696 lines
22 KiB
TypeScript
696 lines
22 KiB
TypeScript
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/**
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* The `Apply` class provides the `ap` which is used to apply a function to an argument under a type constructor.
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*
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* `Apply` can be used to lift functions of two or more arguments to work on values wrapped with the type constructor
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* `f`.
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*
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* Instances must satisfy the following law in addition to the `Functor` laws:
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*
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* 1. Associative composition: `F.ap(F.ap(F.map(fbc, bc => ab => a => bc(ab(a))), fab), fa) <-> F.ap(fbc, F.ap(fab, fa))`
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*
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* Formally, `Apply` represents a strong lax semi-monoidal endofunctor.
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*
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* @example
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* import * as O from 'fp-ts/Option'
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* import { pipe } from 'fp-ts/function'
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*
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* const f = (a: string) => (b: number) => (c: boolean) => a + String(b) + String(c)
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* const fa: O.Option<string> = O.some('s')
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* const fb: O.Option<number> = O.some(1)
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* const fc: O.Option<boolean> = O.some(true)
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*
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* assert.deepStrictEqual(
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* pipe(
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* // lift a function
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* O.some(f),
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* // apply the first argument
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* O.ap(fa),
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* // apply the second argument
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* O.ap(fb),
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* // apply the third argument
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* O.ap(fc)
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* ),
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* O.some('s1true')
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* )
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*
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* @since 2.0.0
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*/
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import { Functor, Functor1, Functor2, Functor2C, Functor3, Functor4, Functor3C } from './Functor'
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import { HKT, Kind, Kind2, Kind3, Kind4, URIS, URIS2, URIS3, URIS4 } from './HKT'
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import { Semigroup } from './Semigroup'
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/**
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* @category model
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* @since 2.0.0
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*/
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export interface Apply<F> extends Functor<F> {
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readonly ap: <A, B>(fab: HKT<F, (a: A) => B>, fa: HKT<F, A>) => HKT<F, B>
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}
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/**
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* @category model
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* @since 2.0.0
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*/
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export interface Apply1<F extends URIS> extends Functor1<F> {
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readonly ap: <A, B>(fab: Kind<F, (a: A) => B>, fa: Kind<F, A>) => Kind<F, B>
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}
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/**
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* @category model
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* @since 2.0.0
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*/
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export interface Apply2<F extends URIS2> extends Functor2<F> {
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readonly ap: <E, A, B>(fab: Kind2<F, E, (a: A) => B>, fa: Kind2<F, E, A>) => Kind2<F, E, B>
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}
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/**
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* @category model
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* @since 2.0.0
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*/
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export interface Apply2C<F extends URIS2, E> extends Functor2C<F, E> {
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readonly ap: <A, B>(fab: Kind2<F, E, (a: A) => B>, fa: Kind2<F, E, A>) => Kind2<F, E, B>
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}
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/**
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* @category model
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* @since 2.0.0
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*/
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export interface Apply3<F extends URIS3> extends Functor3<F> {
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readonly ap: <R, E, A, B>(fab: Kind3<F, R, E, (a: A) => B>, fa: Kind3<F, R, E, A>) => Kind3<F, R, E, B>
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}
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/**
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* @category model
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* @since 2.2.0
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*/
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export interface Apply3C<F extends URIS3, E> extends Functor3C<F, E> {
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readonly ap: <R, A, B>(fab: Kind3<F, R, E, (a: A) => B>, fa: Kind3<F, R, E, A>) => Kind3<F, R, E, B>
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}
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/**
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* @category model
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* @since 2.0.0
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*/
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export interface Apply4<F extends URIS4> extends Functor4<F> {
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readonly ap: <S, R, E, A, B>(fab: Kind4<F, S, R, E, (a: A) => B>, fa: Kind4<F, S, R, E, A>) => Kind4<F, S, R, E, B>
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}
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/**
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* `ap` composition.
