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banboshi_V2/HalftoneWeb/node_modules/fp-ts/lib/Option.d.ts

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  1. /**

  2.  * ```ts

  3.  * type Option<A> = None | Some<A>

  4.  * ```

  5.  *

  6.  * `Option<A>` is a container for an optional value of type `A`. If the value of type `A` is present, the `Option<A>` is

  7.  * an instance of `Some<A>`, containing the present value of type `A`. If the value is absent, the `Option<A>` is an

  8.  * instance of `None`.

  9.  *

  10.  * An option could be looked at as a collection or foldable structure with either one or zero elements.

  11.  * Another way to look at `Option` is: it represents the effect of a possibly failing computation.

  12.  *

  13.  *

  14.  * @example

  15.  * import * as O from 'fp-ts/Option'

  16.  * import { pipe } from 'fp-ts/function'

  17.  *

  18.  * const double = (n: number): number => n * 2

  19.  *

  20.  * export const imperative = (as: ReadonlyArray<number>): string => {

  21.  *   const head = (as: ReadonlyArray<number>): number => {

  22.  *     if (as.length === 0) {

  23.  *       throw new Error()

  24.  *     }

  25.  *     return as[0]

  26.  *   }

  27.  *   const inverse = (n: number): number => {

  28.  *     if (n === 0) {

  29.  *       throw new Error()

  30.  *     }

  31.  *     return 1 / n

  32.  *   }

  33.  *   try {

  34.  *     return `Result is ${inverse(double(head(as)))}`

  35.  *   } catch (e) {

  36.  *     return 'no result'

  37.  *   }

  38.  * }

  39.  *

  40.  * export const functional = (as: ReadonlyArray<number>): string => {

  41.  *   const head = <A>(as: ReadonlyArray<A>): O.Option<A> =>

  42.  *     as.length === 0 ? O.none : O.some(as[0])

  43.  *   const inverse = (n: number): O.Option<number> =>

  44.  *     n === 0 ? O.none : O.some(1 / n)

  45.  *   return pipe(

  46.  *     as,

  47.  *     head,

  48.  *     O.map(double),

  49.  *     O.chain(inverse),

  50.  *     O.match(

  51.  *       () => 'no result', // onNone handler

  52.  *       (head) => `Result is ${head}` // onSome handler

  53.  *     )

  54.  *   )

  55.  * }

  56.  *

  57.  * assert.deepStrictEqual(imperative([1, 2, 3]), functional([1, 2, 3]))

  58.  * assert.deepStrictEqual(imperative([]), functional([]))

  59.  * assert.deepStrictEqual(imperative([0]), functional([0]))

  60.  *

  61.  * @since 2.0.0

  62.  */

  63. import { Alt1 } from './Alt'

  64. import { Alternative1 } from './Alternative'

  65. import { Applicative1 } from './Applicative'

  66. import { Apply1 } from './Apply'

  67. import { Chain1 } from './Chain'

  68. import { Compactable1 } from './Compactable'

  69. import { Either } from './Either'

  70. import { Eq } from './Eq'

  71. import { Extend1 } from './Extend'

  72. import { Filterable1 } from './Filterable'

  73. import { Foldable1 } from './Foldable'

  74. import { FromEither1 } from './FromEither'

  75. import { Lazy } from './function'

  76. import { Functor1 } from './Functor'

  77. import { Monad1 } from './Monad'

  78. import { MonadThrow1 } from './MonadThrow'

  79. import { Monoid } from './Monoid'

  80. import { Ord } from './Ord'

  81. import { Pointed1 } from './Pointed'

  82. import { Predicate } from './Predicate'

  83. import { ReadonlyNonEmptyArray } from './ReadonlyNonEmptyArray'

  84. import { Refinement } from './Refinement'

  85. import { Semigroup } from './Semigroup'

  86. import { Separated } from './Separated'

  87. import { Show } from './Show'

  88. import { PipeableTraverse1, Traversable1 } from './Traversable'

  89. import { PipeableWilt1, PipeableWither1, Witherable1 } from './Witherable'

  90. import { Zero1 } from './Zero'

  91. /**

  92.  * @category model

  93.  * @since 2.0.0

  94.  */

  95. export interface None {

  96.   readonly _tag: 'None'

  97. }

  98. /**

  99.  * @category model

  100.  * @since 2.0.0

  101.  */

  102. export interface Some<A> {

  103.   readonly _tag: 'Some'

  104.   readonly value: A

  105. }

  106. /**

  107.  * @category model

  108.  * @since 2.0.0

  109.  */

  110. export declare type Option<A> = None | Some<A>

  111. /**

  112.  * `None` doesn't have a constructor, instead you can use it directly as a value. Represents a missing value.

  113.  *

  114.  * @category constructors

  115.  * @since 2.0.0

  116.  */

  117. export declare const none: Option<never>

  118. /**

  119.  * Constructs a `Some`. Represents an optional value that exists.

  120.  *

  121.  * @category constructors

  122.  * @since 2.0.0

  123.  */

  124. export declare const some: <A>(a: A) => Option<A>

  125. /**

  126.  * Returns a *smart constructor* based on the given predicate.

