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option.ts
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option.ts
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/**
* The Option type is generally considered functional programming's response to
* handling null or undefined. Sometimes Option is also called Maybe. Its
* purpose is to represent the possibility that some data is not available.
*
* @module Option
* @since 2.0.0
*/
import type { $, Kind, Out } from "./kind.ts";
import type { Applicable } from "./applicable.ts";
import type { Combinable } from "./combinable.ts";
import type { Comparable } from "./comparable.ts";
import type { Either } from "./either.ts";
import type { Filterable } from "./filterable.ts";
import type { Bind, Flatmappable, Tap } from "./flatmappable.ts";
import type { Initializable } from "./initializable.ts";
import type { BindTo, Mappable } from "./mappable.ts";
import type { Pair } from "./pair.ts";
import type { Predicate } from "./predicate.ts";
import type { Foldable } from "./foldable.ts";
import type { Refinement } from "./refinement.ts";
import type { Showable } from "./showable.ts";
import type { Sortable } from "./sortable.ts";
import type { Traversable } from "./traversable.ts";
import type { Wrappable } from "./wrappable.ts";
import { isNotNil } from "./nil.ts";
import { fromCompare } from "./comparable.ts";
import { fromSort } from "./sortable.ts";
import { flow, handleThrow, pipe } from "./fn.ts";
import { createBind, createTap } from "./flatmappable.ts";
import { createBindTo } from "./mappable.ts";
/**
* The None type represents the non-existence of a value.
*
* @since 2.00.
*/
export type None = { tag: "None" };
/**
* The Some type represents the existence of a value.
*
* @since 2.00.
*/
export type Some<V> = { tag: "Some"; value: V };
/**
* The Option<A> represents a type A that may or may not exist. It's the functional
* progamming equivalent of A | undefined | null.
*
* @since 2.0.0
*/
export type Option<A> = Some<A> | None;
/**
* Specifies Option as a Higher Kinded Type, with covariant
* parameter A corresponding to the 0th index of any substitutions.
*
* @since 2.0.0
*/
export interface KindOption extends Kind {
readonly kind: Option<Out<this, 0>>;
}
/**
* The cannonical implementation of the None type. Since all None values are equivalent there
* is no reason to construct more than one object instance.
*
* @example
* ```ts
* import type { Option } from "./option.ts";
* import * as O from "./option.ts";
*
* function fromNilable<A>(a: A | null | undefined): Option<A> {
* return a === null || a === undefined ? O.none : O.some(a);
* }
*
* const result1 = fromNilable(null); // None
* const result2 = fromNilable(1); // Some<number>
* ```
*
* @since 2.0.0
*/
export const none: Option<never> = { tag: "None" };
/**
* The some constructer takes any value and wraps it in the Some type.
*
* @example
* ```ts
* import type { Option } from "./option.ts";
* import * as O from "./option.ts";
*
* function fromNilable<A>(a: A | null | undefined): Option<A> {
* return a === null || a === undefined ? O.none : O.some(a);
* }
*
* const result1 = fromNilable(null); // None
* const result2 = fromNilable(1); // Some<number>
* ```
*
* @since 2.0.0
*/
export function some<A>(value: A): Option<A> {
return ({ tag: "Some", value });
}
/**
* The constNone is a thunk that returns the canonical none instance.
*
* @since 2.0.0
*/
export function constNone<A = never>(): Option<A> {
return none;
}
/**
* @since 2.0.0
*/
export function init<A = never>(): Option<A> {
return none;
}
/**
* Fail is an alias of constNone.
