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README
Rambda
Rambda
is smaller and faster alternative to the popular functional programming library Ramda. - Documentation
โฏ Example use
import { compose, map, filter } from 'rambda'
const result = compose(
map(x => x * 2),
filter(x => x > 2)
)([1, 2, 3, 4])
// => [6, 8]
You can test this example in Rambda's REPL
- Differences between Rambda and Ramda
- API
- [Changelog](#-changelog)
[](#-example-use)
โฏ Rambda's advantages
Typescript included
Typescript definitions are included in the library, in comparison to Ramda, where you need to additionally install @types/ramda
.
Still, you need to be aware that functional programming features in Typescript
are in development, which means that using R.compose/R.pipe can be problematic.
Important - Rambda version 7.1.0
(or higher) requires Typescript version 4.3.3
(or higher).
Immutable TS definitions
You can use immutable version of Rambda definitions, which is linted with ESLint functional/prefer-readonly-type
plugin.
import {add} from 'rambda/immutable'
Deno support
While Ramda
is available for Deno
users, Rambda
provides you with included TS definitions:
import * as R from "https://x.nest.land/[email protected]/mod.ts";
import * as Ramda from "https://x.nest.land/[email protected]/mod.ts";
R.add(1)('foo') // => will trigger warning in VSCode
Ramda.add(1)('foo') // => will not trigger warning in VSCode
Smaller size
The size of a library affects not only the build bundle size but also the dev bundle size and build time. This is important advantage, expecially for big projects.
<!-- ### Tree-shaking -->
Dot notation for R.path
, R.paths
, R.assocPath
and R.lensPath
Standard usage of R.path
is R.path(['a', 'b'], {a: {b: 1} })
.
In Rambda you have the choice to use dot notation(which is arguably more readable):
R.path('a.b', {a: {b: 1} })
Comma notation for R.pick
and R.omit
Similar to dot notation, but the separator is comma(,
) instead of dot(.
).
R.pick('a,b', {a: 1 , b: 2, c: 3} })
// No space allowed between properties
Speed
Rambda is generally more performant than Ramda
as the [benchmarks](#-benchmarks) can prove that.
Support
As the library is smaller than Ramda, issues are much faster resolved.
Closing the issue is usually accompanied by publishing a new patch version of Rambda
to NPM.
[](#-rambdas-advantages)
โฏ Missing Ramda methods
Click to see the full list of 77 Ramda methods not implemented in Rambda
- __
- addIndex
- ap
- aperture
- applyTo
- ascend
- binary
- call
- collectBy
- comparator
- composeWith
- construct
- constructN
- descend
- differenceWith
- dissocPath
- empty
- eqBy
- forEachObjIndexed
- gt
- gte
- hasIn
- innerJoin
- insert
- insertAll
- into
- invert
- invertObj
- invoker
- keysIn
- lift
- liftN
- lt
- lte
- mapAccum
- mapAccumRight
- memoizeWith
- mergeDeepLeft
- mergeDeepWith
- mergeDeepWithKey
- mergeWithKey
- nAry
- nthArg
- o
- otherwise
- pair
- partialRight
- pathSatisfies
- pickBy
- pipeWith
- project
- promap
- reduceBy
- reduceRight
- reduceWhile
- reduced
- remove
- scan
- sequence
- sortWith
- splitWhenever
- symmetricDifferenceWith
- andThen
- toPairsIn
- transduce
- traverse
- unary
- uncurryN
- unfold
- unionWith
- unnest
- until
- useWith
- valuesIn
- xprod
- thunkify
- default
[](#-missing-ramda-methods)
โฏ Install
yarn add rambda
For UMD usage either use
./dist/rambda.umd.js
or the following CDN link:
https://unpkg.com/rambda@CURRENT_VERSION/dist/rambda.umd.js
- with deno
import {compose, add} from 'https://raw.githubusercontent.com/selfrefactor/rambda/master/dist/rambda.esm.js'
[](#-install)
Differences between Rambda and Ramda
Rambda's type detects async functions and unresolved
Promises
. The returned values are'Async'
and'Promise'
.Rambda's type handles NaN input, in which case it returns
NaN
.Rambda's forEach can iterate over objects not only arrays.
Rambda's map, filter, partition when they iterate over objects, they pass property and input object as predicate's argument.
Rambda's filter returns empty array with bad input(
null
orundefined
), while Ramda throws.Ramda's clamp work with strings, while Rambda's method work only with numbers.
Ramda's indexOf/lastIndexOf work with strings and lists, while Rambda's method work only with lists as iterable input.
Error handling, when wrong inputs are provided, may not be the same. This difference will be better documented once all brute force tests are completed.
Typescript definitions between
rambda
and@types/ramda
may vary.
If you need more Ramda methods in Rambda, you may either submit a
PR
or check the extended version of Rambda - Rambdax. In case of the former, you may want to consult with [Rambda contribution guidelines.](CONTRIBUTING.md)
[](#-differences-between-rambda-and-ramda)
โฏ Benchmarks
Click to expand all benchmark results
There are methods which are benchmarked only with Ramda
and Rambda
(i.e. no Lodash
).
Note that some of these methods, are called with and without curring. This is done in order to give more detailed performance feedback.
The benchmarks results are produced from latest versions of Rambda, Lodash(4.17.21) and Ramda(0.28.0).
method | Rambda | Ramda | Lodash |
---|---|---|---|
add | ๐ Fastest | 21.52% slower | 82.15% slower |
adjust | 8.48% slower | ๐ Fastest | ๐ณ |
all | ๐ Fastest | 1.81% slower | ๐ณ |
allPass | ๐ Fastest | 91.09% slower | ๐ณ |
allPass | ๐ Fastest | 98.56% slower | ๐ณ |
and | ๐ Fastest | 89.09% slower | ๐ณ |
any | ๐ Fastest | 92.87% slower | 45.82% slower |
anyPass | ๐ Fastest | 98.25% slower | ๐ณ |
append | ๐ Fastest | 2.07% slower | ๐ณ |
applySpec | ๐ Fastest | 80.43% slower | ๐ณ |
assoc | 72.32% slower | 60.08% slower | ๐ Fastest |
clone | ๐ Fastest | 91.86% slower | 86.48% slower |
compose | ๐ Fastest | 32.45% slower | 13.68% slower |
converge | 78.63% slower | ๐ Fastest | ๐ณ |
curry | ๐ Fastest | 28.86% slower | ๐ณ |
curryN | ๐ Fastest | 41.05% slower | ๐ณ |
defaultTo | ๐ Fastest | 48.91% slower | ๐ณ |
drop | ๐ Fastest | 82.35% slower | ๐ณ |
dropLast | ๐ Fastest | 86.74% slower | ๐ณ |
equals | 58.37% slower | 96.73% slower | ๐ Fastest |
filter | 6.7% slower | 72.03% slower | ๐ Fastest |
find | ๐ Fastest | 85.14% slower | 42.65% slower |
findIndex | ๐ Fastest | 86.48% slower | 72.27% slower |
flatten | 6.56% slower | 86.64% slower | ๐ Fastest |
ifElse | ๐ Fastest | 58.56% slower | ๐ณ |
includes | ๐ Fastest | 84.63% slower | ๐ณ |
indexOf | ๐ Fastest | 76.63% slower | ๐ณ |
indexOf | ๐ Fastest | 82.2% slower | ๐ณ |
init | ๐ Fastest | 92.24% slower | 13.3% slower |
is | ๐ Fastest | 57.69% slower | ๐ณ |
isEmpty | ๐ Fastest | 97.14% slower | 54.99% slower |
last | ๐ Fastest | 93.43% slower | 5.28% slower |
lastIndexOf | ๐ Fastest | 85.19% slower | ๐ณ |
map | ๐ Fastest | 86.6% slower | 11.73% slower |
match | ๐ Fastest | 44.83% slower | ๐ณ |
merge | ๐ Fastest | 12.21% slower | 55.76% slower |
none | ๐ Fastest | 96.48% slower | ๐ณ |
objOf | ๐ Fastest | 38.05% slower | ๐ณ |
omit | ๐ Fastest | 69.95% slower | 97.34% slower |
over | ๐ Fastest | 56.23% slower | ๐ณ |
path | 37.81% slower | 77.81% slower | ๐ Fastest |
pick | ๐ Fastest | 19.07% slower | 80.2% slower |
pipe | 0.87% slower | ๐ Fastest | ๐ณ |
prop | ๐ Fastest | 87.95% slower | ๐ณ |
propEq | ๐ Fastest | 91.92% slower | ๐ณ |
range | ๐ Fastest | 61.8% slower | 57.44% slower |
reduce | 60.48% slower | 77.1% slower | ๐ Fastest |
repeat | 48.57% slower | 68.98% slower | ๐ Fastest |
replace | 33.45% slower | 33.99% slower | ๐ Fastest |
set | ๐ Fastest | 50.35% slower | ๐ณ |
sort | ๐ Fastest | 40.23% slower | ๐ณ |
sortBy | ๐ Fastest | 25.29% slower | 56.88% slower |
split | ๐ Fastest | 55.37% slower | 17.64% slower |
splitEvery | ๐ Fastest | 71.98% slower | ๐ณ |
take | ๐ Fastest | 91.96% slower | 4.72% slower |
takeLast | ๐ Fastest | 93.39% slower | 19.22% slower |
test | ๐ Fastest | 82.34% slower | ๐ณ |
type | ๐ Fastest | 48.6% slower | ๐ณ |
uniq | ๐ Fastest | 90.24% slower | ๐ณ |
uniqWith | 18.09% slower | ๐ Fastest | ๐ณ |
uniqWith | 14.23% slower | ๐ Fastest | ๐ณ |
update | ๐ Fastest | 52.35% slower | ๐ณ |
view | ๐ Fastest | 76.15% slower | ๐ณ |
[](#-benchmarks)
โฏ Used by
Walmart Canada reported by w-b-dev
[](#-used-by)
API
add
It adds a
and b
.
Try this R.add example in Rambda REPL
adjust
adjust<T>(index: number, replaceFn: (x: T) => T, list: T[]): T[]
It replaces index
in array list
with the result of replaceFn(list[i])
.
Try this R.adjust example in Rambda REPL
All Typescript definitions
adjust<T>(index: number, replaceFn: (x: T) => T, list: T[]): T[];
adjust<T>(index: number, replaceFn: (x: T) => T): (list: T[]) => T[];
R.adjust source
import { cloneList } from './_internals/cloneList.js'
import { curry } from './curry.js'
function adjustFn(
index, replaceFn, list
){
const actualIndex = index < 0 ? list.length + index : index
if (index >= list.length || actualIndex < 0) return list
const clone = cloneList(list)
clone[ actualIndex ] = replaceFn(clone[ actualIndex ])
return clone
}
export const adjust = curry(adjustFn)
Tests
import { add } from './add.js'
import { adjust } from './adjust.js'
import { pipe } from './pipe.js'
const list = [ 0, 1, 2 ]
const expected = [ 0, 11, 2 ]
test('happy', () => {})
test('happy', () => {
expect(adjust(
1, add(10), list
)).toEqual(expected)
})
test('with curring type 1 1 1', () => {
expect(adjust(1)(add(10))(list)).toEqual(expected)
})
test('with curring type 1 2', () => {
expect(adjust(1)(add(10), list)).toEqual(expected)
})
test('with curring type 2 1', () => {
expect(adjust(1, add(10))(list)).toEqual(expected)
})
test('with negative index', () => {
expect(adjust(
-2, add(10), list
)).toEqual(expected)
})
test('when index is out of bounds', () => {
const list = [ 0, 1, 2, 3 ]
expect(adjust(
4, add(1), list
)).toEqual(list)
expect(adjust(
-5, add(1), list
)).toEqual(list)
})
all
all<T>(predicate: (x: T) => boolean, list: T[]): boolean
It returns true
, if all members of array list
returns true
, when applied as argument to predicate
function.
Try this R.all example in Rambda REPL
All Typescript definitions
all<T>(predicate: (x: T) => boolean, list: T[]): boolean;
all<T>(predicate: (x: T) => boolean): (list: T[]) => boolean;
R.all source
export function all(predicate, list){
if (arguments.length === 1) return _list => all(predicate, _list)
for (let i = 0; i < list.length; i++){
if (!predicate(list[ i ])) return false
}
return true
}
Tests
import { all } from './all.js'
const list = [ 0, 1, 2, 3, 4 ]
test('when true', () => {
const fn = x => x > -1
expect(all(fn)(list)).toBeTrue()
})
test('when false', () => {
const fn = x => x > 2
expect(all(fn, list)).toBeFalse()
})
Typescript test
import {all} from 'rambda'
describe('all', () => {
it('happy', () => {
const result = all(
x => {
x // $ExpectType number
return x > 0
},
[1, 2, 3]
)
result // $ExpectType boolean
})
it('curried needs a type', () => {
const result = all<number>(x => {
x // $ExpectType number
return x > 0
})([1, 2, 3])
result // $ExpectType boolean
})
})
allPass
allPass<T>(predicates: ((x: T) => boolean)[]): (input: T) => boolean
It returns true
, if all functions of predicates
return true
, when input
is their argument.
Try this R.allPass example in Rambda REPL
All Typescript definitions
allPass<T>(predicates: ((x: T) => boolean)[]): (input: T) => boolean;
allPass<T>(predicates: ((...inputs: T[]) => boolean)[]): (...inputs: T[]) => boolean;
R.allPass source
export function allPass(predicates){
return (...input) => {
let counter = 0
while (counter < predicates.length){
if (!predicates[ counter ](...input)){
return false
}
counter++
}
return true
}
}
Tests
import { allPass } from './allPass.js'
test('happy', () => {
const rules = [ x => typeof x === 'number', x => x > 10, x => x * 7 < 100 ]
expect(allPass(rules)(11)).toBeTrue()
expect(allPass(rules)(undefined)).toBeFalse()
})
test('when returns true', () => {
const conditionArr = [ val => val.a === 1, val => val.b === 2 ]
expect(allPass(conditionArr)({
a : 1,
b : 2,
})).toBeTrue()
})
test('when returns false', () => {
const conditionArr = [ val => val.a === 1, val => val.b === 3 ]
expect(allPass(conditionArr)({
a : 1,
b : 2,
})).toBeFalse()
})
test('works with multiple inputs', () => {
const fn = function (
w, x, y, z
){
return w + x === y + z
}
expect(allPass([ fn ])(
3, 3, 3, 3
)).toBeTrue()
})
Typescript test
import {allPass, filter} from 'rambda'
describe('allPass', () => {
it('happy', () => {
const x = allPass<number>([
y => {
y // $ExpectType number
return typeof y === 'number'
},
y => {
return y > 0
},
])(11)
x // $ExpectType boolean
})
it('issue #642', () => {
const isGreater = (num: number) => num > 5
const pred = allPass([isGreater])
const xs = [0, 1, 2, 3]
const filtered1 = filter(pred)(xs)
filtered1 // $ExpectType number[]
const filtered2 = xs.filter(pred)
filtered2 // $ExpectType number[]
})
it('issue #604', () => {
const plusEq = function(w: number, x: number, y: number, z: number) {
return w + x === y + z
}
const result = allPass([plusEq])(3, 3, 3, 3)
result // $ExpectType boolean
})
})
always
It returns function that always returns x
.
Try this R.always example in Rambda REPL
and
Logical AND
Try this R.and example in Rambda REPL
any
any<T>(predicate: (x: T) => boolean, list: T[]): boolean
It returns true
, if at least one member of list
returns true, when passed to a predicate
function.
Try this R.any example in Rambda REPL
All Typescript definitions
any<T>(predicate: (x: T) => boolean, list: T[]): boolean;
any<T>(predicate: (x: T) => boolean): (list: T[]) => boolean;
R.any source
export function any(predicate, list){
if (arguments.length === 1) return _list => any(predicate, _list)
let counter = 0
while (counter < list.length){
if (predicate(list[ counter ], counter)){
return true
}
counter++
}
return false
}
Tests
import { any } from './any.js'
const list = [ 1, 2, 3 ]
test('happy', () => {
expect(any(x => x < 0, list)).toBeFalse()
})
test('with curry', () => {
expect(any(x => x > 2)(list)).toBeTrue()
})
Typescript test
import {any} from 'rambda'
describe('R.any', () => {
it('happy', () => {
const result = any(
x => {
x // $ExpectType number
return x > 2
},
[1, 2, 3]
)
result // $ExpectType boolean
})
it('when curried needs a type', () => {
const result = any<number>(x => {
x // $ExpectType number
return x > 2
})([1, 2, 3])
result // $ExpectType boolean
})
})
anyPass
anyPass<T>(predicates: ((x: T) => boolean)[]): (input: T) => boolean
It accepts list of predicates
and returns a function. This function with its input
will return true
, if any of predicates
returns true
for this input
.