  127.  *

  128.  * @example

  129.  * import { none, some, fromPredicate } from 'fp-ts/Option'

  130.  *

  131.  * const getOption = fromPredicate((n: number) => n >= 0)

  132.  *

  133.  * assert.deepStrictEqual(getOption(-1), none)

  134.  * assert.deepStrictEqual(getOption(1), some(1))

  135.  *

  136.  * @category lifting

  137.  * @since 2.0.0

  138.  */

  139. export declare function fromPredicate<A, B extends A>(refinement: Refinement<A, B>): (a: A) => Option<B>

  140. export declare function fromPredicate<A>(predicate: Predicate<A>): <B extends A>(b: B) => Option<B>

  141. export declare function fromPredicate<A>(predicate: Predicate<A>): (a: A) => Option<A>

  142. /**

  143.  * Returns the `Left` value of an `Either` if possible.

  144.  *

  145.  * @example

  146.  * import { getLeft, none, some } from 'fp-ts/Option'

  147.  * import { right, left } from 'fp-ts/Either'

  148.  *

  149.  * assert.deepStrictEqual(getLeft(right(1)), none)

  150.  * assert.deepStrictEqual(getLeft(left('a')), some('a'))

  151.  *

  152.  * @category constructors

  153.  * @since 2.0.0

  154.  */

  155. export declare const getLeft: <E, A>(ma: Either<E, A>) => Option<E>

  156. /**

  157.  * Returns the `Right` value of an `Either` if possible.

  158.  *

  159.  * @example

  160.  * import { getRight, none, some } from 'fp-ts/Option'

  161.  * import { right, left } from 'fp-ts/Either'

  162.  *

  163.  * assert.deepStrictEqual(getRight(right(1)), some(1))

  164.  * assert.deepStrictEqual(getRight(left('a')), none)

  165.  *

  166.  * @category constructors

  167.  * @since 2.0.0

  168.  */

  169. export declare const getRight: <E, A>(ma: Either<E, A>) => Option<A>

  170. /**

  171.  * @category type lambdas

  172.  * @since 2.0.0

  173.  */

  174. export declare const URI = 'Option'

  175. /**

  176.  * @category type lambdas

  177.  * @since 2.0.0

  178.  */

  179. export declare type URI = typeof URI

  180. declare module './HKT' {

  181.   interface URItoKind<A> {

  182.     readonly [URI]: Option<A>

  183.   }

  184. }

  185. /**

  186.  * @category instances

  187.  * @since 2.0.0

  188.  */

  189. export declare const getShow: <A>(S: Show<A>) => Show<Option<A>>

  190. /**

  191.  * @example

  192.  * import { none, some, getEq } from 'fp-ts/Option'

  193.  * import * as N from 'fp-ts/number'

  194.  *

  195.  * const E = getEq(N.Eq)

  196.  * assert.strictEqual(E.equals(none, none), true)

  197.  * assert.strictEqual(E.equals(none, some(1)), false)

  198.  * assert.strictEqual(E.equals(some(1), none), false)

  199.  * assert.strictEqual(E.equals(some(1), some(2)), false)

  200.  * assert.strictEqual(E.equals(some(1), some(1)), true)

  201.  *

  202.  * @category instances

  203.  * @since 2.0.0

  204.  */

  205. export declare const getEq: <A>(E: Eq<A>) => Eq<Option<A>>

  206. /**

  207.  * The `Ord` instance allows `Option` values to be compared with

  208.  * `compare`, whenever there is an `Ord` instance for

  209.  * the type the `Option` contains.

  210.  *

  211.  * `None` is considered to be less than any `Some` value.

  212.  *

  213.  *

  214.  * @example

  215.  * import { none, some, getOrd } from 'fp-ts/Option'

  216.  * import * as N from 'fp-ts/number'

  217.  *

  218.  * const O = getOrd(N.Ord)

  219.  * assert.strictEqual(O.compare(none, none), 0)

  220.  * assert.strictEqual(O.compare(none, some(1)), -1)

  221.  * assert.strictEqual(O.compare(some(1), none), 1)

  222.  * assert.strictEqual(O.compare(some(1), some(2)), -1)

  223.  * assert.strictEqual(O.compare(some(1), some(1)), 0)

  224.  *

  225.  * @category instances

  226.  * @since 2.0.0

  227.  */

  228. export declare const getOrd: <A>(O: Ord<A>) => Ord<Option<A>>

  229. /**

  230.  * Monoid returning the left-most non-`None` value. If both operands are `Some`s then the inner values are

  231.  * concatenated using the provided `Semigroup`

  232.  *

  233.  * | x       | y       | concat(x, y)       |

  234.  * | ------- | ------- | ------------------ |

  235.  * | none    | none    | none               |

  236.  * | some(a) | none    | some(a)            |

  237.  * | none    | some(b) | some(b)            |

  238.  * | some(a) | some(b) | some(concat(a, b)) |

  239.  *

  240.  * @example

  241.  * import { getMonoid, some, none } from 'fp-ts/Option'

  242.  * import { SemigroupSum } from 'fp-ts/number'

  243.  *

  244.  * const M = getMonoid(SemigroupSum)

  245.  * assert.deepStrictEqual(M.concat(none, none), none)

  246.  * assert.deepStrictEqual(M.concat(some(1), none), some(1))

  247.  * assert.deepStrictEqual(M.concat(none, some(1)), some(1))

  248.  * assert.deepStrictEqual(M.concat(some(1), some(2)), some(3))

  249.  *

  250.  * @category instances

  251.  * @since 2.0.0

  252.  */

  253. export declare const getMonoid: <A>(S: Semigroup<A>) => Monoid<Option<A>>

  254. /**

  255.  * @category mapping

  256.  * @since 2.0.0

  257.  */

  258. export declare const map: <A, B>(f: (a: A) => B) => (fa: Option<A>) => Option<B>