*/
export function fail<A = never>(): Option<A> {
return none;
}
/**
* The fromNullable function takes a potentially null or undefined value
* and maps null or undefined to None and non-null and non-undefined
* values to Some<NonNullable<A>>.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const a: number | undefined = undefined;
* const b: number | undefined = 2;
* const c = [1, 2, 3];
*
* const result1 = O.fromNullable(a); // None
* const result2 = O.fromNullable(b); // Some<number>
* const result3 = O.fromNullable(c[3]); // None
* ```
*
* @since 2.0.0
*/
export function fromNullable<A>(a: A): Option<NonNullable<A>> {
return isNotNil(a) ? some(a) : none;
}
/**
* The fromPredicate function will test the value a with the predicate. If
* the predicate evaluates to false then the function will return a None,
* otherwise it will return the value wrapped in Some.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const positive = O.fromPredicate((n: number) => n > 0);
*
* const result1 = positive(-1); // None
* const result2 = positive(1); // Some<number>
* ```
*
* @since 2.0.0
*/
export function fromPredicate<A, B extends A>(
refinement: Refinement<A, B>,
): (a: A) => Option<B>;
export function fromPredicate<A>(
refinement: Predicate<A>,
): (a: A) => Option<A>;
export function fromPredicate<A>(predicate: Predicate<A>) {
return (a: A): Option<A> => (predicate(a) ? some(a) : none);
}
/**
* Take a function that can throw and wrap it in a try/catch block. Returns a
* new function that takes the same arguments as the original but returns the
* original value wrapped in an Option. If the function throws then the new
* function returns None, otherwise it returns Some.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* function thrower(n: number): number {
* if (n < 0) {
* throw new Error("This number is too small");
* }
* return n;
* }
*
* const handler = O.tryCatch(thrower);
*
* const result1 = handler(-1); // None
* const result2 = handler(0); // Some(0);
* ```
*
* @since 2.0.0
*/
export function tryCatch<D extends unknown[], A>(
fn: (...d: D) => A,
): (...d: D) => Option<A> {
return handleThrow(fn, some, constNone);
}
/**
* The match functionis the standard catamorphism on an Option<A>. It operates like
* a switch case operator over the two potential cases for an Option type. One
* supplies functions for handling the Some case and the None case with matching
* return types and fold calls the correct function for the given option.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const toNumber = O.match(() => 0, n => n);
*
* const result1 = toNumber(O.none); // 0
* const result2 = toNumber(O.some(1)); // 1
* ```
*
* @since 2.0.0
*/
export function match<A, B>(
onNone: () => B,
onSome: (a: A) => B,
): (ua: Option<A>) => B {
return (ua) => (isNone(ua) ? onNone() : onSome(ua.value));
}
/**
* getOrElse operates like a simplified fold. One supplies a thunk that returns a default
* inner value of the Option for the cases where the option is None.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const toNumber = O.getOrElse(() => 0);
*
* const result1 = toNumber(O.some(1)); // 1
* const result2 = toNumber(O.none); // 0
* ```
*
* @since 2.0.0
*/
export function getOrElse<B>(onNone: () => B): (ua: Option<B>) => B {
return (ua) => isNone(ua) ? onNone() : ua.value;
}
/**
* toNullable returns either null or the inner value of an Option. This is useful for
* interacting with code that handles null but has no concept of the Option type.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const result1 = O.toNull(O.none); // null
* const result2 = O.toNull(O.some(1)); // 1
* ```
*
* @since 2.0.0
*/
export function toNull<A>(ma: Option<A>): A | null {
return isNone(ma) ? null : ma.value;
}
/**
* toUndefined returns either undefined or the inner value of an Option. This is useful for
* interacting with code that handles undefined but has no concept of the Option type.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const result1 = O.toUndefined(O.none); // undefined
* const result2 = O.toUndefined(O.some(1)); // 1
* ```
*
* @since 2.0.0
*/
export function toUndefined<A>(ma: Option<A>): A | undefined {
return isNone(ma) ? undefined : ma.value;
}
/**
* Tests wether an Option is None, returning true if the passed option is None
* and false if it is Some.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const result1 = O.isNone(O.none); // true
* const result2 = O.isNone(O.some(1)); // false
* ```
*
* @since 2.0.0
*/
export function isNone<A>(m: Option<A>): m is None {
return m.tag === "None";
}
/**
* Tests wether an Option is Some, returning true if the passed option is Some