Try this R.anyPass example in Rambda REPL
All Typescript definitions
anyPass<T>(predicates: ((x: T) => boolean)[]): (input: T) => boolean;
anyPass<T>(predicates: ((...inputs: T[]) => boolean)[]): (...inputs: T[]) => boolean;
R.anyPass source
export function anyPass(predicates){
return (...input) => {
let counter = 0
while (counter < predicates.length){
if (predicates[ counter ](...input)){
return true
}
counter++
}
return false
}
}
Tests
import { anyPass } from './anyPass.js'
test('happy', () => {
const rules = [ x => typeof x === 'string', x => x > 10 ]
const predicate = anyPass(rules)
expect(predicate('foo')).toBeTrue()
expect(predicate(6)).toBeFalse()
})
test('happy', () => {
const rules = [ x => typeof x === 'string', x => x > 10 ]
expect(anyPass(rules)(11)).toBeTrue()
expect(anyPass(rules)(undefined)).toBeFalse()
})
const obj = {
a : 1,
b : 2,
}
test('when returns true', () => {
const conditionArr = [ val => val.a === 1, val => val.a === 2 ]
expect(anyPass(conditionArr)(obj)).toBeTrue()
})
test('when returns false + curry', () => {
const conditionArr = [ val => val.a === 2, val => val.b === 3 ]
expect(anyPass(conditionArr)(obj)).toBeFalse()
})
test('with empty predicates list', () => {
expect(anyPass([])(3)).toBeFalse()
})
test('works with multiple inputs', () => {
const fn = function (
w, x, y, z
){
console.log(
w, x, y, z
)
return w + x === y + z
}
expect(anyPass([ fn ])(
3, 3, 3, 3
)).toBeTrue()
})
Typescript test
import {anyPass, filter} from 'rambda'
describe('anyPass', () => {
it('happy', () => {
const x = anyPass<number>([
y => {
y // $ExpectType number
return typeof y === 'number'
},
y => {
return y > 0
},
])(11)
x // $ExpectType boolean
})
it('issue #604', () => {
const plusEq = function(w: number, x: number, y: number, z: number) {
return w + x === y + z
}
const result = anyPass([plusEq])(3, 3, 3, 3)
result // $ExpectType boolean
})
it('issue #642', () => {
const isGreater = (num: number) => num > 5
const pred = anyPass([isGreater])
const xs = [0, 1, 2, 3]
const filtered1 = filter(pred)(xs)
filtered1 // $ExpectType number[]
const filtered2 = xs.filter(pred)
filtered2 // $ExpectType number[]
})
})
append
append<T>(x: T, list: T[]): T[]
It adds element x
at the end of list
.
Try this R.append example in Rambda REPL
All Typescript definitions
append<T>(x: T, list: T[]): T[];
append<T>(x: T): <T>(list: T[]) => T[];
R.append source
import { cloneList } from './_internals/cloneList.js'
export function append(x, input){
if (arguments.length === 1) return _input => append(x, _input)
if (typeof input === 'string') return input.split('').concat(x)
const clone = cloneList(input)
clone.push(x)
return clone
}
Tests
import { append } from './append.js'
test('happy', () => {
expect(append('tests', [ 'write', 'more' ])).toEqual([
'write',
'more',
'tests',
])
})
test('append to empty array', () => {
expect(append('tests')([])).toEqual([ 'tests' ])
})
test('with strings', () => {
expect(append('o', 'fo')).toEqual([ 'f', 'o', 'o' ])
})
Typescript test
import {append} from 'rambda'
const list = [1, 2, 3]
describe('R.append', () => {
it('happy', () => {
const result = append(4, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = append(4)(list)
result // $ExpectType number[]
})
})
apply
apply<T = any>(fn: (...args: any[]) => T, args: any[]): T
It applies function fn
to the list of arguments.
This is useful for creating a fixed-arity function from a variadic function. fn
should be a bound function if context is significant.
Try this R.apply example in Rambda REPL
All Typescript definitions
apply<T = any>(fn: (...args: any[]) => T, args: any[]): T;
apply<T = any>(fn: (...args: any[]) => T): (args: any[]) => T;
R.apply source
export function apply(fn, args){
if (arguments.length === 1){
return _args => apply(fn, _args)
}
return fn.apply(this, args)
}
Tests
import { apply } from './apply.js'
import { bind } from './bind.js'
import { identity } from './identity.js'
test('happy', () => {
expect(apply(identity, [ 1, 2, 3 ])).toBe(1)
})
test('applies function to argument list', () => {
expect(apply(Math.max, [ 1, 2, 3, -99, 42, 6, 7 ])).toBe(42)
})
test('provides no way to specify context', () => {
const obj = {
method : function (){
return this === obj
},
}
expect(apply(obj.method, [])).toBeFalse()
expect(apply(bind(obj.method, obj), [])).toBeTrue()
})
Typescript test
import {apply, identity} from 'rambda'
describe('R.apply', () => {
it('happy', () => {
const result = apply<number>(identity, [1, 2, 3])
result // $ExpectType number
})
it('curried', () => {
const fn = apply<number>(identity)
const result = fn([1, 2, 3])
result // $ExpectType number
})
})
applySpec
applySpec<Spec extends Record<string, AnyFunction>>(
spec: Spec
): (
...args: Parameters<ValueOfRecord<Spec>>
) => { [Key in keyof Spec]: ReturnType<Spec[Key]> }
Try this R.applySpec example in Rambda REPL
All Typescript definitions
applySpec<Spec extends Record<string, AnyFunction>>(
spec: Spec
): (
...args: Parameters<ValueOfRecord<Spec>>
) => { [Key in keyof Spec]: ReturnType<Spec[Key]> };
applySpec<T>(spec: any): (...args: unknown[]) => T;
R.applySpec source
import { isArray } from './_internals/isArray.js'
// recursively traverse the given spec object to find the highest arity function
export function __findHighestArity(spec, max = 0){
for (const key in spec){
if (spec.hasOwnProperty(key) === false || key === 'constructor') continue
if (typeof spec[ key ] === 'object'){
max = Math.max(max, __findHighestArity(spec[ key ]))
}
if (typeof spec[ key ] === 'function'){
max = Math.max(max, spec[ key ].length)
}
}
return max
}
function __filterUndefined(){
const defined = []
let i = 0
const l = arguments.length
while (i < l){
if (typeof arguments[ i ] === 'undefined') break
defined[ i ] = arguments[ i ]
i++
}
return defined
}
function __applySpecWithArity(
spec, arity, cache
){
const remaining = arity - cache.length
if (remaining === 1)
return x =>
__applySpecWithArity(
spec, arity, __filterUndefined(...cache, x)
)
if (remaining === 2)
return (x, y) =>
__applySpecWithArity(
spec, arity, __filterUndefined(
...cache, x, y
)
)
if (remaining === 3)
return (
x, y, z
) =>
__applySpecWithArity(
spec, arity, __filterUndefined(
...cache, x, y, z
)
)
if (remaining === 4)
return (
x, y, z, a
) =>
__applySpecWithArity(
spec,
arity,
__filterUndefined(
...cache, x, y, z, a
)
)
if (remaining > 4)
return (...args) =>
__applySpecWithArity(
spec, arity, __filterUndefined(...cache, ...args)
)
// handle spec as Array
if (isArray(spec)){
const ret = []
let i = 0
const l = spec.length
for (; i < l; i++){
// handle recursive spec inside array
if (typeof spec[ i ] === 'object' || isArray(spec[ i ])){
ret[ i ] = __applySpecWithArity(
spec[ i ], arity, cache
)
}
// apply spec to the key
if (typeof spec[ i ] === 'function'){
ret[ i ] = spec[ i ](...cache)
}
}
return ret
}
// handle spec as Object
const ret = {}
// apply callbacks to each property in the spec object
for (const key in spec){
if (spec.hasOwnProperty(key) === false || key === 'constructor') continue
// apply the spec recursively
if (typeof spec[ key ] === 'object'){
ret[ key ] = __applySpecWithArity(
spec[ key ], arity, cache
)
continue
}
// apply spec to the key
if (typeof spec[ key ] === 'function'){
ret[ key ] = spec[ key ](...cache)
}
}
return ret
}
export function applySpec(spec, ...args){
// get the highest arity spec function, cache the result and pass to __applySpecWithArity
const arity = __findHighestArity(spec)
if (arity === 0){
return () => ({})
}
const toReturn = __applySpecWithArity(
spec, arity, args
)
return toReturn
}
Tests
import { applySpec as applySpecRamda, nAry } from 'ramda'
import {
add,
always,
compose,
dec,
inc,
map,
path,
prop,
T,
} from '../rambda.js'
import { applySpec } from './applySpec.js'
test('different than Ramda when bad spec', () => {
const result = applySpec({ sum : { a : 1 } })(1, 2)
const ramdaResult = applySpecRamda({ sum : { a : 1 } })(1, 2)
expect(result).toEqual({})
expect(ramdaResult).toEqual({ sum : { a : {} } })
})
test('works with empty spec', () => {
expect(applySpec({})()).toEqual({})
expect(applySpec([])(1, 2)).toEqual({})
expect(applySpec(null)(1, 2)).toEqual({})
})
test('works with unary functions', () => {
const result = applySpec({
v : inc,
u : dec,
})(1)
const expected = {
v : 2,
u : 0,
}
expect(result).toEqual(expected)
})
test('works with binary functions', () => {
const result = applySpec({ sum : add })(1, 2)
expect(result).toEqual({ sum : 3 })
})
test('works with nested specs', () => {
const result = applySpec({
unnested : always(0),
nested : { sum : add },
})(1, 2)
const expected = {
unnested : 0,
nested : { sum : 3 },
}
expect(result).toEqual(expected)
})
test('works with arrays of nested specs', () => {
const result = applySpec({
unnested : always(0),
nested : [ { sum : add } ],
})(1, 2)
expect(result).toEqual({
unnested : 0,
nested : [ { sum : 3 } ],
})
})
test('works with arrays of spec objects', () => {
const result = applySpec([ { sum : add } ])(1, 2)
expect(result).toEqual([ { sum : 3 } ])
})
test('works with arrays of functions', () => {
const result = applySpec([ map(prop('a')), map(prop('b')) ])([
{
a : 'a1',
b : 'b1',
},
{
a : 'a2',
b : 'b2',
},
])
const expected = [
[ 'a1', 'a2' ],
[ 'b1', 'b2' ],
]
expect(result).toEqual(expected)
})
test('works with a spec defining a map key', () => {
expect(applySpec({ map : prop('a') })({ a : 1 })).toEqual({ map : 1 })
})
test('cannot retains the highest arity', () => {
const f = applySpec({
f1 : nAry(2, T),
f2 : nAry(5, T),
})
const fRamda = applySpecRamda({
f1 : nAry(2, T),
f2 : nAry(5, T),
})
expect(f).toHaveLength(0)
expect(fRamda).toHaveLength(5)
})
test('returns a curried function', () => {
expect(applySpec({ sum : add })(1)(2)).toEqual({ sum : 3 })
})
// Additional tests
// ============================================
test('arity', () => {
const spec = {
one : x1 => x1,
two : (x1, x2) => x1 + x2,
three : (
x1, x2, x3
) => x1 + x2 + x3,
}
expect(applySpec(
spec, 1, 2, 3
)).toEqual({
one : 1,
two : 3,
three : 6,
})
})
test('arity over 5 arguments', () => {
const spec = {
one : x1 => x1,
two : (x1, x2) => x1 + x2,
three : (
x1, x2, x3
) => x1 + x2 + x3,
four : (
x1, x2, x3, x4
) => x1 + x2 + x3 + x4,
five : (
x1, x2, x3, x4, x5
) => x1 + x2 + x3 + x4 + x5,
}
expect(applySpec(
spec, 1, 2, 3, 4, 5
)).toEqual({
one : 1,
two : 3,
three : 6,
four : 10,
five : 15,
})
})
test('curried', () => {
const spec = {
one : x1 => x1,
two : (x1, x2) => x1 + x2,
three : (
x1, x2, x3
) => x1 + x2 + x3,
}
expect(applySpec(spec)(1)(2)(3)).toEqual({
one : 1,
two : 3,
three : 6,
})
})
test('curried over 5 arguments', () => {
const spec = {
one : x1 => x1,
two : (x1, x2) => x1 + x2,
three : (
x1, x2, x3
) => x1 + x2 + x3,
four : (
x1, x2, x3, x4
) => x1 + x2 + x3 + x4,
five : (
x1, x2, x3, x4, x5
) => x1 + x2 + x3 + x4 + x5,
}
expect(applySpec(spec)(1)(2)(3)(4)(5)).toEqual({
one : 1,
two : 3,
three : 6,
four : 10,
five : 15,
})
})
test('undefined property', () => {
const spec = { prop : path([ 'property', 'doesnt', 'exist' ]) }
expect(applySpec(spec, {})).toEqual({ prop : undefined })
})
test('restructure json object', () => {
const spec = {
id : path('user.id'),
name : path('user.firstname'),
profile : path('user.profile'),
doesntExist : path('user.profile.doesntExist'),
info : { views : compose(inc, prop('views')) },
type : always('playa'),
}
const data = {
user : {
id : 1337,
firstname : 'john',
lastname : 'shaft',
profile : 'shaft69',
},
views : 42,
}
expect(applySpec(spec, data)).toEqual({
id : 1337,
name : 'john',
profile : 'shaft69',
doesntExist : undefined,
info : { views : 43 },
type : 'playa',
})
})
Typescript test
import {multiply, applySpec, inc, dec, add} from 'rambda'
describe('applySpec', () => {
it('ramda 1', () => {
const result = applySpec({
v: inc,
u: dec,
})(1)
result // $ExpectType { v: number; u: number; }
})
it('ramda 1', () => {
interface Output {
sum: number,
multiplied: number,
}
const result = applySpec<Output>({
sum: add,
multiplied: multiply,
})(1, 2)
result // $ExpectType Output
})
})
assoc
It makes a shallow clone of obj
with setting or overriding the property prop
with newValue
.
Try this R.assoc example in Rambda REPL
assocPath
assocPath<Output>(path: Path, newValue: any, obj: object): Output
It makes a shallow clone of obj
with setting or overriding with newValue
the property found with path
.
Try this R.assocPath example in Rambda REPL
All Typescript definitions
assocPath<Output>(path: Path, newValue: any, obj: object): Output;
assocPath<Output>(path: Path, newValue: any): (obj: object) => Output;
assocPath<Output>(path: Path): (newValue: any) => (obj: object) => Output;
R.assocPath source
import { cloneList } from './_internals/cloneList.js'
import { isArray } from './_internals/isArray.js'
import { isInteger } from './_internals/isInteger.js'
import { assoc } from './assoc.js'
import { curry } from './curry.js'
function assocPathFn(
path, newValue, input
){
const pathArrValue =
typeof path === 'string' ?
path.split('.').map(x => isInteger(Number(x)) ? Number(x) : x) :
path
if (pathArrValue.length === 0){
return newValue
}
const index = pathArrValue[ 0 ]
if (pathArrValue.length > 1){
const condition =
typeof input !== 'object' ||
input === null ||
!input.hasOwnProperty(index)
const nextInput = condition ?
isInteger(pathArrValue[ 1 ]) ?
[] :
{} :
input[ index ]
newValue = assocPathFn(
Array.prototype.slice.call(pathArrValue, 1),
newValue,
nextInput
)
}
if (isInteger(index) && isArray(input)){
const arr = cloneList(input)
arr[ index ] = newValue
return arr
}
return assoc(
index, newValue, input
)
}
export const assocPath = curry(assocPathFn)
Tests
import { assocPath } from './assocPath.js'
test('string can be used as path input', () => {
const testObj = {
a : [ { b : 1 }, { b : 2 } ],
d : 3,
}
const result = assocPath(
'a.0.b', 10, testObj
)
const expected = {
a : [ { b : 10 }, { b : 2 } ],
d : 3,
}
expect(result).toEqual(expected)
})
test('bug', () => {
/*
https://github.com/selfrefactor/rambda/issues/524
*/
const state = {}
const withDateLike = assocPath(
[ 'outerProp', '2020-03-10' ],
{ prop : 2 },
state
)
const withNumber = assocPath(
[ 'outerProp', '5' ], { prop : 2 }, state
)
const withDateLikeExpected = { outerProp : { '2020-03-10' : { prop : 2 } } }
const withNumberExpected = { outerProp : { 5 : { prop : 2 } } }
expect(withDateLike).toEqual(withDateLikeExpected)
expect(withNumber).toEqual(withNumberExpected)
})
test('adds a key to an empty object', () => {
expect(assocPath(
[ 'a' ], 1, {}
)).toEqual({ a : 1 })
})
test('adds a key to a non-empty object', () => {
expect(assocPath(
'b', 2, { a : 1 }
)).toEqual({
a : 1,
b : 2,
})
})
test('adds a nested key to a non-empty object', () => {
expect(assocPath(
'b.c', 2, { a : 1 }
)).toEqual({
a : 1,
b : { c : 2 },
})
})
test('adds a nested key to a nested non-empty object - curry case 1', () => {
expect(assocPath('b.d',
3)({
a : 1,
b : { c : 2 },
})).toEqual({
a : 1,
b : {
c : 2,
d : 3,
},
})
})
test('adds a key to a non-empty object - curry case 1', () => {
expect(assocPath('b', 2)({ a : 1 })).toEqual({
a : 1,
b : 2,
})
})
test('adds a nested key to a non-empty object - curry case 1', () => {
expect(assocPath('b.c', 2)({ a : 1 })).toEqual({
a : 1,
b : { c : 2 },
})
})
test('adds a key to a non-empty object - curry case 2', () => {
expect(assocPath('b')(2, { a : 1 })).toEqual({
a : 1,
b : 2,
})
})
test('adds a key to a non-empty object - curry case 3', () => {
const result = assocPath('b')(2)({ a : 1 })
expect(result).toEqual({
a : 1,
b : 2,
})
})
test('changes an existing key', () => {
expect(assocPath(
'a', 2, { a : 1 }
)).toEqual({ a : 2 })
})
test('undefined is considered an empty object', () => {
expect(assocPath(
'a', 1, undefined
)).toEqual({ a : 1 })
})
test('null is considered an empty object', () => {
expect(assocPath(
'a', 1, null
)).toEqual({ a : 1 })
})
test('value can be null', () => {
expect(assocPath(
'a', null, null
)).toEqual({ a : null })
})
test('value can be undefined', () => {
expect(assocPath(
'a', undefined, null
)).toEqual({ a : undefined })
})
test('assignment is shallow', () => {
expect(assocPath(
'a', { b : 2 }, { a : { c : 3 } }
)).toEqual({ a : { b : 2 } })
})
test('empty array as path', () => {
const result = assocPath(
[], 3, {
a : 1,
b : 2,
}
)
expect(result).toBe(3)
})
test('happy', () => {
const expected = { foo : { bar : { baz : 42 } } }
const result = assocPath(
[ 'foo', 'bar', 'baz' ], 42, { foo : null }
)
expect(result).toEqual(expected)
})
Typescript test
import {assocPath} from 'rambda'
interface Output {
a: number,
foo: {bar: number},
}
describe('R.assocPath - user must explicitly set type of output', () => {
it('with array as path input', () => {
const result = assocPath<Output>(['foo', 'bar'], 2, {a: 1})
result // $ExpectType Output
})
it('with string as path input', () => {
const result = assocPath<Output>('foo.bar', 2, {a: 1})
result // $ExpectType Output
})
})
describe('R.assocPath - curried', () => {
it('with array as path input', () => {
const result = assocPath<Output>(['foo', 'bar'], 2)({a: 1})
result // $ExpectType Output
})
it('with string as path input', () => {
const result = assocPath<Output>('foo.bar', 2)({a: 1})
result // $ExpectType Output
})
})
bind
bind<F extends AnyFunction, T>(fn: F, thisObj: T): (...args: Parameters<F>) => ReturnType<F>
Creates a function that is bound to a context.
