import { Middleware, Reducer, ReducersMapObject, Action, AnyAction, StoreEnhancer, Store, DeepPartial } from "redux";
import { EnhancerOptions as DevToolsOptions } from "redux-devtools-extension";
import { ThunkDispatch } from "redux-thunk";
import { Draft } from "immer";
/**
 * Returns true if the passed value is "plain", i.e. a value that is either
 * directly JSON-serializable (boolean, number, string, array, plain object)
 * or `undefined`.
 *
 * @param val The value to check.
 */
declare function isPlain(val: any): boolean;
interface NonSerializableValue {
    keyPath: string;
    value: unknown;
}
declare function findNonSerializableValue(value: unknown, path?: ReadonlyArray<string>, isSerializable?: (value: unknown) => boolean, getEntries?: (value: unknown) => [string, any][]): NonSerializableValue | false;
/**
 * Options for `createSerializableStateInvariantMiddleware()`.
 */
interface SerializableStateInvariantMiddlewareOptions {
    /**
     * The function to check if a value is considered serializable. This
     * function is applied recursively to every value contained in the
     * state. Defaults to `isPlain()`.
     */
    isSerializable?: (value: any) => boolean;
    /**
     * The function that will be used to retrieve entries from each
     * value.  If unspecified, `Object.entries` will be used. Defaults
     * to `undefined`.
     */
    getEntries?: (value: any) => [string, any][];
    /**
     * An array of action types to ignore when checking for serializability, Defaults to []
     */
    ignoredActions?: string[];
}
/**
 * Creates a middleware that, after every state change, checks if the new
 * state is serializable. If a non-serializable value is found within the
 * state, an error is printed to the console.
 *
 * @param options Middleware options.
 */
declare function createSerializableStateInvariantMiddleware(options?: SerializableStateInvariantMiddlewareOptions): Middleware;
interface ThunkOptions<E = any> {
    extraArgument: E;
}
interface ImmutableStateInvariantMiddlewareOptions {
    isImmutable?: (value: any) => boolean;
    ignore?: string[];
}
interface GetDefaultMiddlewareOptions {
    thunk?: boolean | ThunkOptions;
    immutableCheck?: boolean | ImmutableStateInvariantMiddlewareOptions;
    serializableCheck?: boolean | SerializableStateInvariantMiddlewareOptions;
}
/**
 * Returns any array containing the default middleware installed by
 * `configureStore()`. Useful if you want to configure your store with a custom
 * `middleware` array but still keep the default set.
 *
 * @return The default middleware used by `configureStore()`.
 */
declare function getDefaultMiddleware<S = any>(options?: GetDefaultMiddlewareOptions): Middleware<{}, S>[];
declare type ConfigureEnhancersCallback = (defaultEnhancers: StoreEnhancer[]) => StoreEnhancer[];
/**
 * Options for `configureStore()`.
 */
interface ConfigureStoreOptions<S = any, A extends Action = AnyAction> {
    /**
     * A single reducer function that will be used as the root reducer, or an
     * object of slice reducers that will be passed to `combineReducers()`.
     */
    reducer: Reducer<S, A> | ReducersMapObject<S, A>;
    /**
     * An array of Redux middleware to install. If not supplied, defaults to
     * the set of middleware returned by `getDefaultMiddleware()`.
     */
    middleware?: Middleware<{}, S>[];
    /**
     * Whether to enable Redux DevTools integration. Defaults to `true`.
     *
     * Additional configuration can be done by passing Redux DevTools options
     */
    devTools?: boolean | DevToolsOptions;
    /**
     * The initial state, same as Redux's createStore.
     * You may optionally specify it to hydrate the state
     * from the server in universal apps, or to restore a previously serialized
     * user session. If you use `combineReducers()` to produce the root reducer
     * function (either directly or indirectly by passing an object as `reducer`),
     * this must be an object with the same shape as the reducer map keys.
     */
    preloadedState?: DeepPartial<S extends any ? S : S>;
    /**
     * The store enhancers to apply. See Redux's `createStore()`.
     * All enhancers will be included before the DevTools Extension enhancer.
     * If you need to customize the order of enhancers, supply a callback
     * function that will receive the original array (ie, `[applyMiddleware]`),
     * and should return a new array (such as `[applyMiddleware, offline]`).
     * If you only need to add middleware, you can use the `middleware` parameter instaead.
     */
    enhancers?: StoreEnhancer[] | ConfigureEnhancersCallback;
}
/**
 * A Redux store returned by `configureStore()`. Supports dispatching
 * side-effectful _thunks_ in addition to plain actions.