* and false if it is None.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const result1 = O.isSome(O.none); // false
* const result2 = O.isSome(O.some(1)); // true
* ```
*
* @since 2.0.0
*/
export function isSome<A>(m: Option<A>): m is Some<A> {
return m.tag === "Some";
}
/**
* Create an Option by wrapping any value A in Some.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const result1 = O.wrap(1); // Some(1)
* const result2 = O.wrap("Hello"); // Some("Hello")
* ```
*
* @since 2.0.0
*/
export function wrap<A>(a: A): Option<A> {
return some(a);
}
/**
* Apply the mapping function fai to the inner value of an Option<A> if it
* exists. If the option is None then this function does nothing.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const result1 = pipe(O.some(1), O.map(n => n + 1)); // Some(2)
* const result2 = pipe(O.none, O.map((n: number) => n + 1)); // None
* ```
*
* @since 2.0.0
*/
export function map<A, I>(fai: (a: A) => I): (ua: Option<A>) => Option<I> {
return (ua) => isNone(ua) ? none : some(fai(ua.value));
}
/**
* Apply a mapping function to an Option but if the mapping function returns
* null or undefined the null or undefined value is lifted into None.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const result1 = pipe(
* O.some([1, 2, 3]),
* O.mapNullable(arr => arr[10]),
* ); // None
* const result2 = pipe(
* O.constNone<Array<number>>(),
* O.mapNullable(arr => arr[0]),
* ); // None
* const result3 = pipe(
* O.some([1, 2, 3]),
* O.mapNullable(arr => arr[0]),
* ); // Some(1)
* ```
*
* @since 2.0.0
*/
export function mapNullable<A, I>(
f: (a: A) => I | null | undefined,
): (ua: Option<A>) => Option<I> {
return flatmap(flow(f, fromNullable));
}
/**
* Apply a value A wrapped in an option to a function (a: A) => I wrapped in an
* Option. If either the wrapped value or the wrapped function are None then the
* result is None, if they are both Some then the result is Some.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const result1 = pipe(
* O.some((n: number) => n + 1),
* O.apply(O.some(1)),
* ); // Some(2)
* const result2 = pipe(
* O.some((n: number) => n + 1),
* O.apply(O.none),
* ); // None
* ```
*
* @since 2.0.0
*/
export function apply<A>(
ua: Option<A>,
): <I>(ufai: Option<(a: A) => I>) => Option<I> {
return (ufai) =>
isNone(ufai) || isNone(ua) ? none : some(ufai.value(ua.value));
}
/**
* Apply a function (a: A) => Option<I> to the wrapped value of an Option<A> if
* the wrapped value exists, flattening the application result into an
* Option<I>. This is the equivalent of first mapping from Option<A> to
* Option<Option<I>> and then calling join to flatten the Options.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const result = pipe(
* O.some(1),
* O.flatmap(n => n > 0 ? O.some(n) : O.none),
* ); // Some(1)
* ```
*
* @since 2.0.0
*/
export function flatmap<A, I>(
fati: (a: A) => Option<I>,
): (ta: Option<A>) => Option<I> {
return (ua) => isNone(ua) ? ua : fati(ua.value);
}
/**
* Replace an first with second if first is None. This allows one to offer a
* a replacement or default.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const result1 = pipe(O.some(1), O.alt(O.some(2))); // Some(1);
* const result2 = pipe(O.some(1), O.alt(O.constNone())); // Some(1);
* const result3 = pipe(O.none, O.alt(O.some(2))); // Some(2);
* const result4 = pipe(O.none, O.alt(O.none)); // None
* ```
*
* @since 2.0.0
*/
export function alt<A>(second: Option<A>): (first: Option<A>) => Option<A> {
return (first) => isNone(first) ? second : first;
}
/**
* Apply a predicate to the inner value of an Option, returning true if the
* option is Some and the predicate returns true, otherwise returning false.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const positive = (n: number) => n > 0;
*
* const result1 = pipe(O.some(1), O.exists(positive)); // true
* const result2 = pipe(O.some(0), O.exists(positive)); // false
* const result3 = pipe(O.none, O.exists(positive)); // false
* ```
*
* @since 2.0.0
*/
export function exists<A>(predicate: Predicate<A>): (ua: Option<A>) => boolean {
return (ua) => isSome(ua) && predicate(ua.value);
}
/**
* Apply a refinement or predicate to the inner value of an Option, returning
* the original option if the value exists and the predicate/refinement return
* true, otherwise returning None.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const positive = (n: number) => n > 0;
*
* const result1 = pipe(O.some(1), O.filter(positive)); // Some(1)
* const result2 = pipe(O.some(0), O.filter(positive)); // None
* const result3 = pipe(O.none, O.filter(positive)); // None
* ```
*
* @since 2.0.0
*/
