/** * @since 2.13.0 */ import { Applicative2 } from './Applicative.js'; import { Apply2 } from './Apply.js'; import * as chainable from './Chain.js'; import { FromIO2 } from './FromIO.js'; import { FromReader2 } from './FromReader.js'; import { Functor2 } from './Functor.js'; import * as I from './IO.js'; import { IO } from './IO.js'; import { Monad2 } from './Monad.js'; import { MonadIO2 } from './MonadIO.js'; import { Pointed2 } from './Pointed.js'; import * as R from './Reader.js'; import { Reader } from './Reader.js'; import { ReadonlyNonEmptyArray } from './ReadonlyNonEmptyArray.js'; /** * @category model * @since 2.13.0 */ export interface ReaderIO { (r: R): I.IO; } /** * @category conversions * @since 2.13.0 */ export declare const fromReader: (fa: Reader) => ReaderIO; /** * @category conversions * @since 2.13.0 */ export declare const fromIO: (fa: IO ) => ReaderIO; /** * Changes the value of the local context during the execution of the action `ma` (similar to `Contravariant`'s * `contramap`). * * @since 2.13.0 */ export declare const local: (f: (r2: R2) => R1) => (ma: ReaderIO) => ReaderIO; /** * Less strict version of [`asksReaderIO`](#asksreaderio). * * The `W` suffix (short for **W**idening) means that the environment types will be merged. * * @category constructors * @since 2.13.0 */ export declare const asksReaderIOW: (f: (r1: R1) => ReaderIO) => ReaderIO; /** * Effectfully accesses the environment. * * @category constructors * @since 2.13.0 */ export declare const asksReaderIO: (f: (r: R) => ReaderIO) => ReaderIO; /** * `map` can be used to turn functions `(a: A) => B` into functions `(fa: F ) => F` whose argument and return types * use the type constructor `F` to represent some computational context. * * @category mapping * @since 2.13.0 */ export declare const map: (f: (a: A) => B) => (fa: ReaderIO) => ReaderIO; /** * @since 2.13.0 */ export declare const ap: (fa: ReaderIO) => (fab: ReaderIO B>) => ReaderIO; /** * Less strict version of [`ap`](#ap). * * The `W` suffix (short for **W**idening) means that the environment types will be merged. * * @since 2.13.0 */ export declare const apW: (fa: ReaderIO) => (fab: ReaderIO B>) => ReaderIO; /** * @category constructors * @since 2.13.0 */ export declare const of: (a: A) => ReaderIO; /** * @category sequencing * @since 2.14.0 */ export declare const flatMap: { (f: (a: A) => ReaderIO): (ma: ReaderIO) => ReaderIO; (ma: ReaderIO, f: (a: A) => ReaderIO): ReaderIO; }; /** * Less strict version of [`flatten`](#flatten). * * The `W` suffix (short for **W**idening) means that the environment types will be merged. * * @category sequencing * @since 2.13.0 */ export declare const flattenW: (mma: ReaderIO>) => ReaderIO; /** * @category sequencing * @since 2.13.0 */ export declare const flatten: (mma: ReaderIO>) => ReaderIO; /** * @category type lambdas * @since 2.13.0 */ export declare const URI = "ReaderIO"; /** * @category type lambdas * @since 2.13.0 */ export type URI = typeof URI; declare module './HKT.js' { interface URItoKind2 { readonly [URI]: ReaderIO; } } /** * @category instances * @since 2.13.0 */ export declare const Functor: Functor2; /** * Maps the value to the specified constant value. * * @category mapping * @since 2.16.0 */ export declare const as: { (a: A): (self: ReaderIO) => ReaderIO; (self: ReaderIO, a: A): ReaderIO; }; /** * Maps the value to the void constant value. * * @category mapping * @since 2.16.0 */ export declare const asUnit: (self: ReaderIO) => ReaderIO; /** * @category mapping * @since 2.13.0 */ export declare const flap: (a: A) => (fab: import("./HKT.js").Kind2<"ReaderIO", E, (a: A) => B>) => import("./HKT.js").Kind2<"ReaderIO", E, B>; /** * @category instances * @since 2.13.0 */ export declare const Pointed: Pointed2; /** * @category instances * @since 2.13.0 */ export declare const Apply: Apply2; /** * Combine two effectful actions, keeping