T]: GetResults<T[K]> }

	export function useQueries<
	T extends Array<any>,
	TCombinedResult extends QueriesResults<T> = QueriesResults<T>,
	>(
	queriesOptions: Accessor<{
	queries:
	\| readonly [...QueriesOptions<T>]
	\| readonly [...{ [K in keyof T]: GetOptions<T[K]> }]
	combine?: (result: QueriesResults<T>) => TCombinedResult
	}>,
	queryClient?: Accessor<QueryClient>,
	): TCombinedResult {
	const client = createMemo(() => useQueryClient(queryClient?.()))
	const isRestoring = useIsRestoring()

	const defaultedQueries = createMemo(() =>
	queriesOptions().queries.map((options) =>
	mergeProps(
	client().defaultQueryOptions(options as QueryObserverOptions),
	{
	get _optimisticResults() {
	return isRestoring() ? 'isRestoring' : 'optimistic'
	},
	},
	),
	),
	)

	const observer = new QueriesObserver(
	client(),
	defaultedQueries(),
	queriesOptions().combine
	? ({
	combine: queriesOptions().combine,
	} as QueriesObserverOptions<TCombinedResult>)
	: undefined,
	)

	const [state, setState] = createStore<TCombinedResult>(
	observer.getOptimisticResult(
	defaultedQueries(),
	(queriesOptions() as QueriesObserverOptions<TCombinedResult>).combine,
	)[1](),
	)

	createRenderEffect(
	on(
	() => queriesOptions().queries.length,
	() =>
	setState(
	observer.getOptimisticResult(
	defaultedQueries(),
	(queriesOptions() as QueriesObserverOptions<TCombinedResult>)
	.combine,
	)[1](),
	),
	),
	)

	const dataResources = createMemo(
	on(
	() => state.length,
	() =>
	state.map((queryRes) => {
	const dataPromise = () =>
	new Promise((resolve) => {
	if (queryRes.isFetching && queryRes.isLoading) return
	resolve(unwrap(queryRes.data))
	})
	return createResource(dataPromise)
	}),
	),
	)

	batch(() => {
	const dataResources_ = dataResources()
	for (let index = 0; index < dataResources_.length; index++) {
	const dataResource = dataResources_[index]!
	dataResource[1].mutate(() => unwrap(state[index]!.data))
	dataResource[1].refetch()
	}
	})

	let taskQueue: Array<() => void> = []
	const subscribeToObserver = () =>
	observer.subscribe((result) => {
	taskQueue.push(() => {
	batch(() => {
	const dataResources_ = dataResources()
	for (let index = 0; index < dataResources_.length; index++) {
	const dataResource = dataResources_[index]!
	const unwrappedResult = { ...unwrap(result[index]) }
	// @ts-expect-error typescript pedantry regarding the possible range of index
	setState(index, unwrap(unwrappedResult))
	dataResource[1].mutate(() => unwrap(state[index]!.data))
	dataResource[1].refetch()
	}
	})
	})

	queueMicrotask(() => {
	const taskToRun = taskQueue.pop()
	if (taskToRun) taskToRun()
	taskQueue = []
	})
	})

	let unsubscribe: () => void = noop
	createComputed<() => void>((cleanup) => {
	cleanup?.()
	unsubscribe = isRestoring() ? noop : subscribeToObserver()
	// cleanup needs to be scheduled after synchronous effects take place
	return () => queueMicrotask(unsubscribe)
	})
	onCleanup(unsubscribe)

	onMount(() => {
	observer.setQueries(
	defaultedQueries(),
	queriesOptions().combine
	? ({
	combine: queriesOptions().combine,
	} as QueriesObserverOptions<TCombinedResult>)
	: undefined,
	)
	})

	createComputed(() => {
	observer.setQueries(
	defaultedQueries(),
	queriesOptions().combine
	? ({
	combine: queriesOptions().combine,
	} as QueriesObserverOptions<TCombinedResult>)
	: undefined,
	)
	})

	const handler = (index: number) => ({
	get(target: QueryObserverResult, prop: keyof QueryObserverResult): any {
	if (prop === 'data') {
	return dataResources()[index]![0]()
	}
	return Reflect.get(target, prop)
	},
	})

	const getProxies = () =>
	state.map((s, index) => {
	return new Proxy(s, handler(index))
	})

	const [proxyState, setProxyState] = createStore(getProxies())
	createRenderEffect(() => setProxyState(getProxies()))

	return proxyState as TCombinedResult
	}