  259. /**

  260.  * @category instances

  261.  * @since 2.7.0

  262.  */

  263. export declare const Functor: Functor1<URI>

  264. /**

  265.  * @category constructors

  266.  * @since 2.7.0

  267.  */

  268. export declare const of: <A>(a: A) => Option<A>

  269. /**

  270.  * @category instances

  271.  * @since 2.10.0

  272.  */

  273. export declare const Pointed: Pointed1<URI>

  274. /**

  275.  * @since 2.0.0

  276.  */

  277. export declare const ap: <A>(fa: Option<A>) => <B>(fab: Option<(a: A) => B>) => Option<B>

  278. /**

  279.  * @category instances

  280.  * @since 2.10.0

  281.  */

  282. export declare const Apply: Apply1<URI>

  283. /**

  284.  * @category instances

  285.  * @since 2.7.0

  286.  */

  287. export declare const Applicative: Applicative1<URI>

  288. /**

  289.  * Composes computations in sequence, using the return value of one computation to determine the next computation.

  290.  *

  291.  * @category sequencing

  292.  * @since 2.0.0

  293.  */

  294. export declare const chain: <A, B>(f: (a: A) => Option<B>) => (ma: Option<A>) => Option<B>

  295. /**

  296.  * @category instances

  297.  * @since 2.10.0

  298.  */

  299. export declare const Chain: Chain1<URI>

  300. /**

  301.  * @category instances

  302.  * @since 2.7.0

  303.  */

  304. export declare const Monad: Monad1<URI>

  305. /**

  306.  * @category folding

  307.  * @since 2.0.0

  308.  */

  309. export declare const reduce: <A, B>(b: B, f: (b: B, a: A) => B) => (fa: Option<A>) => B

  310. /**

  311.  * @category folding

  312.  * @since 2.0.0

  313.  */

  314. export declare const foldMap: <M>(M: Monoid<M>) => <A>(f: (a: A) => M) => (fa: Option<A>) => M

  315. /**

  316.  * @category folding

  317.  * @since 2.0.0

  318.  */

  319. export declare const reduceRight: <A, B>(b: B, f: (a: A, b: B) => B) => (fa: Option<A>) => B

  320. /**

  321.  * @category instances

  322.  * @since 2.7.0

  323.  */

  324. export declare const Foldable: Foldable1<URI>

  325. /**

  326.  * Less strict version of [`alt`](#alt).

  327.  *

  328.  * The `W` suffix (short for **W**idening) means that the return types will be merged.

  329.  *

  330.  * @category error handling

  331.  * @since 2.9.0

  332.  */

  333. export declare const altW: <B>(that: Lazy<Option<B>>) => <A>(fa: Option<A>) => Option<A | B>

  334. /**

  335.  * Identifies an associative operation on a type constructor. It is similar to `Semigroup`, except that it applies to

  336.  * types of kind `* -> *`.

  337.  *

  338.  * In case of `Option` returns the left-most non-`None` value.

  339.  *

  340.  * | x       | y       | pipe(x, alt(() => y) |

  341.  * | ------- | ------- | -------------------- |

  342.  * | none    | none    | none                 |

  343.  * | some(a) | none    | some(a)              |

  344.  * | none    | some(b) | some(b)              |

  345.  * | some(a) | some(b) | some(a)              |

  346.  *

  347.  * @example

  348.  * import * as O from 'fp-ts/Option'

  349.  * import { pipe } from 'fp-ts/function'

  350.  *

  351.  * assert.deepStrictEqual(

  352.  *   pipe(

  353.  *     O.none,

  354.  *     O.alt(() => O.none)

  355.  *   ),

  356.  *   O.none

  357.  * )

  358.  * assert.deepStrictEqual(

  359.  *   pipe(

  360.  *     O.some('a'),

  361.  *     O.alt<string>(() => O.none)

  362.  *   ),

  363.  *   O.some('a')

  364.  * )

  365.  * assert.deepStrictEqual(

  366.  *   pipe(

  367.  *     O.none,

  368.  *     O.alt(() => O.some('b'))

  369.  *   ),

  370.  *   O.some('b')

  371.  * )

  372.  * assert.deepStrictEqual(

  373.  *   pipe(

  374.  *     O.some('a'),

  375.  *     O.alt(() => O.some('b'))

  376.  *   ),

  377.  *   O.some('a')

  378.  * )

  379.  *

  380.  * @category error handling

  381.  * @since 2.0.0

  382.  */

  383. export declare const alt: <A>(that: Lazy<Option<A>>) => (fa: Option<A>) => Option<A>

  384. /**

  385.  * @category instances

  386.  * @since 2.7.0

  387.  */

  388. export declare const Alt: Alt1<URI>

  389. /**

  390.  * @since 2.7.0

  391.  */

  392. export declare const zero: <A>() => Option<A>

  393. /**

  394.  * @category instances

  395.  * @since 2.11.0

  396.  */

  397. export declare const Zero: Zero1<URI>

  398. /**

  399.  * @category do notation

  400.  * @since 2.11.0

  401.  */

  402. export declare const guard: (b: boolean) => Option<void>

  403. /**

  404.  * @category instances

  405.  * @since 2.7.0

  406.  */

  407. export declare const Alternative: Alternative1<URI>

  408. /**

  409.  * @since 2.0.0

  410.  */

  411. export declare const extend: <A, B>(f: (wa: Option<A>) => B) => (wa: Option<A>) => Option<B>