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*
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* @since 2.10.0
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*/
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export declare function ap<F extends URIS4, G extends URIS4>(
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F: Apply4<F>,
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G: Apply4<G>
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): <FS, FR, FE, GS, GR, GE, A>(
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fa: Kind4<F, FS, FR, FE, Kind4<G, GS, GR, GE, A>>
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) => <B>(fab: Kind4<F, FS, FR, FE, Kind4<G, GS, GR, GE, (a: A) => B>>) => Kind4<F, FS, FR, FE, Kind4<G, GS, GR, GE, B>>
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export declare function ap<F extends URIS4, G extends URIS3>(
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F: Apply4<F>,
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G: Apply3<G>
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): <S, FR, FE, GR, GE, A>(
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fa: Kind4<F, S, FR, FE, Kind3<G, GR, GE, A>>
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) => <B>(fab: Kind4<F, S, FR, FE, Kind3<G, GR, GE, (a: A) => B>>) => Kind4<F, S, FR, FE, Kind3<G, GR, GE, B>>
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export declare function ap<F extends URIS4, G extends URIS3, GE>(
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F: Apply4<F>,
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G: Apply3C<G, GE>
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): <S, FR, FE, GR, A>(
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fa: Kind4<F, S, FR, FE, Kind3<G, GR, GE, A>>
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) => <B>(fab: Kind4<F, S, FR, FE, Kind3<G, GR, GE, (a: A) => B>>) => Kind4<F, S, FR, FE, Kind3<G, GR, GE, B>>
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export declare function ap<F extends URIS4, G extends URIS2>(
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F: Apply4<F>,
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G: Apply2<G>
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): <S, R, FE, GE, A>(
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fa: Kind4<F, S, R, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind4<F, S, R, FE, Kind2<G, GE, (a: A) => B>>) => Kind4<F, S, R, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS4, G extends URIS2, GE>(
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F: Apply4<F>,
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G: Apply2C<G, GE>
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): <S, R, FE, A>(
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fa: Kind4<F, S, R, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind4<F, S, R, FE, Kind2<G, GE, (a: A) => B>>) => Kind4<F, S, R, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS4, G extends URIS>(
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F: Apply4<F>,
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G: Apply1<G>
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): <S, R, E, A>(
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fa: Kind4<F, S, R, E, Kind<G, A>>
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) => <B>(fab: Kind4<F, S, R, E, Kind<G, (a: A) => B>>) => Kind4<F, S, R, E, Kind<G, B>>
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export declare function ap<F extends URIS3, FE, G extends URIS4>(
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F: Apply3C<F, FE>,
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G: Apply4<G>
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): <FR, S, GR, GE, A>(
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fa: Kind3<F, FR, FE, Kind4<G, S, GR, GE, A>>
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) => <B>(fab: Kind3<F, FR, FE, Kind4<G, S, GR, GE, (a: A) => B>>) => Kind3<F, FR, FE, Kind4<G, S, GR, GE, B>>
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export declare function ap<F extends URIS3, FE, G extends URIS3>(
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F: Apply3C<F, FE>,
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G: Apply3<G>
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): <FR, GR, GE, A>(
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fa: Kind3<F, FR, FE, Kind3<G, GR, GE, A>>
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) => <B>(fab: Kind3<F, FR, FE, Kind3<G, GR, GE, (a: A) => B>>) => Kind3<F, FR, FE, Kind3<G, GR, GE, B>>
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export declare function ap<F extends URIS3, FE, G extends URIS3, GE>(
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F: Apply3C<F, FE>,
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G: Apply3C<G, GE>
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): <FR, GR, A>(
