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set.ts
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/**
* ReadonlySet is a readonly product structure over objects
* and it operates on object equality for deduplication.
*
* @module ReadonlySet
* @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 { Foldable } from "./foldable.ts";
import type { Initializable } from "./initializable.ts";
import type { BindTo, Mappable } from "./mappable.ts";
import type { Option } from "./option.ts";
import type { Pair } from "./pair.ts";
import type { Predicate } from "./predicate.ts";
import type { Refinement } from "./refinement.ts";
import type { Showable } from "./showable.ts";
import type { Traversable } from "./traversable.ts";
import type { Wrappable } from "./wrappable.ts";
import { flow, identity, pipe } from "./fn.ts";
import { fromCompare } from "./comparable.ts";
import { fromCombine } from "./combinable.ts";
import { createBind, createTap } from "./flatmappable.ts";
import { createBindTo } from "./mappable.ts";
import * as O from "./option.ts";
import * as E from "./either.ts";
/**
* Extract the inner type of a ReadonlySet
*
* @since 2.0.0
*/
export type TypeOf<T> = T extends ReadonlySet<infer A> ? A : never;
/**
* Specifies ReadonlySet as a Higher Kinded Type, with covariant
* parameter A corresponding to the 0th index of any substitutions.
*
* @since 2.0.0
*/
export interface KindReadonlySet extends Kind {
readonly kind: ReadonlySet<Out<this, 0>>;
}
/**
* Constructs a new ReadonlySet over type A that conuains no values.
*
* @example
* ```ts
* import * as S from "./set.ts";
*
* const result = S.init<number>(); // ReadonlySet<number> with no members.
* ```
*
* @since 2.0.0
*/
export function init<A = never>(): ReadonlySet<A> {
return new Set();
}
/**
* Constructs a new ReadonlySet<A> from an arbitrary number
* of values.
*
* @example
* ```ts
* import * as S from "./set.ts";
*
* const result = S.set(1, 2, 3); // ReadonlySet<number>
* ```
*
* @since 2.0.0
*/
export function set<A>(...as: readonly [A, ...A[]]): ReadonlySet<A> {
return new Set(as);
}
/**
* Copies an existing ReadonlySet into a new ReadonlySet, keeping
* references to the original members.
*
* @example
* ```ts
* import * as S from "./set.ts";
*
* const original = S.set(1, 2, 3);
* const copy = S.copy(original);
*
* const result1 = original === copy; // false
*
* const has = (value: number) => original.has(value) === copy.has(value);
*
* const result2 = has(1); // true;
* const result3 = has(10); // true;
* ```
*
* @since 2.0.0
*/
export function copy<A>(ua: ReadonlySet<A>): ReadonlySet<A> {
return new Set(ua);
}
/**
* Operates like Array.some, testing values in a ReadonlySet with a Predicate
* until either the predicate returns true for a value or all of the
* values have been tested. Shortcircuits on the first value that
* returns true. This is the dual of every.
*
* @example
* ```ts
* import * as S from "./set.ts";
*
* const some = S.some((n: number) => n > 0);
*
* const result1 = some(S.set(1, 2, 3)); // true
* const result2 = some(S.set(0)); // false
* const result3 = some(S.init()); // false
* const result4 = some(S.set(-1, -2, -3, 1)); // true
* ```
*
* @since 2.0.0
*/
export function some<A>(
predicate: Predicate<A>,
): (ua: ReadonlySet<A>) => boolean {
return (ua) => {
for (const a of ua) {
if (predicate(a)) {
return true;
}
}
return false;
};
}
/**
* Operates like Array.every, testing values in a ReadonlySet with a Predicate
* until either the predicate returns false for a value or all of the
* values have been tested as true. Shortcircuits on the first value that
* returns false. This is the dual of some.