  412. /**

  413.  * @category instances

  414.  * @since 2.7.0

  415.  */

  416. export declare const Extend: Extend1<URI>

  417. /**

  418.  * @category filtering

  419.  * @since 2.0.0

  420.  */

  421. export declare const compact: <A>(fa: Option<Option<A>>) => Option<A>

  422. /**

  423.  * @category filtering

  424.  * @since 2.0.0

  425.  */

  426. export declare const separate: <A, B>(ma: Option<Either<A, B>>) => Separated<Option<A>, Option<B>>

  427. /**

  428.  * @category instances

  429.  * @since 2.7.0

  430.  */

  431. export declare const Compactable: Compactable1<URI>

  432. /**

  433.  * @category filtering

  434.  * @since 2.0.0

  435.  */

  436. export declare const filter: {

  437.   <A, B extends A>(refinement: Refinement<A, B>): (fa: Option<A>) => Option<B>

  438.   <A>(predicate: Predicate<A>): <B extends A>(fb: Option<B>) => Option<B>

  439.   <A>(predicate: Predicate<A>): (fa: Option<A>) => Option<A>

  440. }

  441. /**

  442.  * @category filtering

  443.  * @since 2.0.0

  444.  */

  445. export declare const filterMap: <A, B>(f: (a: A) => Option<B>) => (fa: Option<A>) => Option<B>

  446. /**

  447.  * @category filtering

  448.  * @since 2.0.0

  449.  */

  450. export declare const partition: {

  451.   <A, B extends A>(refinement: Refinement<A, B>): (fa: Option<A>) => Separated<Option<A>, Option<B>>

  452.   <A>(predicate: Predicate<A>): <B extends A>(fb: Option<B>) => Separated<Option<B>, Option<B>>

  453.   <A>(predicate: Predicate<A>): (fa: Option<A>) => Separated<Option<A>, Option<A>>

  454. }

  455. /**

  456.  * @category filtering

  457.  * @since 2.0.0

  458.  */

  459. export declare const partitionMap: <A, B, C>(

  460.   f: (a: A) => Either<B, C>

  461. ) => (fa: Option<A>) => Separated<Option<B>, Option<C>>

  462. /**

  463.  * @category instances

  464.  * @since 2.7.0

  465.  */

  466. export declare const Filterable: Filterable1<URI>

  467. /**

  468.  * @category traversing

  469.  * @since 2.6.3

  470.  */

  471. export declare const traverse: PipeableTraverse1<URI>

  472. /**

  473.  * @category traversing

  474.  * @since 2.6.3

  475.  */

  476. export declare const sequence: Traversable1<URI>['sequence']

  477. /**

  478.  * @category instances

  479.  * @since 2.7.0

  480.  */

  481. export declare const Traversable: Traversable1<URI>

  482. /**

  483.  * @category filtering

  484.  * @since 2.6.5

  485.  */

  486. export declare const wither: PipeableWither1<URI>

  487. /**

  488.  * @category filtering

  489.  * @since 2.6.5

  490.  */

  491. export declare const wilt: PipeableWilt1<URI>

  492. /**

  493.  * @category instances

  494.  * @since 2.7.0

  495.  */

  496. export declare const Witherable: Witherable1<URI>

  497. /**

  498.  * @since 2.7.0

  499.  */

  500. export declare const throwError: MonadThrow1<URI>['throwError']

  501. /**

  502.  * @category instances

  503.  * @since 2.7.0

  504.  */

  505. export declare const MonadThrow: MonadThrow1<URI>

  506. /**

  507.  * Transforms an `Either` to an `Option` discarding the error.

  508.  *

  509.  * Alias of [getRight](#getright)

  510.  *

  511.  * @category conversions

  512.  * @since 2.0.0

  513.  */

  514. export declare const fromEither: <A>(fa: Either<unknown, A>) => Option<A>

  515. /**

  516.  * @category instances

  517.  * @since 2.11.0

  518.  */

  519. export declare const FromEither: FromEither1<URI>

  520. /**

  521.  * Returns `true` if the option is an instance of `Some`, `false` otherwise.

  522.  *

  523.  * @example

  524.  * import { some, none, isSome } from 'fp-ts/Option'

  525.  *

  526.  * assert.strictEqual(isSome(some(1)), true)

  527.  * assert.strictEqual(isSome(none), false)

  528.  *

  529.  * @category refinements

  530.  * @since 2.0.0

  531.  */

  532. export declare const isSome: <A>(fa: Option<A>) => fa is Some<A>

  533. /**

  534.  * Returns `true` if the option is `None`, `false` otherwise.

  535.  *

  536.  * @example

  537.  * import { some, none, isNone } from 'fp-ts/Option'

  538.  *

  539.  * assert.strictEqual(isNone(some(1)), false)

  540.  * assert.strictEqual(isNone(none), true)

  541.  *

  542.  * @category refinements

  543.  * @since 2.0.0

  544.  */

  545. export declare const isNone: (fa: Option<unknown>) => fa is None

  546. /**

  547.  * Less strict version of [`match`](#match).

  548.  *

  549.  * The `W` suffix (short for **W**idening) means that the handler return types will be merged.

  550.  *

  551.  * @category pattern matching

  552.  * @since 2.10.0

  553.  */

  554. export declare const matchW: <B, A, C>(onNone: Lazy<B>, onSome: (a: A) => C) => (ma: Option<A>) => B | C

  555. /**

  556.  * Alias of [`matchW`](#matchw).