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fa: Kind3<F, FR, FE, Kind3<G, GR, GE, A>>
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) => <B>(fab: Kind3<F, FR, FE, Kind3<G, GR, GE, (a: A) => B>>) => Kind3<F, FR, FE, Kind3<G, GR, GE, B>>
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export declare function ap<F extends URIS3, FE, G extends URIS2>(
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F: Apply3C<F, FE>,
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G: Apply2<G>
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): <R, GE, A>(
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fa: Kind3<F, R, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind3<F, R, FE, Kind2<G, GE, (a: A) => B>>) => Kind3<F, R, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS3, FE, G extends URIS2, GE>(
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F: Apply3C<F, FE>,
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G: Apply2C<G, GE>
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): <R, A>(
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fa: Kind3<F, R, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind3<F, R, FE, Kind2<G, GE, (a: A) => B>>) => Kind3<F, R, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS3, E, G extends URIS>(
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F: Apply3C<F, E>,
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G: Apply1<G>
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): <R, A>(
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fa: Kind3<F, R, E, Kind<G, A>>
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) => <B>(fab: Kind3<F, R, E, Kind<G, (a: A) => B>>) => Kind3<F, R, E, Kind<G, B>>
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export declare function ap<F extends URIS3, G extends URIS4>(
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F: Apply3<F>,
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G: Apply4<G>
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): <FR, FE, S, GR, GE, A>(
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fa: Kind3<F, FR, FE, Kind4<G, S, GR, GE, A>>
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) => <B>(fab: Kind3<F, FR, FE, Kind4<G, S, GR, GE, (a: A) => B>>) => Kind3<F, FR, FE, Kind4<G, S, GR, GE, B>>
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export declare function ap<F extends URIS3, G extends URIS3>(
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F: Apply3<F>,
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G: Apply3<G>
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): <FR, FE, GR, GE, A>(
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fa: Kind3<F, FR, FE, Kind3<G, GR, GE, A>>
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) => <B>(fab: Kind3<F, FR, FE, Kind3<G, GR, GE, (a: A) => B>>) => Kind3<F, FR, FE, Kind3<G, GR, GE, B>>
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export declare function ap<F extends URIS3, G extends URIS3, GE>(
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F: Apply3<F>,
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G: Apply3C<G, GE>
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): <FR, FE, GR, A>(
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fa: Kind3<F, FR, FE, Kind3<G, GR, GE, A>>
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) => <B>(fab: Kind3<F, FR, FE, Kind3<G, GR, GE, (a: A) => B>>) => Kind3<F, FR, FE, Kind3<G, GR, GE, B>>
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export declare function ap<F extends URIS3, G extends URIS2>(
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F: Apply3<F>,
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G: Apply2<G>
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): <R, FE, GE, A>(
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fa: Kind3<F, R, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind3<F, R, FE, Kind2<G, GE, (a: A) => B>>) => Kind3<F, R, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS3, G extends URIS2, GE>(
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F: Apply3<F>,
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G: Apply2C<G, GE>
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): <R, FE, A>(
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fa: Kind3<F, R, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind3<F, R, FE, Kind2<G, GE, (a: A) => B>>) => Kind3<F, R, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS3, G extends URIS>(
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F: Apply3<F>,
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G: Apply1<G>
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): <R, E, A>(
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fa: Kind3<F, R, E, Kind<G, A>>
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) => <B>(fab: Kind3<F, R, E, Kind<G, (a: A) => B>>) => Kind3<F, R, E, Kind<G, B>>