only the result of the first. * * @since 2.13.0 */ export declare const apFirst: (second: ReaderIO) => (first: import("./HKT.js").Kind2<"ReaderIO", E, A>) => import("./HKT.js").Kind2<"ReaderIO", E, A>; /** * Combine two effectful actions, keeping only the result of the second. * * @since 2.13.0 */ export declare const apSecond: (second: ReaderIO) => (first: import("./HKT.js").Kind2<"ReaderIO", E, A>) => import("./HKT.js").Kind2<"ReaderIO", E, B>; /** * @category instances * @since 2.13.0 */ export declare const Applicative: Applicative2; /** * @category instances * @since 2.13.0 */ export declare const Chain: chainable.Chain2; /** * @category instances * @since 2.13.0 */ export declare const Monad: Monad2; /** * @category instances * @since 2.13.0 */ export declare const MonadIO: MonadIO2; /** * @category instances * @since 2.13.0 */ export declare const FromIO: FromIO2; /** * @category instances * @since 2.13.0 */ export declare const FromReader: FromReader2; /** * @category sequencing * @since 2.16.0 */ export declare const flatMapIO: { (f: (a: A) => IO): (self: ReaderIO) => ReaderIO; (self: ReaderIO, f: (a: A) => IO): ReaderIO; }; /** * @category sequencing * @since 2.16.0 */ export declare const flatMapReader: { (f: (a: A) => Reader): (self: ReaderIO) => ReaderIO; (self: ReaderIO, f: (a: A) => Reader): ReaderIO; }; /** * Composes computations in sequence, using the return value of one computation to determine the next computation and * keeping only the result of the first. * * @category combinators * @since 2.15.0 */ export declare const tap: { (self: ReaderIO, f: (a: A) => ReaderIO): ReaderIO; (f: (a: A) => ReaderIO): (self: ReaderIO) => ReaderIO; }; /** * Composes computations in sequence, using the return value of one computation to determine the next computation and * keeping only the result of the first. * * @example * import { pipe } from 'fp-ts/function' * import * as RIO from 'fp-ts/ReaderIO' * import * as Console from 'fp-ts/Console' * * // Will produce `Hello, fp-ts` to the stdout * const effect = pipe( * RIO.ask(), * RIO.tapIO((value) => Console.log(`Hello, ${value}`)), * ) * * async function test() { * assert.deepStrictEqual(effect('fp-ts')(), 'fp-ts') * } * * test() * * @category combinators * @since 2.16.0 */ export declare const tapIO: { (f: (a: A) => IO<_>): (self: ReaderIO) => ReaderIO; (self: ReaderIO, f: (a: A) => IO<_>): ReaderIO; }; /** * Composes computations in sequence, using the return value of one computation to determine the next computation and * keeping only the result of the first. * * @category combinators * @since 2.16.0 */ export declare const tapReader: { (f: (a: A) => Reader): (self: ReaderIO) => ReaderIO; (self: ReaderIO, f: (a: A) => Reader): ReaderIO; }; /** * @category lifting * @since 2.13.0 */ export declare const fromIOK: , B>(f: (...a: A) => I.IO) => (...a: A) => ReaderIO; /** * Alias of `flatMapIO`. * * @category legacy * @since 2.13.0 */ export declare const chainIOK: (f: (a: A) => I.IO) => (first: ReaderIO) => ReaderIO; /** * Alias of `tapIO`. * * @category legacy * @since 2.13.0 */ export declare const chainFirstIOK: (f: (a: A) => I.IO) => (first: ReaderIO) => ReaderIO; /** * Reads the current context. * * @category constructors * @since 2.13.0 */ export declare const ask: () => import("./HKT.js").Kind2<"ReaderIO", R, R>; /** * Projects a value from the global context in a `ReaderIO`. * * @category constructors * @since 2.13.0 */ export declare const asks: (f: (r: R) => A) => import("./HKT.js").Kind2<"ReaderIO", R, A>; /** * @category lifting * @since 2.13.0 */ export declare const fromReaderK: , R, B>(f: (...a: A) => R.Reader) => (...a: A) => ReaderIO; /** * Alias of `flatMapReader`. * * @category legacy * @since 2.13.0 */ export declare const chainReaderK: (f: (a: A) => R.Reader) => (ma: ReaderIO) => ReaderIO; /** * Alias of `flatMapReader`. * * Less strict version of [`chainReaderK`](#chainreaderk). * * The `W` suffix (short for **W**idening) means that the environment types will be merged. * * @category legacy * @since 2.13.0 */ export declare const chainReaderKW: (f: (a: A) => R.Reader) => (ma: ReaderIO) => ReaderIO; /** * Alias of `tapReader`. * * @category legacy * @since 2.13.0 */ export declare const chainFirstReaderK: (f: (a: A) => R.Reader) => (ma: ReaderIO) => ReaderIO; /** * Alias of `tapReader`. * * Less strict version of [`chainFirstReaderK`](#chainfirstreaderk). * * The `W` suffix (short for **W**idening) means that the environment types will be merged. * * @category legacy * @since 2.13.0 */ export declare const chainFirstReaderKW: (f: (a: A) => R.Reader) => (ma: ReaderIO) => ReaderIO; /** * @category do notation * @since 2.13.0 */ export declare const Do: ReaderIO; /** * @category do notation * @since 2.13.0 */ export declare const bindTo: (name: N) => (fa: import("./HKT.js").Kind2<"ReaderIO", E, A>) => import("./HKT.js").Kind2<"ReaderIO", E, { readonly [K in N]: A; }>; /** * @category do notation * @since 2.13.0 */ export declare const bind: (name: Exclude, f: (a: A) => import("./HKT.js").Kind2<"ReaderIO", E, B>) => (ma: import("./HKT.js").Kind2<"ReaderIO", E, A>) => import("./HKT.js").Kind2<"ReaderIO", E, { readonly [K in keyof A | N]: K extends keyof A ? A[K] : B; }>; /** * The `W` suffix (short for **W**idening) means that the environment types will be merged. * * @category do notation * @since 2.13.0 */ export declare const bindW: (name: Exclude, f: (a: A) => ReaderIO) => (fa: ReaderIO) => ReaderIO; /** * @category do notation * @since 2.13.0 */ export declare const apS: (name: Exclude, fb: ReaderIO) => (fa: import("./HKT.js").Kind2<"ReaderIO", E, A>) => import("./HKT.js").Kind2<"ReaderIO", E, { readonly [K in keyof A | N]: K extends keyof A ? A[K] : B; }>; /** * Less strict version of [`apS`](#aps). * * The `W` suffix (short for **W**idening) means that the environment types will be merged. * * @category do notation * @since 2.13.0 */ export declare const apSW: (name: Exclude, fb: ReaderIO) => (fa: ReaderIO) => ReaderIO; /** * @since 2.13.0 */ export declare const ApT: ReaderIO; /** * Equivalent to `ReadonlyNonEmptyArray#traverseWithIndex(Applicative)`. * * @category traversing * @since 2.13.0 */ export declare const traverseReadonlyNonEmptyArrayWithIndex: (f: (index: number, a: A) => ReaderIO) => ((as: ReadonlyNonEmptyArray ) => ReaderIO>); /** * Equivalent to `ReadonlyArray#traverseWithIndex(Applicative)`. * * @category traversing * @since 2.13.0 */ export declare const traverseReadonlyArrayWithIndex: (f: (index: number, a: A) => ReaderIO) => ((as: ReadonlyArray ) => ReaderIO>); /** * Equivalent to `ReadonlyArray#traverseWithIndex(Applicative)`. * * @category traversing * @since 2.13.0 */ export declare const traverseArrayWithIndex: (f: (index: number, a: A) => ReaderIO) => (as: ReadonlyArray ) => ReaderIO>; /** * Equivalent to `ReadonlyArray#traverse(Applicative)`. * * @category traversing * @since 2.13.0 */ export declare const traverseArray: (f: (a: A) => ReaderIO) => ((as: ReadonlyArray ) => ReaderIO>); /** * Equivalent to `ReadonlyArray#sequence(Applicative)`. * * @category traversing * @since 2.13.0 */ export declare const sequenceArray: (arr: ReadonlyArray>) => ReaderIO>; /** * Alias of `flatMap`. * * @category legacy * @since 2.13.0 */ export declare const chain: (f: (a: A) => ReaderIO) => (ma: ReaderIO) => ReaderIO; /** * Alias of `flatMap`. * * @category legacy * @since 2.13.0 */ export declare const chainW: (f: (a: A) => ReaderIO) => (ma: ReaderIO) => ReaderIO; /** * Alias of `tap`. * * @category legacy * @since 2.13.0 */ export declare const chainFirst: (f: (a: A) => ReaderIO) => (first: ReaderIO) => ReaderIO; /** * Alias of `tap`. * * @category legacy * @since 2.13.0 */ export declare const chainFirstW: (f: (a: A) => ReaderIO) => (ma: ReaderIO) => ReaderIO;