*
* @example
* ```ts
* import * as S from "./set.ts";
*
* const some = S.some((n: number) => n > 0);
*
* const result1 = some(S.set(1, 2, 3)); // true
* const result2 = some(S.set(0)); // false
* const result3 = some(S.init()); // false
* const result4 = some(S.set(-1, -2, -3, 1)); // true
* ```
*
* @since 2.0.0
*/
export function every<A>(
predicate: Predicate<A>,
): (ua: ReadonlySet<A>) => boolean {
return (ua) => {
for (const a of ua) {
if (!predicate(a)) {
return false;
}
}
return true;
};
}
/**
* Given an insuance of Comparable<A> create a function
* that takes a value A and returns a predicate over
* ReadonlySet<A> the returns true if there are any
* members of the set that are equal to the value.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
* import { pipe } from "./fn.ts";
*
* const elem = S.elem(N.ComparableNumber);
*
* const set = S.set(1, 2, 3);
*
* const result1 = pipe(set, elem(1)); // true
* const result2 = pipe(set, elem(10)); // false
* ```
*
* @since 2.0.0
*/
export function elem<A>(
{ compare }: Comparable<A>,
): (value: A) => (ua: ReadonlySet<A>) => boolean {
return (a) => some(compare(a));
}
/**
* Given an instance of Comparable<A> create a function
* that uakes a ReadonlySet<A> and returns a predicate over
* a value A the returns true if the value is a member
* of the set. This is like elem but with the set and value
* parameters swapped.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
*
* const elemOf = S.elemOf(N.ComparableNumber);
*
* const set = S.set(1, 2, 3);
* const inSet = elemOf(set);
*
* const result1 = inSet(1); // true
* const result2 = inSet(10); // false
* ```
*
* @since 2.0.0
*/
export function elemOf<A>(
S: Comparable<A>,
): (ua: ReadonlySet<A>) => (a: A) => boolean {
const _elem = elem(S);
return (ua) => (a) => _elem(a)(ua);
}
/**
* Given an instance of Comparable<A> return a function
* `second => first => boolean` that returns true when
* every member of first is in second.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
* import { pipe } from "./fn.ts";
*
* const subset = S.isSubset(N.ComparableNumber);
*
* const big = S.set(1, 2, 3, 4, 5);
* const small = S.set(2, 4);
*
* const result1 = pipe(big, subset(small)); // false
* const result2 = pipe(small, subset(big)); // true;
* ```
*
* @since 2.0.0
*/
export function isSubset<A>(
S: Comparable<A>,
): (second: ReadonlySet<A>) => (first: ReadonlySet<A>) => boolean {
return flow(elemOf(S), every);
}
/**
* Given an instance of Comparable<A> return a function that takes
* two ReadonlySet<A>s and merges them into a new ReadonlySet<A>
* that contains all the elements from both sets.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
* import { pipe } from "./fn.ts";
*
* const union = S.union(N.ComparableNumber);
* const s1 = S.set(1, 2, 3, 4);
* const s2 = S.set(3, 4, 5, 6);
*
* const result = pipe(s1, union(s2));
* // Set(1, 2, 3, 4, 5, 6)
* ```
*
* @since 2.0.0
*/
export function union<A>(
S: Comparable<A>,
): (second: ReadonlySet<A>) => (first: ReadonlySet<A>) => ReadonlySet<A> {
return (second) => (first) => {
const out = copy(first) as Set<A>;
const isIn = elemOf(S)(out);
for (const b of second) {
if (!isIn(b)) {
out.add(b);
}
}
return out;
};
}
/**
* Given an instance of Comparable<A> return a function that takes
* two ReadonlySet<A>s and returns a new set with only
* the elements that exist in both sets.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
* import { pipe } from "./fn.ts";
*
* const intersect = S.intersection(N.ComparableNumber);
* const s1 = S.set(1, 2, 3, 4);
* const s2 = S.set(3, 4, 5, 6);