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export declare function ap<F extends URIS2, FE, G extends URIS4>(
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F: Apply2C<F, FE>,
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G: Apply4<G>
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): <S, R, GE, A>(
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fa: Kind2<F, FE, Kind4<G, S, R, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind4<G, S, R, GE, (a: A) => B>>) => Kind2<F, FE, Kind4<G, S, R, GE, B>>
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export declare function ap<F extends URIS2, FE, G extends URIS3>(
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F: Apply2C<F, FE>,
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G: Apply3<G>
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): <R, GE, A>(
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fa: Kind2<F, FE, Kind3<G, R, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind3<G, R, GE, (a: A) => B>>) => Kind2<F, FE, Kind3<G, R, GE, B>>
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export declare function ap<F extends URIS2, FE, G extends URIS3, GE>(
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F: Apply2C<F, FE>,
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G: Apply3C<G, GE>
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): <R, A>(
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fa: Kind2<F, FE, Kind3<G, R, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind3<G, R, GE, (a: A) => B>>) => Kind2<F, FE, Kind3<G, R, GE, B>>
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export declare function ap<F extends URIS2, FE, G extends URIS2>(
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F: Apply2C<F, FE>,
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G: Apply2<G>
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): <GE, A>(
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fa: Kind2<F, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind2<G, GE, (a: A) => B>>) => Kind2<F, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS2, FE, G extends URIS2, GE>(
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F: Apply2C<F, FE>,
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G: Apply2C<G, GE>
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): <A>(
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fa: Kind2<F, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind2<G, GE, (a: A) => B>>) => Kind2<F, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS2, E, G extends URIS>(
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F: Apply2C<F, E>,
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G: Apply1<G>
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): <A>(fa: Kind2<F, E, Kind<G, A>>) => <B>(fab: Kind2<F, E, Kind<G, (a: A) => B>>) => Kind2<F, E, Kind<G, B>>
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export declare function ap<F extends URIS2, G extends URIS4>(
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F: Apply2<F>,
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G: Apply4<G>
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): <FE, S, R, GE, A>(
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fa: Kind2<F, FE, Kind4<G, S, R, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind4<G, S, R, GE, (a: A) => B>>) => Kind2<F, FE, Kind4<G, S, R, GE, B>>
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export declare function ap<F extends URIS2, G extends URIS3>(
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F: Apply2<F>,
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G: Apply3<G>
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): <FE, R, GE, A>(
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fa: Kind2<F, FE, Kind3<G, R, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind3<G, R, GE, (a: A) => B>>) => Kind2<F, FE, Kind3<G, R, GE, B>>
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export declare function ap<F extends URIS2, G extends URIS3, GE>(
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F: Apply2<F>,
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G: Apply3C<G, GE>
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): <FE, R, A>(
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fa: Kind2<F, FE, Kind3<G, R, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind3<G, R, GE, (a: A) => B>>) => Kind2<F, FE, Kind3<G, R, GE, B>>
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export declare function ap<F extends URIS2, G extends URIS2>(
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F: Apply2<F>,
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G: Apply2<G>
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): <FE, GE, A>(
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fa: Kind2<F, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind2<G, GE, (a: A) => B>>) => Kind2<F, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS2, G extends URIS2, GE>(
