var __spreadArray = (this && this.__spreadArray) || function (to, from, pack) { if (pack || arguments.length === 2) for (var i = 0, l = from.length, ar; i < l; i++) { if (ar || !(i in from)) { if (!ar) ar = Array.prototype.slice.call(from, 0, i); ar[i] = from[i]; } } return to.concat(ar || Array.prototype.slice.call(from)); }; import { apFirst as apFirst_, apS as apS_, apSecond as apSecond_ } from './Apply'; import { bind as bind_, chainFirst as chainFirst_ } from './Chain'; import { fromEquals } from './Eq'; import { fromEitherK as fromEitherK_ } from './FromEither'; import { identity, pipe } from './function'; import { bindTo as bindTo_, flap as flap_, let as let__ } from './Functor'; import * as _ from './internal'; import * as N from './number'; import { fromCompare } from './Ord'; import * as RNEA from './ReadonlyNonEmptyArray'; import { separated } from './Separated'; import { filterE as filterE_, wiltDefault, witherDefault } from './Witherable'; import { guard as guard_ } from './Zero'; // ------------------------------------------------------------------------------------- // refinements // ------------------------------------------------------------------------------------- /** * Test whether a `ReadonlyArray` is empty. * * @example * import { isEmpty } from 'fp-ts/ReadonlyArray' * * assert.strictEqual(isEmpty([]), true) * * @category refinements * @since 2.5.0 */ export var isEmpty = function (as) { return as.length === 0; }; /** * Test whether a `ReadonlyArray` is non empty. * * @category refinements * @since 2.5.0 */ export var isNonEmpty = RNEA.isNonEmpty; // ------------------------------------------------------------------------------------- // constructors // ------------------------------------------------------------------------------------- /** * Prepend an element to the front of a `ReadonlyArray`, creating a new `ReadonlyNonEmptyArray`. * * @example * import { prepend } from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * assert.deepStrictEqual(pipe([2, 3, 4], prepend(1)), [1, 2, 3, 4]) * * @since 2.10.0 */ export var prepend = RNEA.prepend; /** * Less strict version of [`prepend`](#prepend). * * @since 2.11.0 */ export var prependW = RNEA.prependW; /** * Append an element to the end of a `ReadonlyArray`, creating a new `ReadonlyNonEmptyArray`. * * @example * import { append } from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * assert.deepStrictEqual(pipe([1, 2, 3], append(4)), [1, 2, 3, 4]) * * @since 2.10.0 */ export var append = RNEA.append; /** * Less strict version of [`append`](#append). * * @since 2.11.0 */ export var appendW = RNEA.appendW; /** * Return a `ReadonlyArray` of length `n` with element `i` initialized with `f(i)`. * * **Note**. `n` is normalized to a non negative integer. * * @example * import { makeBy } from 'fp-ts/ReadonlyArray' * * const double = (n: number): number => n * 2 * assert.deepStrictEqual(makeBy(5, double), [0, 2, 4, 6, 8]) * * @category constructors * @since 2.5.0 */ export var makeBy = function (n, f) { return (n <= 0 ? empty : RNEA.makeBy(f)(n)); }; /** * Create a `ReadonlyArray` containing a value repeated the specified number of times. * * **Note**. `n` is normalized to a non negative integer. * * @example * import { replicate } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(replicate(3, 'a'), ['a', 'a', 'a']) * * @category constructors * @since 2.5.0 */ export var replicate = function (n, a) { return makeBy(n, function () { return a; }); }; export function fromPredicate(predicate) { return function (a) { return (predicate(a) ? [a] : empty); }; } // ------------------------------------------------------------------------------------- // conversions // ------------------------------------------------------------------------------------- /** * @category conversions * @since 2.11.0 */ export var fromOption = function (ma) { return (_.isNone(ma) ? empty : [ma.value]); }; /** * Transforms an `Either` to a `ReadonlyArray`. * * @category conversions * @since 2.11.0 */ export var fromEither = function (e) { return (_.isLeft(e) ? empty : [e.right]); }; /** * Less strict version of [`match`](#match). * * The `W` suffix (short for **W**idening) means that the handler return types will be merged. * * @category pattern matching * @since 2.11.0 */ export var matchW = function (onEmpty, onNonEmpty) { return function (as) { return isNonEmpty(as) ? onNonEmpty(as) : onEmpty(); }; }; /** * @category pattern matching * @since 2.11.0 */ export var match = matchW; /** * Less strict version of [`matchLeft`](#matchleft). * * @category pattern matching * @since 2.11.0 */ export var matchLeftW = function (onEmpty, onNonEmpty) { return function (as) { return isNonEmpty(as) ? onNonEmpty(RNEA.head(as), RNEA.tail(as)) : onEmpty(); }; }; /** * Break a `ReadonlyArray` into its first element and remaining elements. * * @example * import { matchLeft } from 'fp-ts/ReadonlyArray' * * const len: (as: ReadonlyArray) => number = matchLeft(() => 0, (_, tail) => 1 + len(tail)) * assert.strictEqual(len([1, 2, 3]), 3) * * @category pattern matching * @since 2.10.0 */ export var matchLeft = matchLeftW; /** * Alias of [`matchLeft`](#matchleft). * * @category pattern matching * @since 2.5.0 */ export var foldLeft = matchLeft; /** * Less strict version of [`matchRight`](#matchright). * * @category pattern matching * @since 2.11.0 */ export var matchRightW = function (onEmpty, onNonEmpty) { return function (as) { return isNonEmpty(as) ? onNonEmpty(RNEA.init(as), RNEA.last(as)) : onEmpty(); }; }; /** * Break a `ReadonlyArray` into its initial elements and the last element. * * @category pattern matching * @since 2.10.0 */ export var matchRight = matchRightW; /** * Alias of [`matchRight`](#matchright). * * @category pattern matching * @since 2.5.0 */ export var foldRight = matchRight; // ------------------------------------------------------------------------------------- // combinators // ------------------------------------------------------------------------------------- /** * @category sequencing * @since 2.7.0 */ export var chainWithIndex = function (f) { return function (as) { if (isEmpty(as)) { return empty; } var out = []; for (var i = 0; i < as.length; i++) { out.push.apply(out, f(i, as[i])); } return out; }; }; /** * Same as `reduce` but it