Try this R.bind example in Rambda REPL
All Typescript definitions
bind<F extends AnyFunction, T>(fn: F, thisObj: T): (...args: Parameters<F>) => ReturnType<F>;
bind<F extends AnyFunction, T>(fn: F): (thisObj: T) => (...args: Parameters<F>) => ReturnType<F>;
R.bind source
import { curryN } from './curryN.js'
export function bind(fn, thisObj){
if (arguments.length === 1){
return _thisObj => bind(fn, _thisObj)
}
return curryN(fn.length, (...args) => fn.apply(thisObj, args))
}
Tests
import { bind } from './bind.js'
function Foo(x){
this.x = x
}
function add(x){
return this.x + x
}
function Bar(x, y){
this.x = x
this.y = y
}
Bar.prototype = new Foo()
Bar.prototype.getX = function (){
return 'prototype getX'
}
test('returns a function', () => {
expect(typeof bind(add)(Foo)).toBe('function')
})
test('returns a function bound to the specified context object', () => {
const f = new Foo(12)
function isFoo(){
return this instanceof Foo
}
const isFooBound = bind(isFoo, f)
expect(isFoo()).toBeFalse()
expect(isFooBound()).toBeTrue()
})
test('works with built-in types', () => {
const abc = bind(String.prototype.toLowerCase, 'ABCDEFG')
expect(typeof abc).toBe('function')
expect(abc()).toBe('abcdefg')
})
test('works with user-defined types', () => {
const f = new Foo(12)
function getX(){
return this.x
}
const getXFooBound = bind(getX, f)
expect(getXFooBound()).toBe(12)
})
test('works with plain objects', () => {
const pojso = { x : 100 }
function incThis(){
return this.x + 1
}
const incPojso = bind(incThis, pojso)
expect(typeof incPojso).toBe('function')
expect(incPojso()).toBe(101)
})
test('does not interfere with existing object methods', () => {
const b = new Bar('a', 'b')
function getX(){
return this.x
}
const getXBarBound = bind(getX, b)
expect(b.getX()).toBe('prototype getX')
expect(getXBarBound()).toBe('a')
})
test('preserves arity', () => {
const f0 = function (){
return 0
}
const f1 = function (a){
return a
}
const f2 = function (a, b){
return a + b
}
const f3 = function (
a, b, c
){
return a + b + c
}
expect(bind(f0, {})).toHaveLength(0)
expect(bind(f1, {})).toHaveLength(1)
expect(bind(f2, {})).toHaveLength(2)
expect(bind(f3, {})).toHaveLength(3)
})
Typescript test
import {bind} from 'rambda'
class Foo {}
function isFoo<T = any>(this: T): boolean {
return this instanceof Foo
}
describe('R.bind', () => {
it('happy', () => {
const foo = new Foo()
const result = bind(isFoo, foo)()
result // $ExpectType boolean
})
})
both
both(pred1: Pred, pred2: Pred): Pred
It returns a function with input
argument.
This function will return true
, if both firstCondition
and secondCondition
return true
when input
is passed as their argument.
Try this R.both example in Rambda REPL
All Typescript definitions
both(pred1: Pred, pred2: Pred): Pred;
both<T>(pred1: Predicate<T>, pred2: Predicate<T>): Predicate<T>;
both<T>(pred1: Predicate<T>): (pred2: Predicate<T>) => Predicate<T>;
both(pred1: Pred): (pred2: Pred) => Pred;
R.both source
export function both(f, g){
if (arguments.length === 1) return _g => both(f, _g)
return (...input) => f(...input) && g(...input)
}
Tests
import { both } from './both.js'
const firstFn = val => val > 0
const secondFn = val => val < 10
test('with curry', () => {
expect(both(firstFn)(secondFn)(17)).toBeFalse()
})
test('without curry', () => {
expect(both(firstFn, secondFn)(7)).toBeTrue()
})
test('with multiple inputs', () => {
const between = function (
a, b, c
){
return a < b && b < c
}
const total20 = function (
a, b, c
){
return a + b + c === 20
}
const fn = both(between, total20)
expect(fn(
5, 7, 8
)).toBeTrue()
})
test('skip evaluation of the second expression', () => {
let effect = 'not evaluated'
const F = function (){
return false
}
const Z = function (){
effect = 'Z got evaluated'
}
both(F, Z)()
expect(effect).toBe('not evaluated')
})
Typescript test
import {both} from 'rambda'
describe('R.both', () => {
it('with passed type', () => {
const fn = both<number>(
x => x > 1,
x => x % 2 === 0
)
fn // $ExpectType Predicate<number>
const result = fn(2) // $ExpectType boolean
result // $ExpectType boolean
})
it('with passed type - curried', () => {
const fn = both<number>(x => x > 1)(x => x % 2 === 0)
fn // $ExpectType Predicate<number>
const result = fn(2)
result // $ExpectType boolean
})
it('no type passed', () => {
const fn = both(
x => {
x // $ExpectType any
return x > 1
},
x => {
x // $ExpectType any
return x % 2 === 0
}
)
const result = fn(2)
result // $ExpectType boolean
})
it('no type passed - curried', () => {
const fn = both((x: number) => {
x // $ExpectType number
return x > 1
})((x: number) => {
x // $ExpectType number
return x % 2 === 0
})
const result = fn(2)
result // $ExpectType boolean
})
})
chain
chain<T, U>(fn: (n: T) => U[], list: T[]): U[]
The method is also known as flatMap
.
Try this R.chain example in Rambda REPL
All Typescript definitions
chain<T, U>(fn: (n: T) => U[], list: T[]): U[];
chain<T, U>(fn: (n: T) => U[]): (list: T[]) => U[];
R.chain source
export function chain(fn, list){
if (arguments.length === 1){
return _list => chain(fn, _list)
}
return [].concat(...list.map(fn))
}
Tests
import { chain as chainRamda } from 'ramda'
import { chain } from './chain.js'
const duplicate = n => [ n, n ]
test('happy', () => {
const fn = x => [ x * 2 ]
const list = [ 1, 2, 3 ]
const result = chain(fn, list)
expect(result).toEqual([ 2, 4, 6 ])
})
test('maps then flattens one level', () => {
expect(chain(duplicate, [ 1, 2, 3 ])).toEqual([ 1, 1, 2, 2, 3, 3 ])
})
test('maps then flattens one level - curry', () => {
expect(chain(duplicate)([ 1, 2, 3 ])).toEqual([ 1, 1, 2, 2, 3, 3 ])
})
test('flattens only one level', () => {
const nest = n => [ [ n ] ]
expect(chain(nest, [ 1, 2, 3 ])).toEqual([ [ 1 ], [ 2 ], [ 3 ] ])
})
test('can compose', () => {
function dec(x){
return [ x - 1 ]
}
function times2(x){
return [ x * 2 ]
}
const mdouble = chain(times2)
const mdec = chain(dec)
expect(mdec(mdouble([ 10, 20, 30 ]))).toEqual([ 19, 39, 59 ])
})
test('@types/ramda broken test', () => {
const score = {
maths : 90,
physics : 80,
}
const calculateTotal = score => {
const { maths, physics } = score
return maths + physics
}
const assocTotalToScore = (total, score) => ({
...score,
total,
})
const calculateAndAssocTotalToScore = chainRamda(assocTotalToScore,
calculateTotal)
expect(() =>
calculateAndAssocTotalToScore(score)).toThrowErrorMatchingInlineSnapshot('"fn(...) is not a function"')
})
Typescript test
import {chain} from 'rambda'
const list = [1, 2, 3]
const fn = (x: number) => [`${x}`, `${x}`]
describe('R.chain', () => {
it('without passing type', () => {
const result = chain(fn, list)
result // $ExpectType string[]
const curriedResult = chain(fn)(list)
curriedResult // $ExpectType string[]
})
})
clamp
Restrict a number input
to be within min
and max
limits.
If input
is bigger than max
, then the result is max
.
If input
is smaller than min
, then the result is min
.
Try this R.clamp example in Rambda REPL
clone
It creates a deep copy of the input
, which may contain (nested) Arrays and Objects, Numbers, Strings, Booleans and Dates.
Try this R.clone example in Rambda REPL
complement
It returns inverted
version of origin
function that accept input
as argument.
The return value of inverted
is the negative boolean value of origin(input)
.
Try this R.complement example in Rambda REPL
compose
It performs right-to-left function composition.
Try this R.compose example in Rambda REPL
concat
It returns a new string or array, which is the result of merging x
and y
.
Try this R.concat example in Rambda REPL
cond
It takes list with conditions
and returns a new function fn
that expects input
as argument.
This function will start evaluating the conditions
in order to find the first winner(order of conditions matter).
The winner is this condition, which left side returns true
when input
is its argument. Then the evaluation of the right side of the winner will be the final result.
If no winner is found, then fn
returns undefined
.
Try this R.cond example in Rambda REPL
converge
Accepts a converging function and a list of branching functions and returns a new function. When invoked, this new function is applied to some arguments, each branching function is applied to those same arguments. The results of each branching function are passed as arguments to the converging function to produce the return value.
Try this R.converge example in Rambda REPL
count
It counts how many times predicate
function returns true
, when supplied with iteration of list
.
Try this R.count example in Rambda REPL
countBy
countBy<T extends unknown>(transformFn: (x: T) => any, list: T[]): Record<string, number>
It counts elements in a list after each instance of the input list is passed through transformFn
function.
Try this R.countBy example in Rambda REPL
All Typescript definitions
countBy<T extends unknown>(transformFn: (x: T) => any, list: T[]): Record<string, number>;
countBy<T extends unknown>(transformFn: (x: T) => any): (list: T[]) => Record<string, number>;
R.countBy source
export function countBy(fn, list){
if (arguments.length === 1){
return _list => countBy(fn, _list)
}
const willReturn = {}
list.forEach(item => {
const key = fn(item)
if (!willReturn[ key ]){
willReturn[ key ] = 1
} else {
willReturn[ key ]++
}
})
return willReturn
}
Tests
import { countBy } from './countBy.js'
const list = [ 'a', 'A', 'b', 'B', 'c', 'C' ]
test('happy', () => {
const result = countBy(x => x.toLowerCase(), list)
expect(result).toEqual({
a : 2,
b : 2,
c : 2,
})
})
Typescript test
import {countBy} from 'rambda'
const transformFn = (x: string) => x.toLowerCase()
const list = ['a', 'A', 'b', 'B', 'c', 'C']
describe('R.countBy', () => {
it('happy', () => {
const result = countBy(transformFn, list)
result // $ExpectType Record<string, number>
})
it('curried', () => {
const result = countBy(transformFn)(list)
result // $ExpectType Record<string, number>
})
})
curry
It expects a function as input and returns its curried version.
Try this R.curry example in Rambda REPL
curryN
It returns a curried equivalent of the provided function, with the specified arity.
dec
It decrements a number.
defaultTo
defaultTo<T>(defaultValue: T, input: T | null | undefined): T
It returns defaultValue
, if all of inputArguments
are undefined
, null
or NaN
.
Else, it returns the first truthy inputArguments
instance(from left to right).
Try this R.defaultTo example in Rambda REPL
All Typescript definitions
defaultTo<T>(defaultValue: T, input: T | null | undefined): T;
defaultTo<T>(defaultValue: T): (input: T | null | undefined) => T;
R.defaultTo source
function isFalsy(input){
return (
input === undefined || input === null || Number.isNaN(input) === true
)
}
export function defaultTo(defaultArgument, input){
if (arguments.length === 1){
return _input => defaultTo(defaultArgument, _input)
}
return isFalsy(input) ? defaultArgument : input
}
Tests
import { defaultTo } from './defaultTo.js'
test('with undefined', () => {
expect(defaultTo('foo')(undefined)).toBe('foo')
})
test('with null', () => {
expect(defaultTo('foo')(null)).toBe('foo')
})
test('with NaN', () => {
expect(defaultTo('foo')(NaN)).toBe('foo')
})
test('with empty string', () => {
expect(defaultTo('foo', '')).toBe('')
})
test('with false', () => {
expect(defaultTo('foo', false)).toBeFalse()
})
test('when inputArgument passes initial check', () => {
expect(defaultTo('foo', 'bar')).toBe('bar')
})
Typescript test
import {defaultTo} from 'rambda'
describe('R.defaultTo with Ramda spec', () => {
it('happy', () => {
const result = defaultTo('foo', '')
result // $ExpectType "" | "foo"
})
it('with explicit type', () => {
const result = defaultTo<string>('foo', null)
result // $ExpectType string
})
})
difference
difference<T>(a: T[], b: T[]): T[]
It returns the uniq set of all elements in the first list a
not contained in the second list b
.
R.equals
is used to determine equality.
Try this R.difference example in Rambda REPL
All Typescript definitions
difference<T>(a: T[], b: T[]): T[];
difference<T>(a: T[]): (b: T[]) => T[];
R.difference source
import { includes } from './includes.js'
import { uniq } from './uniq.js'
export function difference(a, b){
if (arguments.length === 1) return _b => difference(a, _b)
return uniq(a).filter(aInstance => !includes(aInstance, b))
}
Tests
import { difference as differenceRamda } from 'ramda'
import { difference } from './difference.js'
test('difference', () => {
const a = [ 1, 2, 3, 4 ]
const b = [ 3, 4, 5, 6 ]
expect(difference(a)(b)).toEqual([ 1, 2 ])
expect(difference([], [])).toEqual([])
})
test('difference with objects', () => {
const a = [ { id : 1 }, { id : 2 }, { id : 3 }, { id : 4 } ]
const b = [ { id : 3 }, { id : 4 }, { id : 5 }, { id : 6 } ]
expect(difference(a, b)).toEqual([ { id : 1 }, { id : 2 } ])
})
test('no duplicates in first list', () => {
const M2 = [ 1, 2, 3, 4, 1, 2, 3, 4 ]
const N2 = [ 3, 3, 4, 4, 5, 5, 6, 6 ]
expect(difference(M2, N2)).toEqual([ 1, 2 ])
})
test('should use R.equals', () => {
expect(difference([ 1 ], [ 1 ])).toHaveLength(0)
expect(differenceRamda([ NaN ], [ NaN ])).toHaveLength(0)
})
Typescript test
import {difference} from 'rambda'
const list1 = [1, 2, 3]
const list2 = [1, 2, 4]
describe('R.difference', () => {
it('happy', () => {
const result = difference(list1, list2)
result // $ExpectType number[]
})
it('curried', () => {
const result = difference(list1)(list2)
result // $ExpectType number[]
})
})
dissoc
It returns a new object that does not contain property prop
.
Try this R.dissoc example in Rambda REPL
divide
Try this R.divide example in Rambda REPL
drop
drop<T>(howMany: number, input: T[]): T[]
It returns howMany
items dropped from beginning of list or string input
.
Try this R.drop example in Rambda REPL
All Typescript definitions
drop<T>(howMany: number, input: T[]): T[];
drop(howMany: number, input: string): string;
drop<T>(howMany: number): {
<T>(input: T[]): T[];
(input: string): string;
};
R.drop source
export function drop(howManyToDrop, listOrString){
if (arguments.length === 1) return _list => drop(howManyToDrop, _list)
return listOrString.slice(howManyToDrop > 0 ? howManyToDrop : 0)
}
Tests
import assert from 'assert'
import { drop } from './drop.js'
test('with array', () => {
expect(drop(2)([ 'foo', 'bar', 'baz' ])).toEqual([ 'baz' ])
expect(drop(3, [ 'foo', 'bar', 'baz' ])).toEqual([])
expect(drop(4, [ 'foo', 'bar', 'baz' ])).toEqual([])
})
test('with string', () => {
expect(drop(3, 'rambda')).toBe('bda')
})
test('with non-positive count', () => {
expect(drop(0, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
expect(drop(-1, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
expect(drop(-Infinity, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
})
test('should return copy', () => {
const xs = [ 1, 2, 3 ]
assert.notStrictEqual(drop(0, xs), xs)
assert.notStrictEqual(drop(-1, xs), xs)
})
Typescript test
import {drop} from 'rambda'
const list = [1, 2, 3, 4]
const str = 'foobar'
const howMany = 2
describe('R.drop - array', () => {
it('happy', () => {
const result = drop(howMany, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = drop(howMany)(list)
result // $ExpectType number[]
})
})
describe('R.drop - string', () => {
it('happy', () => {
const result = drop(howMany, str)
result // $ExpectType string
})
it('curried', () => {
const result = drop(howMany)(str)
result // $ExpectType string
})
})
dropLast
dropLast<T>(howMany: number, input: T[]): T[]
It returns howMany
items dropped from the end of list or string input
.