export function filter<A, B extends A>(
refinement: Refinement<A, B>,
): (ta: Option<A>) => Option<B>;
export function filter<A>(
predicate: Predicate<A>,
): (ta: Option<A>) => Option<A>;
export function filter<A>(
predicate: Predicate<A>,
): (ta: Option<A>) => Option<A> {
const _exists = exists(predicate);
return (ta) => _exists(ta) ? ta : none;
}
/**
* Apply a filter and mapping operation at the same time against an Option. This
* is equivalent to the flatmap function for Option.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const noninit = (str: string) => str.length > 0 ? O.some(str.length) : O.none;
* const filterMap = O.filterMap(noninit);
*
* const result1 = filterMap(O.some("Hello")); // Some(5);
* const result2 = filterMap(O.some("")); // None
* const result3 = filterMap(O.none); // None
* ```
*
* @since 2.0.0
*/
export function filterMap<A, I>(
fai: (a: A) => Option<I>,
): (ua: Option<A>) => Option<I> {
return flatmap(fai);
}
/**
* Given a refinement or predicate, return a function that splits an Option into
* a Pair<Option, Option>. Due to the nature of the option type this will always
* return Pair<Some, None>, Pair<None, None>, or Pair<None, Some>.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const partition = O.partition((n: number) => n > 0);
*
* const result1 = partition(O.some(1)); // [Some(1), None]
* const result2 = partition(O.some(0)); // [None, Some(0)]
* const result3 = partition(O.none); // [None, None]
* ```
*
* @since 2.0.0
*/
export function partition<A, B extends A>(
refinement: Refinement<A, B>,
): (ua: Option<A>) => Pair<Option<B>, Option<A>>;
export function partition<A>(
predicate: Predicate<A>,
): (ua: Option<A>) => Pair<Option<A>, Option<A>>;
export function partition<A>(
predicate: Predicate<A>,
): (ua: Option<A>) => Pair<Option<A>, Option<A>> {
type Output = Pair<Option<A>, Option<A>>;
const init: Output = [none, none];
return (ua) =>
isNone(ua) ? init : predicate(ua.value) ? [ua, none] : [none, ua];
}
/**
* Map and partition over the inner value of an Option<A> at the same time. If
* the option passed is None then the result is [None, None], otherwise Right<I>
* will result in [Some<I>, None], and Left<J> will result in [None, Some<J>].
*
* @example
* ```ts
* import * as O from "./option.ts";
* import * as E from "./either.ts";
*
* const partitioner = (n: number) => n > 0 ? E.right(n) : E.left(n * -1);
* const partitionMap = O.partitionMap(partitioner);
*
* const result1 = partitionMap(O.some(1)); // [Some(1), None]
* const result2 = partitionMap(O.some(-1)); // [None, Some(1)]
* const result3 = partitionMap(O.none); // [None, None]
* ```
*
* @since 2.0.0
*/
export function partitionMap<A, I, J>(
fai: (a: A) => Either<J, I>,
): (ua: Option<A>) => Pair<Option<I>, Option<J>> {
type Output = Pair<Option<I>, Option<J>>;
const init: Output = [none, none];
return (ua) => {
if (isNone(ua)) {
return init;
}
const result = fai(ua.value);
return result.tag === "Right"
? [some(result.right), none]
: [none, some(result.left)];
};
}
/**
* Reduce over an Option<A>. Since an Option contains at most one value this
* function operates a lot like getOrElse. If the passed option is None then it
* returns the initial value, otherwise the foldr function is called with both
* the initial value and the inner A.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const fold = O.fold((n: number, m: number) => n + m, 0);
*
* const result1 = fold(O.some(1)); // 1
* const result2 = fold(O.none); // 0
* ```
*
* @since 2.0.0
*/
export function fold<A, O>(
foldr: (accumulator: O, current: A) => O,
initial: O,
): (ua: Option<A>) => O {
return (ua) => isSome(ua) ? foldr(initial, ua.value) : initial;
}
/**
* Traverse over an Option<A> using the supplied Applicable. This allows one to
* turn an Option<A> into Kind<V, Option<I>>.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import * as A from "./array.ts";
* import { pipe } from "./fn.ts";
*
* const toRange = (n: number) => A.range(n);
* const traverse = pipe(toRange, O.traverse(A.ApplicableArray));
*
* const result1 = traverse(O.some(3)); // [Some(0), Some(1), Some(2)];
* const result2 = traverse(O.none); // [None]
* ```
*
* @since 2.0.0
*/
export function traverse<V extends Kind>(
A: Applicable<V>,
): <A, I, J, K, L, M>(
favi: (a: A) => $<V, [I, J, K], [L], [M]>,
) => (ta: Option<A>) => $<V, [Option<I>, J, K], [L], [M]> {
return <A, I, J, K, L, M>(
favi: (a: A) => $<V, [I, J, K], [L], [M]>,
): (ta: Option<A>) => $<V, [Option<I>, J, K], [L], [M]> =>
match(
() => A.wrap(constNone()),
(a) => pipe(favi(a), A.map(some)),
);
}
/**
* Create an instance of Showable for Option<A> given an instance of Showable for A.