  557.  *

  558.  * @category pattern matching

  559.  * @since 2.10.0

  560.  */

  561. export declare const foldW: <B, A, C>(onNone: Lazy<B>, onSome: (a: A) => C) => (ma: Option<A>) => B | C

  562. /**

  563.  * Takes a (lazy) default value, a function, and an `Option` value, if the `Option` value is `None` the default value is

  564.  * returned, otherwise the function is applied to the value inside the `Some` and the result is returned.

  565.  *

  566.  * @example

  567.  * import { some, none, match } from 'fp-ts/Option'

  568.  * import { pipe } from 'fp-ts/function'

  569.  *

  570.  * assert.strictEqual(

  571.  *   pipe(

  572.  *     some(1),

  573.  *     match(() => 'a none', a => `a some containing ${a}`)

  574.  *   ),

  575.  *   'a some containing 1'

  576.  * )

  577.  *

  578.  * assert.strictEqual(

  579.  *   pipe(

  580.  *     none,

  581.  *     match(() => 'a none', a => `a some containing ${a}`)

  582.  *   ),

  583.  *   'a none'

  584.  * )

  585.  *

  586.  * @category pattern matching

  587.  * @since 2.10.0

  588.  */

  589. export declare const match: <A, B>(onNone: Lazy<B>, onSome: (a: A) => B) => (ma: Option<A>) => B

  590. /**

  591.  * Alias of [`match`](#match).

  592.  *

  593.  * @category pattern matching

  594.  * @since 2.0.0

  595.  */

  596. export declare const fold: <A, B>(onNone: Lazy<B>, onSome: (a: A) => B) => (ma: Option<A>) => B

  597. /**

  598.  * Less strict version of [`getOrElse`](#getorelse).

  599.  *

  600.  * The `W` suffix (short for **W**idening) means that the handler return type will be merged.

  601.  *

  602.  * @category error handling

  603.  * @since 2.6.0

  604.  */

  605. export declare const getOrElseW: <B>(onNone: Lazy<B>) => <A>(ma: Option<A>) => B | A

  606. /**

  607.  * Extracts the value out of the structure, if it exists. Otherwise returns the given default value

  608.  *

  609.  * @example

  610.  * import { some, none, getOrElse } from 'fp-ts/Option'

  611.  * import { pipe } from 'fp-ts/function'

  612.  *

  613.  * assert.strictEqual(

  614.  *   pipe(

  615.  *     some(1),

  616.  *     getOrElse(() => 0)

  617.  *   ),

  618.  *   1

  619.  * )

  620.  * assert.strictEqual(

  621.  *   pipe(

  622.  *     none,

  623.  *     getOrElse(() => 0)

  624.  *   ),

  625.  *   0

  626.  * )

  627.  *

  628.  * @category error handling

  629.  * @since 2.0.0

  630.  */

  631. export declare const getOrElse: <A>(onNone: Lazy<A>) => (ma: Option<A>) => A

  632. /**

  633.  * @category mapping

  634.  * @since 2.10.0

  635.  */

  636. export declare const flap: <A>(a: A) => <B>(fab: Option<(a: A) => B>) => Option<B>

  637. /**

  638.  * Combine two effectful actions, keeping only the result of the first.

  639.  *

  640.  * @since 2.0.0

  641.  */

  642. export declare const apFirst: <B>(second: Option<B>) => <A>(first: Option<A>) => Option<A>

  643. /**

  644.  * Combine two effectful actions, keeping only the result of the second.

  645.  *

  646.  * @since 2.0.0

  647.  */

  648. export declare const apSecond: <B>(second: Option<B>) => <A>(first: Option<A>) => Option<B>

  649. /**

  650.  * @category sequencing

  651.  * @since 2.0.0

  652.  */

  653. export declare const flatten: <A>(mma: Option<Option<A>>) => Option<A>

  654. /**

  655.  * Composes computations in sequence, using the return value of one computation to determine the next computation and

  656.  * keeping only the result of the first.

  657.  *

  658.  * @category sequencing

  659.  * @since 2.0.0

  660.  */

  661. export declare const chainFirst: <A, B>(f: (a: A) => Option<B>) => (first: Option<A>) => Option<A>

  662. /**

  663.  * @since 2.0.0

  664.  */

  665. export declare const duplicate: <A>(ma: Option<A>) => Option<Option<A>>

  666. /**

  667.  * @category lifting

  668.  * @since 2.11.0

  669.  */

  670. export declare const fromEitherK: <E, A extends ReadonlyArray<unknown>, B>(

  671.   f: (...a: A) => Either<E, B>

  672. ) => (...a: A) => Option<B>

  673. /**

  674.  * @category sequencing

  675.  * @since 2.11.0

  676.  */

  677. export declare const chainEitherK: <E, A, B>(f: (a: A) => Either<E, B>) => (ma: Option<A>) => Option<B>

  678. /**

  679.  * @category sequencing

  680.  * @since 2.12.0

  681.  */

  682. export declare const chainFirstEitherK: <E, A, B>(f: (a: A) => Either<E, B>) => (ma: Option<A>) => Option<A>

  683. /**

  684.  * Constructs a new `Option` from a nullable type. If the value is `null` or `undefined`, returns `None`, otherwise

  685.  * returns the value wrapped in a `Some`.