Try this R.dropLast example in Rambda REPL
All Typescript definitions
dropLast<T>(howMany: number, input: T[]): T[];
dropLast(howMany: number, input: string): string;
dropLast<T>(howMany: number): {
<T>(input: T[]): T[];
(input: string): string;
};
R.dropLast source
export function dropLast(howManyToDrop, listOrString){
if (arguments.length === 1){
return _listOrString => dropLast(howManyToDrop, _listOrString)
}
return howManyToDrop > 0 ?
listOrString.slice(0, -howManyToDrop) :
listOrString.slice()
}
Tests
import assert from 'assert'
import { dropLast } from './dropLast.js'
test('with array', () => {
expect(dropLast(2)([ 'foo', 'bar', 'baz' ])).toEqual([ 'foo' ])
expect(dropLast(3, [ 'foo', 'bar', 'baz' ])).toEqual([])
expect(dropLast(4, [ 'foo', 'bar', 'baz' ])).toEqual([])
})
test('with string', () => {
expect(dropLast(3, 'rambda')).toBe('ram')
})
test('with non-positive count', () => {
expect(dropLast(0, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
expect(dropLast(-1, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
expect(dropLast(-Infinity, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
})
test('should return copy', () => {
const xs = [ 1, 2, 3 ]
assert.notStrictEqual(dropLast(0, xs), xs)
assert.notStrictEqual(dropLast(-1, xs), xs)
})
Typescript test
import {dropLast} from 'rambda'
const list = [1, 2, 3, 4]
const str = 'foobar'
const howMany = 2
describe('R.dropLast - array', () => {
it('happy', () => {
const result = dropLast(howMany, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = dropLast(howMany)(list)
result // $ExpectType number[]
})
})
describe('R.dropLast - string', () => {
it('happy', () => {
const result = dropLast(howMany, str)
result // $ExpectType string
})
it('curried', () => {
const result = dropLast(howMany)(str)
result // $ExpectType string
})
})
dropLastWhile
Try this R.dropLastWhile example in Rambda REPL
dropRepeats
dropRepeats<T>(list: T[]): T[]
It removes any successive duplicates according to R.equals
.
Try this R.dropRepeats example in Rambda REPL
All Typescript definitions
dropRepeats<T>(list: T[]): T[];
R.dropRepeats source
import { isArray } from './_internals/isArray.js'
import { equals } from './equals.js'
export function dropRepeats(list){
if (!isArray(list)){
throw new Error(`${ list } is not a list`)
}
const toReturn = []
list.reduce((prev, current) => {
if (!equals(prev, current)){
toReturn.push(current)
}
return current
}, undefined)
return toReturn
}
Tests
import { dropRepeats as dropRepeatsRamda } from 'ramda'
import { compareCombinations } from './_internals/testUtils.js'
import { add } from './add.js'
import { dropRepeats } from './dropRepeats.js'
const list = [ 1, 2, 2, 2, 3, 4, 4, 5, 5, 3, 2, 2, { a : 1 }, { a : 1 } ]
const listClean = [ 1, 2, 3, 4, 5, 3, 2, { a : 1 } ]
test('happy', () => {
const result = dropRepeats(list)
expect(result).toEqual(listClean)
})
const possibleLists = [
[ add(1), async () => {}, [ 1 ], [ 1 ], [ 2 ], [ 2 ] ],
[ add(1), add(1), add(2) ],
[],
1,
/foo/g,
Promise.resolve(1),
]
describe('brute force', () => {
compareCombinations({
firstInput : possibleLists,
callback : errorsCounters => {
expect(errorsCounters).toMatchInlineSnapshot(`
{
"ERRORS_MESSAGE_MISMATCH": 0,
"ERRORS_TYPE_MISMATCH": 0,
"RESULTS_MISMATCH": 1,
"SHOULD_NOT_THROW": 3,
"SHOULD_THROW": 0,
"TOTAL_TESTS": 6,
}
`)
},
fn : dropRepeats,
fnRamda : dropRepeatsRamda,
})
})
Typescript test
import {dropRepeats} from 'rambda'
describe('R.dropRepeats', () => {
it('happy', () => {
const result = dropRepeats([1, 2, 2, 3])
result // $ExpectType number[]
})
})
dropRepeatsWith
Try this R.dropRepeatsWith example in Rambda REPL
dropWhile
Try this R.dropWhile example in Rambda REPL
either
either(firstPredicate: Pred, secondPredicate: Pred): Pred
It returns a new predicate
function from firstPredicate
and secondPredicate
inputs.
This predicate
function will return true
, if any of the two input predicates return true
.
Try this R.either example in Rambda REPL
All Typescript definitions
either(firstPredicate: Pred, secondPredicate: Pred): Pred;
either<T>(firstPredicate: Predicate<T>, secondPredicate: Predicate<T>): Predicate<T>;
either<T>(firstPredicate: Predicate<T>): (secondPredicate: Predicate<T>) => Predicate<T>;
either(firstPredicate: Pred): (secondPredicate: Pred) => Pred;
R.either source
export function either(firstPredicate, secondPredicate){
if (arguments.length === 1){
return _secondPredicate => either(firstPredicate, _secondPredicate)
}
return (...input) =>
Boolean(firstPredicate(...input) || secondPredicate(...input))
}
Tests
import { either } from './either.js'
test('with multiple inputs', () => {
const between = function (
a, b, c
){
return a < b && b < c
}
const total20 = function (
a, b, c
){
return a + b + c === 20
}
const fn = either(between, total20)
expect(fn(
7, 8, 5
)).toBeTrue()
})
test('skip evaluation of the second expression', () => {
let effect = 'not evaluated'
const F = function (){
return true
}
const Z = function (){
effect = 'Z got evaluated'
}
either(F, Z)()
expect(effect).toBe('not evaluated')
})
test('case 1', () => {
const firstFn = val => val > 0
const secondFn = val => val * 5 > 10
expect(either(firstFn, secondFn)(1)).toBeTrue()
})
test('case 2', () => {
const firstFn = val => val > 0
const secondFn = val => val === -10
const fn = either(firstFn)(secondFn)
expect(fn(-10)).toBeTrue()
})
Typescript test
import {either} from 'rambda'
describe('R.either', () => {
it('with passed type', () => {
const fn = either<number>(
x => x > 1,
x => x % 2 === 0
)
fn // $ExpectType Predicate<number>
const result = fn(2) // $ExpectType boolean
result // $ExpectType boolean
})
it('with passed type - curried', () => {
const fn = either<number>(x => x > 1)(x => x % 2 === 0)
fn // $ExpectType Predicate<number>
const result = fn(2)
result // $ExpectType boolean
})
it('no type passed', () => {
const fn = either(
x => {
x // $ExpectType any
return x > 1
},
x => {
x // $ExpectType any
return x % 2 === 0
}
)
const result = fn(2)
result // $ExpectType boolean
})
it('no type passed - curried', () => {
const fn = either((x: number) => {
x // $ExpectType number
return x > 1
})((x: number) => {
x // $ExpectType number
return x % 2 === 0
})
const result = fn(2)
result // $ExpectType boolean
})
})
endsWith
endsWith(target: string, iterable: string): boolean
When iterable is a string, then it behaves as String.prototype.endsWith
.
When iterable is a list, then it uses R.equals to determine if the target list ends in the same way as the given target.
Try this R.endsWith example in Rambda REPL
All Typescript definitions
endsWith(target: string, iterable: string): boolean;
endsWith(target: string): (iterable: string) => boolean;
endsWith<T>(target: T[], list: T[]): boolean;
endsWith<T>(target: T[]): (list: T[]) => boolean;
R.endsWith source
import { isArray } from './_internals/isArray.js'
import { equals } from './equals.js'
export function endsWith(target, iterable){
if (arguments.length === 1) return _iterable => endsWith(target, _iterable)
if (typeof iterable === 'string'){
return iterable.endsWith(target)
}
if (!isArray(target)) return false
const diff = iterable.length - target.length
let correct = true
const filtered = target.filter((x, index) => {
if (!correct) return false
const result = equals(x, iterable[ index + diff ])
if (!result) correct = false
return result
})
return filtered.length === target.length
}
Tests
import { endsWith as endsWithRamda } from 'ramda'
import { compareCombinations } from './_internals/testUtils.js'
import { endsWith } from './endsWith.js'
test('with string', () => {
expect(endsWith('bar', 'foo-bar')).toBeTrue()
expect(endsWith('baz')('foo-bar')).toBeFalse()
})
test('use R.equals with array', () => {
const list = [ { a : 1 }, { a : 2 }, { a : 3 } ]
expect(endsWith({ a : 3 }, list)).toBeFalse(),
expect(endsWith([ { a : 3 } ], list)).toBeTrue()
expect(endsWith([ { a : 2 }, { a : 3 } ], list)).toBeTrue()
expect(endsWith(list, list)).toBeTrue()
expect(endsWith([ { a : 1 } ], list)).toBeFalse()
})
export const possibleTargets = [
NaN,
[ NaN ],
/foo/,
[ /foo/ ],
Promise.resolve(1),
[ Promise.resolve(1) ],
Error('foo'),
[ Error('foo') ],
]
export const possibleIterables = [
[ Promise.resolve(1), Promise.resolve(2) ],
[ /foo/, /bar/ ],
[ NaN ],
[ Error('foo'), Error('bar') ],
]
describe('brute force', () => {
compareCombinations({
fn : endsWith,
fnRamda : endsWithRamda,
firstInput : possibleTargets,
secondInput : possibleIterables,
callback : errorsCounters => {
expect(errorsCounters).toMatchInlineSnapshot(`
{
"ERRORS_MESSAGE_MISMATCH": 0,
"ERRORS_TYPE_MISMATCH": 0,
"RESULTS_MISMATCH": 0,
"SHOULD_NOT_THROW": 0,
"SHOULD_THROW": 0,
"TOTAL_TESTS": 32,
}
`)
},
})
})
Typescript test
import {endsWith} from 'rambda'
describe('R.endsWith - array as iterable', () => {
const target = [{a: 2}]
const iterable = [{a: 1}, {a: 2}]
it('happy', () => {
const result = endsWith(target, iterable)
result // $ExpectType boolean
})
it('curried', () => {
const result = endsWith(target)(iterable)
result // $ExpectType boolean
})
})
describe('R.endsWith - string as iterable', () => {
const target = 'bar'
const iterable = 'foo bar'
it('happy', () => {
const result = endsWith(target, iterable)
result // $ExpectType boolean
})
it('curried', () => {
const result = endsWith(target)(iterable)
result // $ExpectType boolean
})
})
eqProps
It returns true
if property prop
in obj1
is equal to property prop
in obj2
according to R.equals
.
Try this R.eqProps example in Rambda REPL
equals
equals<T>(x: T, y: T): boolean
It deeply compares x
and y
and returns true
if they are equal.
Try this R.equals example in Rambda REPL
All Typescript definitions
equals<T>(x: T, y: T): boolean;
equals<T>(x: T): (y: T) => boolean;
R.equals source
import { isArray } from './_internals/isArray.js'
import { type } from './type.js'
export function _lastIndexOf(valueToFind, list){
if (!isArray(list)){
throw new Error(`Cannot read property 'indexOf' of ${ list }`)
}
const typeOfValue = type(valueToFind)
if (![ 'Object', 'Array', 'NaN', 'RegExp' ].includes(typeOfValue))
return list.lastIndexOf(valueToFind)
const { length } = list
let index = length
let foundIndex = -1
while (--index > -1 && foundIndex === -1){
if (equals(list[ index ], valueToFind)){
foundIndex = index
}
}
return foundIndex
}
export function _indexOf(valueToFind, list){
if (!isArray(list)){
throw new Error(`Cannot read property 'indexOf' of ${ list }`)
}
const typeOfValue = type(valueToFind)
if (![ 'Object', 'Array', 'NaN', 'RegExp' ].includes(typeOfValue))
return list.indexOf(valueToFind)
let index = -1
let foundIndex = -1
const { length } = list
while (++index < length && foundIndex === -1){
if (equals(list[ index ], valueToFind)){
foundIndex = index
}
}
return foundIndex
}
function _arrayFromIterator(iter){
const list = []
let next
while (!(next = iter.next()).done){
list.push(next.value)
}
return list
}
function _equalsSets(a, b){
if (a.size !== b.size){
return false
}
const aList = _arrayFromIterator(a.values())
const bList = _arrayFromIterator(b.values())
const filtered = aList.filter(aInstance => _indexOf(aInstance, bList) === -1)
return filtered.length === 0
}
function parseError(maybeError){
const typeofError = maybeError.__proto__.toString()
if (![ 'Error', 'TypeError' ].includes(typeofError)) return []
return [ typeofError, maybeError.message ]
}
function parseDate(maybeDate){
if (!maybeDate.toDateString) return [ false ]
return [ true, maybeDate.getTime() ]
}
function parseRegex(maybeRegex){
if (maybeRegex.constructor !== RegExp) return [ false ]
return [ true, maybeRegex.toString() ]
}
export function equals(a, b){
if (arguments.length === 1) return _b => equals(a, _b)
const aType = type(a)
if (aType !== type(b)) return false
if (aType === 'Function'){
return a.name === undefined ? false : a.name === b.name
}
if ([ 'NaN', 'Undefined', 'Null' ].includes(aType)) return true
if (aType === 'Number'){
if (Object.is(-0, a) !== Object.is(-0, b)) return false
return a.toString() === b.toString()
}
if ([ 'String', 'Boolean' ].includes(aType)){
return a.toString() === b.toString()
}
if (aType === 'Array'){
const aClone = Array.from(a)
const bClone = Array.from(b)
if (aClone.toString() !== bClone.toString()){
return false
}
let loopArrayFlag = true
aClone.forEach((aCloneInstance, aCloneIndex) => {
if (loopArrayFlag){
if (
aCloneInstance !== bClone[ aCloneIndex ] &&
!equals(aCloneInstance, bClone[ aCloneIndex ])
){
loopArrayFlag = false
}
}
})
return loopArrayFlag
}
const aRegex = parseRegex(a)
const bRegex = parseRegex(b)
if (aRegex[ 0 ]){
return bRegex[ 0 ] ? aRegex[ 1 ] === bRegex[ 1 ] : false
} else if (bRegex[ 0 ]) return false
const aDate = parseDate(a)
const bDate = parseDate(b)
if (aDate[ 0 ]){
return bDate[ 0 ] ? aDate[ 1 ] === bDate[ 1 ] : false
} else if (bDate[ 0 ]) return false
const aError = parseError(a)
const bError = parseError(b)
if (aError[ 0 ]){
return bError[ 0 ] ?