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F: Apply2<F>,
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G: Apply2C<G, GE>
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): <FE, A>(
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fa: Kind2<F, FE, Kind2<G, GE, A>>
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) => <B>(fab: Kind2<F, FE, Kind2<G, GE, (a: A) => B>>) => Kind2<F, FE, Kind2<G, GE, B>>
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export declare function ap<F extends URIS2, G extends URIS>(
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F: Apply2<F>,
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G: Apply1<G>
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): <E, A>(fa: Kind2<F, E, Kind<G, A>>) => <B>(fab: Kind2<F, E, Kind<G, (a: A) => B>>) => Kind2<F, E, Kind<G, B>>
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export declare function ap<F extends URIS, G extends URIS4>(
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F: Apply1<F>,
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G: Apply4<G>
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): <S, R, E, A>(
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fa: Kind<F, Kind4<G, S, R, E, A>>
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) => <B>(fab: Kind<F, Kind4<G, S, R, E, (a: A) => B>>) => Kind<F, Kind4<G, S, R, E, B>>
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export declare function ap<F extends URIS, G extends URIS3>(
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F: Apply1<F>,
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G: Apply3<G>
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): <R, E, A>(
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fa: Kind<F, Kind3<G, R, E, A>>
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) => <B>(fab: Kind<F, Kind3<G, R, E, (a: A) => B>>) => Kind<F, Kind3<G, R, E, B>>
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export declare function ap<F extends URIS, G extends URIS3, E>(
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F: Apply1<F>,
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G: Apply3C<G, E>
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): <R, A>(
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fa: Kind<F, Kind3<G, R, E, A>>
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) => <B>(fab: Kind<F, Kind3<G, R, E, (a: A) => B>>) => Kind<F, Kind3<G, R, E, B>>
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export declare function ap<F extends URIS, G extends URIS2>(
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F: Apply1<F>,
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G: Apply2<G>
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): <E, A>(fa: Kind<F, Kind2<G, E, A>>) => <B>(fab: Kind<F, Kind2<G, E, (a: A) => B>>) => Kind<F, Kind2<G, E, B>>
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export declare function ap<F extends URIS, G extends URIS2, E>(
|
||
|
F: Apply1<F>,
|
||
|
G: Apply2C<G, E>
|
||
|
): <A>(fa: Kind<F, Kind2<G, E, A>>) => <B>(fab: Kind<F, Kind2<G, E, (a: A) => B>>) => Kind<F, Kind2<G, E, B>>
|
||
|
export declare function ap<F extends URIS, G extends URIS>(
|
||
|
F: Apply1<F>,
|
||
|
G: Apply1<G>
|
||
|
): <A>(fa: Kind<F, Kind<G, A>>) => <B>(fab: Kind<F, Kind<G, (a: A) => B>>) => Kind<F, Kind<G, B>>
|
||
|
export declare function ap<F, G extends URIS4>(
|
||
|
F: Apply<F>,
|
||
|
G: Apply4<G>
|
||
|
): <S, R, E, A>(
|
||
|
fa: HKT<F, Kind4<G, S, R, E, A>>
|
||
|
) => <B>(fab: HKT<F, Kind4<G, S, R, E, (a: A) => B>>) => HKT<F, Kind4<G, S, R, E, B>>
|
||
|
export declare function ap<F, G extends URIS3>(
|
||
|
F: Apply<F>,
|
||
|
G: Apply3<G>
|
||
|
): <R, E, A>(
|
||
|
fa: HKT<F, Kind3<G, R, E, A>>
|
||
|
) => <B>(fab: HKT<F, Kind3<G, R, E, (a: A) => B>>) => HKT<F, Kind3<G, R, E, B>>
|
||
|
export declare function ap<F, G extends URIS3, E>(
|
||
|
F: Apply<F>,
|
||
|
G: Apply3C<G, E>
|
||
|
): <R, A>(fa: HKT<F, Kind3<G, R, E, A>>) => <B>(fab: HKT<F, Kind3<G, R, E, (a: A) => B>>) => HKT<F, Kind3<G, R, E, B>>
|
||
|
export declare function ap<F, G extends URIS2>(
|
||
|
F: Apply<F>,
|
||
|
G: Apply2<G>
|
||
|
): <E, A>(fa: HKT<F, Kind2<G, E, A>>) => <B>(fab: HKT<F, Kind2<G, E, (a: A) => B>>) => HKT<F, Kind2<G, E, B>>
|
||
|
export declare function ap<F, G extends URIS2, E>(
|
||
|
F: Apply<F>,
|
||
|
G: Apply2C<G, E>
|
||
|
): <A>(fa: HKT<F, Kind2<G, E, A>>) => <B>(fab: HKT<F, Kind2<G, E, (a: A) => B>>) => HKT<F, Kind2<G, E, B>>
|
||
|
export declare function ap<F, G extends URIS>(
|
||
|
F: Apply<F>,
|
||
|
G: Apply1<G>
|
||
|
): <A>(fa: HKT<F, Kind<G, A>>) => <B>(fab: HKT<F, Kind<G, (a: A) => B>>) => HKT<F, Kind<G, B>>
|
||
|
export declare function ap<F, G>(
|
||
|
F: Apply<F>,
|
||
|
G: Apply<G>
|
||
|
): <A>(fa: HKT<F, HKT<G, A>>) => <B>(fab: HKT<F, HKT<G, (a: A) => B>>) => HKT<F, HKT<G, B>>