*
* const result = pipe(s1, intersect(s2));
* // Set(3, 4)
* ```
*
* @since 2.0.0
*/
export function intersection<A>(
S: Comparable<A>,
): (ua: ReadonlySet<A>) => (tb: ReadonlySet<A>) => ReadonlySet<A> {
return (ua) => {
const isIn = elemOf(S)(ua);
return (tb) => {
const out = new Set<A>();
for (const b of tb) {
if (isIn(b)) {
out.add(b);
}
}
return out;
};
};
}
/**
* Given an instance of Comparable<A> create a function that will
* take a ReadonlySet<A> and return a new ReadonlySet<A> where
* any members that are equal are deduplicated.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
* import * as E from "./comparable.ts";
*
* const eq = E.struct({ num: N.ComparableNumber });
* const compact = S.compact(eq);
*
* const set = S.set({ num: 1 }, { num: 1 }, { num: 2 });
* // Set({ num: 1 }, { num: 1 }, { num: 2 })
*
* const result = compact(set); // Set({ num: 1 }, { num: 2 })
* ```
*
* @since 2.0.0
*/
export function compact<A>(
S: Comparable<A>,
): (ua: ReadonlySet<A>) => ReadonlySet<A> {
return (ua) => {
const out = new Set<A>();
const isIn = elemOf(S)(out);
for (const a of ua) {
if (!isIn(a)) {
out.add(a);
}
}
return out;
};
}
/**
* Given a value A create a new ReadonlySet<A> that
* contains that value.
*
* @example
* ```ts
* import * as S from "./set.ts";
*
* const result = S.wrap(1); // Set(1);
* ```
*
* @since 2.0.0
*/
export function wrap<A>(a: A): ReadonlySet<A> {
return set(a);
}
/**
* Given a function A -> I and a ReadonlySet<A> return
* a new ReadonlySet<I> where the values were created
* by passing each A through the A -> I function.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import { pipe } from "./fn.ts";
*
* const set = S.set("hello", "world", "goodbye");
*
* const result = pipe(
* set,
* S.map(s => s.length),
* ); // Set(5, 7);
* ```
*
* @since 2.0.0
*/
export function map<A, I>(
fai: (a: A) => I,
): (ua: ReadonlySet<A>) => ReadonlySet<I> {
return (ua) => {
const ti = new Set<I>();
for (const a of ua) {
ti.add(fai(a));
}
return ti;
};
}
/**
* Given a ReadonlySet of functions A -> I and
* a ReadonlySet<A> return a ReadonlySet<I> by applying
* every function to every value A.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import { pipe } from "./fn.ts";
*
* type Person = { name: string, age: number };
*
* const person = (name: string) => (age: number): Person => ({ name, age });
*
* const result = pipe(
* S.wrap(person),
* S.apply(S.wrap("Brandon")),
* S.apply(S.wrap(37)),
* ); // ReadonlySet<Person>
* ```
*
* @since 2.0.0
*/
export function apply<A>(
ua: ReadonlySet<A>,
): <I>(ufai: ReadonlySet<(a: A) => I>) => ReadonlySet<I> {
return <I>(ufai: ReadonlySet<(a: A) => I>): ReadonlySet<I> => {
const ti = new Set<I>();
for (const a of ua) {
for (const fai of ufai) {
ti.add(fai(a));
}
}
return ti;
};
}
/**
* Given a function A -> ReadonlySet<I> and a ReadonlySet<A>
* return a ReadonlySet<I> created by applying the function
* to every value A and joining all the resulting ReadonlySet<I>s.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import { pipe } from "./fn.ts";
*
* const set = S.set(1, 2, 3, 4, 5);
*
* const result = pipe(
* set,
* S.flatmap(n => S.set(n, n + 1, n + 2)),
* ); // Set(1, 2, 3, 4, 5, 6, 7);
* ```
*
* @since 2.0.0
*/
export function flatmap<A, I>(
fati: (a: A) => ReadonlySet<I>,
): (ua: ReadonlySet<A>) => ReadonlySet<I> {
return (ua) => {
const ti = new Set<I>();
for (const a of ua) {
const _ti = fati(a);
for (const i of _ti) {
ti.add(i);
}
}
return ti;
};
}
/**
* Given a ReadonlySet of ReadonlySet<A>, flatten all of the inner
* sets and return a ReadonlySet<A>.