aError[ 0 ] === bError[ 0 ] && aError[ 1 ] === bError[ 1 ] :
false
}
if (aType === 'Set'){
return _equalsSets(a, b)
}
if (aType === 'Object'){
const aKeys = Object.keys(a)
if (aKeys.length !== Object.keys(b).length){
return false
}
let loopObjectFlag = true
aKeys.forEach(aKeyInstance => {
if (loopObjectFlag){
const aValue = a[ aKeyInstance ]
const bValue = b[ aKeyInstance ]
if (aValue !== bValue && !equals(aValue, bValue)){
loopObjectFlag = false
}
}
})
return loopObjectFlag
}
return false
}
Tests
import { equals as equalsRamda } from 'ramda'
import { compareCombinations } from './_internals/testUtils.js'
import { variousTypes } from './benchmarks/_utils.js'
import { equals } from './equals.js'
test('compare functions', () => {
function foo(){}
function bar(){}
const baz = () => {}
const expectTrue = equals(foo, foo)
const expectFalseFirst = equals(foo, bar)
const expectFalseSecond = equals(foo, baz)
expect(expectTrue).toBeTrue()
expect(expectFalseFirst).toBeFalse()
expect(expectFalseSecond).toBeFalse()
})
test('with array of objects', () => {
const list1 = [ { a : 1 }, [ { b : 2 } ] ]
const list2 = [ { a : 1 }, [ { b : 2 } ] ]
const list3 = [ { a : 1 }, [ { b : 3 } ] ]
expect(equals(list1, list2)).toBeTrue()
expect(equals(list1, list3)).toBeFalse()
})
test('with regex', () => {
expect(equals(/s/, /s/)).toBeTrue()
expect(equals(/s/, /d/)).toBeFalse()
expect(equals(/a/gi, /a/gi)).toBeTrue()
expect(equals(/a/gim, /a/gim)).toBeTrue()
expect(equals(/a/gi, /a/i)).toBeFalse()
})
test('not a number', () => {
expect(equals([ NaN ], [ NaN ])).toBeTrue()
})
test('new number', () => {
expect(equals(new Number(0), new Number(0))).toBeTrue()
expect(equals(new Number(0), new Number(1))).toBeFalse()
expect(equals(new Number(1), new Number(0))).toBeFalse()
})
test('new string', () => {
expect(equals(new String(''), new String(''))).toBeTrue()
expect(equals(new String(''), new String('x'))).toBeFalse()
expect(equals(new String('x'), new String(''))).toBeFalse()
expect(equals(new String('foo'), new String('foo'))).toBeTrue()
expect(equals(new String('foo'), new String('bar'))).toBeFalse()
expect(equals(new String('bar'), new String('foo'))).toBeFalse()
})
test('new Boolean', () => {
expect(equals(new Boolean(true), new Boolean(true))).toBeTrue()
expect(equals(new Boolean(false), new Boolean(false))).toBeTrue()
expect(equals(new Boolean(true), new Boolean(false))).toBeFalse()
expect(equals(new Boolean(false), new Boolean(true))).toBeFalse()
})
test('new Error', () => {
expect(equals(new Error('XXX'), {})).toBeFalse()
expect(equals(new Error('XXX'), new TypeError('XXX'))).toBeFalse()
expect(equals(new Error('XXX'), new Error('YYY'))).toBeFalse()
expect(equals(new Error('XXX'), new Error('XXX'))).toBeTrue()
expect(equals(new Error('XXX'), new TypeError('YYY'))).toBeFalse()
})
test('with dates', () => {
expect(equals(new Date(0), new Date(0))).toBeTrue()
expect(equals(new Date(1), new Date(1))).toBeTrue()
expect(equals(new Date(0), new Date(1))).toBeFalse()
expect(equals(new Date(1), new Date(0))).toBeFalse()
expect(equals(new Date(0), {})).toBeFalse()
expect(equals({}, new Date(0))).toBeFalse()
})
test('ramda spec', () => {
expect(equals({}, {})).toBeTrue()
expect(equals({
a : 1,
b : 2,
},
{
a : 1,
b : 2,
})).toBeTrue()
expect(equals({
a : 2,
b : 3,
},
{
b : 3,
a : 2,
})).toBeTrue()
expect(equals({
a : 2,
b : 3,
},
{
a : 3,
b : 3,
})).toBeFalse()
expect(equals({
a : 2,
b : 3,
c : 1,
},
{
a : 2,
b : 3,
})).toBeFalse()
})
test('works with boolean tuple', () => {
expect(equals([ true, false ], [ true, false ])).toBeTrue()
expect(equals([ true, false ], [ true, true ])).toBeFalse()
})
test('works with equal objects within array', () => {
const objFirst = {
a : {
b : 1,
c : 2,
d : [ 1 ],
},
}
const objSecond = {
a : {
b : 1,
c : 2,
d : [ 1 ],
},
}
const x = [ 1, 2, objFirst, null, '', [] ]
const y = [ 1, 2, objSecond, null, '', [] ]
expect(equals(x, y)).toBeTrue()
})
test('works with different objects within array', () => {
const objFirst = { a : { b : 1 } }
const objSecond = { a : { b : 2 } }
const x = [ 1, 2, objFirst, null, '', [] ]
const y = [ 1, 2, objSecond, null, '', [] ]
expect(equals(x, y)).toBeFalse()
})
test('works with undefined as second argument', () => {
expect(equals(1, undefined)).toBeFalse()
expect(equals(undefined, undefined)).toBeTrue()
})
test('compare sets', () => {
const toCompareDifferent = new Set([ { a : 1 }, { a : 2 } ])
const toCompareSame = new Set([ { a : 1 }, { a : 2 }, { a : 1 } ])
const testSet = new Set([ { a : 1 }, { a : 2 }, { a : 1 } ])
expect(equals(toCompareSame, testSet)).toBeTruthy()
expect(equals(toCompareDifferent, testSet)).toBeFalsy()
expect(equalsRamda(toCompareSame, testSet)).toBeTruthy()
expect(equalsRamda(toCompareDifferent, testSet)).toBeFalsy()
})
test('compare simple sets', () => {
const testSet = new Set([ '2', '3', '3', '2', '1' ])
expect(equals(new Set([ '3', '2', '1' ]), testSet)).toBeTruthy()
expect(equals(new Set([ '3', '2', '0' ]), testSet)).toBeFalsy()
})
test('various examples', () => {
expect(equals([ 1, 2, 3 ])([ 1, 2, 3 ])).toBeTrue()
expect(equals([ 1, 2, 3 ], [ 1, 2 ])).toBeFalse()
expect(equals(1, 1)).toBeTrue()
expect(equals(1, '1')).toBeFalse()
expect(equals({}, {})).toBeTrue()
expect(equals({
a : 1,
b : 2,
},
{
b : 2,
a : 1,
})).toBeTrue()
expect(equals({
a : 1,
b : 2,
},
{
a : 1,
b : 1,
})).toBeFalse()
expect(equals({
a : 1,
b : false,
},
{
a : 1,
b : 1,
})).toBeFalse()
expect(equals({
a : 1,
b : 2,
},
{
b : 2,
a : 1,
c : 3,
})).toBeFalse()
expect(equals({
x : {
a : 1,
b : 2,
},
},
{
x : {
b : 2,
a : 1,
c : 3,
},
})).toBeFalse()
expect(equals({
a : 1,
b : 2,
},
{
b : 3,
a : 1,
})).toBeFalse()
expect(equals({ a : { b : { c : 1 } } }, { a : { b : { c : 1 } } })).toBeTrue()
expect(equals({ a : { b : { c : 1 } } }, { a : { b : { c : 2 } } })).toBeFalse()
expect(equals({ a : {} }, { a : {} })).toBeTrue()
expect(equals('', '')).toBeTrue()
expect(equals('foo', 'foo')).toBeTrue()
expect(equals('foo', 'bar')).toBeFalse()
expect(equals(0, false)).toBeFalse()
expect(equals(/\s/g, null)).toBeFalse()
expect(equals(null, null)).toBeTrue()
expect(equals(false)(null)).toBeFalse()
})
test('with custom functions', () => {
function foo(){
return 1
}
foo.prototype.toString = () => ''
const result = equals(foo, foo)
expect(result).toBeTrue()
})
test('with classes', () => {
class Foo{}
const foo = new Foo()
const result = equals(foo, foo)
expect(result).toBeTrue()
})
test('with negative zero', () => {
expect(equals(-0, -0)).toBeTrue()
expect(equals(-0, 0)).toBeFalse()
expect(equals(0, 0)).toBeTrue()
expect(equals(-0, 1)).toBeFalse()
})
const possibleInputs = variousTypes
describe('brute force', () => {
compareCombinations({
fn : equals,
fnRamda : equalsRamda,
firstInput : possibleInputs,
secondInput : possibleInputs,
callback : errorsCounters => {
expect(errorsCounters).toMatchInlineSnapshot(`
{
"ERRORS_MESSAGE_MISMATCH": 0,
"ERRORS_TYPE_MISMATCH": 0,
"RESULTS_MISMATCH": 5,
"SHOULD_NOT_THROW": 4,
"SHOULD_THROW": 0,
"TOTAL_TESTS": 289,
}
`)
},
})
})
Typescript test
import {equals} from 'rambda'
describe('R.equals', () => {
it('happy', () => {
const result = equals(4, 1)
result // $ExpectType boolean
})
it('with object', () => {
const foo = {a: 1}
const bar = {a: 2}
const result = equals(foo, bar)
result // $ExpectType boolean
})
it('curried', () => {
const result = equals(4)(1)
result // $ExpectType boolean
})
})
evolve
evolve<T, U>(rules: ((x: T) => U)[], list: T[]): U[]
It takes object or array of functions as set of rules. These rules
are applied to the iterable
input to produce the result.
Try this R.evolve example in Rambda REPL
All Typescript definitions
evolve<T, U>(rules: ((x: T) => U)[], list: T[]): U[];
evolve<T, U>(rules: ((x: T) => U)[]) : (list: T[]) => U[];
evolve<E extends Evolver, V extends Evolvable<E>>(rules: E, obj: V): Evolve<V, E>;
evolve<E extends Evolver>(rules: E): <V extends Evolvable<E>>(obj: V) => Evolve<V, E>;
R.evolve source
import { isArray } from './_internals/isArray.js'
import { mapArray, mapObject } from './map.js'
import { type } from './type.js'
export function evolveArray(rules, list){
return mapArray(
(x, i) => {
if (type(rules[ i ]) === 'Function'){
return rules[ i ](x)
}
return x
},
list,
true
)
}
export function evolveObject(rules, iterable){
return mapObject((x, prop) => {
if (type(x) === 'Object'){
const typeRule = type(rules[ prop ])
if (typeRule === 'Function'){
return rules[ prop ](x)
}
if (typeRule === 'Object'){
return evolve(rules[ prop ], x)
}
return x
}
if (type(rules[ prop ]) === 'Function'){
return rules[ prop ](x)
}
return x
}, iterable)
}
export function evolve(rules, iterable){
if (arguments.length === 1){
return _iterable => evolve(rules, _iterable)
}
const rulesType = type(rules)
const iterableType = type(iterable)
if (iterableType !== rulesType){
throw new Error('iterableType !== rulesType')
}
if (![ 'Object', 'Array' ].includes(rulesType)){
throw new Error(`'iterable' and 'rules' are from wrong type ${ rulesType }`)
}
if (iterableType === 'Object'){
return evolveObject(rules, iterable)
}
return evolveArray(rules, iterable)
}
Tests
import { evolve as evolveRamda } from 'ramda'
import { add } from '../rambda.js'
import { compareCombinations, compareToRamda } from './_internals/testUtils.js'
import { evolve } from './evolve.js'
test('happy', () => {
const rules = {
foo : add(1),
nested : { bar : x => Object.keys(x).length },
}
const input = {
a : 1,
foo : 2,
nested : { bar : { z : 3 } },
}
const result = evolve(rules, input)
expect(result).toEqual({
a : 1,
foo : 3,
nested : { bar : 1 },
})
})
test('nested rule is wrong', () => {
const rules = {
foo : add(1),
nested : { bar : 10 },
}
const input = {
a : 1,
foo : 2,
nested : { bar : { z : 3 } },
}
const result = evolve(rules)(input)
expect(result).toEqual({
a : 1,
foo : 3,
nested : { bar : { z : 3 } },
})
})
test('is recursive', () => {
const rules = {
nested : {
second : add(-1),
third : add(1),
},
}
const object = {
first : 1,
nested : {
second : 2,
third : 3,
},
}
const expected = {
first : 1,
nested : {
second : 1,
third : 4,
},
}
const result = evolve(rules, object)
expect(result).toEqual(expected)
})
test('ignores primitive values', () => {
const rules = {
n : 2,
m : 'foo',
}
const object = {
n : 0,
m : 1,
}
const expected = {
n : 0,
m : 1,
}
const result = evolve(rules, object)
expect(result).toEqual(expected)
})
test('with array', () => {
const rules = [ add(1), add(-1) ]
const list = [ 100, 1400 ]
const expected = [ 101, 1399 ]
const result = evolve(rules, list)
expect(result).toEqual(expected)
})
const rulesObject = { a : add(1) }
const rulesList = [ add(1) ]
const possibleIterables = [ null, undefined, '', 42, [], [ 1 ], { a : 1 } ]
const possibleRules = [ ...possibleIterables, rulesList, rulesObject ]
describe('brute force', () => {
compareCombinations({
firstInput : possibleRules,
callback : errorsCounters => {
expect(errorsCounters).toMatchInlineSnapshot(`
{
"ERRORS_MESSAGE_MISMATCH": 0,
"ERRORS_TYPE_MISMATCH": 4,
"RESULTS_MISMATCH": 0,
"SHOULD_NOT_THROW": 51,
"SHOULD_THROW": 0,
"TOTAL_TESTS": 63,
}
`)
},
secondInput : possibleIterables,
fn : evolve,
fnRamda : evolveRamda,
})
})
Typescript test
import {evolve, add} from 'rambda'
describe('R.evolve', () => {
it('happy', () => {
const input = {
foo: 2,
nested: {
a: 1,
bar: 3,
},
}
const rules = {
foo: add(1),
nested: {
a: add(-1),
bar: add(1),
},
}
const result = evolve(rules, input)
const curriedResult = evolve(rules)(input)
result.nested.a // $ExpectType number
curriedResult.nested.a // $ExpectType number
result.nested.bar // $ExpectType number
result.foo // $ExpectType number
})
it('with array', () => {
const rules = [String, String]
const input = [100, 1400]
const result = evolve(rules, input)
const curriedResult = evolve(rules)(input)
result // $ExpectType string[]
curriedResult // $ExpectType string[]
})
})
F
F(): boolean
Try this R.F example in Rambda REPL
All Typescript definitions
F(): boolean;
R.F source
export function F(){
return false
}
filter
filter<T>(predicate: Predicate<T>): (input: T[]) => T[]
It filters list or object input
using a predicate
function.
Try this R.filter example in Rambda REPL
All Typescript definitions
filter<T>(predicate: Predicate<T>): (input: T[]) => T[];
filter<T>(predicate: Predicate<T>, input: T[]): T[];
filter<T, U>(predicate: ObjectPredicate<T>): (x: Dictionary<T>) => Dictionary<T>;
filter<T>(predicate: ObjectPredicate<T>, x: Dictionary<T>): Dictionary<T>;
R.filter source
import { isArray } from './_internals/isArray.js'
export function filterObject(predicate, obj){
const willReturn = {}
for (const prop in obj){
if (predicate(
obj[ prop ], prop, obj
)){
willReturn[ prop ] = obj[ prop ]
}
}
return willReturn
}
export function filterArray(
predicate, list, indexed = false
){
let index = 0
const len = list.length
const willReturn = []
while (index < len){
const predicateResult = indexed ?
predicate(list[ index ], index) :
predicate(list[ index ])
if (predicateResult){
willReturn.push(list[ index ])
}
index++
}
return willReturn
}
export function filter(predicate, iterable){
if (arguments.length === 1)
return _iterable => filter(predicate, _iterable)
if (!iterable){
throw new Error('Incorrect iterable input')
}
if (isArray(iterable)) return filterArray(
predicate, iterable, false
)
return filterObject(predicate, iterable)
}
Tests
import { filter as filterRamda } from 'ramda'
import { filter } from './filter.js'
import { T } from './T.js'
const sampleObject = {
a : 1,
b : 2,
c : 3,
d : 4,
}
test('happy', () => {
const isEven = n => n % 2 === 0
expect(filter(isEven, [ 1, 2, 3, 4 ])).toEqual([ 2, 4 ])
expect(filter(isEven, {
a : 1,
b : 2,
d : 3,
})).toEqual({ b : 2 })
})
test('predicate when input is object', () => {
const obj = {
a : 1,
b : 2,
}
const predicate = (
val, prop, inputObject
) => {
expect(inputObject).toEqual(obj)
expect(typeof prop).toBe('string')
return val < 2
}
expect(filter(predicate, obj)).toEqual({ a : 1 })
})
test('with object', () => {
const isEven = n => n % 2 === 0
const result = filter(isEven, sampleObject)
const expectedResult = {
b : 2,
d : 4,
}
expect(result).toEqual(expectedResult)
})
test('bad inputs difference between Ramda and Rambda', () => {
expect(() => filter(T, null)).toThrowWithMessage(Error,
'Incorrect iterable input')
expect(() => filter(T)(undefined)).toThrowWithMessage(Error,
'Incorrect iterable input')
expect(() => filterRamda(T, null)).toThrowWithMessage(TypeError,
'Cannot read properties of null (reading \'fantasy-land/filter\')')
expect(() => filterRamda(T, undefined)).toThrowWithMessage(TypeError,
'Cannot read properties of undefined (reading \'fantasy-land/filter\')')
})
Typescript test
import {filter} from 'rambda'
const list = [1, 2, 3]
const obj = {a: 1, b: 2}
describe('R.filter with array', () => {
it('happy', () => {
const result = filter<number>(x => {
x // $ExpectType number
return x > 1
}, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = filter<number>(x => {
x // $ExpectType number
return x > 1
})(list)
result // $ExpectType number[]
})
})
describe('R.filter with objects', () => {
it('happy', () => {
const result = filter<number>((val, prop, origin) => {
val // $ExpectType number
prop // $ExpectType string
origin // $ExpectType Dictionary<number>
return val > 1
}, obj)
result // $ExpectType Dictionary<number>
})
it('curried version requires second dummy type', () => {
const result = filter<number, any>((val, prop, origin) => {
val // $ExpectType number
prop // $ExpectType string
origin // $ExpectType Dictionary<number>
return val > 1
})(obj)
result // $ExpectType Dictionary<number>
})
})
find
find<T>(predicate: (x: T) => boolean, list: T[]): T | undefined
It returns the first element of list
that satisfy the predicate
.
If there is no such element, it returns undefined
.
Try this R.find example in Rambda REPL
All Typescript definitions
find<T>(predicate: (x: T) => boolean, list: T[]): T | undefined;
find<T>(predicate: (x: T) => boolean): (list: T[]) => T | undefined;
R.find source
export function find(predicate, list){
if (arguments.length === 1) return _list => find(predicate, _list)
let index = 0
const len = list.length
while (index < len){
const x = list[ index ]
if (predicate(x)){
return x
}
index++
}
}
Tests
import { find } from './find.js'
import { propEq } from './propEq.js'
const list = [ { a : 1 }, { a : 2 }, { a : 3 } ]
test('happy', () => {
const fn = propEq('a', 2)
expect(find(fn, list)).toEqual({ a : 2 })
})
test('with curry', () => {
const fn = propEq('a', 4)
expect(find(fn)(list)).toBeUndefined()
})
test('with empty list', () => {
expect(find(() => true, [])).toBeUndefined()
})
Typescript test
import {find} from 'rambda'
const list = [1, 2, 3]
describe('R.find', () => {
it('happy', () => {
const predicate = (x: number) => x > 2
const result = find(predicate, list)
result // $ExpectType number | undefined
})
it('curried', () => {
const predicate = (x: number) => x > 2
const result = find(predicate)(list)
result // $ExpectType number | undefined
})
})
findIndex
findIndex<T>(predicate: (x: T) => boolean, list: T[]): number
It returns the index of the first element of list
satisfying the predicate
function.
If there is no such element, then -1
is returned.
