/**
 * ResumeEither is an Either of [Resume](./Resume.ts.md)
 * @since 0.9.2
 */
import { Alt2 } from 'fp-ts/Alt';
import { Applicative2 } from 'fp-ts/Applicative';
import { Apply2 } from 'fp-ts/Apply';
import { Bifunctor2 } from 'fp-ts/Bifunctor';
import { Chain2 } from 'fp-ts/Chain';
import { ChainRec2 } from 'fp-ts/ChainRec';
import * as E from 'fp-ts/Either';
import { Functor2 } from 'fp-ts/Functor';
import { Monad2 } from 'fp-ts/Monad';
import { Pointed2 } from 'fp-ts/Pointed';
import { Semigroup } from 'fp-ts/Semigroup';
import { MonadRec2 } from './MonadRec';
import * as R from './Resume';
/**
 * @since 0.9.2
 * @category Model
 */
export declare type ResumeEither<E, A> = R.Resume<E.Either<E, A>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const alt: <E, A>(second: import("fp-ts/function").Lazy<R.Resume<E.Either<E, A>>>) => (first: R.Resume<E.Either<E, A>>) => R.Resume<E.Either<E, A>>;
/**
 * @since 0.9.2
 * @category Typeclass Constructor
 */
export declare const altValidation: <A>(semigroup: Semigroup<A>) => <A_1>(second: import("fp-ts/function").Lazy<R.Resume<E.Either<A, A_1>>>) => (first: R.Resume<E.Either<A, A_1>>) => R.Resume<E.Either<A, A_1>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const ap: <E, A>(fa: R.Resume<E.Either<E, A>>) => <B>(fab: R.Resume<E.Either<E, (a: A) => B>>) => R.Resume<E.Either<E, B>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const bimap: <E, G, A, B>(f: (e: E) => G, g: (a: A) => B) => (fea: R.Resume<E.Either<E, A>>) => R.Resume<E.Either<G, B>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const bracket: <E, A, B>(acquire: R.Resume<E.Either<E, A>>, use: (a: A) => R.Resume<E.Either<E, B>>, release: (a: A, e: E.Either<E, B>) => R.Resume<E.Either<E, void>>) => R.Resume<E.Either<E, B>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const chain: <A, E, B>(f: (a: A) => R.Resume<E.Either<E, B>>) => (ma: R.Resume<E.Either<E, A>>) => R.Resume<E.Either<E, B>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const getOrElse: <E, A>(onLeft: (e: E) => A) => (ma: R.Resume<E.Either<E, A>>) => R.Resume<A>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const getOrElseE: <E, A>(onLeft: (e: E) => R.Resume<A>) => (ma: R.Resume<E.Either<E, A>>) => R.Resume<A>;
/**
 * @since 0.9.2
 * @category Constructor
 */
export declare const left: <E, A = never>(e: E) => R.Resume<E.Either<E, A>>;
/**
 * @since 0.9.2
 * @category Constructor
 */
export declare const fromResumeL: <E, A = never>(fe: R.Resume<E>) => R.Resume<E.Either<E, A>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const map: <A, B>(f: (a: A) => B) => <E>(fa: R.Resume<E.Either<E, A>>) => R.Resume<E.Either<E, B>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const mapLeft: <E, G>(f: (e: E) => G) => <A>(fea: R.Resume<E.Either<E, A>>) => R.Resume<E.Either<G, A>>;
/**
 * @since 0.9.2
 * @category Deconstructor
 */
export declare const match: <E, B, A>(onLeft: (e: E) => B, onRight: (a: A) => B) => (ma: R.Resume<E.Either<E, A>>) => R.Resume<B>;
/**
 * @since 0.9.2
 * @category Deconstructor
 */
export declare const matchE: <E, B, A>(onLeft: (e: E) => R.Resume<B>, onRight: (a: A) => R.Resume<B>) => (ma: R.Resume<E.Either<E, A>>) => R.Resume<B>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const orElse: <E1, E2, A>(onLeft: (e: E1) => R.Resume<E.Either<E2, A>>) => (ma: R.Resume<E.Either<E1, A>>) => R.Resume<E.Either<E2, A>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const orElseFirst: <E, B>(onLeft: (e: E) => R.Resume<E.Either<E, B>>) => <A>(ma: R.Resume<E.Either<E, A>>) => R.Resume<E.Either<E, A>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const orLeft: <E1, E2>(onLeft: (e: E1) => R.Resume<E2>) => <A>(fa: R.Resume<E.Either<E1, A>>) => R.Resume<E.Either<E2, A>>;
/**
 * @since 0.9.2
 * @category Constructor
 */
export declare const right: <A, E = never>(a: A) => R.Resume<E.Either<E, A>>;
/**
 * @since 0.9.2
 * @category Constructor
 */
export declare const fromResumeR: <A, E = never>(fa: R.Resume<A>) => R.Resume<E.Either<E, A>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const swap: <E, A>(ma: R.Resume<E.Either<E, A>>) => R.Resume<E.Either<A, E>>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const toUnion: <E, A>(fa: R.Resume<E.Either<E, A>>) => R.Resume<E | A>;
/**
 * @since 0.9.2
 * @category URI
 */
export declare const URI = "@typed/fp/ResumeEither";
/**
 * @since 0.9.2
 * @category URI
 */
export declare type URI = typeof URI;
declare module 'fp-ts/HKT' {
    interface URItoKind2<E, A> {
        [URI]: ResumeEither<E, A>;
    }
}
declare module './HKT' {
    interface URItoVariance {
        [URI]: V<E, Covariant>;
    }
}
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const Pointed: Pointed2<URI>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const of: <A, E>(a: A) => ResumeEither<E, A>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const Functor: Functor2<URI>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const Chain: Chain2<URI>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const ChainRec: ChainRec2<URI>;
/**
 * @since 0.9.2
 * @category Combinator
 */
export declare const chainRec: <A, E, B>(f: (a: A) => ResumeEither<E, E.Either<A, B>>) => (a: A) => ResumeEither<E, B>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const Apply: Apply2<URI>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const Applicative: Applicative2<URI>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const Monad: Monad2<URI>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const MonadRec: MonadRec2<URI>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const Alt: Alt2<URI>;
/**
 * @since 0.9.2
 * @category Instance
 */
export declare const Bifunctor: Bifunctor2<URI>;
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