carries over the intermediate steps. * * @example * import { scanLeft } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(scanLeft(10, (b, a: number) => b - a)([1, 2, 3]), [10, 9, 7, 4]) * * @since 2.5.0 */ export var scanLeft = function (b, f) { return function (as) { var len = as.length; var out = new Array(len + 1); out[0] = b; for (var i = 0; i < len; i++) { out[i + 1] = f(out[i], as[i]); } return out; }; }; /** * Fold an array from the right, keeping all intermediate results instead of only the final result * * @example * import { scanRight } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(scanRight(10, (a: number, b) => b - a)([1, 2, 3]), [4, 5, 7, 10]) * * @since 2.5.0 */ export var scanRight = function (b, f) { return function (as) { var len = as.length; var out = new Array(len + 1); out[len] = b; for (var i = len - 1; i >= 0; i--) { out[i] = f(as[i], out[i + 1]); } return out; }; }; /** * Calculate the number of elements in a `ReadonlyArray`. * * @since 2.10.0 */ export var size = function (as) { return as.length; }; /** * Test whether an array contains a particular index * * @since 2.5.0 */ export var isOutOfBound = RNEA.isOutOfBound; export function lookup(i, as) { return as === undefined ? function (as) { return lookup(i, as); } : isOutOfBound(i, as) ? _.none : _.some(as[i]); } /** * Get the first element in an array, or `None` if the array is empty * * @example * import { head } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * assert.deepStrictEqual(head([1, 2, 3]), some(1)) * assert.deepStrictEqual(head([]), none) * * @since 2.5.0 */ export var head = function (as) { return (isNonEmpty(as) ? _.some(RNEA.head(as)) : _.none); }; /** * Get the last element in an array, or `None` if the array is empty * * @example * import { last } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * assert.deepStrictEqual(last([1, 2, 3]), some(3)) * assert.deepStrictEqual(last([]), none) * * @since 2.5.0 */ export var last = function (as) { return (isNonEmpty(as) ? _.some(RNEA.last(as)) : _.none); }; /** * Get all but the first element of an array, creating a new array, or `None` if the array is empty * * @example * import { tail } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * assert.deepStrictEqual(tail([1, 2, 3]), some([2, 3])) * assert.deepStrictEqual(tail([]), none) * * @since 2.5.0 */ export var tail = function (as) { return isNonEmpty(as) ? _.some(RNEA.tail(as)) : _.none; }; /** * Get all but the last element of an array, creating a new array, or `None` if the array is empty * * @example * import { init } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * assert.deepStrictEqual(init([1, 2, 3]), some([1, 2])) * assert.deepStrictEqual(init([]), none) * * @since 2.5.0 */ export var init = function (as) { return isNonEmpty(as) ? _.some(RNEA.init(as)) : _.none; }; /** * Keep only a max number of elements from the start of an `ReadonlyArray`, creating a new `ReadonlyArray`. * * **Note**. `n` is normalized to a non negative integer. * * @example * import * as RA from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * const input: ReadonlyArray = [1, 2, 3] * assert.deepStrictEqual(pipe(input, RA.takeLeft(2)), [1, 2]) * * // out of bounds * assert.strictEqual(pipe(input, RA.takeLeft(4)), input) * assert.strictEqual(pipe(input, RA.takeLeft(-1)), input) * * @since 2.5.0 */ export var takeLeft = function (n) { return function (as) { return isOutOfBound(n, as) ? as : n === 0 ? empty : as.slice(0, n); }; }; /** * Keep only a max number of elements from the end of an `ReadonlyArray`, creating a new `ReadonlyArray`. * * **Note**. `n` is normalized to a non negative integer. * * @example * import * as RA from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * const input: ReadonlyArray = [1, 2, 3] * assert.deepStrictEqual(pipe(input, RA.takeRight(2)), [2, 3]) * * // out of bounds * assert.strictEqual(pipe(input, RA.takeRight(4)), input) * assert.strictEqual(pipe(input, RA.takeRight(-1)), input) * * @since 2.5.0 */ export var takeRight = function (n) { return function (as) { return isOutOfBound(n, as) ? as : n === 0 ? empty : as.slice(-n); }; }; export function takeLeftWhile(predicate) { return function (as) { var out = []; for (var _i = 0, as_1 = as; _i < as_1.length; _i++) { var a = as_1[_i]; if (!predicate(a)) { break; } out.push(a); } var len = out.length; return len === as.length ? as : len === 0 ? empty : out; }; } var spanLeftIndex = function (as, predicate) { var l = as.length; var i = 0; for (; i < l; i++) { if (!predicate(as[i])) { break; } } return i; }; export function spanLeft(predicate) { return function (as) { var _a = splitAt(spanLeftIndex(as, predicate))(as), init = _a[0], rest = _a[1]; return { init: init, rest: rest }; }; } /** * Drop a max number of elements from the start of an `ReadonlyArray`, creating a new `ReadonlyArray`. * * **Note**. `n` is normalized to a non negative integer. * * @example * import * as RA from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * const input: ReadonlyArray = [1, 2, 3] * assert.deepStrictEqual(pipe(input, RA.dropLeft(2)), [3]) * assert.strictEqual(pipe(input, RA.dropLeft(0)), input) * assert.strictEqual(pipe(input, RA.dropLeft(-1)), input) * * @since 2.5.0 */ export var dropLeft = function (n) { return function (as) { return n <= 0 || isEmpty(as) ? as : n >= as.length ? empty : as.slice(n, as.length); }; }; /** * Drop a max number of elements from the end of an `ReadonlyArray`, creating a new `ReadonlyArray`. * * **Note**. `n` is normalized to a non negative integer. * * @example * import * as RA from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * const input: ReadonlyArray = [1, 2, 3] * assert.deepStrictEqual(pipe(input, RA.dropRight(2)), [1]) * assert.strictEqual(pipe(input, RA.dropRight(0)), input) * assert.strictEqual(pipe(input, RA.dropRight(-1)), input) * * @since 2.5.0 */ export var dropRight = function (n) { return function (as) { return n <= 0 || isEmpty(as) ? as : n >= as.length ? empty : as.slice(0, as.length - n); }; }; export function dropLeftWhile(predicate) { return function (as) { var i = spanLeftIndex(as, predicate); return i === 0 ? as : i === as.length ? empty : as.slice(i); }; } /** * Find the first index for which a predicate holds * * @example * import { findIndex } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * assert.deepStrictEqual(findIndex((n: number) => n === 2)([1, 2, 3]), some(1)) * assert.deepStrictEqual(findIndex((n: number) => n === 2)([]), none) * * @since 2.5.0 */ export var findIndex = function (predicate) { return function (as) { for (var i = 0; i < as.length; i++) { if (predicate(as[i])) { return _.some(i); } } return _.none; }; }; export function findFirst(predicate) { return function (as) { for (var i = 0; i < as.length; i++) { if (predicate(as[i])) { return _.some(as[i]); } } return _.none; }; } /** * Find the first element returned by an option based selector function * * @example * import { findFirstMap } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * interface Person { * readonly name: string * readonly age?: number * } * * const persons: ReadonlyArray = [{ name: 'John' }, { name: 'Mary', age: 45 }, { name: 'Joey', age: 28 }] * * // returns the name of the first person that has an age * assert.deepStrictEqual(findFirstMap((p: Person) => (p.age === undefined ? none : some(p.name)))(persons), some('Mary')) * * @since 2.5.0 */ export var findFirstMap = function (f) { return function (as) { for (var i = 0; i < as.length; i++) { var out = f(as[i]); if (_.isSome(out)) { return out; } } return _.none; }; }; export function findLast(predicate) { return function (as) { for (var i = as.length - 1; i >= 0; i--) { if (predicate(as[i])) { return _.some(as[i]); } } return _.none; }; } /** * Find the last element returned by an option based selector function * * @example * import { findLastMap } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * interface Person { * readonly name: string * readonly age?: number * } * * const persons: ReadonlyArray = [{ name: 'John' }, { name: 'Mary', age: 45 }, { name: 'Joey', age: 28 }] * * // returns the name of the last person that has an age * assert.deepStrictEqual(findLastMap((p: Person) => (p.age === undefined ? none : some(p.name)))(persons), some('Joey')) * * @since 2.5.0 */ export var findLastMap = function (f) { return function (as) { for (var i = as.length - 1; i >= 0; i--) { var out = f(as[i]); if (_.isSome(out)) { return out; } } return _.none; }; }; /** * Returns the index of the last element of the list which matches the predicate * * @example * import { findLastIndex } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * interface X { * readonly a: number * readonly b: number * } * const xs: ReadonlyArray = [{ a: 1, b: 0 }, { a: 1, b: 1 }] * assert.deepStrictEqual(findLastIndex((x: { readonly a: number }) => x.a === 1)(xs), some(1)) * assert.deepStrictEqual(findLastIndex((x: { readonly a: number }) => x.a === 4)(xs), none) * * * @since 2.5.0 */ export var findLastIndex = function (predicate) { return function (as) { for (var i = as.length - 1; i >= 0; i--) { if (predicate(as[i])) { return _.some(i); } } return _.none; }; }; /** * Insert an element at the specified index, creating a new array, or returning `None` if the index is out of bounds * * @example * import { insertAt } from 'fp-ts/ReadonlyArray' * import { some } from 'fp-ts/Option' * * assert.deepStrictEqual(insertAt(2, 5)([1, 2, 3, 4]), some([1, 2, 5, 3, 4])) * * @since 2.5.0 */ export var insertAt = function (i, a) { return function (as) { return i < 0 || i > as.length ? _.none : _.some(RNEA.unsafeInsertAt(i, a, as)); }; }; /** * Change the element at the specified index, creating a new array, or returning `None` if the index is out of bounds * * @example * import { updateAt } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * assert.deepStrictEqual(updateAt(1, 1)([1, 2, 3]), some([1, 1, 3])) * assert.deepStrictEqual(updateAt(1, 1)([]), none) * * @since 2.5.0 */ export var updateAt = function (i, a) { return modifyAt(i, function () { return a; }); }; /** * Delete the element at the specified index, creating a new array, or returning `None` if the index is out of bounds * * @example * import { deleteAt } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * assert.deepStrictEqual(deleteAt(0)([1, 2, 3]), some([2, 3])) * assert.deepStrictEqual(deleteAt(1)([]), none) * * @since 2.5.0 */ export var deleteAt = function (i) { return function (as) { return isOutOfBound(i, as) ? _.none : _.some(unsafeDeleteAt(i, as)); }; }; /** * Apply a function to the element at the specified index, creating a new array, or returning `None` if the index is out * of bounds * * @example * import { modifyAt } from 'fp-ts/ReadonlyArray' * import { some, none } from 'fp-ts/Option' * * const double = (x: number): number => x * 2 * assert.deepStrictEqual(modifyAt(1, double)([1, 2, 3]), some([1, 4, 3])) * assert.deepStrictEqual(modifyAt(1, double)([]), none) * * @since 2.5.0 */ export var modifyAt = function (i, f) { return function (as) { return isOutOfBound(i, as) ? _.none : _.some(unsafeUpdateAt(i, f(as[i]), as)); }; }; /** * Reverse an array, creating a new array * * @example * import { reverse } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(reverse([1, 2, 3]), [3, 2, 1]) * * @since 2.5.0 */ export var reverse = function (as) { return (as.length <= 1 ? as : as.slice().reverse()); }; /** * Extracts from an array of `Either` all the `Right` elements. All the `Right` elements are extracted in order * * @example * import { rights } from 'fp-ts/ReadonlyArray' * import { right, left } from 'fp-ts/Either' * * assert.deepStrictEqual(rights([right(1), left('foo'), right(2)]), [1, 2]) * * @since 2.5.0 */ export var rights = function (as) { var r = []; for (var i = 0; i < as.length; i++) { var a = as[i]; if (a._tag === 'Right') { r.push(a.right); } } return r; }; /** * Extracts from an array of `Either` all the `Left` elements. All the `Left` elements are extracted in order * * @example * import { lefts } from 'fp-ts/ReadonlyArray' * import { left, right } from 'fp-ts/Either' * * assert.deepStrictEqual(lefts([right(1), left('foo'), right(2)]), ['foo']) * * @since 2.5.0 */ export var lefts = function (as) { var r = []; for (var i = 0; i < as.length; i++) { var a = as[i]; if (a._tag === 'Left') { r.push(a.left); } } return r; }; /** * Sort the elements of an array in increasing order, creating a new array * * @example * import { sort } from 'fp-ts/ReadonlyArray' * import * as N from 'fp-ts/number' * * assert.deepStrictEqual(sort(N.Ord)([3, 2, 1]), [1, 