 */
interface EnhancedStore<S = any, A extends Action = AnyAction> extends Store<S, A> {
    dispatch: ThunkDispatch<S, any, A>;
}
/**
 * A friendly abstraction over the standard Redux `createStore()` function.
 *
 * @param config The store configuration.
 * @returns A configured Redux store.
 */
declare function configureStore<S = any, A extends Action = AnyAction>(options: ConfigureStoreOptions<S, A>): EnhancedStore<S, A>;
declare type IsAny<T, True, False = never> = (True | False) extends (T extends never ? True : False) ? True : False;
declare type IsUnknown<T, True, False = never> = unknown extends T ? IsAny<T, False, True> : False;
declare type IsEmptyObj<T, True, False = never> = T extends any ? keyof T extends never ? IsUnknown<T, False, True> : False : never;
/**
 * returns True if TS version is above 3.5, False if below.
 * uses feature detection to detect TS version >= 3.5
 * * versions below 3.5 will return `{}` for unresolvable interference
 * * versions above will return `unknown`
 * */
declare type AtLeastTS35<True, False> = [True, False][IsUnknown<ReturnType<(<T>() => T)>, 0, 1>];
declare type IsUnknownOrNonInferrable<T, True, False> = AtLeastTS35<IsUnknown<T, True, False>, IsEmptyObj<T, True, False>>;
/**
 * An action with a string type and an associated payload. This is the
 * type of action returned by `createAction()` action creators.
 *
 * @template P The type of the action's payload.
 * @template T the type used for the action type.
 * @template M The type of the action's meta (optional)
 * @template E The type of the action's error (optional)
 */
declare type PayloadAction<P = void, T extends string = string, M = never, E = never> = WithOptional<M, E, WithPayload<P, Action<T>>>;
declare type PrepareAction<P> = ((...args: any[]) => {
    payload: P;
}) | ((...args: any[]) => {
    payload: P;
    meta: any;
}) | ((...args: any[]) => {
    payload: P;
    error: any;
}) | ((...args: any[]) => {
    payload: P;
    meta: any;
    error: any;
});
declare type ActionCreatorWithPreparedPayload<PA extends PrepareAction<any> | void, T extends string = string> = PA extends PrepareAction<infer P> ? WithTypePropertyAndMatch<(...args: Parameters<PA>) => PayloadAction<P, T, MetaOrNever<PA>, ErrorOrNever<PA>>, T, P, MetaOrNever<PA>, ErrorOrNever<PA>> : void;
declare type ActionCreatorWithOptionalPayload<P, T extends string = string> = WithTypePropertyAndMatch<{
    (payload?: undefined): PayloadAction<undefined, T>;
    <PT extends Diff<P, undefined>>(payload?: PT): PayloadAction<PT, T>;
}, T, P | undefined>;
declare type ActionCreatorWithoutPayload<T extends string = string> = WithTypePropertyAndMatch<() => PayloadAction<undefined, T>, T, undefined>;
declare type ActionCreatorWithPayload<P, T extends string = string> = WithTypePropertyAndMatch<IsUnknownOrNonInferrable<P, <PT extends unknown>(payload: PT) => PayloadAction<PT, T>, <PT extends P>(payload: PT) => PayloadAction<PT, T>>, T, P>;
/**
 * An action creator that produces actions with a `payload` attribute.
 */
declare type PayloadActionCreator<P = void, T extends string = string, PA extends PrepareAction<P> | void = void> = IfPrepareActionMethodProvided<PA, ActionCreatorWithPreparedPayload<PA, T>, IfMaybeUndefined<P, ActionCreatorWithOptionalPayload<P, T>, IfVoid<P, ActionCreatorWithoutPayload<T>, ActionCreatorWithPayload<P, T>>>>;
/**
 * A utility function to create an action creator for the given action type
 * string. The action creator accepts a single argument, which will be included
 * in the action object as a field called payload. The action creator function
 * will also have its toString() overriden so that it returns the action type,
 * allowing it to be used in reducer logic that is looking for that action type.
 *
 * @param type The action type to use for created actions.
 * @param prepare (optional) a method that takes any number of arguments and returns { payload } or { payload, meta }.
 *                If this is given, the resulting action creator will pass it's arguments to this method to calculate payload & meta.
 */
declare function createAction<P = void, T extends string = string>(type: T): PayloadActionCreator<P, T>;
declare function createAction<PA extends PrepareAction<any>, T extends string = string>(type: T, prepareAction: PA): PayloadActionCreator<ReturnType<PA>['payload'], T, PA>;
/**
 * Returns the action type of the actions created by the passed
 * `createAction()`-generated action creator (arbitrary action creators
 * are not supported).