  686.  *

  687.  * @example

  688.  * import { none, some, fromNullable } from 'fp-ts/Option'

  689.  *

  690.  * assert.deepStrictEqual(fromNullable(undefined), none)

  691.  * assert.deepStrictEqual(fromNullable(null), none)

  692.  * assert.deepStrictEqual(fromNullable(1), some(1))

  693.  *

  694.  * @category conversions

  695.  * @since 2.0.0

  696.  */

  697. export declare const fromNullable: <A>(a: A) => Option<NonNullable<A>>

  698. /**

  699.  * Transforms an exception into an `Option`. If `f` throws, returns `None`, otherwise returns the output wrapped in a

  700.  * `Some`.

  701.  *

  702.  * See also [`tryCatchK`](#trycatchk).

  703.  *

  704.  * @example

  705.  * import { none, some, tryCatch } from 'fp-ts/Option'

  706.  *

  707.  * assert.deepStrictEqual(

  708.  *   tryCatch(() => {

  709.  *     throw new Error()

  710.  *   }),

  711.  *   none

  712.  * )

  713.  * assert.deepStrictEqual(tryCatch(() => 1), some(1))

  714.  *

  715.  * @category interop

  716.  * @since 2.0.0

  717.  */

  718. export declare const tryCatch: <A>(f: Lazy<A>) => Option<A>

  719. /**

  720.  * Converts a function that may throw to one returning a `Option`.

  721.  *

  722.  * @category interop

  723.  * @since 2.10.0

  724.  */

  725. export declare const tryCatchK: <A extends readonly unknown[], B>(f: (...a: A) => B) => (...a: A) => Option<B>

  726. /**

  727.  * Returns a *smart constructor* from a function that returns a nullable value.

  728.  *

  729.  * @example

  730.  * import { fromNullableK, none, some } from 'fp-ts/Option'

  731.  *

  732.  * const f = (s: string): number | undefined => {

  733.  *   const n = parseFloat(s)

  734.  *   return isNaN(n) ? undefined : n

  735.  * }

  736.  *

  737.  * const g = fromNullableK(f)

  738.  *

  739.  * assert.deepStrictEqual(g('1'), some(1))

  740.  * assert.deepStrictEqual(g('a'), none)

  741.  *

  742.  * @category lifting

  743.  * @since 2.9.0

  744.  */

  745. export declare const fromNullableK: <A extends ReadonlyArray<unknown>, B>(

  746.   f: (...a: A) => B | null | undefined

  747. ) => (...a: A) => Option<NonNullable<B>>

  748. /**

  749.  * This is `chain` + `fromNullable`, useful when working with optional values.

  750.  *

  751.  * @example

  752.  * import { some, none, fromNullable, chainNullableK } from 'fp-ts/Option'

  753.  * import { pipe } from 'fp-ts/function'

  754.  *

  755.  * interface Employee {

  756.  *   readonly company?: {

  757.  *     readonly address?: {

  758.  *       readonly street?: {

  759.  *         readonly name?: string

  760.  *       }

  761.  *     }

  762.  *   }

  763.  * }

  764.  *

  765.  * const employee1: Employee = { company: { address: { street: { name: 'high street' } } } }

  766.  *

  767.  * assert.deepStrictEqual(

  768.  *   pipe(

  769.  *     fromNullable(employee1.company),

  770.  *     chainNullableK(company => company.address),

  771.  *     chainNullableK(address => address.street),

  772.  *     chainNullableK(street => street.name)

  773.  *   ),

  774.  *   some('high street')

  775.  * )

  776.  *

  777.  * const employee2: Employee = { company: { address: { street: {} } } }

  778.  *

  779.  * assert.deepStrictEqual(

  780.  *   pipe(

  781.  *     fromNullable(employee2.company),

  782.  *     chainNullableK(company => company.address),

  783.  *     chainNullableK(address => address.street),

  784.  *     chainNullableK(street => street.name)

  785.  *   ),

  786.  *   none

  787.  * )

  788.  *

  789.  * @category sequencing

  790.  * @since 2.9.0

  791.  */

  792. export declare const chainNullableK: <A, B>(

  793.   f: (a: A) => B | null | undefined

  794. ) => (ma: Option<A>) => Option<NonNullable<B>>

  795. /**

  796.  * Extracts the value out of the structure, if it exists. Otherwise returns `null`.

  797.  *

  798.  * @example

  799.  * import { some, none, toNullable } from 'fp-ts/Option'

  800.  * import { pipe } from 'fp-ts/function'

  801.  *

  802.  * assert.strictEqual(

  803.  *   pipe(

  804.  *     some(1),

  805.  *     toNullable

  806.  *   ),

  807.  *   1

  808.  * )

  809.  * assert.strictEqual(

  810.  *   pipe(

  811.  *     none,

  812.  *     toNullable

  813.  *   ),

  814.  *   null

  815.  * )

  816.  *

  817.  * @category conversions

  818.  * @since 2.0.0

  819.  */

  820. export declare const toNullable: <A>(ma: Option<A>) => A | null

  821. /**

  822.  * Extracts the value out of the structure, if it exists. Otherwise returns `undefined`.