2, 3]) * * @since 2.5.0 */ export var sort = function (O) { return function (as) { return as.length <= 1 ? as : as.slice().sort(O.compare); }; }; // TODO: curry and make data-last in v3 /** * Apply a function to pairs of elements at the same index in two arrays, collecting the results in a new array. If one * input array is short, excess elements of the longer array are discarded. * * @example * import { zipWith } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(zipWith([1, 2, 3], ['a', 'b', 'c', 'd'], (n, s) => s + n), ['a1', 'b2', 'c3']) * * @since 2.5.0 */ export var zipWith = function (fa, fb, f) { var fc = []; var len = Math.min(fa.length, fb.length); for (var i = 0; i < len; i++) { fc[i] = f(fa[i], fb[i]); } return fc; }; export function zip(as, bs) { if (bs === undefined) { return function (bs) { return zip(bs, as); }; } return zipWith(as, bs, function (a, b) { return [a, b]; }); } /** * The function is reverse of `zip`. Takes an array of pairs and return two corresponding arrays * * @example * import { unzip } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(unzip([[1, 'a'], [2, 'b'], [3, 'c']]), [[1, 2, 3], ['a', 'b', 'c']]) * * @since 2.5.0 */ export var unzip = function (as) { var fa = []; var fb = []; for (var i = 0; i < as.length; i++) { fa[i] = as[i][0]; fb[i] = as[i][1]; } return [fa, fb]; }; /** * Prepend an element to every member of an array * * @example * import { prependAll } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(prependAll(9)([1, 2, 3, 4]), [9, 1, 9, 2, 9, 3, 9, 4]) * * @since 2.10.0 */ export var prependAll = function (middle) { var f = RNEA.prependAll(middle); return function (as) { return (isNonEmpty(as) ? f(as) : as); }; }; /** * Places an element in between members of an array * * @example * import { intersperse } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(intersperse(9)([1, 2, 3, 4]), [1, 9, 2, 9, 3, 9, 4]) * * @since 2.9.0 */ export var intersperse = function (middle) { var f = RNEA.intersperse(middle); return function (as) { return (isNonEmpty(as) ? f(as) : as); }; }; /** * Rotate a `ReadonlyArray` by `n` steps. * * @example * import { rotate } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(rotate(2)([1, 2, 3, 4, 5]), [4, 5, 1, 2, 3]) * * @since 2.5.0 */ export var rotate = function (n) { var f = RNEA.rotate(n); return function (as) { return (isNonEmpty(as) ? f(as) : as); }; }; export function elem(E) { return function (a, as) { if (as === undefined) { var elemE_1 = elem(E); return function (as) { return elemE_1(a, as); }; } var predicate = function (element) { return E.equals(element, a); }; var i = 0; for (; i < as.length; i++) { if (predicate(as[i])) { return true; } } return false; }; } /** * Remove duplicates from an array, keeping the first occurrence of an element. * * @example * import { uniq } from 'fp-ts/ReadonlyArray' * import * as N from 'fp-ts/number' * * assert.deepStrictEqual(uniq(N.Eq)([1, 2, 1]), [1, 2]) * * @since 2.5.0 */ export var uniq = function (E) { var f = RNEA.uniq(E); return function (as) { return (isNonEmpty(as) ? f(as) : as); }; }; /** * Sort the elements of an array in increasing order, where elements are compared using first `ords[0]`, then `ords[1]`, * etc... * * @example * import { sortBy } from 'fp-ts/ReadonlyArray' * import { contramap } from 'fp-ts/Ord' * import * as S from 'fp-ts/string' * import * as N from 'fp-ts/number' * import { pipe } from 'fp-ts/function' * * interface Person { * readonly name: string * readonly age: number * } * const byName = pipe(S.Ord, contramap((p: Person) => p.name)) * const byAge = pipe(N.Ord, contramap((p: Person) => p.age)) * * const sortByNameByAge = sortBy([byName, byAge]) * * const persons = [{ name: 'a', age: 1 }, { name: 'b', age: 3 }, { name: 'c', age: 2 }, { name: 'b', age: 2 }] * assert.deepStrictEqual(sortByNameByAge(persons), [ * { name: 'a', age: 1 }, * { name: 'b', age: 2 }, * { name: 'b', age: 3 }, * { name: 'c', age: 2 } * ]) * * @since 2.5.0 */ export var sortBy = function (ords) { var f = RNEA.sortBy(ords); return function (as) { return (isNonEmpty(as) ? f(as) : as); }; }; /** * A useful recursion pattern for processing a `ReadonlyArray` to produce a new `ReadonlyArray`, often used for "chopping" up the input * `ReadonlyArray`. Typically `chop` is called with some function that will consume an initial prefix of the `ReadonlyArray` and produce a * value and the tail of the `ReadonlyArray`. * * @example * import { Eq } from 'fp-ts/Eq' * import * as RA from 'fp-ts/ReadonlyArray' * import * as N from 'fp-ts/number' * import { pipe } from 'fp-ts/function' * * const group = (S: Eq): ((as: ReadonlyArray) => ReadonlyArray>) => { * return RA.chop(as => { * const { init, rest } = pipe(as, RA.spanLeft((a: A) => S.equals(a, as[0]))) * return [init, rest] * }) * } * assert.deepStrictEqual(group(N.Eq)([1, 1, 2, 3, 3, 4]), [[1, 1], [2], [3, 3], [4]]) * * @since 2.5.0 */ export var chop = function (f) { var g = RNEA.chop(f); return function (as) { return (isNonEmpty(as) ? g(as) : empty); }; }; /** * Splits a `ReadonlyArray` into two pieces, the first piece has max `n` elements. * * @example * import { splitAt } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(splitAt(2)([1, 2, 3, 4, 5]), [[1, 2], [3, 4, 5]]) * * @since 2.5.0 */ export var splitAt = function (n) { return function (as) { return n >= 1 && isNonEmpty(as) ? RNEA.splitAt(n)(as) : isEmpty(as) ? [as, empty] : [empty, as]; }; }; /** * Splits a `ReadonlyArray` into length-`n` pieces. The last piece will be shorter if `n` does not evenly divide the length of * the `ReadonlyArray`. Note that `chunksOf(n)([])` is `[]`, not `[[]]`. This is intentional, and is consistent with a recursive * definition of `chunksOf`; it satisfies the property that: * * ```ts * chunksOf(n)(xs).concat(chunksOf(n)(ys)) == chunksOf(n)(xs.concat(ys))) * ``` * * whenever `n` evenly divides the length of `as`. * * @example * import { chunksOf } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(chunksOf(2)([1, 2, 3, 4, 5]), [[1, 2], [3, 4], [5]]) * * @since 2.5.0 */ export var chunksOf = function (n) { var f = RNEA.chunksOf(n); return function (as) { return (isNonEmpty(as) ? f(as) : empty); }; }; /** * @category lifting * @since 2.11.0 */ export var fromOptionK = function (f) { return function () { var a = []; for (var _i = 0; _i < arguments.length; _i++) { a[_i] = arguments[_i]; } return fromOption(f.apply(void 0, a)); }; }; export function comprehension(input, f, g) { if (g === void 0) { g = function () { return true; }; } var go = function (scope, input) { return isNonEmpty(input) ? pipe(RNEA.head(input), chain(function (x) { return go(pipe(scope, append(x)), RNEA.tail(input)); })) : g.apply(void 0, scope) ? [f.apply(void 0, scope)] : empty; }; return go(empty, input); } /** * @since 2.11.0 */ export var concatW = function (second) { return function (first) { return isEmpty(first) ? second : isEmpty(second) ? first : first.concat(second); }; }; /** * @since 2.11.0 */ export var concat = concatW; export function union(E) { var unionE = RNEA.union(E); return function (first, second) { if (second === undefined) { var unionE_1 = union(E); return function (second) { return unionE_1(second, first); }; } return isNonEmpty(first) && isNonEmpty(second) ? unionE(second)(first) : isNonEmpty(first) ? first : second; }; } export function intersection(E) { var elemE = elem(E); return function (xs, ys) { if (ys === undefined) { var intersectionE_1 = intersection(E); return function (ys) { return intersectionE_1(ys, xs); }; } return xs.filter(function (a) { return elemE(a, ys); }); }; } export function difference(E) { var elemE = elem(E); return function (xs, ys) { if (ys === undefined) { var differenceE_1 = difference(E); return function (ys) { return differenceE_1(ys, xs); }; } return xs.filter(function (a) { return !elemE(a, ys); }); }; } var _map = function (fa, f) { return pipe(fa, map(f)); }; var _mapWithIndex = function (fa, f) { return pipe(fa, mapWithIndex(f)); }; var _ap = function (fab, fa) { return pipe(fab, ap(fa)); }; var _chain = function (ma, f) { return pipe(ma, chain(f)); }; var _filter = function (fa, predicate) { return pipe(fa, filter(predicate)); }; var _filterMap = function (fa, f) { return pipe(fa, filterMap(f)); }; var _partition = function (fa, predicate) { return pipe(fa, partition(predicate)); }; var _partitionMap = function (fa, f) { return pipe(fa, partitionMap(f)); }; var _partitionWithIndex = function (fa, predicateWithIndex) { return pipe(fa, partitionWithIndex(predicateWithIndex)); }; var _partitionMapWithIndex = function (fa, f) { return pipe(fa, partitionMapWithIndex(f)); }; var _alt = function (fa, that) { return pipe(fa, alt(that)); }; var _reduce = function (fa, b, f) { return pipe(fa, reduce(b, f)); }; var _foldMap = function (M) { var foldMapM = foldMap(M); return function (fa, f) { return pipe(fa, foldMapM(f)); }; }; var _reduceRight = function (fa, b, f) { return pipe(fa, reduceRight(b, f)); }; var _reduceWithIndex = function (fa, b, f) { return pipe(fa, reduceWithIndex(b, f)); }; var _foldMapWithIndex = function (M) { var foldMapWithIndexM = foldMapWithIndex(M); return function (fa, f) { return pipe(fa, foldMapWithIndexM(f)); }; }; var _reduceRightWithIndex = function (fa, b, f) { return pipe(fa, reduceRightWithIndex(b, f)); }; var _filterMapWithIndex = function (fa, f) { return pipe(fa, filterMapWithIndex(f)); }; var _filterWithIndex = function (fa, predicateWithIndex) { return pipe(fa, filterWithIndex(predicateWithIndex)); }; var _extend = function (fa, f) { return pipe(fa, extend(f)); }; var _traverse = function (F) { var traverseF = traverse(F); return function (ta, f) { return pipe(ta, traverseF(f)); }; }; /* istanbul ignore next */ var _traverseWithIndex = function (F) { var traverseWithIndexF = traverseWithIndex(F); return function (ta, f) { return pipe(ta, traverseWithIndexF(f)); }; }; /** @internal */ export var _chainRecDepthFirst = function (a, f) { return pipe(a, chainRecDepthFirst(f)); }; /** @internal */ export var _chainRecBreadthFirst = function (a, f) { return pipe(a, chainRecBreadthFirst(f)); }; /** * @category constructors * @since 2.5.0 */ export var of = RNEA.of; /** * @since 2.7.0 */ export var zero = function () { return empty; }; /** * Less strict version of [`alt`](#alt). * * The `W` suffix (short for **W**idening) means that the return types will be merged. * * @example * import * as RA from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * assert.deepStrictEqual( * pipe( * [1, 2, 3], * RA.altW(() => ['a', 'b']) * ), * [1, 2, 3, 'a', 'b'] * ) * * @category error handling * @since 2.9.0 */ export var altW = function (that) { return function (fa) { return fa.concat(that()); }; }; /** * Identifies an associative operation on a type constructor. It is similar to `Semigroup`, except that it applies to * types of kind `* -> *`. * * In case of `ReadonlyArray` concatenates the inputs into a single array. * * @example * import * as RA from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * assert.deepStrictEqual( * pipe( * [1, 2, 3], * RA.alt(() => [4, 5]) * ), * [1, 2, 3, 4, 5] * ) * * @category error handling * @since 2.5.0 */ export var alt = altW; /** * @since 2.5.0 */ export var ap = function (fa) { return chain(function (f) { return pipe(fa, map(f)); }); }; /** * Composes computations in sequence, using the return value of one computation to determine the next computation. * * @example * import * as RA from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * assert.deepStrictEqual( * pipe( * [1, 2, 3], * RA.chain((n) => [`a${n}`, `b${n}`]) * ), * ['a1', 'b1', 'a2', 'b2', 'a3', 'b3'] * ) * assert.deepStrictEqual( * pipe( * [1, 2, 3], * RA.chain(() => []) * ), * [] * ) * * @category sequencing * @since 2.5.0 */ export var chain = function (f) { return function (ma) { return pipe(ma, chainWithIndex(function (_, a) { return f(a); })); }; }; /** * @category sequencing * @since 2.5.0 */ export var flatten = /*#__PURE__*/ chain(identity); /** * `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 2.5.0 */ export var map = function (f) { return function (fa) { return fa.map(function (a) { return f(a); }); }; }; /** * @category mapping * @since 2.5.0 */ export var mapWithIndex = function (f) { return function (fa) { return fa.map(function (a, i) { return f(i, a); }); }; }; /** * @category filtering * @since 2.5.0 */ export var separate = function (fa) { var left = []; var right = []; for (var _i = 0, fa_1 = fa; _i < fa_1.length; _i++) { var e = fa_1[_i]; if (e._tag === 'Left') { left.push(e.left); } else { right.push(e.right); } } return