|
||
|
/**
|
||
|
* @since 2.10.0
|
||
|
*/
|
||
|
export declare function apFirst<F extends URIS4>(
|
||
|
A: Apply4<F>
|
||
|
): <S, R, E, B>(second: Kind4<F, S, R, E, B>) => <A>(first: Kind4<F, S, R, E, A>) => Kind4<F, S, R, E, A>
|
||
|
export declare function apFirst<F extends URIS3>(
|
||
|
A: Apply3<F>
|
||
|
): <R, E, B>(second: Kind3<F, R, E, B>) => <A>(first: Kind3<F, R, E, A>) => Kind3<F, R, E, A>
|
||
|
export declare function apFirst<F extends URIS3, E>(
|
||
|
A: Apply3C<F, E>
|
||
|
): <R, B>(second: Kind3<F, R, E, B>) => <A>(first: Kind3<F, R, E, A>) => Kind3<F, R, E, A>
|
||
|
export declare function apFirst<F extends URIS2>(
|
||
|
A: Apply2<F>
|
||
|
): <E, B>(second: Kind2<F, E, B>) => <A>(first: Kind2<F, E, A>) => Kind2<F, E, A>
|
||
|
export declare function apFirst<F extends URIS2, E>(
|
||
|
A: Apply2C<F, E>
|
||
|
): <B>(second: Kind2<F, E, B>) => <A>(first: Kind2<F, E, A>) => Kind2<F, E, A>
|
||
|
export declare function apFirst<F extends URIS>(
|
||
|
A: Apply1<F>
|
||
|
): <B>(second: Kind<F, B>) => <A>(first: Kind<F, A>) => Kind<F, A>
|
||
|
export declare function apFirst<F>(A: Apply<F>): <B>(second: HKT<F, B>) => <A>(first: HKT<F, A>) => HKT<F, A>
|
||
|
/**
|
||
|
* @since 2.10.0
|
||
|
*/
|
||
|
export declare function apSecond<F extends URIS4>(
|
||
|
A: Apply4<F>
|
||
|
): <S, R, E, B>(second: Kind4<F, S, R, E, B>) => <A>(first: Kind4<F, S, R, E, A>) => Kind4<F, S, R, E, B>
|
||
|
export declare function apSecond<F extends URIS3>(
|
||
|
A: Apply3<F>
|
||
|
): <R, E, B>(second: Kind3<F, R, E, B>) => <A>(first: Kind3<F, R, E, A>) => Kind3<F, R, E, B>
|
||
|
export declare function apSecond<F extends URIS3, E>(
|
||
|
A: Apply3C<F, E>
|
||
|
): <R, B>(second: Kind3<F, R, E, B>) => <A>(first: Kind3<F, R, E, A>) => Kind3<F, R, E, B>
|
||
|
export declare function apSecond<F extends URIS2>(
|
||
|
A: Apply2<F>
|
||
|
): <E, B>(second: Kind2<F, E, B>) => <A>(first: Kind2<F, E, A>) => Kind2<F, E, B>
|
||
|
export declare function apSecond<F extends URIS2, E>(
|
||
|
A: Apply2C<F, E>
|
||
|
): <B>(second: Kind2<F, E, B>) => <A>(first: Kind2<F, E, A>) => Kind2<F, E, B>
|
||
|
export declare function apSecond<F extends URIS>(
|
||
|
A: Apply1<F>
|
||
|
): <B>(second: Kind<F, B>) => <A>(first: Kind<F, A>) => Kind<F, B>
|
||
|
export declare function apSecond<F>(A: Apply<F>): <B>(second: HKT<F, B>) => <A>(first: HKT<F, A>) => HKT<F, B>
|
||
|
/**
|
||
|
* @since 2.10.0
|
||
|
*/
|
||
|
export declare function apS<F extends URIS4>(
|
||
|
F: Apply4<F>
|
||
|
): <N extends string, A, S, R, E, B>(
|
||
|
name: Exclude<N, keyof A>,
|
||
|
fb: Kind4<F, S, R, E, B>
|
||
|
) => (fa: Kind4<F, S, R, E, A>) => Kind4<
|
||
|
F,
|
||
|
S,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
readonly [K in keyof A | N]: K extends keyof A ? A[K] : B
|
||
|
}
|
||
|
>
|
||
|
export declare function apS<F extends URIS3>(
|
||
|
F: Apply3<F>
|
||
|
): <N extends string, A, R, E, B>(
|
||
|
name: Exclude<N, keyof A>,
|
||
|
fb: Kind3<F, R, E, B>
|
||
|
) => (fa: Kind3<F, R, E, A>) => Kind3<
|
||
|
F,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
readonly [K in keyof A | N]: K extends keyof A ? A[K] : B
|
||
|
}
|
||
|
>
|
||
|
export declare function apS<F extends URIS3, E>(
|
||
|
F: Apply3C<F, E>
|
||
|
): <N extends string, A, R, B>(
|
||
|
name: Exclude<N, keyof A>,
|
||
|
fb: Kind3<F, R, E, B>
|
||
|
) => (fa: Kind3<F, R, E, A>) => Kind3<
|
||
|
F,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
readonly [K in keyof A | N]: K extends keyof A ? A[K] : B
|
||
|
}
|
||
|
>
|
||
|
export declare function apS<F extends URIS2>(
|
||
|
F: Apply2<F>
|
||
|
): <N extends string, A, E, B>(
|
||
|
name: Exclude<N, keyof A>,
|
||
|
fb: Kind2<F, E, B>
|
||
|
) => (fa: Kind2<F, E, A>) => Kind2<
|
||
|
F,
|
||
|
E,
|
||
|
{
|
||
|
readonly [K in keyof A | N]: K extends keyof A ? A[K] : B
|
||
|
}
|
||
|
>
|
||
|
export declare function apS<F extends URIS2, E>(
|
||
|
F: Apply2C<F, E>
|
||
|
): <N extends string, A, B>(
|
||
|
name: Exclude<N, keyof A>,
|
||
|
fb: Kind2<F, E, B>
|
||
|
) => (fa: Kind2<F, E, A>) => Kind2<
|
||
|
F,
|
||
|
E,
|
||
|
{
|
||
|
readonly [K in keyof A | N]: K extends keyof A ? A[K] : B
|
||
|
}
|
||
|
>
|
||
|
export declare function apS<F extends URIS>(
|
||
|
F: Apply1<F>
|
||
|
): <N extends string, A, B>(
|
||
|
name: Exclude<N, keyof A>,
|
||
|
fb: Kind<F, B>
|
||
|
) => (fa: Kind<F, A>) => Kind<
|
||
|
F,
|
||
|
{
|
||
|
readonly [K in keyof A | N]: K extends keyof A ? A[K] : B
|
||
|
}
|
||
|
>
|
||
|
export declare function apS<F>(F: Apply<F>): <N extends string, A, B>(
|
||
|
name: Exclude<N, keyof A>,
|
||
|
fb: HKT<F, B>
|
||
|
) => (fa: HKT<F, A>) => HKT<
|
||
|
F,
|
||
|
{
|
||
|
readonly [K in keyof A | N]: K extends keyof A ? A[K] : B
|
||
|
}
|
||
|
>
|
||
|
/**
|
||
|
* Lift a semigroup into 'F', the inner values are concatenated using the provided `Semigroup`.