*
* @example
* ```ts
* import * as S from "./set.ts";
*
* const setOfSets = S.set(S.set(1, 2), S.set(3, 4), S.set(1, 4));
*
* const result = S.join(setOfSets); // Set(1, 2, 3, 4)
* ```
*
* @since 2.0.0
*/
export function join<A>(uua: ReadonlySet<ReadonlySet<A>>): ReadonlySet<A> {
return pipe(uua, flatmap(identity));
}
/**
* Given a Refinement or Predicate over A and a ReadonlySet<A> return
* a new ReadonlySet with only values for which the predicate or
* refinement return true.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import { pipe } from "./fn.ts";
*
* const set = S.set(1, 2, 3, 4, 5);
*
* const result1 = pipe(set, S.filter(n => n > 2)); // Set(3, 4, 5)
* const result2 = pipe(set, S.filter(n => n === 0)); // Set()
* ```
*
* @since 2.0.0
*/
export function filter<A, B extends A>(
refinement: Refinement<A, B>,
): (ua: ReadonlySet<A>) => ReadonlySet<B>;
export function filter<A>(
predicate: Predicate<A>,
): (ua: ReadonlySet<A>) => ReadonlySet<A>;
export function filter<A>(
predicate: Predicate<A>,
): (ua: ReadonlySet<A>) => ReadonlySet<A> {
return (ua) => {
const _ua = new Set<A>();
for (const a of ua) {
if (predicate(a)) {
_ua.add(a);
}
}
return _ua;
};
}
/**
* Given a function A -> Option<I> and a ReadonlySet<A> return
* a ReadonlySet<I> by applying the function to all values A. Any
* Nones will not enter the resultant set while Some<I> values will.
* This is effectively filtering and mapping simultaneously.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const set = S.set("one", "two", "three", "four", "five");
*
* const result = pipe(
* set,
* S.filterMap(s => s.includes('o') ? O.some(s.length) : O.none),
* ); // Set(3, 4)
* ```
*
* @since 2.0.0
*/
export function filterMap<A, I>(
fai: (a: A) => Option<I>,
): (ua: ReadonlySet<A>) => ReadonlySet<I> {
return (ua) => {
const output = new Set<I>();
for (const a of ua) {
const value = fai(a);
if (O.isSome(value)) {
output.add(value.value);
}
}
return output;
};
}
/**
* Given a Predicate or Refinement over A and a ReadonlySet<A>
* return a Pair with a first value being a ReadonlySet of values
* that return true when applied to the refinement or predicate
* and a second value being a ReadonlySet of values that return
* false when applied to the predicate.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import { pipe } from "./fn.ts";
*
* const set = S.set(1, 2, 3, 4);
*
* const result = pipe(
* set,
* S.partition(n => n > 2),
* ); // [Set(3, 4), Set(1, 2)]
* ```
*
* @since 2.0.0
*/
export function partition<A, B extends A>(
refinement: Refinement<A, B>,
): (ua: ReadonlySet<A>) => Pair<ReadonlySet<B>, ReadonlySet<A>>;
export function partition<A>(
predicate: Predicate<A>,
): (ua: ReadonlySet<A>) => Pair<ReadonlySet<A>, ReadonlySet<A>>;
export function partition<A>(
predicate: Predicate<A>,
): (ua: ReadonlySet<A>) => Pair<ReadonlySet<A>, ReadonlySet<A>> {
return (ua) => {
const first = new Set<A>();
const second = new Set<A>();
for (const a of ua) {
if (predicate(a)) {
first.add(a);
} else {
second.add(a);
}
}
return [first, second];
};
}
/**
* Given a function A -> Either<J, I> and a ReadonlySet<A> return
* a Pair(ReadonlySet<I>, ReadonlySet<J>) by applying every value A
* in the set to the partitioning function.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as E from "./either.ts";