separated(left, right); }; /** * @category filtering * @since 2.5.0 */ export var filter = function (predicate) { return function (as) { return as.filter(predicate); }; }; /** * @category filtering * @since 2.5.0 */ export var filterMapWithIndex = function (f) { return function (fa) { var out = []; for (var i = 0; i < fa.length; i++) { var optionB = f(i, fa[i]); if (_.isSome(optionB)) { out.push(optionB.value); } } return out; }; }; /** * @category filtering * @since 2.5.0 */ export var filterMap = function (f) { return filterMapWithIndex(function (_, a) { return f(a); }); }; /** * @category filtering * @since 2.5.0 */ export var compact = /*#__PURE__*/ filterMap(identity); /** * @category filtering * @since 2.5.0 */ export var partition = function (predicate) { return partitionWithIndex(function (_, a) { return predicate(a); }); }; /** * @category filtering * @since 2.5.0 */ export var partitionWithIndex = function (predicateWithIndex) { return function (as) { var left = []; var right = []; for (var i = 0; i < as.length; i++) { var a = as[i]; if (predicateWithIndex(i, a)) { right.push(a); } else { left.push(a); } } return separated(left, right); }; }; /** * @category filtering * @since 2.5.0 */ export var partitionMap = function (f) { return partitionMapWithIndex(function (_, a) { return f(a); }); }; /** * @category filtering * @since 2.5.0 */ export var partitionMapWithIndex = function (f) { return function (fa) { var left = []; var right = []; for (var i = 0; i < fa.length; i++) { var e = f(i, fa[i]); if (e._tag === 'Left') { left.push(e.left); } else { right.push(e.right); } } return separated(left, right); }; }; /** * @category filtering * @since 2.5.0 */ export var filterWithIndex = function (predicateWithIndex) { return function (as) { return as.filter(function (a, i) { return predicateWithIndex(i, a); }); }; }; /** * @since 2.5.0 */ export var extend = function (f) { return function (wa) { return wa.map(function (_, i) { return f(wa.slice(i)); }); }; }; /** * @since 2.5.0 */ export var duplicate = /*#__PURE__*/ extend(identity); /** * @category folding * @since 2.5.0 */ export var foldMapWithIndex = function (M) { return function (f) { return function (fa) { return fa.reduce(function (b, a, i) { return M.concat(b, f(i, a)); }, M.empty); }; }; }; /** * @category folding * @since 2.5.0 */ export var reduce = function (b, f) { return reduceWithIndex(b, function (_, b, a) { return f(b, a); }); }; /** * @category folding * @since 2.5.0 */ export var foldMap = function (M) { var foldMapWithIndexM = foldMapWithIndex(M); return function (f) { return foldMapWithIndexM(function (_, a) { return f(a); }); }; }; /** * @category folding * @since 2.5.0 */ export var reduceWithIndex = function (b, f) { return function (fa) { var len = fa.length; var out = b; for (var i = 0; i < len; i++) { out = f(i, out, fa[i]); } return out; }; }; /** * @category folding * @since 2.5.0 */ export var reduceRight = function (b, f) { return reduceRightWithIndex(b, function (_, a, b) { return f(a, b); }); }; /** * @category folding * @since 2.5.0 */ export var reduceRightWithIndex = function (b, f) { return function (fa) { return fa.reduceRight(function (b, a, i) { return f(i, a, b); }, b); }; }; /** * @category traversing * @since 2.6.3 */ export var traverse = function (F) { var traverseWithIndexF = traverseWithIndex(F); return function (f) { return traverseWithIndexF(function (_, a) { return f(a); }); }; }; /** * @category traversing * @since 2.6.3 */ export var sequence = function (F) { return function (ta) { return _reduce(ta, F.of(zero()), function (fas, fa) { return F.ap(F.map(fas, function (as) { return function (a) { return pipe(as, append(a)); }; }), fa); }); }; }; /** * @category sequencing * @since 2.6.3 */ export var traverseWithIndex = function (F) { return function (f) { return reduceWithIndex(F.of(zero()), function (i, fbs, a) { return F.ap(F.map(fbs, function (bs) { return function (b) { return pipe(bs, append(b)); }; }), f(i, a)); }); }; }; /** * @category filtering * @since 2.6.5 */ export var wither = function (F) { var _witherF = _wither(F); return function (f) { return function (fa) { return _witherF(fa, f); }; }; }; /** * @category filtering * @since 2.6.5 */ export var wilt = function (F) { var _wiltF = _wilt(F); return function (f) { return function (fa) { return _wiltF(fa, f); }; }; }; /** * @since 2.6.6 */ export var unfold = function (b, f) { var out = []; var bb = b; // eslint-disable-next-line no-constant-condition while (true) { var mt = f(bb); if (_.isSome(mt)) { var _a = mt.value, a = _a[0], b_1 = _a[1]; out.push(a); bb = b_1; } else { break; } } return out; }; /** * @category type lambdas * @since 2.5.0 */ export var URI = 'ReadonlyArray'; /** * @category instances * @since 2.5.0 */ export var getShow = function (S) { return ({ show: function (as) { return "[".concat(as.map(S.show).join(', '), "]"); } }); }; /** * @category instances * @since 2.5.0 */ export var getSemigroup = function () { return ({ concat: function (first, second) { return (isEmpty(first) ? second : isEmpty(second) ? first : first.concat(second)); } }); }; /** * Returns a `Monoid` for `ReadonlyArray`. * * @example * import { getMonoid } from 'fp-ts/ReadonlyArray' * * const M = getMonoid() * assert.deepStrictEqual(M.concat([1, 2], [3, 4]), [1, 2, 3, 4]) * * @category instances * @since 2.5.0 */ export var getMonoid = function () { return ({ concat: getSemigroup().concat, empty: empty }); }; /** * Derives an `Eq` over the `ReadonlyArray` of a given element type from the `Eq` of that type. The derived `Eq` defines two * arrays as equal if all elements of both arrays are compared equal pairwise with the given `E`. In case of arrays of * different lengths, the result is non equality. * * @example * import * as S from 'fp-ts/string' * import { getEq } from 'fp-ts/ReadonlyArray' * * const E = getEq(S.Eq) * assert.strictEqual(E.equals(['a', 'b'], ['a', 'b']), true) * assert.strictEqual(E.equals(['a'], []), false) * * @category instances * @since 2.5.0 */ export var getEq = function (E) { return fromEquals(function (xs, ys) { return xs.length === ys.length && xs.every(function (x, i) { return E.equals(x, ys[i]); }); }); }; /** * Derives an `Ord` over the `ReadonlyArray` of a given element type from the `Ord` of that type. The ordering between two such * arrays is equal to: the first non equal comparison of each arrays elements taken pairwise in increasing order, in * case of equality over all the pairwise elements; the longest array is considered the greatest, if both arrays have * the same length, the result is equality. * * @example * import { getOrd } from 'fp-ts/ReadonlyArray' * import * as S from 'fp-ts/string' * * const O = getOrd(S.Ord) * assert.strictEqual(O.compare(['b'], ['a']), 1) * assert.strictEqual(O.compare(['a'], ['a']), 0) * assert.strictEqual(O.compare(['a'], ['b']), -1) * * * @category instances * @since 2.5.0 */ export var getOrd = function (O) { return fromCompare(function (a, b) { var aLen = a.length; var bLen = b.length; var len = Math.min(aLen, bLen); for (var i = 0; i < len; i++) { var ordering = O.compare(a[i], b[i]); if (ordering !