|
||
|
*
|
||
|
* @since 2.10.0
|
||
|
*/
|
||
|
export declare function getApplySemigroup<F extends URIS4>(
|
||
|
F: Apply4<F>
|
||
|
): <A, S, R, E>(S: Semigroup<A>) => Semigroup<Kind4<F, S, R, E, A>>
|
||
|
export declare function getApplySemigroup<F extends URIS3>(
|
||
|
F: Apply3<F>
|
||
|
): <A, R, E>(S: Semigroup<A>) => Semigroup<Kind3<F, R, E, A>>
|
||
|
export declare function getApplySemigroup<F extends URIS3, E>(
|
||
|
F: Apply3C<F, E>
|
||
|
): <A, R>(S: Semigroup<A>) => Semigroup<Kind3<F, R, E, A>>
|
||
|
export declare function getApplySemigroup<F extends URIS2>(
|
||
|
F: Apply2<F>
|
||
|
): <A, E>(S: Semigroup<A>) => Semigroup<Kind2<F, E, A>>
|
||
|
export declare function getApplySemigroup<F extends URIS2, E>(
|
||
|
F: Apply2C<F, E>
|
||
|
): <A>(S: Semigroup<A>) => Semigroup<Kind2<F, E, A>>
|
||
|
export declare function getApplySemigroup<F extends URIS>(F: Apply1<F>): <A>(S: Semigroup<A>) => Semigroup<Kind<F, A>>
|
||
|
export declare function getApplySemigroup<F>(F: Apply<F>): <A>(S: Semigroup<A>) => Semigroup<HKT<F, A>>
|
||
|
/**
|
||
|
* Tuple sequencing, i.e., take a tuple of monadic actions and does them from left-to-right, returning the resulting tuple.
|
||
|
*
|
||
|
* @example
|
||
|
* import { sequenceT } from 'fp-ts/Apply'
|
||
|
* import * as O from 'fp-ts/Option'
|
||
|
*
|
||
|
* const sequenceTOption = sequenceT(O.Apply)
|
||
|
* assert.deepStrictEqual(sequenceTOption(O.some(1)), O.some([1]))
|
||
|
* assert.deepStrictEqual(sequenceTOption(O.some(1), O.some('2')), O.some([1, '2']))
|
||
|
* assert.deepStrictEqual(sequenceTOption(O.some(1), O.some('2'), O.none), O.none)
|
||
|
*
|
||
|
* @since 2.0.0
|
||
|
*/
|
||
|
export declare function sequenceT<F extends URIS4>(
|
||
|
F: Apply4<F>
|
||
|
): <S, R, E, T extends Array<Kind4<F, S, R, E, any>>>(
|
||
|
...t: T & {
|
||
|
readonly 0: Kind4<F, S, R, E, any>
|
||
|
}
|
||
|
) => Kind4<
|
||
|
F,
|
||
|
S,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof T]: [T[K]] extends [Kind4<F, S, R, E, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceT<F extends URIS3>(
|
||
|
F: Apply3<F>
|
||
|
): <R, E, T extends Array<Kind3<F, R, E, any>>>(
|
||
|
...t: T & {
|
||
|
readonly 0: Kind3<F, R, E, any>
|
||
|
}
|
||
|
) => Kind3<
|
||
|
F,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof T]: [T[K]] extends [Kind3<F, R, E, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceT<F extends URIS3, E>(
|
||
|
F: Apply3C<F, E>
|
||
|
): <R, T extends Array<Kind3<F, R, E, any>>>(
|
||
|
...t: T & {
|
||
|
readonly 0: Kind3<F, R, E, any>
|
||
|
}
|
||
|
) => Kind3<
|
||
|
F,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof T]: [T[K]] extends [Kind3<F, R, E, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceT<F extends URIS2>(
|
||
|
F: Apply2<F>
|
||
|
): <E, T extends Array<Kind2<F, E, any>>>(
|
||
|
...t: T & {
|
||
|
readonly 0: Kind2<F, E, any>
|
||
|
}
|
||
|
) => Kind2<
|
||
|
F,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof T]: [T[K]] extends [Kind2<F, E, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceT<F extends URIS2, E>(
|
||
|
F: Apply2C<F, E>
|
||
|
): <T extends Array<Kind2<F, E, any>>>(
|
||
|
...t: T & {
|
||
|
readonly 0: Kind2<F, E, any>
|
||
|
}
|
||
|
) => Kind2<
|
||
|
F,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof T]: [T[K]] extends [Kind2<F, E, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceT<F extends URIS>(
|
||
|
F: Apply1<F>
|
||
|
): <T extends Array<Kind<F, any>>>(
|
||
|
...t: T & {
|
||
|
readonly 0: Kind<F, any>
|
||
|
}
|
||
|
) => Kind<
|
||
|
F,
|
||
|
{
|
||
|
[K in keyof T]: [T[K]] extends [Kind<F, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceT<F>(F: Apply<F>): <T extends Array<HKT<F, any>>>(
|
||
|
...t: T & {
|
||
|
readonly 0: HKT<F, any>
|
||
|
}
|
||
|
) => HKT<
|
||
|
F,
|
||
|
{
|
||
|
[K in keyof T]: [T[K]] extends [HKT<F, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
declare type EnforceNonEmptyRecord<R> = keyof R extends never ? never : R
|
||
|
/**
|
||
|
* Like `Apply.sequenceT` but works with structs instead of tuples.