* import { pipe } from "./fn.ts";
*
* const set = S.set("one", "two", "three", "four");
*
* const result = pipe(
* set,
* S.partitionMap(s => s.includes('o') ? E.right(s) : E.left(s.length)),
* ); // [Set("one", "two", "four"), Set(5)]
* ```
*
* @since 2.0.0
*/
export function partitionMap<A, I, J>(
fai: (a: A) => Either<J, I>,
): (ua: ReadonlySet<A>) => Pair<ReadonlySet<I>, ReadonlySet<J>> {
return (ua) => {
const first = new Set<I>();
const second = new Set<J>();
for (const a of ua) {
const result = fai(a);
if (E.isRight(result)) {
first.add(result.right);
} else {
second.add(result.left);
}
}
return [first, second];
};
}
/**
* Reduce a ReadonlySet<A> to a value O by iterating over
* the values of the set and collecting them with the reducing function.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import { pipe } from "./fn.ts";
*
* const set = S.set(1, 2, 3, 4);
*
* const result = pipe(
* set,
* S.fold((previous, current) => previous + current, 0),
* ); // 10
* ```
*
* @since 2.0.0
*/
export function fold<A, O>(
foao: (o: O, a: A) => O,
o: O,
): (ua: ReadonlySet<A>) => O {
return (ua) => {
let out = o;
for (const a of ua) {
out = foao(out, a);
}
return out;
};
}
// This is an unsafe Add for ReadonlySet<A> that violates Readonly contract
const unsafeAdd = <A>(ua: ReadonlySet<A>) => (a: A): Set<A> => {
(ua as Set<A>).add(a);
return ua as Set<A>;
};
/**
* Traverse a ReadonlySet<A> value by value, applying a function
* A -> V<I>, then collecting all of the I values into ReadonlySet<I>
* and returning V<ReadonlySet<I>>. In concrete terms this can take
* ReadonlySet<Option<A>> and turn it into Option<ReadonlySet<I>> and
* other ADT inversions.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as O from "./option.ts";
* import { pipe } from "./fn.ts";
*
* const traverseOption = S.traverse(O.ApplicableOption);
* const invert = traverseOption((o: O.Option<number>) => o);
*
* const result1 = pipe(
* S.set(O.some(1), O.some(2), O.some(3)),
* invert,
* ); // Some(Set(1, 2, 3))
* const result2 = pipe(
* S.set(O.some(1), O.some(2), O.none),
* invert,
* ); // 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]>,
) => (ua: ReadonlySet<A>) => $<V, [ReadonlySet<I>, J, K], [L], [M]> {
return <A, I, J, K, L, M>(
favi: (a: A) => $<V, [I, J, K], [L], [M]>,
): (ua: ReadonlySet<A>) => $<V, [ReadonlySet<I>, J, K], [L], [M]> =>
fold(
(vis, a) => pipe(vis, A.map(unsafeAdd), A.apply(favi(a))),
A.wrap(init() as Set<I>),
);
}
/**
* Given an instance of Showable<A> return an instance of Showable<ReadonlySet<A>>.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
*
* const { show } = S.getShowableSet(N.ShowableNumber);
*
* const result1 = show(S.init()); // "Set([])"
* const result2 = show(S.set(1, 2, 3)); // "Set([1, 2, 3])"
* ```
*
* @since 2.0.0
*/
export function getShowableSet<A>(S: Showable<A>): Showable<ReadonlySet<A>> {
return ({
show: (s) => `Set([${Array.from(s.values()).map(S.show).join(", ")}])`,
});
}
/**
* Given an instance of Comparable<A> return Comparable<ReadonlySet<A>>.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
* import { pipe } from "./fn.ts";
*
* const { compare } = S.getComparableSet(N.ComparableNumber);
*
* const result1 = compare(
* S.set(1, 2, 3))(
* S.set(3, 2, 1)
* ); // true
* const result2 = compare(
* S.set(1, 2, 3))(
* S.set(1, 2, 3, 4)
* ); // false
* ```