== 0) { return ordering; } } return N.Ord.compare(aLen, bLen); }); }; /** * @category instances * @since 2.11.0 */ export var getUnionSemigroup = function (E) { var unionE = union(E); return { concat: function (first, second) { return unionE(second)(first); } }; }; /** * @category instances * @since 2.11.0 */ export var getUnionMonoid = function (E) { return ({ concat: getUnionSemigroup(E).concat, empty: empty }); }; /** * @category instances * @since 2.11.0 */ export var getIntersectionSemigroup = function (E) { var intersectionE = intersection(E); return { concat: function (first, second) { return intersectionE(second)(first); } }; }; /** * @category instances * @since 2.11.0 */ export var getDifferenceMagma = function (E) { var differenceE = difference(E); return { concat: function (first, second) { return differenceE(second)(first); } }; }; /** * @category instances * @since 2.7.0 */ export var Functor = { URI: URI, map: _map }; /** * @category mapping * @since 2.10.0 */ export var flap = /*#__PURE__*/ flap_(Functor); /** * @category instances * @since 2.10.0 */ export var Pointed = { URI: URI, of: of }; /** * @category instances * @since 2.7.0 */ export var FunctorWithIndex = { URI: URI, map: _map, mapWithIndex: _mapWithIndex }; /** * @category instances * @since 2.10.0 */ export var Apply = { URI: URI, map: _map, ap: _ap }; /** * Combine two effectful actions, keeping only the result of the first. * * @since 2.5.0 */ export var apFirst = /*#__PURE__*/ apFirst_(Apply); /** * Combine two effectful actions, keeping only the result of the second. * * @since 2.5.0 */ export var apSecond = /*#__PURE__*/ apSecond_(Apply); /** * @category instances * @since 2.7.0 */ export var Applicative = { URI: URI, map: _map, ap: _ap, of: of }; /** * @category instances * @since 2.10.0 */ export var Chain = { URI: URI, map: _map, ap: _ap, chain: _chain }; /** * @category instances * @since 2.7.0 */ export var Monad = { URI: URI, map: _map, ap: _ap, of: of, chain: _chain }; /** * 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 * as RA from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * assert.deepStrictEqual( * pipe( * [1, 2, 3], * RA.chainFirst(() => ['a', 'b']) * ), * [1, 1, 2, 2, 3, 3] * ) * assert.deepStrictEqual( * pipe( * [1, 2, 3], * RA.chainFirst(() => []) * ), * [] * ) * * @category sequencing * @since 2.5.0 */ export var chainFirst = /*#__PURE__*/ chainFirst_(Chain); /** * @category instances * @since 2.7.0 */ export var Unfoldable = { URI: URI, unfold: unfold }; /** * @category instances * @since 2.7.0 */ export var Alt = { URI: URI, map: _map, alt: _alt }; /** * @category instances * @since 2.11.0 */ export var Zero = { URI: URI, zero: zero }; /** * @category do notation * @since 2.11.0 */ export var guard = /*#__PURE__*/ guard_(Zero, Pointed); /** * @category instances * @since 2.7.0 */ export var Alternative = { URI: URI, map: _map, ap: _ap, of: of, alt: _alt, zero: zero }; /** * @category instances * @since 2.7.0 */ export var Extend = { URI: URI, map: _map, extend: _extend }; /** * @category instances * @since 2.7.0 */ export var Compactable = { URI: URI, compact: compact, separate: separate }; /** * @category instances * @since 2.7.0 */ export var Filterable = { URI: URI, map: _map, compact: compact, separate: separate, filter: _filter, filterMap: _filterMap, partition: _partition, partitionMap: _partitionMap }; /** * @category instances * @since 2.7.0 */ export var FilterableWithIndex = { URI: URI, map: _map, mapWithIndex: _mapWithIndex, compact: compact, separate: separate, filter: _filter, filterMap: _filterMap, partition: _partition, partitionMap: _partitionMap, partitionMapWithIndex: _partitionMapWithIndex, partitionWithIndex: _partitionWithIndex, filterMapWithIndex: _filterMapWithIndex, filterWithIndex: _filterWithIndex }; /** * @category instances * @since 2.7.0 */ export var Foldable = { URI: URI, reduce: _reduce, foldMap: _foldMap, reduceRight: _reduceRight }; /** * @category instances * @since 2.7.0 */ export var FoldableWithIndex = { URI: URI, reduce: _reduce, foldMap: _foldMap, reduceRight: _reduceRight, reduceWithIndex: _reduceWithIndex, foldMapWithIndex: _foldMapWithIndex, reduceRightWithIndex: _reduceRightWithIndex }; /** * @category instances * @since 2.7.0 */ export var Traversable = { URI: URI, map: _map, reduce: _reduce, foldMap: _foldMap, reduceRight: _reduceRight, traverse: _traverse, sequence: sequence }; /** * @category instances * @since 2.7.0 */ export var TraversableWithIndex = { URI: URI, map: _map, mapWithIndex: _mapWithIndex, reduce: _reduce, foldMap: _foldMap, reduceRight: _reduceRight, reduceWithIndex: _reduceWithIndex, foldMapWithIndex: _foldMapWithIndex, reduceRightWithIndex: _reduceRightWithIndex, traverse: _traverse, sequence: sequence, traverseWithIndex: _traverseWithIndex }; /** * @category sequencing * @since 2.11.0 */ export var chainRecDepthFirst = function (f) { return function (a) { var todo = __spreadArray([], f(a), true); var out = []; while (todo.length > 0) { var e = todo.shift(); if (_.isLeft(e)) { todo.unshift.apply(todo, f(e.left)); } else { out.push(e.right); } } return out; }; }; /** * @category instances * @since 2.11.0 */ export var ChainRecDepthFirst = { URI: URI, map: _map, ap: _ap, chain: _chain, chainRec: _chainRecDepthFirst }; /** * @category sequencing * @since 2.11.0 */ export var chainRecBreadthFirst = function (f) { return function (a) { var initial = f(a); var