  823.  *

  824.  * @example

  825.  * import { some, none, toUndefined } from 'fp-ts/Option'

  826.  * import { pipe } from 'fp-ts/function'

  827.  *

  828.  * assert.strictEqual(

  829.  *   pipe(

  830.  *     some(1),

  831.  *     toUndefined

  832.  *   ),

  833.  *   1

  834.  * )

  835.  * assert.strictEqual(

  836.  *   pipe(

  837.  *     none,

  838.  *     toUndefined

  839.  *   ),

  840.  *   undefined

  841.  * )

  842.  *

  843.  * @category conversions

  844.  * @since 2.0.0

  845.  */

  846. export declare const toUndefined: <A>(ma: Option<A>) => A | undefined

  847. /**

  848.  * Returns `true` if `ma` contains `a`

  849.  *

  850.  * @example

  851.  * import { some, none, elem } from 'fp-ts/Option'

  852.  * import { pipe } from 'fp-ts/function'

  853.  * import * as N from 'fp-ts/number'

  854.  *

  855.  * assert.strictEqual(pipe(some(1), elem(N.Eq)(1)), true)

  856.  * assert.strictEqual(pipe(some(1), elem(N.Eq)(2)), false)

  857.  * assert.strictEqual(pipe(none, elem(N.Eq)(1)), false)

  858.  *

  859.  * @since 2.0.0

  860.  */

  861. export declare function elem<A>(E: Eq<A>): {

  862.   (a: A): (ma: Option<A>) => boolean

  863.   (a: A, ma: Option<A>): boolean

  864. }

  865. /**

  866.  * Returns `true` if the predicate is satisfied by the wrapped value

  867.  *

  868.  * @example

  869.  * import { some, none, exists } from 'fp-ts/Option'

  870.  * import { pipe } from 'fp-ts/function'

  871.  *

  872.  * assert.strictEqual(

  873.  *   pipe(

  874.  *     some(1),

  875.  *     exists(n => n > 0)

  876.  *   ),

  877.  *   true

  878.  * )

  879.  * assert.strictEqual(

  880.  *   pipe(

  881.  *     some(1),

  882.  *     exists(n => n > 1)

  883.  *   ),

  884.  *   false

  885.  * )

  886.  * assert.strictEqual(

  887.  *   pipe(

  888.  *     none,

  889.  *     exists(n => n > 0)

  890.  *   ),

  891.  *   false

  892.  * )

  893.  *

  894.  * @since 2.0.0

  895.  */

  896. export declare const exists: <A>(predicate: Predicate<A>) => (ma: Option<A>) => boolean

  897. /**

  898.  * @category do notation

  899.  * @since 2.9.0

  900.  */

  901. export declare const Do: Option<{}>

  902. /**

  903.  * @category do notation

  904.  * @since 2.8.0

  905.  */

  906. export declare const bindTo: <N extends string>(name: N) => <A>(fa: Option<A>) => Option<{ readonly [K in N]: A }>

  907. declare const let_: <N extends string, A, B>(

  908.   name: Exclude<N, keyof A>,

  909.   f: (a: A) => B

  910. ) => (fa: Option<A>) => Option<{ readonly [K in N | keyof A]: K extends keyof A ? A[K] : B }>

  911. export {

  912.   /**

  913.    * @category do notation

  914.    * @since 2.13.0

  915.    */

  916.   let_ as let

  917. }

  918. /**

  919.  * @category do notation

  920.  * @since 2.8.0

  921.  */

  922. export declare const bind: <N extends string, A, B>(

  923.   name: Exclude<N, keyof A>,

  924.   f: (a: A) => Option<B>

  925. ) => (ma: Option<A>) => Option<{ readonly [K in N | keyof A]: K extends keyof A ? A[K] : B }>

  926. /**

  927.  * @category do notation

  928.  * @since 2.8.0

  929.  */

  930. export declare const apS: <N extends string, A, B>(

  931.   name: Exclude<N, keyof A>,

  932.   fb: Option<B>

  933. ) => (fa: Option<A>) => Option<{ readonly [K in N | keyof A]: K extends keyof A ? A[K] : B }>

  934. /**

  935.  * @since 2.11.0

  936.  */

  937. export declare const ApT: Option<readonly []>

  938. /**

  939.  * Equivalent to `ReadonlyNonEmptyArray#traverseWithIndex(Applicative)`.

  940.  *

  941.  * @category traversing

  942.  * @since 2.11.0

  943.  */

  944. export declare const traverseReadonlyNonEmptyArrayWithIndex: <A, B>(

  945.   f: (index: number, a: A) => Option<B>

  946. ) => (as: ReadonlyNonEmptyArray<A>) => Option<ReadonlyNonEmptyArray<B>>

  947. /**

  948.  * Equivalent to `ReadonlyArray#traverseWithIndex(Applicative)`.

  949.  *

  950.  * @category traversing

  951.  * @since 2.11.0

  952.  */

  953. export declare const traverseReadonlyArrayWithIndex: <A, B>(

  954.   f: (index: number, a: A) => Option<B>

  955. ) => (as: readonly A[]) => Option<readonly B[]>

  956. /**

  957.  * Equivalent to `ReadonlyArray#traverseWithIndex(Applicative)`.

  958.  *

  959.  * @category traversing

  960.  * @since 2.9.0

  961.  */

  962. export declare const traverseArrayWithIndex: <A, B>(

  963.   f: (index: number, a: A) => Option<B>

  964. ) => (as: ReadonlyArray<A>) => Option<ReadonlyArray<B>>

  965. /**

  966.  * Equivalent to `ReadonlyArray#traverse(Applicative)`.

  967.  *

  968.  * @category traversing

  969.  * @since 2.9.0

  970.  */

  971. export declare const traverseArray: <A, B>(f: (a: A) => Option<B>) => (as: readonly A[]) => Option<readonly B[]>

  972. /**

  973.  * Equivalent to `ReadonlyArray#sequence(Applicative)`.