Try this R.findIndex example in Rambda REPL
All Typescript definitions
findIndex<T>(predicate: (x: T) => boolean, list: T[]): number;
findIndex<T>(predicate: (x: T) => boolean): (list: T[]) => number;
R.findIndex source
export function findIndex(predicate, list){
if (arguments.length === 1) return _list => findIndex(predicate, _list)
const len = list.length
let index = -1
while (++index < len){
if (predicate(list[ index ])){
return index
}
}
return -1
}
Tests
import { findIndex } from './findIndex.js'
import { propEq } from './propEq.js'
const list = [ { a : 1 }, { a : 2 }, { a : 3 } ]
test('happy', () => {
expect(findIndex(propEq('a', 2), list)).toBe(1)
expect(findIndex(propEq('a', 1))(list)).toBe(0)
expect(findIndex(propEq('a', 4))(list)).toEqual(-1)
})
Typescript test
import {findIndex} from 'rambda'
const list = [1, 2, 3]
describe('R.findIndex', () => {
it('happy', () => {
const predicate = (x: number) => x > 2
const result = findIndex(predicate, list)
result // $ExpectType number
})
it('curried', () => {
const predicate = (x: number) => x > 2
const result = findIndex(predicate)(list)
result // $ExpectType number
})
})
findLast
findLast<T>(fn: (x: T) => boolean, list: T[]): T | undefined
It returns the last element of list
satisfying the predicate
function.
If there is no such element, then undefined
is returned.
Try this R.findLast example in Rambda REPL
All Typescript definitions
findLast<T>(fn: (x: T) => boolean, list: T[]): T | undefined;
findLast<T>(fn: (x: T) => boolean): (list: T[]) => T | undefined;
R.findLast source
export function findLast(predicate, list){
if (arguments.length === 1) return _list => findLast(predicate, _list)
let index = list.length
while (--index >= 0){
if (predicate(list[ index ])){
return list[ index ]
}
}
return undefined
}
Tests
import { findLast } from './findLast.js'
test('happy', () => {
const result = findLast(x => x > 1, [ 1, 1, 1, 2, 3, 4, 1 ])
expect(result).toBe(4)
expect(findLast(x => x === 0, [ 0, 1, 1, 2, 3, 4, 1 ])).toBe(0)
})
test('with curry', () => {
expect(findLast(x => x > 1)([ 1, 1, 1, 2, 3, 4, 1 ])).toBe(4)
})
const obj1 = { x : 100 }
const obj2 = { x : 200 }
const a = [ 11, 10, 9, 'cow', obj1, 8, 7, 100, 200, 300, obj2, 4, 3, 2, 1, 0 ]
const even = function (x){
return x % 2 === 0
}
const gt100 = function (x){
return x > 100
}
const isStr = function (x){
return typeof x === 'string'
}
const xGt100 = function (o){
return o && o.x > 100
}
test('ramda 1', () => {
expect(findLast(even, a)).toBe(0)
expect(findLast(gt100, a)).toBe(300)
expect(findLast(isStr, a)).toBe('cow')
expect(findLast(xGt100, a)).toEqual(obj2)
})
test('ramda 2', () => {
expect(findLast(even, [ 'zing' ])).toBeUndefined()
})
test('ramda 3', () => {
expect(findLast(even, [ 2, 3, 5 ])).toBe(2)
})
test('ramda 4', () => {
expect(findLast(even, [])).toBeUndefined()
})
Typescript test
import {findLast} from 'rambda'
const list = [1, 2, 3]
describe('R.findLast', () => {
it('happy', () => {
const predicate = (x: number) => x > 2
const result = findLast(predicate, list)
result // $ExpectType number | undefined
})
it('curried', () => {
const predicate = (x: number) => x > 2
const result = findLast(predicate)(list)
result // $ExpectType number | undefined
})
})
findLastIndex
findLastIndex<T>(predicate: (x: T) => boolean, list: T[]): number
It returns the index of the last element of list
satisfying the predicate
function.
If there is no such element, then -1
is returned.
Try this R.findLastIndex example in Rambda REPL
All Typescript definitions
findLastIndex<T>(predicate: (x: T) => boolean, list: T[]): number;
findLastIndex<T>(predicate: (x: T) => boolean): (list: T[]) => number;
R.findLastIndex source
export function findLastIndex(fn, list){
if (arguments.length === 1) return _list => findLastIndex(fn, _list)
let index = list.length
while (--index >= 0){
if (fn(list[ index ])){
return index
}
}
return -1
}
Tests
import { findLastIndex } from './findLastIndex.js'
test('happy', () => {
const result = findLastIndex(x => x > 1, [ 1, 1, 1, 2, 3, 4, 1 ])
expect(result).toBe(5)
expect(findLastIndex(x => x === 0, [ 0, 1, 1, 2, 3, 4, 1 ])).toBe(0)
})
test('with curry', () => {
expect(findLastIndex(x => x > 1)([ 1, 1, 1, 2, 3, 4, 1 ])).toBe(5)
})
const obj1 = { x : 100 }
const obj2 = { x : 200 }
const a = [ 11, 10, 9, 'cow', obj1, 8, 7, 100, 200, 300, obj2, 4, 3, 2, 1, 0 ]
const even = function (x){
return x % 2 === 0
}
const gt100 = function (x){
return x > 100
}
const isStr = function (x){
return typeof x === 'string'
}
const xGt100 = function (o){
return o && o.x > 100
}
test('ramda 1', () => {
expect(findLastIndex(even, a)).toBe(15)
expect(findLastIndex(gt100, a)).toBe(9)
expect(findLastIndex(isStr, a)).toBe(3)
expect(findLastIndex(xGt100, a)).toBe(10)
})
test('ramda 2', () => {
expect(findLastIndex(even, [ 'zing' ])).toEqual(-1)
})
test('ramda 3', () => {
expect(findLastIndex(even, [ 2, 3, 5 ])).toBe(0)
})
test('ramda 4', () => {
expect(findLastIndex(even, [])).toEqual(-1)
})
Typescript test
import {findLastIndex} from 'rambda'
const list = [1, 2, 3]
describe('R.findLastIndex', () => {
it('happy', () => {
const predicate = (x: number) => x > 2
const result = findLastIndex(predicate, list)
result // $ExpectType number
})
it('curried', () => {
const predicate = (x: number) => x > 2
const result = findLastIndex(predicate)(list)
result // $ExpectType number
})
})
flatten
flatten<T>(list: any[]): T[]
It deeply flattens an array.
Try this R.flatten example in Rambda REPL
All Typescript definitions
flatten<T>(list: any[]): T[];
R.flatten source
import { isArray } from './_internals/isArray.js'
export function flatten(list, input){
const willReturn = input === undefined ? [] : input
for (let i = 0; i < list.length; i++){
if (isArray(list[ i ])){
flatten(list[ i ], willReturn)
} else {
willReturn.push(list[ i ])
}
}
return willReturn
}
Tests
import { flatten } from './flatten.js'
test('happy', () => {
expect(flatten([ 1, 2, 3, [ [ [ [ [ 4 ] ] ] ] ] ])).toEqual([ 1, 2, 3, 4 ])
expect(flatten([ 1, [ 2, [ [ 3 ] ] ], [ 4 ] ])).toEqual([ 1, 2, 3, 4 ])
expect(flatten([ 1, [ 2, [ [ [ 3 ] ] ] ], [ 4 ] ])).toEqual([ 1, 2, 3, 4 ])
expect(flatten([ 1, 2, [ 3, 4 ], 5, [ 6, [ 7, 8, [ 9, [ 10, 11 ], 12 ] ] ] ])).toEqual([ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 ])
})
test('readme example', () => {
const result = flatten([ 1, 2, [ 3, 30, [ 300 ] ], [ 4 ] ])
expect(result).toEqual([ 1, 2, 3, 30, 300, 4 ])
})
Typescript test
import {flatten} from 'rambda'
describe('flatten', () => {
it('happy', () => {
const result = flatten<number>([1, 2, [3, [4]]])
result // $ExpectType number[]
})
})
flip
It returns function which calls fn
with exchanged first and second argument.
Try this R.flip example in Rambda REPL
forEach
forEach<T>(fn: Iterator<T, void>, list: T[]): T[]
It applies iterable
function over all members of list
and returns list
.
Try this R.forEach example in Rambda REPL
All Typescript definitions
forEach<T>(fn: Iterator<T, void>, list: T[]): T[];
forEach<T>(fn: Iterator<T, void>): (list: T[]) => T[];
forEach<T>(fn: ObjectIterator<T, void>, list: Dictionary<T>): Dictionary<T>;
forEach<T, U>(fn: ObjectIterator<T, void>): (list: Dictionary<T>) => Dictionary<T>;
R.forEach source
import { isArray } from './_internals/isArray.js'
import { keys } from './_internals/keys.js'
export function forEach(fn, list){
if (arguments.length === 1) return _list => forEach(fn, _list)
if (list === undefined){
return
}
if (isArray(list)){
let index = 0
const len = list.length
while (index < len){
fn(list[ index ])
index++
}
} else {
let index = 0
const listKeys = keys(list)
const len = listKeys.length
while (index < len){
const key = listKeys[ index ]
fn(
list[ key ], key, list
)
index++
}
}
return list
}
Tests
import { forEach } from './forEach.js'
import { type } from './type.js'
test('happy', () => {
const sideEffect = {}
forEach(x => sideEffect[ `foo${ x }` ] = x + 10)([ 1, 2 ])
expect(sideEffect).toEqual({
foo1 : 11,
foo2 : 12,
})
})
test('iterate over object', () => {
const obj = {
a : 1,
b : [ 1, 2 ],
c : { d : 7 },
f : 'foo',
}
const result = {}
const returned = forEach((
val, prop, inputObj
) => {
expect(type(inputObj)).toBe('Object')
result[ prop ] = `${ prop }-${ type(val) }`
})(obj)
const expected = {
a : 'a-Number',
b : 'b-Array',
c : 'c-Object',
f : 'f-String',
}
expect(result).toEqual(expected)
expect(returned).toEqual(obj)
})
test('with empty list', () => {
const list = []
const result = forEach(x => x * x)(list)
expect(result).toEqual(list)
})
test('with wrong input', () => {
const list = undefined
const result = forEach(x => x * x)(list)
expect(result).toBeUndefined()
})
test('returns the input', () => {
const list = [ 1, 2, 3 ]
const result = forEach(x => x * x)(list)
expect(result).toEqual(list)
})
Typescript test
import {forEach} from 'rambda'
const list = [1, 2, 3]
const obj = {a: 1, b: 2}
describe('R.forEach with arrays', () => {
it('happy', () => {
const result = forEach(a => {
a // $ExpectType number
}, list)
result // $ExpectType number[]
})
it('curried require an explicit typing', () => {
const result = forEach<number>(a => {
a // $ExpectType number
})(list)
result // $ExpectType number[]
})
})
describe('R.forEach with objects', () => {
it('happy', () => {
const result = forEach((a, b, c) => {
a // $ExpectType number
b // $ExpectType string
c // $ExpectType Dictionary<number>
return `${a}`
}, obj)
result // $ExpectType Dictionary<number>
})
it('curried require an input typing and a dummy third typing', () => {
// Required in order all typings to work
const result = forEach<number, any>((a, b, c) => {
a // $ExpectType number
b // $ExpectType string
c // $ExpectType Dictionary<number>
})(obj)
result // $ExpectType Dictionary<number>
})
it('iterator without property', () => {
const result = forEach(a => {
a // $ExpectType number
}, obj)
result // $ExpectType Dictionary<number>
})
})
fromPairs
It transforms a listOfPairs
to an object.
Try this R.fromPairs example in Rambda REPL
groupBy
It splits list
according to a provided groupFn
function and returns an object.
Try this R.groupBy example in Rambda REPL
groupWith
It returns separated version of list or string input
, where separation is done with equality compareFn
function.
Try this R.groupWith example in Rambda REPL
has
has<T>(prop: string, obj: T): boolean
It returns true
if obj
has property prop
.
Try this R.has example in Rambda REPL
All Typescript definitions
has<T>(prop: string, obj: T): boolean;
has(prop: string): <T>(obj: T) => boolean;
R.has source
export function has(prop, obj){
if (arguments.length === 1) return _obj => has(prop, _obj)
if (!obj) return false
return obj.hasOwnProperty(prop)
}
Tests
import { has } from './has.js'
test('happy', () => {
expect(has('a')({ a : 1 })).toBeTrue()
expect(has('b', { a : 1 })).toBeFalse()
})
test('with non-object', () => {
expect(has('a', undefined)).toBeFalse()
expect(has('a', null)).toBeFalse()
expect(has('a', true)).toBeFalse()
expect(has('a', '')).toBeFalse()
expect(has('a', /a/)).toBeFalse()
})
Typescript test
import {has} from 'rambda'
describe('R.has', () => {
it('happy', () => {
const result = has('foo', {a: 1})
const curriedResult = has('bar')({a: 1})
result // $ExpectType boolean
curriedResult // $ExpectType boolean
})
})
hasPath
hasPath<T>(
path: string | string[],
input: object
): boolean
It will return true, if input
object has truthy path
(calculated with R.path
).
Try this R.hasPath example in Rambda REPL
All Typescript definitions
hasPath<T>(
path: string | string[],
input: object
): boolean;
hasPath<T>(
path: string | string[]
): (input: object) => boolean;
R.hasPath source
import { path } from './path.js'
export function hasPath(pathInput, obj){
if (arguments.length === 1){
return objHolder => hasPath(pathInput, objHolder)
}
return path(pathInput, obj) !== undefined
}
Tests
import { hasPath } from './hasPath.js'
test('when true', () => {
const path = 'a.b'
const obj = { a : { b : [] } }
const result = hasPath(path)(obj)
const expectedResult = true
expect(result).toEqual(expectedResult)
})
test('when false', () => {
const path = 'a.b'
const obj = {}
const result = hasPath(path, obj)
const expectedResult = false
expect(result).toEqual(expectedResult)
})
Typescript test
import {hasPath} from 'rambda'
describe('R.hasPath', () => {
it('string path', () => {
const obj = {a: {b: 1}}
const result = hasPath('a.b', obj)
const curriedResult = hasPath('a.c')(obj)
result // $ExpectType boolean
curriedResult // $ExpectType boolean
})
it('array path', () => {
const obj = {a: {b: 1}}
const result = hasPath(['a', 'b'], obj)
const curriedResult = hasPath(['a', 'c'])(obj)
result // $ExpectType boolean
curriedResult // $ExpectType boolean
})
})
head
head(input: string): string
It returns the first element of list or string input
.
Try this R.head example in Rambda REPL
All Typescript definitions
head(input: string): string;
head(emptyList: []): undefined;
head<T>(input: T[]): T | undefined;
R.head source
export function head(listOrString){
if (typeof listOrString === 'string') return listOrString[ 0 ] || ''
return listOrString[ 0 ]
}
Tests
import { head } from './head.js'
test('head', () => {
expect(head([ 'fi', 'fo', 'fum' ])).toBe('fi')
expect(head([])).toBeUndefined()
expect(head('foo')).toBe('f')
expect(head('')).toBe('')
})
Typescript test
import {head} from 'rambda'
describe('R.head', () => {
it('string', () => {
const result = head('foo')
result // $ExpectType string
})
it('array', () => {
const result = head([1, 2, 3])
result // $ExpectType number | undefined
})
it('empty array - case 1', () => {
const result = head([])
result // $ExpectType undefined
})
it('empty array - case 2', () => {
const list = ['foo', 'bar'].filter(x => x.startsWith('a'))
const result = head(list)
result // $ExpectType string | undefined
})
})
identical
It returns true
if its arguments a
and b
are identical.
Otherwise, it returns false
.
Try this R.identical example in Rambda REPL
identity
identity<T>(input: T): T
It just passes back the supplied input
argument.
Try this R.identity example in Rambda REPL
All Typescript definitions
identity<T>(input: T): T;
R.identity source
export function identity(x){
return x
}
Tests
import { identity } from './identity.js'
test('happy', () => {
expect(identity(7)).toBe(7)
expect(identity(true)).toBeTrue()
expect(identity({ a : 1 })).toEqual({ a : 1 })
})
Typescript test
import {identity} from 'rambda'
describe('R.identity', () => {
it('happy', () => {
const result = identity(4)
result // $ExpectType 4
})
})
ifElse
ifElse<T, TFiltered extends T, TOnTrueResult, TOnFalseResult>(
pred: (a: T) => a is TFiltered,
onTrue: (a: TFiltered) => TOnTrueResult,
onFalse: (a: Exclude<T, TFiltered>) => TOnFalseResult,
): (a: T) => TOnTrueResult | TOnFalseResult
It expects condition
, onTrue
and onFalse
functions as inputs and it returns a new function with example name of fn
.
When fn
is called with
inputargument, it will return either
onTrue(input)or
onFalse(input)depending on
condition(input)` evaluation.