*
* @example
* ```ts
* import * as O from "./option.ts";
*
* const Showable = O.getShowableOption({ show: (n: number) => n.toString() }); // Showable<Option<number>>
*
* const result1 = Showable.show(O.some(1)); // "Some(1)"
* const result2 = Showable.show(O.none); // "None"
* ```
*
* @since 2.0.0
*/
export function getShowableOption<A>(
{ show }: Showable<A>,
): Showable<Option<A>> {
return ({
show: (ma) => (isNone(ma) ? "None" : `${"Some"}(${show(ma.value)})`),
});
}
/**
* Create an instance of Comparable<Option<A>> given an instance of Comparable<A>.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import * as N from "./number.ts";
* import { pipe } from "./fn.ts";
*
* const { compare } = O.getComparableOption(N.ComparableNumber);
*
* const result1 = pipe(O.some(1), compare(O.some(2))); // false
* const result2 = pipe(O.some(1), compare(O.some(1))); // true
* const result3 = pipe(O.none, compare(O.none)); // true
* const result4 = pipe(O.some(1), compare(O.none)); // false
* ```
*
* @since 2.0.0
*/
export function getComparableOption<A>(
{ compare }: Comparable<A>,
): Comparable<Option<A>> {
return fromCompare((second) => (first) =>
isSome(first) && isSome(second)
? compare(second.value)(first.value)
: isNone(first) && isNone(second)
);
}
/**
* Create an instance of Sortable<Option<A>> given an instance of Sortable<A>.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import * as N from "./number.ts";
*
* const { sort } = O.getSortableOption(N.SortableNumber);
*
* const result1 = sort(O.some(1), O.some(2)); // 1
* const result2 = sort(O.some(1), O.some(1)); // 0
* const result3 = sort(O.none, O.none); // 0
* const result4 = sort(O.none, O.some(1)); // -1
* ```
*
* @since 2.0.0
*/
export function getSortableOption<A>(
{ sort }: Sortable<A>,
): Sortable<Option<A>> {
return fromSort((fst, snd) =>
isNone(fst)
? isNone(snd) ? 0 : -1
: isNone(snd)
? 1
: sort(fst.value, snd.value)
);
}
/**
* @since 2.0.0
*/
export function getCombinableOption<A>(
{ combine }: Combinable<A>,
): Combinable<Option<A>> {
return {
combine: (second) => (first) =>
isNone(first)
? second
: isNone(second)
? first
: wrap(combine(second.value)(first.value)),
};
}
/**
* Create an instance of Initializable<Option<A>> given an instance of Initializable<A>.
*
* @example
* ```ts
* import * as O from "./option.ts";
* import * as N from "./number.ts";
* import { pipe } from "./fn.ts";
*
* const { combine } = O.getInitializableOption(N.InitializableNumberSum);
*
* const result1 = pipe(O.some(1), combine(O.some(1))); // Some(2)
* const result2 = pipe(O.none, combine(O.some(1))); // Some(1)
* const result3 = pipe(O.some(1), combine(O.none)); // Some(1)
* ```
*
* @since 2.0.0
*/
export function getInitializableOption<A>(
I: Initializable<A>,
): Initializable<Option<A>> {
return ({
init: () => some(I.init()),
...getCombinableOption(I),
});
}
/**
* The canonical implementation of Applicable for Option.
*
* @since 2.0.0
*/
export const ApplicableOption: Applicable<KindOption> = { wrap, map, apply };
/**
* The canonical implementation of Filterable for Option.
*
* @since 2.0.0
*/
export const FilterableOption: Filterable<KindOption> = {
filter,
filterMap,
partition,
partitionMap,
};
/**
* The canonical implementation of Foldable for Option.
*
* @since 2.0.0
*/
export const FoldableOption: Foldable<KindOption> = { fold };
/**
* The canonical implementation of Flatmappable for Option.
*
* @since 2.0.0
*/
export const FlatmappableOption: Flatmappable<KindOption> = {
wrap,
map,
apply,
flatmap,
};
/**
* The canonical implementation of Mappable for Option.
*
* @since 2.0.0
*/
export const MappableOption: Mappable<KindOption> = { map };
/**
* The canonical implementation of Traversable for Option.
*
* @since 2.0.0
*/
export const TraversableOption: Traversable<KindOption> = {
map,
fold,
traverse,
};
/**
* The canonical implementation of Wrappable for Option.
*
* @since 2.0.0
*/
export const WrappableOption: Wrappable<KindOption> = { wrap };
/**
* @since 2.0.0
*/
export const tap: Tap<KindOption> = createTap(FlatmappableOption);
/**
* @since 2.0.0
*/
export const bind: Bind<KindOption> = createBind(FlatmappableOption);
/**
* @since 2.0.0
*/
export const bindTo: BindTo<KindOption> = createBindTo(MappableOption);