todo = []; var out = []; function go(e) { if (_.isLeft(e)) { f(e.left).forEach(function (v) { return todo.push(v); }); } else { out.push(e.right); } } for (var _i = 0, initial_1 = initial; _i < initial_1.length; _i++) { var e = initial_1[_i]; go(e); } while (todo.length > 0) { go(todo.shift()); } return out; }; }; /** * @category instances * @since 2.11.0 */ export var ChainRecBreadthFirst = { URI: URI, map: _map, ap: _ap, chain: _chain, chainRec: _chainRecBreadthFirst }; var _wither = /*#__PURE__*/ witherDefault(Traversable, Compactable); var _wilt = /*#__PURE__*/ wiltDefault(Traversable, Compactable); /** * @category instances * @since 2.7.0 */ export var Witherable = { URI: URI, map: _map, compact: compact, separate: separate, filter: _filter, filterMap: _filterMap, partition: _partition, partitionMap: _partitionMap, reduce: _reduce, foldMap: _foldMap, reduceRight: _reduceRight, traverse: _traverse, sequence: sequence, wither: _wither, wilt: _wilt }; /** * Filter values inside a context. * * @example * import { pipe } from 'fp-ts/function' * import * as RA from 'fp-ts/ReadonlyArray' * import * as T from 'fp-ts/Task' * * const filterE = RA.filterE(T.ApplicativePar) * async function test() { * assert.deepStrictEqual( * await pipe( * [-1, 2, 3], * filterE((n) => T.of(n > 0)) * )(), * [2, 3] * ) * } * test() * * @since 2.11.0 */ export var filterE = /*#__PURE__*/ filterE_(Witherable); /** * @category instances * @since 2.11.0 */ export var FromEither = { URI: URI, fromEither: fromEither }; /** * @category lifting * @since 2.11.0 */ export var fromEitherK = /*#__PURE__*/ fromEitherK_(FromEither); // ------------------------------------------------------------------------------------- // unsafe // ------------------------------------------------------------------------------------- /** * @category unsafe * @since 2.5.0 */ export var unsafeInsertAt = RNEA.unsafeInsertAt; /** * @category unsafe * @since 2.5.0 */ export var unsafeUpdateAt = function (i, a, as) { return isNonEmpty(as) ? RNEA.unsafeUpdateAt(i, a, as) : as; }; /** * @category unsafe * @since 2.5.0 */ export var unsafeDeleteAt = function (i, as) { var xs = as.slice(); xs.splice(i, 1); return xs; }; /** * @category conversions * @since 2.5.0 */ export var toArray = function (as) { return as.slice(); }; /** * @category conversions * @since 2.5.0 */ export var fromArray = function (as) { return (isEmpty(as) ? empty : as.slice()); }; // ------------------------------------------------------------------------------------- // utils // ------------------------------------------------------------------------------------- /** * An empty array * * @since 2.5.0 */ export var empty = RNEA.empty; export function every(predicate) { return function (as) { return as.every(predicate); }; } /** * Check if a predicate holds true for any array member. * * @example * import { some } from 'fp-ts/ReadonlyArray' * import { pipe } from 'fp-ts/function' * * const isPositive = (n: number): boolean => n > 0 * * assert.deepStrictEqual(pipe([-1, -2, 3], some(isPositive)), true) * assert.deepStrictEqual(pipe([-1, -2, -3], some(isPositive)), false) * * @since 2.9.0 */ export var some = function (predicate) { return function (as) { return as.some(predicate); }; }; /** * Alias of [`some`](#some) * * @since 2.11.0 */ export var exists = some; /** * Places an element in between members of a `ReadonlyArray`, then folds the results using the provided `Monoid`. * * @example * import * as S from 'fp-ts/string' * import { intercalate } from 'fp-ts/ReadonlyArray' * * assert.deepStrictEqual(intercalate(S.Monoid)('-')(['a', 'b', 'c']), 'a-b-c') * * @since 2.12.0 */ export var intercalate = function (M) { var intercalateM = RNEA.intercalate(M); return function (middle) { return match(function () { return M.empty; }, intercalateM(middle)); }; }; // ------------------------------------------------------------------------------------- // do notation // ------------------------------------------------------------------------------------- /** * @category do notation * @since 2.9.0 */ export var Do = /*#__PURE__*/ of(_.emptyRecord); /** * @category do notation * @since 2.8.0 */ export var bindTo = /*#__PURE__*/ bindTo_(Functor); var let_ = /*#__PURE__*/ let__(Functor); export { /** * @category do notation * @since 2.13.0 */ let_ as let }; /** * @category do notation * @since 2.8.0 */ export var bind = /*#__PURE__*/ bind_(Chain); /** * @category do notation * @since 2.8.0 */ export var apS = /*#__PURE__*/ apS_(Apply); // ------------------------------------------------------------------------------------- // deprecated // ------------------------------------------------------------------------------------- /** * Use `ReadonlyNonEmptyArray` module instead. * * @category zone of death * @since 2.5.0 * @deprecated */ export var range = RNEA.range; /** * Use [`prepend`](#prepend) instead. * * @category zone of death * @since 2.5.0 * @deprecated */ export var cons = RNEA.cons; /** * Use [`append`](#append) instead. * * @category zone of death * @since 2.5.0 * @deprecated */ export var snoc = RNEA.snoc; /** * Use [`prependAll`](#prependall) instead. * * @category zone of death * @since 2.9.0 * @deprecated */ export var prependToAll = prependAll; /** * This instance is deprecated, use small, specific instances instead. * For example if a function needs a `Functor` instance, pass `RA.Functor` instead of `RA.readonlyArray` * (where `RA` is from `import RA from 'fp-ts/ReadonlyArray'`) * * @category zone of death * @since 2.5.0 * @deprecated */ export var readonlyArray = { URI: URI, compact: compact, separate: separate, map: _map, ap: _ap, of: of, chain: _chain, filter: _filter, filterMap: _filterMap, partition: _partition, partitionMap: _partitionMap, mapWithIndex: _mapWithIndex, partitionMapWithIndex: _partitionMapWithIndex, partitionWithIndex: _partitionWithIndex, filterMapWithIndex: _filterMapWithIndex, filterWithIndex: _filterWithIndex, alt: _alt, zero: zero, unfold: unfold, reduce: _reduce, foldMap: _foldMap, reduceRight: _reduceRight, traverse: _traverse, sequence: sequence, reduceWithIndex: _reduceWithIndex, foldMapWithIndex: _foldMapWithIndex, reduceRightWithIndex: _reduceRightWithIndex, traverseWithIndex: _traverseWithIndex, extend: _extend, wither: _wither, wilt: _wilt };