Try this R.ifElse example in Rambda REPL
All Typescript definitions
ifElse<T, TFiltered extends T, TOnTrueResult, TOnFalseResult>(
pred: (a: T) => a is TFiltered,
onTrue: (a: TFiltered) => TOnTrueResult,
onFalse: (a: Exclude<T, TFiltered>) => TOnFalseResult,
): (a: T) => TOnTrueResult | TOnFalseResult;
ifElse<TArgs extends any[], TOnTrueResult, TOnFalseResult>(fn: (...args: TArgs) => boolean, onTrue: (...args: TArgs) => TOnTrueResult, onFalse: (...args: TArgs) => TOnFalseResult): (...args: TArgs) => TOnTrueResult | TOnFalseResult;
R.ifElse source
import { curry } from './curry.js'
function ifElseFn(
condition, onTrue, onFalse
){
return (...input) => {
const conditionResult =
typeof condition === 'boolean' ? condition : condition(...input)
if (conditionResult === true){
return onTrue(...input)
}
return onFalse(...input)
}
}
export const ifElse = curry(ifElseFn)
Tests
import { always } from './always.js'
import { has } from './has.js'
import { identity } from './identity.js'
import { ifElse } from './ifElse.js'
import { prop } from './prop.js'
const condition = has('foo')
const v = function (a){
return typeof a === 'number'
}
const t = function (a){
return a + 1
}
const ifFn = x => prop('foo', x).length
const elseFn = () => false
test('happy', () => {
const fn = ifElse(condition, ifFn)(elseFn)
expect(fn({ foo : 'bar' })).toBe(3)
expect(fn({ fo : 'bar' })).toBeFalse()
})
test('ramda spec', () => {
const ifIsNumber = ifElse(v)
expect(ifIsNumber(t, identity)(15)).toBe(16)
expect(ifIsNumber(t, identity)('hello')).toBe('hello')
})
test('pass all arguments', () => {
const identity = function (a){
return a
}
const v = function (){
return true
}
const onTrue = function (a, b){
expect(a).toBe(123)
expect(b).toBe('abc')
}
ifElse(
v, onTrue, identity
)(123, 'abc')
})
test('accept constant as condition', () => {
const fn = ifElse(true)(always(true))(always(false))
expect(fn()).toBeTrue()
})
test('accept constant as condition - case 2', () => {
const fn = ifElse(
false, always(true), always(false)
)
expect(fn()).toBeFalse()
})
test('curry 1', () => {
const fn = ifElse(condition, ifFn)(elseFn)
expect(fn({ foo : 'bar' })).toBe(3)
expect(fn({ fo : 'bar' })).toBeFalse()
})
test('curry 2', () => {
const fn = ifElse(condition)(ifFn)(elseFn)
expect(fn({ foo : 'bar' })).toBe(3)
expect(fn({ fo : 'bar' })).toBeFalse()
})
test('simple arity of 1', () => {
const condition = x => x > 5
const onTrue = x => x + 1
const onFalse = x => x + 10
const result = ifElse(
condition, onTrue, onFalse
)(1)
expect(result).toBe(11)
})
test('simple arity of 2', () => {
const condition = (x, y) => x + y > 5
const onTrue = (x, y) => x + y + 1
const onFalse = (x, y) => x + y + 10
const result = ifElse(
condition, onTrue, onFalse
)(1, 10)
expect(result).toBe(12)
})
Typescript test
import {ifElse} from 'rambda'
describe('R.ifElse', () => {
it('happy', () => {
const condition = (x: number) => x > 5
const onTrue = (x: number) => `foo${x}`
const onFalse = (x: number) => `bar${x}`
const fn = ifElse(condition, onTrue, onFalse)
fn // $ExpectType (x: number) => string
const result = fn(3)
result // $ExpectType string
})
it('arity of 2', () => {
const condition = (x: number, y: string) => x + y.length > 5
const onTrue = (x: number, y: string) => `foo${x}-${y}`
const onFalse = (x: number, y: string) => `bar${x}-${y}`
const fn = ifElse(condition, onTrue, onFalse)
fn // $ExpectType (x: number, y: string) => string
const result = fn(3, 'hello')
result // $ExpectType string
})
test('DefinitelyTyped#59291', () => {
const getLengthIfStringElseDouble = ifElse(
(a: string | number): a is string => true,
a => a.length,
a => a * 2
)
getLengthIfStringElseDouble('foo') // $ExpectType number
getLengthIfStringElseDouble(3) // $ExpectType number
const result = ifElse(
(a: {
foo?: string,
bar: number | string,
}): a is {foo: string, bar: string} => true,
(a): [string, string] => [a.foo, a.bar],
(a): [string | undefined, string | number] => [a.foo, a.bar]
)
result // $ExpectType (a: { foo?: string | undefined; bar: string | number; }) => [string, string] | [string | undefined, string | number]
})
})
inc
It increments a number.
Try this R.inc example in Rambda REPL
includes
includes(valueToFind: string, input: string[] | string): boolean
If input
is string, then this method work as native String.includes
.
If input
is array, then R.equals
is used to define if valueToFind
belongs to the list.
Try this R.includes example in Rambda REPL
All Typescript definitions
includes(valueToFind: string, input: string[] | string): boolean;
includes(valueToFind: string): (input: string[] | string) => boolean;
includes<T>(valueToFind: T, input: T[]): boolean;
includes<T>(valueToFind: T): (input: T[]) => boolean;
R.includes source
import { isArray } from './_internals/isArray.js'
import { _indexOf } from './equals.js'
export function includes(valueToFind, iterable){
if (arguments.length === 1)
return _iterable => includes(valueToFind, _iterable)
if (typeof iterable === 'string'){
return iterable.includes(valueToFind)
}
if (!iterable){
throw new TypeError(`Cannot read property \'indexOf\' of ${ iterable }`)
}
if (!isArray(iterable)) return false
return _indexOf(valueToFind, iterable) > -1
}
Tests
import { includes as includesRamda } from 'ramda'
import { includes } from './includes.js'
test('with string as iterable', () => {
const str = 'foo bar'
expect(includes('bar')(str)).toBeTrue()
expect(includesRamda('bar')(str)).toBeTrue()
expect(includes('never', str)).toBeFalse()
expect(includesRamda('never', str)).toBeFalse()
})
test('with array as iterable', () => {
const arr = [ 1, 2, 3 ]
expect(includes(2)(arr)).toBeTrue()
expect(includesRamda(2)(arr)).toBeTrue()
expect(includes(4, arr)).toBeFalse()
expect(includesRamda(4, arr)).toBeFalse()
})
test('with list of objects as iterable', () => {
const arr = [ { a : 1 }, { b : 2 }, { c : 3 } ]
expect(includes({ c : 3 }, arr)).toBeTrue()
expect(includesRamda({ c : 3 }, arr)).toBeTrue()
})
test('with NaN', () => {
const result = includes(NaN, [ NaN ])
const ramdaResult = includesRamda(NaN, [ NaN ])
expect(result).toBeTrue()
expect(ramdaResult).toBeTrue()
})
test('with wrong input that does not throw', () => {
const result = includes(1, /foo/g)
const ramdaResult = includesRamda(1, /foo/g)
expect(result).toBeFalse()
expect(ramdaResult).toBeFalse()
})
test('throws on wrong input - match ramda behaviour', () => {
expect(() => includes(2, null)).toThrowWithMessage(TypeError,
'Cannot read property \'indexOf\' of null')
expect(() => includesRamda(2, null)).toThrowWithMessage(TypeError,
'Cannot read properties of null (reading \'indexOf\')')
expect(() => includes(2, undefined)).toThrowWithMessage(TypeError,
'Cannot read property \'indexOf\' of undefined')
expect(() => includesRamda(2, undefined)).toThrowWithMessage(TypeError,
'Cannot read properties of undefined (reading \'indexOf\')')
})
Typescript test
import {includes} from 'rambda'
const list = [{a: {b: '1'}}, {a: {c: '2'}}, {a: {b: '3'}}]
describe('R.includes', () => {
it('happy', () => {
const result = includes({a: {b: '1'}}, list)
result // $ExpectType boolean
})
it('with string', () => {
const result = includes('oo', 'foo')
const curriedResult = includes('oo')('foo')
result // $ExpectType boolean
curriedResult // $ExpectType boolean
})
})
indexBy
It generates object with properties provided by condition
and values provided by list
array.
If condition
is a function, then all list members are passed through it.
If condition
is a string, then all list members are passed through R.path(condition)
.
Try this R.indexBy example in Rambda REPL
indexOf
It returns the index of the first element of list
equals to valueToFind
.
If there is no such element, it returns -1
.
Try this R.indexOf example in Rambda REPL
init
init<T extends unknown[]>(input: T): T extends readonly [...infer U, any] ? U : [...T]
It returns all but the last element of list or string input
.
Try this R.init example in Rambda REPL
All Typescript definitions
init<T extends unknown[]>(input: T): T extends readonly [...infer U, any] ? U : [...T];
init(input: string): string;
R.init source
import baseSlice from './_internals/baseSlice.js'
export function init(listOrString){
if (typeof listOrString === 'string') return listOrString.slice(0, -1)
return listOrString.length ?
baseSlice(
listOrString, 0, -1
) :
[]
}
Tests
import { init } from './init.js'
test('with array', () => {
expect(init([ 1, 2, 3 ])).toEqual([ 1, 2 ])
expect(init([ 1, 2 ])).toEqual([ 1 ])
expect(init([ 1 ])).toEqual([])
expect(init([])).toEqual([])
expect(init([])).toEqual([])
expect(init([ 1 ])).toEqual([])
})
test('with string', () => {
expect(init('foo')).toBe('fo')
expect(init('f')).toBe('')
expect(init('')).toBe('')
})
Typescript test
import {init} from 'rambda'
describe('R.init', () => {
it('with string', () => {
const result = init('foo')
result // $ExpectType string
})
it('with list - one type', () => {
const result = init([1, 2, 3])
result // $ExpectType number[]
})
it('with list - mixed types', () => {
const result = init([1, 2, 3, 'foo', 'bar'])
result // $ExpectType (string | number)[]
})
})
intersection
It loops through listA
and listB
and returns the intersection of the two according to R.equals
.
Try this R.intersection example in Rambda REPL
intersperse
It adds a separator
between members of list
.
Try this R.intersperse example in Rambda REPL
is
It returns true
if x
is instance of targetPrototype
.
Try this R.is example in Rambda REPL
isEmpty
isEmpty<T>(x: T): boolean
It returns true
if x
is empty
.
Try this R.isEmpty example in Rambda REPL
All Typescript definitions
isEmpty<T>(x: T): boolean;
R.isEmpty source
import { type } from './type.js'
export function isEmpty(input){
const inputType = type(input)
if ([ 'Undefined', 'NaN', 'Number', 'Null' ].includes(inputType))
return false
if (!input) return true
if (inputType === 'Object'){
return Object.keys(input).length === 0
}
if (inputType === 'Array'){
return input.length === 0
}
return false
}
Tests
import { isEmpty } from './isEmpty.js'
test('happy', () => {
expect(isEmpty(undefined)).toBeFalse()
expect(isEmpty('')).toBeTrue()
expect(isEmpty(null)).toBeFalse()
expect(isEmpty(' ')).toBeFalse()
expect(isEmpty(new RegExp(''))).toBeFalse()
expect(isEmpty([])).toBeTrue()
expect(isEmpty([ [] ])).toBeFalse()
expect(isEmpty({})).toBeTrue()
expect(isEmpty({ x : 0 })).toBeFalse()
expect(isEmpty(0)).toBeFalse()
expect(isEmpty(NaN)).toBeFalse()
expect(isEmpty([ '' ])).toBeFalse()
})
Typescript test
import {isEmpty} from 'rambda'
describe('R.isEmpty', () => {
it('happy', () => {
const result = isEmpty('foo')
result // $ExpectType boolean
})
})
isNil
isNil(x: any): x is null | undefined
It returns true
if x
is either null
or undefined
.
Try this R.isNil example in Rambda REPL
All Typescript definitions
isNil(x: any): x is null | undefined;
R.isNil source
export function isNil(x){
return x === undefined || x === null
}
Tests
import { isNil } from './isNil.js'
test('happy', () => {
expect(isNil(null)).toBeTrue()
expect(isNil(undefined)).toBeTrue()
expect(isNil([])).toBeFalse()
})
join
join<T>(glue: string, list: T[]): string
It returns a string of all list
instances joined with a glue
.
Try this R.join example in Rambda REPL
All Typescript definitions
join<T>(glue: string, list: T[]): string;
join<T>(glue: string): (list: T[]) => string;
R.join source
export function join(glue, list){
if (arguments.length === 1) return _list => join(glue, _list)
return list.join(glue)
}
Tests
import { join } from './join.js'
test('curry', () => {
expect(join('|')([ 'foo', 'bar', 'baz' ])).toBe('foo|bar|baz')
expect(join('|', [ 1, 2, 3 ])).toBe('1|2|3')
const spacer = join(' ')
expect(spacer([ 'a', 2, 3.4 ])).toBe('a 2 3.4')
})
Typescript test
import {join} from 'rambda'
describe('R.join', () => {
it('happy', () => {
const result = join('|', [1, 2, 3])
result // $ExpectType string
})
})
juxt
juxt<A extends any[], R1>(fns: [(...a: A) => R1]): (...a: A) => [R1]
It applies list of function to a list of inputs.
Try this R.juxt example in Rambda REPL
All Typescript definitions
juxt<A extends any[], R1>(fns: [(...a: A) => R1]): (...a: A) => [R1];
juxt<A extends any[], R1, R2>(fns: [(...a: A) => R1, (...a: A) => R2]): (...a: A) => [R1, R2];
juxt<A extends any[], R1, R2, R3>(fns: [(...a: A) => R1, (...a: A) => R2, (...a: A) => R3]): (...a: A) => [R1, R2, R3];
juxt<A extends any[], R1, R2, R3, R4>(fns: [(...a: A) => R1, (...a: A) => R2, (...a: A) => R3, (...a: A) => R4]): (...a: A) => [R1, R2, R3, R4];
juxt<A extends any[], R1, R2, R3, R4, R5>(fns: [(...a: A) => R1, (...a: A) => R2, (...a: A) => R3, (...a: A) => R4, (...a: A) => R5]): (...a: A) => [R1, R2, R3, R4, R5];
juxt<A extends any[], U>(fns: Array<(...args: A) => U>): (...args: A) => U[];
R.juxt source
export function juxt(listOfFunctions){
return (...args) => listOfFunctions.map(fn => fn(...args))
}
Tests
import { juxt } from './juxt.js'
test('happy', () => {
const fn = juxt([ Math.min, Math.max, Math.min ])
const result = fn(
3, 4, 9, -3
)
expect(result).toEqual([ -3, 9, -3 ])
})
Typescript test
import {juxt} from 'rambda'
describe('R.juxt', () => {
it('happy', () => {
const fn = juxt([Math.min, Math.max])
const result = fn(3, 4, 9, -3)
result // $ExpectType [number, number]
})
})
keys
keys<T extends object>(x: T): (keyof T)[]
It applies Object.keys
over x
and returns its keys.
Try this R.keys example in Rambda REPL
All Typescript definitions
keys<T extends object>(x: T): (keyof T)[];
keys<T>(x: T): string[];
R.keys source
export function keys(x){
return Object.keys(x)
}
Tests
import { keys } from './keys.js'
test('happy', () => {
expect(keys({ a : 1 })).toEqual([ 'a' ])
})
Typescript test
import {keys} from 'rambda'
const obj = {a: 1, b: 2}
describe('R.keys', () => {
it('happy', () => {
const result = keys(obj)
result // $ExpectType ("b" | "a")[]
})
})
last
last(str: string): string
It returns the last element of input
, as the input
can be either a string or an array.
Try this R.last example in Rambda REPL
All Typescript definitions
last(str: string): string;
last(emptyList: []): undefined;
last<T extends any>(list: T[]): T | undefined;
R.last source
export function last(listOrString){
if (typeof listOrString === 'string'){
return listOrString[ listOrString.length - 1 ] || ''
}
return listOrString[ listOrString.length - 1 ]
}
Tests
import { last } from './last.js'
test('with list', () => {
expect(last([ 1, 2, 3 ])).toBe(3)
expect(last([])).toBeUndefined()
})
test('with string', () => {
expect(last('abc')).toBe('c')
expect(last('')).toBe('')
})
Typescript test
import {last} from 'rambda'
describe('R.last', () => {
it('string', () => {
const result = last('foo')
result // $ExpectType string
})
it('array', () => {
const result = last([1, 2, 3])
result // $ExpectType number | undefined
})
it('empty array - case 1', () => {
const result = last([])
result // $ExpectType undefined
})
it('empty array - case 2', () => {
const list = ['foo', 'bar'].filter(x => x.startsWith('a'))
const result = last(list)
result // $ExpectType string | undefined
})
})
lastIndexOf
lastIndexOf<T>(target: T, list: T[]): number
It returns the last index of target
in list
array.
R.equals
is used to determine equality between target
and members of list
.
If there is no such index, then -1
is returned.
Try this R.lastIndexOf example in Rambda REPL
All Typescript definitions
lastIndexOf<T>(target: T, list: T[]): number;
lastIndexOf<T>(target: T): (list: T[]) => number;
R.lastIndexOf source
import { _lastIndexOf } from './equals.js'
export function lastIndexOf(valueToFind, list){
if (arguments.length === 1){
return _list => _lastIndexOf(valueToFind, _list)
}
return _lastIndexOf(valueToFind, list)
}
Tests
import { lastIndexOf as lastIndexOfRamda } from 'ramda'
import { compareCombinations } from './_internals/testUtils.js'
import { possibleIterables, possibleTargets } from './indexOf.spec.js'
import { lastIndexOf } from './lastIndexOf.js'
test('with NaN', () => {
expect(lastIndexOf(NaN, [ NaN ])).toBe(0)
})
test('will throw with bad input', () => {
expect(lastIndexOfRamda([], true)).toEqual(-1)
expect(() => indexOf([], true)).toThrowErrorMatchingInlineSnapshot('"indexOf is not defined"')
})
test('without list of objects - no R.equals', () => {
expect(lastIndexOf(3, [ 1, 2, 3, 4 ])).toBe(2)
expect(lastIndexOf(10)([ 1, 2, 3, 4 ])).toEqual(-1)
})
test('list of objects uses R.equals', () => {
const listOfObjects = [ { a : 1 }, { b : 2 }, { c : 3 } ]
expect(lastIndexOf({ c : 4 }, listOfObjects)).toBe(-1)
expect(lastIndexOf({ c : 3 }, listOfObjects)).toBe(2)
})
test('list of arrays uses R.equals', () => {
const listOfLists = [ [ 1 ], [ 2, 3 ], [ 2, 3, 4 ], [ 2, 3 ], [ 1 ], [] ]
expect(lastIndexOf([], listOfLists)).toBe(5)
expect(lastIndexOf([ 1 ], listOfLists)).toBe(4)
expect(lastIndexOf([ 2, 3, 4 ], listOfLists)).toBe(2)
expect(lastIndexOf([ 2, 3, 5 ], listOfLists)).toBe(-1)
})
test('with string as iterable', () => {
expect(() => lastIndexOf('a', 'abc')).toThrowErrorMatchingInlineSnapshot('"Cannot read property \'indexOf\' of abc"')
expect(lastIndexOfRamda('a', 'abc')).toBe(0)
})
describe('brute force', () => {
compareCombinations({
fn : lastIndexOf,
fnRamda : lastIndexOfRamda,
firstInput : possibleTargets,
secondInput : possibleIterables,
callback : errorsCounters => {
expect(errorsCounters).toMatchInlineSnapshot(`
{
"ERRORS_MESSAGE_MISMATCH": 0,
"ERRORS_TYPE_MISMATCH": 34,
"RESULTS_MISMATCH": 0,
"SHOULD_NOT_THROW": 51,
"SHOULD_THROW": 0,
"TOTAL_TESTS": 170,
}
`)
},
})
})
Typescript test
import {lastIndexOf} from 'rambda'
const list = [1, 2, 3]
describe('R.lastIndexOf', () => {
it('happy', () => {
const result = lastIndexOf(2, list)
result // $ExpectType number
})
it('curried', () => {
const result = lastIndexOf(2)(list)
result // $ExpectType number
})
})
length
length<T>(input: T[]): number
It returns the length
property of list or string input
.