 *
 * @param action The action creator whose action type to get.
 * @returns The action type used by the action creator.
 */
declare function getType<T extends string>(actionCreator: PayloadActionCreator<any, T>): T;
declare type Diff<T, U> = T extends U ? never : T;
declare type WithPayload<P, T> = T & {
    payload: P;
};
declare type WithOptional<M, E, T> = T & ([M] extends [never] ? {} : {
    meta: M;
}) & ([E] extends [never] ? {} : {
    error: E;
});
declare type WithTypeProperty<MergeIn, T extends string> = {
    type: T;
} & MergeIn;
declare type WithMatch<MergeIn, T extends string, P, M = never, E = never> = {
    match(action: Action<unknown>): action is PayloadAction<P, T, M, E>;
} & MergeIn;
declare type WithTypePropertyAndMatch<MergeIn, T extends string, P, M = never, E = never> = WithTypeProperty<WithMatch<MergeIn, T, P, M, E>, T>;
declare type IfPrepareActionMethodProvided<PA extends PrepareAction<any> | void, True, False> = PA extends (...args: any[]) => any ? True : False;
declare type MetaOrNever<PA extends PrepareAction<any>> = ReturnType<PA> extends {
    meta: infer M;
} ? M : never;
declare type ErrorOrNever<PA extends PrepareAction<any>> = ReturnType<PA> extends {
    error: infer E;
} ? E : never;
declare type IfMaybeUndefined<P, True, False> = [undefined] extends [P] ? True : False;
declare type IfVoid<P, True, False> = [void] extends [P] ? True : False;
/**
 * Defines a mapping from action types to corresponding action object shapes.
 */
declare type Actions<T extends keyof any = string> = Record<T, Action>;
/**
 * An *case reducer* is a reducer function for a speficic action type. Case
 * reducers can be composed to full reducers using `createReducer()`.
 *
 * Unlike a normal Redux reducer, a case reducer is never called with an
 * `undefined` state to determine the initial state. Instead, the initial
 * state is explicitly specified as an argument to `createReducer()`.
 *
 * In addition, a case reducer can choose to mutate the passed-in `state`
 * value directly instead of returning a new state. This does not actually
 * cause the store state to be mutated directly; instead, thanks to
 * [immer](https://github.com/mweststrate/immer), the mutations are
 * translated to copy operations that result in a new state.
 */
declare type CaseReducer<S = any, A extends Action = AnyAction> = (state: Draft<S>, action: A) => S | void;
/**
 * A mapping from action types to case reducers for `createReducer()`.
 */
declare type CaseReducers<S, AS extends Actions> = {
    [T in keyof AS]: AS[T] extends Action ? CaseReducer<S, AS[T]> : void;
};
/**
 * A utility function that allows defining a reducer as a mapping from action
 * type to *case reducer* functions that handle these action types. The
 * reducer's initial state is passed as the first argument.
 *
 * The body of every case reducer is implicitly wrapped with a call to
 * `produce()` from the [immer](https://github.com/mweststrate/immer) library.
 * This means that rather than returning a new state object, you can also
 * mutate the passed-in state object directly; these mutations will then be
 * automatically and efficiently translated into copies, giving you both
 * convenience and immutability.
 *
 * @param initialState The initial state to be returned by the reducer.
 * @param actionsMap A mapping from action types to action-type-specific
 *   case redeucers.
 */
declare function createReducer<S, CR extends CaseReducers<S, any> = CaseReducers<S, any>>(initialState: S, actionsMap: CR): Reducer<S>;
/**
 * An action creator atttached to a slice.
 *
 * @deprecated please use PayloadActionCreator directly
 */
declare type SliceActionCreator<P> = PayloadActionCreator<P>;
interface Slice<State = any, CaseReducers extends SliceCaseReducerDefinitions<State, PayloadActions> = {
    [key: string]: any;
}> {
    /**
     * The slice name.
     */
    name: string;
    /**
     * The slice's reducer.
     */
    reducer: Reducer<State>;
    /**
     * Action creators for the types of actions that are handled by the slice
     * reducer.
     */
    actions: CaseReducerActions<CaseReducers>;
    caseReducers: SliceDefinedCaseReducers<CaseReducers, State>;
}
/**
 * Options for `createSlice()`.