*
* @since 2.0.0
*/
export function getComparableSet<A>(
S: Comparable<A>,
): Comparable<ReadonlySet<A>> {
const subset = isSubset(S);
return fromCompare((second) => (first) =>
subset(first)(second) && subset(second)(first)
);
}
/**
* Given an instance of Comparable<A> create a Combinable<ReadonlySet<A>> where
* combine creates a union of two ReadonlySets.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
* import * as M from "./combinable.ts";
* import { pipe } from "./fn.ts";
*
* const monoid = S.getCombinableSet(N.ComparableNumber);
* const combineAll = M.getCombineAll(monoid);
*
* const result1 = combineAll(
* S.set(1, 2, 3),
* S.set(4, 5, 6),
* S.set(1, 3, 5, 7)
* ); // Set(1, 2, 3, 4, 5, 6, 7)
* const result3 = combineAll(S.init()); // Set()
* ```
*
* @since 2.0.0
*/
export function getCombinableSet<A>(
S: Comparable<A>,
): Combinable<ReadonlySet<A>> {
return fromCombine(union(S));
}
/**
* Given an instance of Comparable<A> create a Combinable<ReadonlySet<A>> where
* combine creates a union of two ReadonlySets.
*
* @example
* ```ts
* import * as S from "./set.ts";
* import * as N from "./number.ts";
* import * as M from "./combinable.ts";
* import { pipe } from "./fn.ts";
*
* const monoid = S.getInitializableSet(N.ComparableNumber);
* const combineAll = M.getCombineAll(monoid);
*
* const result1 = combineAll(
* S.set(1, 2, 3),
* S.set(4, 5, 6),
* S.set(1, 3, 5, 7)
* ); // Set(1, 2, 3, 4, 5, 6, 7)
* const result3 = combineAll(S.init()); // Set()
* ```
*
* @since 2.0.0
*/
export function getInitializableSet<A>(
C: Comparable<A>,
): Initializable<ReadonlySet<A>> {
return {
init: () => new Set(),
...getCombinableSet(C),
};
}
/**
* The canonical implementation of Applicable for ReadonlySet. It contains
* the methods wrap, ap, and map.
*
* @since 2.0.0
*/
export const ApplicableSet: Applicable<KindReadonlySet> = { apply, map, wrap };
/**
* The canonical implementation of Filterable for ReadonlySet. It contains
* the methods filter, filterMap, partition, and partitionMap.
*
* @since 2.0.0
*/
export const FilterableSet: Filterable<KindReadonlySet> = {
filter,
filterMap,
partition,
partitionMap,
};
/**
* The canonical implementation of Flatmappable for ReadonlySet. It contains
* the methods wrap, ap, map, join, and flatmap.
*
* @since 2.0.0
*/
export const FlatmappableSet: Flatmappable<KindReadonlySet> = {
apply,
flatmap,
map,
wrap,
};
/**
* The canonical implementation of Foldable for ReadonlySet. It contains
* the method fold.
*
* @since 2.0.0
*/
export const FoldableSet: Foldable<KindReadonlySet> = { fold };
/**
* The canonical implementation of Mappable for ReadonlySet. It contains
* the method map.
*
* @since 2.0.0
*/
export const MappableSet: Mappable<KindReadonlySet> = { map };
/**
* The canonical implementation of Traversable for ReadonlySet. It contains
* the methods map, fold, and traverse.
*
* @since 2.0.0
*/
export const TraversableSet: Traversable<KindReadonlySet> = {
map,
fold,
traverse,
};
/**
* @since 2.0.0
*/
export const WrappableSet: Wrappable<KindReadonlySet> = { wrap };
/**
* @since 2.0.0
*/
export const tap: Tap<KindReadonlySet> = createTap(FlatmappableSet);
/**
* @since 2.0.0
*/
export const bind: Bind<KindReadonlySet> = createBind(FlatmappableSet);
/**
* @since 2.0.0
*/
export const bindTo: BindTo<KindReadonlySet> = createBindTo(MappableSet);