  974.  *

  975.  * @category traversing

  976.  * @since 2.9.0

  977.  */

  978. export declare const sequenceArray: <A>(arr: ReadonlyArray<Option<A>>) => Option<ReadonlyArray<A>>

  979. /**

  980.  * Use `Refinement` module instead.

  981.  *

  982.  * @category zone of death

  983.  * @since 2.0.0

  984.  * @deprecated

  985.  */

  986. export declare function getRefinement<A, B extends A>(getOption: (a: A) => Option<B>): Refinement<A, B>

  987. /**

  988.  * Use [`chainNullableK`](#chainnullablek) instead.

  989.  *

  990.  * @category zone of death

  991.  * @since 2.0.0

  992.  * @deprecated

  993.  */

  994. export declare const mapNullable: <A, B>(f: (a: A) => B | null | undefined) => (ma: Option<A>) => Option<NonNullable<B>>

  995. /**

  996.  * This instance is deprecated, use small, specific instances instead.

  997.  * For example if a function needs a `Functor` instance, pass `O.Functor` instead of `O.option`

  998.  * (where `O` is from `import O from 'fp-ts/Option'`)

  999.  *

  1000.  * @category zone of death

  1001.  * @since 2.0.0

  1002.  * @deprecated

  1003.  */

  1004. export declare const option: Monad1<URI> &

  1005.   Foldable1<URI> &

  1006.   Alternative1<URI> &

  1007.   Extend1<URI> &

  1008.   Witherable1<URI> &

  1009.   MonadThrow1<URI>

  1010. /**

  1011.  * Use [`getApplySemigroup`](./Apply.ts.html#getapplysemigroup) instead.

  1012.  *

  1013.  * @category zone of death

  1014.  * @since 2.0.0

  1015.  * @deprecated

  1016.  */

  1017. export declare const getApplySemigroup: <A>(S: Semigroup<A>) => Semigroup<Option<A>>

  1018. /**

  1019.  * Use [`getApplicativeMonoid`](./Applicative.ts.html#getapplicativemonoid) instead.

  1020.  *

  1021.  * @category zone of death

  1022.  * @since 2.0.0

  1023.  * @deprecated

  1024.  */

  1025. export declare const getApplyMonoid: <A>(M: Monoid<A>) => Monoid<Option<A>>

  1026. /**

  1027.  * Use

  1028.  *

  1029.  * ```ts

  1030.  * import { first } from 'fp-ts/Semigroup'

  1031.  * import { getMonoid } from 'fp-ts/Option'

  1032.  *

  1033.  * getMonoid(first())

  1034.  * ```

  1035.  *

  1036.  * instead.

  1037.  *

  1038.  * Monoid returning the left-most non-`None` value

  1039.  *

  1040.  * | x       | y       | concat(x, y) |

  1041.  * | ------- | ------- | ------------ |

  1042.  * | none    | none    | none         |

  1043.  * | some(a) | none    | some(a)      |

  1044.  * | none    | some(b) | some(b)      |

  1045.  * | some(a) | some(b) | some(a)      |

  1046.  *

  1047.  * @example

  1048.  * import { getFirstMonoid, some, none } from 'fp-ts/Option'

  1049.  *

  1050.  * const M = getFirstMonoid<number>()

  1051.  * assert.deepStrictEqual(M.concat(none, none), none)

  1052.  * assert.deepStrictEqual(M.concat(some(1), none), some(1))

  1053.  * assert.deepStrictEqual(M.concat(none, some(2)), some(2))

  1054.  * assert.deepStrictEqual(M.concat(some(1), some(2)), some(1))

  1055.  *

  1056.  * @category zone of death

  1057.  * @since 2.0.0

  1058.  * @deprecated

  1059.  */

  1060. export declare const getFirstMonoid: <A = never>() => Monoid<Option<A>>

  1061. /**

  1062.  * Use

  1063.  *

  1064.  * ```ts

  1065.  * import { last } from 'fp-ts/Semigroup'

  1066.  * import { getMonoid } from 'fp-ts/Option'

  1067.  *

  1068.  * getMonoid(last())

  1069.  * ```

  1070.  *

  1071.  * instead.

  1072.  *

  1073.  * Monoid returning the right-most non-`None` value

  1074.  *

  1075.  * | x       | y       | concat(x, y) |

  1076.  * | ------- | ------- | ------------ |

  1077.  * | none    | none    | none         |

  1078.  * | some(a) | none    | some(a)      |

  1079.  * | none    | some(b) | some(b)      |

  1080.  * | some(a) | some(b) | some(b)      |

  1081.  *

  1082.  * @example

  1083.  * import { getLastMonoid, some, none } from 'fp-ts/Option'

  1084.  *

  1085.  * const M = getLastMonoid<number>()

  1086.  * assert.deepStrictEqual(M.concat(none, none), none)

  1087.  * assert.deepStrictEqual(M.concat(some(1), none), some(1))

  1088.  * assert.deepStrictEqual(M.concat(none, some(2)), some(2))

  1089.  * assert.deepStrictEqual(M.concat(some(1), some(2)), some(2))

  1090.  *

  1091.  * @category zone of death

  1092.  * @since 2.0.0

  1093.  * @deprecated

  1094.  */

  1095. export declare const getLastMonoid: <A = never>() => Monoid<Option<A>>