 */
interface CreateSliceOptions<State = any, CR extends SliceCaseReducerDefinitions<State, any> = SliceCaseReducerDefinitions<State, any>> {
    /**
     * The slice's name. Used to namespace the generated action types.
     */
    name: string;
    /**
     * The initial state to be returned by the slice reducer.
     */
    initialState: State;
    /**
     * A mapping from action types to action-type-specific *case reducer*
     * functions. For every action type, a matching action creator will be
     * generated using `createAction()`.
     */
    reducers: CR;
    /**
     * A mapping from action types to action-type-specific *case reducer*
     * functions. These reducers should have existing action types used
     * as the keys, and action creators will _not_ be generated.
     */
    extraReducers?: CaseReducers<NoInfer<State>, any>;
}
declare type PayloadActions<Types extends keyof any = string> = Record<Types, PayloadAction>;
declare type CaseReducerWithPrepare<State, Action extends PayloadAction> = {
    reducer: CaseReducer<State, Action>;
    prepare: PrepareAction<Action['payload']>;
};
declare type SliceCaseReducerDefinitions<State, PA extends PayloadActions> = {
    [ActionType in keyof PA]: CaseReducer<State, PA[ActionType]> | CaseReducerWithPrepare<State, PA[ActionType]>;
};
declare type IfIsReducerFunctionWithoutAction<R, True, False = never> = R extends (state: any) => any ? True : False;
declare type IfIsCaseReducerWithPrepare<R, True, False = never> = R extends {
    prepare: Function;
} ? True : False;
declare type PayloadForReducer<R> = R extends (state: any, action: PayloadAction<infer P>) => any ? P : void;
declare type PrepareActionForReducer<R> = R extends {
    prepare: infer Prepare;
} ? Prepare : never;
declare type ActionForReducer<R, S> = R extends (state: S, action: PayloadAction<infer P>) => S ? PayloadAction<P> : R extends {
    reducer(state: any, action: PayloadAction<infer P>): any;
} ? PayloadAction<P> : unknown;
declare type CaseReducerActions<CaseReducers extends SliceCaseReducerDefinitions<any, any>> = {
    [Type in keyof CaseReducers]: IfIsCaseReducerWithPrepare<CaseReducers[Type], ActionCreatorWithPreparedPayload<PrepareActionForReducer<CaseReducers[Type]>>, IfIsReducerFunctionWithoutAction<CaseReducers[Type], ActionCreatorWithoutPayload, PayloadActionCreator<PayloadForReducer<CaseReducers[Type]>>>>;
};
declare type SliceDefinedCaseReducers<CaseReducers extends SliceCaseReducerDefinitions<any, any>, State = any> = {
    [Type in keyof CaseReducers]: CaseReducer<State, ActionForReducer<CaseReducers[Type], State>>;
};
declare type NoInfer<T> = [T][T extends any ? 0 : never];
declare type SliceCaseReducersCheck<S, ACR> = {
    [P in keyof ACR]: ACR[P] extends {
        reducer(s: S, action?: {
            payload: infer O;
        }): any;
    } ? {
        prepare(...a: never[]): {
            payload: O;
        };
    } : {};
};
declare type RestrictCaseReducerDefinitionsToMatchReducerAndPrepare<S, CR extends SliceCaseReducerDefinitions<S, any>> = {
    reducers: SliceCaseReducersCheck<S, NoInfer<CR>>;
};
/**
 * A function that accepts an initial state, an object full of reducer
 * functions, and a "slice name", and automatically generates
 * action creators and action types that correspond to the
 * reducers and state.
 *
 * The `reducer` argument is passed to `createReducer()`.
 */
declare function createSlice<State, CaseReducers extends SliceCaseReducerDefinitions<State, any>>(options: CreateSliceOptions<State, CaseReducers> & RestrictCaseReducerDefinitionsToMatchReducerAndPrepare<State, CaseReducers>): Slice<State, CaseReducers>;
export * from 'redux';
export { default as createNextState } from 'immer';
export { createSelector } from "reselect";
export { ConfigureEnhancersCallback, ConfigureStoreOptions, EnhancedStore, configureStore, PayloadAction, PrepareAction, ActionCreatorWithPreparedPayload, ActionCreatorWithOptionalPayload, ActionCreatorWithoutPayload, ActionCreatorWithPayload, PayloadActionCreator, createAction, getType, Actions, CaseReducer, CaseReducers, createReducer, SliceActionCreator, Slice, CreateSliceOptions, createSlice, isPlain, findNonSerializableValue, SerializableStateInvariantMiddlewareOptions, createSerializableStateInvariantMiddleware, getDefaultMiddleware };