|
||
|
*
|
||
|
* @example
|
||
|
* import * as E from 'fp-ts/Either'
|
||
|
* import { sequenceS } from 'fp-ts/Apply'
|
||
|
*
|
||
|
* const ado = sequenceS(E.Apply)
|
||
|
*
|
||
|
* assert.deepStrictEqual(
|
||
|
* ado({
|
||
|
* a: E.right(1),
|
||
|
* b: E.right(true)
|
||
|
* }),
|
||
|
* E.right({ a: 1, b: true })
|
||
|
* )
|
||
|
* assert.deepStrictEqual(
|
||
|
* ado({
|
||
|
* a: E.right(1),
|
||
|
* b: E.left('error')
|
||
|
* }),
|
||
|
* E.left('error')
|
||
|
* )
|
||
|
*
|
||
|
* @since 2.0.0
|
||
|
*/
|
||
|
export declare function sequenceS<F extends URIS4>(
|
||
|
F: Apply4<F>
|
||
|
): <S, R, E, NER extends Record<string, Kind4<F, S, R, E, any>>>(
|
||
|
r: EnforceNonEmptyRecord<NER> & Record<string, Kind4<F, S, R, E, any>>
|
||
|
) => Kind4<
|
||
|
F,
|
||
|
S,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof NER]: [NER[K]] extends [Kind4<F, any, any, any, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceS<F extends URIS3>(
|
||
|
F: Apply3<F>
|
||
|
): <R, E, NER extends Record<string, Kind3<F, R, E, any>>>(
|
||
|
r: EnforceNonEmptyRecord<NER> & Record<string, Kind3<F, R, E, any>>
|
||
|
) => Kind3<
|
||
|
F,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof NER]: [NER[K]] extends [Kind3<F, any, any, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceS<F extends URIS3, E>(
|
||
|
F: Apply3C<F, E>
|
||
|
): <R, NER extends Record<string, Kind3<F, R, E, any>>>(
|
||
|
r: EnforceNonEmptyRecord<NER> & Record<string, Kind3<F, R, E, any>>
|
||
|
) => Kind3<
|
||
|
F,
|
||
|
R,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof NER]: [NER[K]] extends [Kind3<F, any, any, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceS<F extends URIS2>(
|
||
|
F: Apply2<F>
|
||
|
): <E, NER extends Record<string, Kind2<F, E, any>>>(
|
||
|
r: EnforceNonEmptyRecord<NER> & Record<string, Kind2<F, E, any>>
|
||
|
) => Kind2<
|
||
|
F,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof NER]: [NER[K]] extends [Kind2<F, any, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceS<F extends URIS2, E>(
|
||
|
F: Apply2C<F, E>
|
||
|
): <NER extends Record<string, Kind2<F, E, any>>>(
|
||
|
r: EnforceNonEmptyRecord<NER>
|
||
|
) => Kind2<
|
||
|
F,
|
||
|
E,
|
||
|
{
|
||
|
[K in keyof NER]: [NER[K]] extends [Kind2<F, any, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceS<F extends URIS>(
|
||
|
F: Apply1<F>
|
||
|
): <NER extends Record<string, Kind<F, any>>>(
|
||
|
r: EnforceNonEmptyRecord<NER>
|
||
|
) => Kind<
|
||
|
F,
|
||
|
{
|
||
|
[K in keyof NER]: [NER[K]] extends [Kind<F, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export declare function sequenceS<F>(F: Apply<F>): <NER extends Record<string, HKT<F, any>>>(
|
||
|
r: EnforceNonEmptyRecord<NER>
|
||
|
) => HKT<
|
||
|
F,
|
||
|
{
|
||
|
[K in keyof NER]: [NER[K]] extends [HKT<F, infer A>] ? A : never
|
||
|
}
|
||
|
>
|
||
|
export {}
|