Try this R.length example in Rambda REPL
All Typescript definitions
length<T>(input: T[]): number;
R.length source
import { isArray } from './_internals/isArray.js'
export function length(x){
if (isArray(x)) return x.length
if (typeof x === 'string') return x.length
return NaN
}
Tests
import { length as lengthRamda } from 'ramda'
import { length } from './length.js'
test('happy', () => {
expect(length('foo')).toBe(3)
expect(length([ 1, 2, 3 ])).toBe(3)
expect(length([])).toBe(0)
})
test('with empty string', () => {
expect(length('')).toBe(0)
})
test('with bad input returns NaN', () => {
expect(length(0)).toBeNaN()
expect(length({})).toBeNaN()
expect(length(null)).toBeNaN()
expect(length(undefined)).toBeNaN()
})
test('with length as property', () => {
const input1 = { length : '123' }
const input2 = { length : null }
const input3 = { length : '' }
expect(length(input1)).toBeNaN()
expect(lengthRamda(input1)).toBeNaN()
expect(length(input2)).toBeNaN()
expect(lengthRamda(input2)).toBeNaN()
expect(length(input3)).toBeNaN()
expect(lengthRamda(input3)).toBeNaN()
})
lens
lens<T, U, V>(getter: (s: T) => U, setter: (a: U, s: T) => V): Lens
It returns a lens
for the given getter
and setter
functions.
The getter
gets the value of the focus; the setter
sets the value of the focus.
The setter should not mutate the data structure.
Try this R.lens example in Rambda REPL
All Typescript definitions
lens<T, U, V>(getter: (s: T) => U, setter: (a: U, s: T) => V): Lens;
R.lens source
export function lens(getter, setter){
return function (functor){
return function (target){
return functor(getter(target)).map(focus => setter(focus, target))
}
}
}
Typescript test
import {lens, assoc} from 'rambda'
interface Input {
foo: string,
}
describe('R.lens', () => {
it('happy', () => {
const fn = lens<Input, string, string>((x: Input) => {
x.foo // $ExpectType string
return x.foo
}, assoc('name'))
fn // $ExpectType Lens
})
})
lensIndex
lensIndex(index: number): Lens
It returns a lens that focuses on specified index
.
Try this R.lensIndex example in Rambda REPL
All Typescript definitions
lensIndex(index: number): Lens;
R.lensIndex source
import { lens } from './lens.js'
import { nth } from './nth.js'
import { update } from './update.js'
export function lensIndex(index){
return lens(nth(index), update(index))
}
Tests
import { compose } from './compose.js'
import { keys } from './keys.js'
import { lensIndex } from './lensIndex.js'
import { over } from './over.js'
import { set } from './set.js'
import { view } from './view.js'
const testList = [ { a : 1 }, { b : 2 }, { c : 3 } ]
test('focuses list element at the specified index', () => {
expect(view(lensIndex(0), testList)).toEqual({ a : 1 })
})
test('returns undefined if the specified index does not exist', () => {
expect(view(lensIndex(10), testList)).toBeUndefined()
})
test('sets the list value at the specified index', () => {
expect(set(
lensIndex(0), 0, testList
)).toEqual([ 0, { b : 2 }, { c : 3 } ])
})
test('applies function to the value at the specified list index', () => {
expect(over(
lensIndex(2), keys, testList
)).toEqual([ { a : 1 }, { b : 2 }, [ 'c' ] ])
})
test('can be composed', () => {
const nestedList = [ 0, [ 10, 11, 12 ], 1, 2 ]
const composedLens = compose(lensIndex(1), lensIndex(0))
expect(view(composedLens, nestedList)).toBe(10)
})
test('set s (get s) === s', () => {
expect(set(
lensIndex(0), view(lensIndex(0), testList), testList
)).toEqual(testList)
})
test('get (set s v) === v', () => {
expect(view(lensIndex(0), set(
lensIndex(0), 0, testList
))).toBe(0)
})
test('get (set(set s v1) v2) === v2', () => {
expect(view(lensIndex(0),
set(
lensIndex(0), 11, set(
lensIndex(0), 10, testList
)
))).toBe(11)
})
Typescript test
import {view, lensIndex} from 'rambda'
interface Input {
a: number,
}
const testList: Input[] = [{a: 1}, {a: 2}, {a: 3}]
describe('R.lensIndex', () => {
it('happy', () => {
const result = view<Input[], Input>(lensIndex(0), testList)
result // $ExpectType Input
result.a // $ExpectType number
})
})
lensPath
lensPath(path: RamdaPath): Lens
It returns a lens that focuses on specified path
.
Try this R.lensPath example in Rambda REPL
All Typescript definitions
lensPath(path: RamdaPath): Lens;
lensPath(path: string): Lens;
R.lensPath source
import { assocPath } from './assocPath.js'
import { lens } from './lens.js'
import { path } from './path.js'
export function lensPath(key){
return lens(path(key), assocPath(key))
}
Tests
import { compose } from './compose.js'
import { identity } from './identity.js'
import { inc } from './inc.js'
import { lensPath } from './lensPath.js'
import { lensProp } from './lensProp.js'
import { over } from './over.js'
import { set } from './set.js'
import { view } from './view.js'
const testObj = {
a : [ { b : 1 }, { b : 2 } ],
d : 3,
}
test('view', () => {
expect(view(lensPath('d'), testObj)).toBe(3)
expect(view(lensPath('a.0.b'), testObj)).toBe(1)
// this is different to ramda, as ramda will return a clone of the input object
expect(view(lensPath(''), testObj)).toBeUndefined()
})
test('set', () => {
expect(set(
lensProp('d'), 0, testObj
)).toEqual({
a : [ { b : 1 }, { b : 2 } ],
d : 0,
})
expect(set(
lensPath('a.0.b'), 0, testObj
)).toEqual({
a : [ { b : 0 }, { b : 2 } ],
d : 3,
})
expect(set(
lensPath('a.0.X'), 0, testObj
)).toEqual({
a : [
{
b : 1,
X : 0,
},
{ b : 2 },
],
d : 3,
})
expect(set(
lensPath([]), 0, testObj
)).toBe(0)
})
test('over', () => {
expect(over(
lensPath('d'), inc, testObj
)).toEqual({
a : [ { b : 1 }, { b : 2 } ],
d : 4,
})
expect(over(
lensPath('a.1.b'), inc, testObj
)).toEqual({
a : [ { b : 1 }, { b : 3 } ],
d : 3,
})
expect(over(
lensProp('X'), identity, testObj
)).toEqual({
a : [ { b : 1 }, { b : 2 } ],
d : 3,
X : undefined,
})
expect(over(
lensPath('a.0.X'), identity, testObj
)).toEqual({
a : [
{
b : 1,
X : undefined,
},
{ b : 2 },
],
d : 3,
})
})
test('compose', () => {
const composedLens = compose(lensPath('a'), lensPath('1.b'))
expect(view(composedLens, testObj)).toBe(2)
})
test('set s (get s) === s', () => {
expect(set(
lensPath([ 'd' ]), view(lensPath([ 'd' ]), testObj), testObj
)).toEqual(testObj)
expect(set(
lensPath([ 'a', 0, 'b' ]),
view(lensPath([ 'a', 0, 'b' ]), testObj),
testObj
)).toEqual(testObj)
})
test('get (set s v) === v', () => {
expect(view(lensPath([ 'd' ]), set(
lensPath([ 'd' ]), 0, testObj
))).toBe(0)
expect(view(lensPath([ 'a', 0, 'b' ]), set(
lensPath([ 'a', 0, 'b' ]), 0, testObj
))).toBe(0)
})
test('get (set(set s v1) v2) === v2', () => {
const p = [ 'd' ]
const q = [ 'a', 0, 'b' ]
expect(view(lensPath(p), set(
lensPath(p), 11, set(
lensPath(p), 10, testObj
)
))).toBe(11)
expect(view(lensPath(q), set(
lensPath(q), 11, set(
lensPath(q), 10, testObj
)
))).toBe(11)
})
Typescript test
import {lensPath, view} from 'rambda'
interface Input {
foo: number[],
bar: {
a: string,
b: string,
},
}
const testObject: Input = {
foo: [1, 2],
bar: {
a: 'x',
b: 'y',
},
}
const path = lensPath(['bar', 'a'])
const pathAsString = lensPath('bar.a')
describe('R.lensPath', () => {
it('happy', () => {
const result = view<Input, string>(path, testObject)
result // $ExpectType string
})
it('using string as path input', () => {
const result = view<Input, string>(pathAsString, testObject)
result // $ExpectType string
})
})
lensProp
lensProp(prop: string): {
<T, U>(obj: T): U
It returns a lens that focuses on specified property prop
.
Try this R.lensProp example in Rambda REPL
All Typescript definitions
lensProp(prop: string): {
<T, U>(obj: T): U;
set<T, U, V>(val: T, obj: U): V;
};
R.lensProp source
import { assoc } from './assoc.js'
import { lens } from './lens.js'
import { prop } from './prop.js'
export function lensProp(key){
return lens(prop(key), assoc(key))
}
Tests
import { compose } from './compose.js'
import { identity } from './identity.js'
import { inc } from './inc.js'
import { lensProp } from './lensProp.js'
import { over } from './over.js'
import { set } from './set.js'
import { view } from './view.js'
const testObj = {
a : 1,
b : 2,
c : 3,
}
test('focuses object the specified object property', () => {
expect(view(lensProp('a'), testObj)).toBe(1)
})
test('returns undefined if the specified property does not exist', () => {
expect(view(lensProp('X'), testObj)).toBeUndefined()
})
test('sets the value of the object property specified', () => {
expect(set(
lensProp('a'), 0, testObj
)).toEqual({
a : 0,
b : 2,
c : 3,
})
})
test('adds the property to the object if it doesn\'t exist', () => {
expect(set(
lensProp('d'), 4, testObj
)).toEqual({
a : 1,
b : 2,
c : 3,
d : 4,
})
})
test('applies function to the value of the specified object property', () => {
expect(over(
lensProp('a'), inc, testObj
)).toEqual({
a : 2,
b : 2,
c : 3,
})
})
test('applies function to undefined and adds the property if it doesn\'t exist', () => {
expect(over(
lensProp('X'), identity, testObj
)).toEqual({
a : 1,
b : 2,
c : 3,
X : undefined,
})
})
test('can be composed', () => {
const nestedObj = {
a : { b : 1 },
c : 2,
}
const composedLens = compose(lensProp('a'), lensProp('b'))
expect(view(composedLens, nestedObj)).toBe(1)
})
test('set s (get s) === s', () => {
expect(set(
lensProp('a'), view(lensProp('a'), testObj), testObj
)).toEqual(testObj)
})
test('get (set s v) === v', () => {
expect(view(lensProp('a'), set(
lensProp('a'), 0, testObj
))).toBe(0)
})
test('get (set(set s v1) v2) === v2', () => {
expect(view(lensProp('a'),
set(
lensProp('a'), 11, set(
lensProp('a'), 10, testObj
)
))).toBe(11)
})
Typescript test
import {lensProp, view} from 'rambda'
interface Input {
foo: string,
}
const testObject: Input = {
foo: 'Led Zeppelin',
}
const lens = lensProp('foo')
describe('R.lensProp', () => {
it('happy', () => {
const result = view<Input, string>(lens, testObject)
result // $ExpectType string
})
})
map
map<T, U>(fn: ObjectIterator<T, U>, iterable: Dictionary<T>): Dictionary<U>
It returns the result of looping through iterable
with fn
.
It works with both array and object.
Try this R.map example in Rambda REPL
All Typescript definitions
map<T, U>(fn: ObjectIterator<T, U>, iterable: Dictionary<T>): Dictionary<U>;
map<T, U>(fn: Iterator<T, U>, iterable: T[]): U[];
map<T, U>(fn: Iterator<T, U>): (iterable: T[]) => U[];
map<T, U, S>(fn: ObjectIterator<T, U>): (iterable: Dictionary<T>) => Dictionary<U>;
map<T>(fn: Iterator<T, T>): (iterable: T[]) => T[];
map<T>(fn: Iterator<T, T>, iterable: T[]): T[];
R.map source
import { INCORRECT_ITERABLE_INPUT } from './_internals/constants.js'
import { isArray } from './_internals/isArray.js'
import { keys } from './_internals/keys.js'
export function mapArray(
fn, list, isIndexed = false
){
let index = 0
const willReturn = Array(list.length)
while (index < list.length){
willReturn[ index ] = isIndexed ? fn(list[ index ], index) : fn(list[ index ])
index++
}
return willReturn
}
export function mapObject(fn, obj){
if (arguments.length === 1){
return _obj => mapObject(fn, _obj)
}
let index = 0
const objKeys = keys(obj)
const len = objKeys.length
const willReturn = {}
while (index < len){
const key = objKeys[ index ]
willReturn[ key ] = fn(
obj[ key ], key, obj
)
index++
}
return willReturn
}
export const mapObjIndexed = mapObject
export function map(fn, iterable){
if (arguments.length === 1) return _iterable => map(fn, _iterable)
if (!iterable){
throw new Error(INCORRECT_ITERABLE_INPUT)
}
if (isArray(iterable)) return mapArray(fn, iterable)
return mapObject(fn, iterable)
}
Tests
import { map as mapRamda } from 'ramda'
import { map } from './map.js'
const double = x => x * 2
describe('with array', () => {
it('happy', () => {
expect(map(double, [ 1, 2, 3 ])).toEqual([ 2, 4, 6 ])
})
it('curried', () => {
expect(map(double)([ 1, 2, 3 ])).toEqual([ 2, 4, 6 ])
})
})
describe('with object', () => {
const obj = {
a : 1,
b : 2,
}
it('happy', () => {
expect(map(double, obj)).toEqual({
a : 2,
b : 4,
})
})
it('property as second and input object as third argument', () => {
const obj = {
a : 1,
b : 2,
}
const iterator = (
val, prop, inputObject
) => {
expect(prop).toBeString()
expect(inputObject).toEqual(obj)
return val * 2
}
expect(map(iterator)(obj)).toEqual({
a : 2,
b : 4,
})
})
})
test('bad inputs difference between Ramda and Rambda', () => {
expect(() => map(double, null)).toThrowErrorMatchingInlineSnapshot('"Incorrect iterable input"')
expect(() => map(double)(undefined)).toThrowErrorMatchingInlineSnapshot('"Incorrect iterable input"')
expect(() => mapRamda(double, null)).toThrowErrorMatchingInlineSnapshot('"Cannot read properties of null (reading \'fantasy-land/map\')"')
expect(() =>
mapRamda(double, undefined)).toThrowErrorMatchingInlineSnapshot('"Cannot read properties of undefined (reading \'fantasy-land/map\')"')
})
Typescript test
import {map} from 'rambda'
describe('R.map with arrays', () => {
it('iterable returns the same type as the input', () => {
const result = map<number>(
(x: number) => {
x // $ExpectType number
return x + 2
},
[1, 2, 3]
)
result // $ExpectType number[]
})
it('iterable returns the same type as the input - curried', () => {
const result = map<number>((x: number) => {
x // $ExpectType number
return x + 2
})([1, 2, 3])
result // $ExpectType number[]
})
it('iterable returns different type as the input', () => {
const result = map<number, string>(
(x: number) => {
x // $ExpectType number
return String(x)
},
[1, 2, 3]
)
result // $ExpectType string[]
})
})
describe('R.map with objects', () => {
it('iterable with all three arguments - curried', () => {
// It requires dummy third typing argument
// in order to identify compared to curry typings for arrays
// ============================================
const result = map<number, string, any>((a, b, c) => {
a // $ExpectType number
b // $ExpectType string
c // $ExpectType Dictionary<number>
return `${a}`
})({a: 1, b: 2})
result // $ExpectType Dictionary<string>
})
it('iterable with all three arguments', () => {
const result = map<number, string>(
(a, b, c) => {
a // $ExpectType number
b // $ExpectType string
c // $ExpectType Dictionary<number>
return `${a}`
},
{a: 1, b: 2}
)
result // $ExpectType Dictionary<string>
})
it('iterable with property argument', () => {
const result = map<number, string>(
(a, b) => {
a // $ExpectType number
b // $ExpectType string
return `${a}`
},
{a: 1, b: 2}
)
result // $ExpectType Dictionary<string>
})
it('iterable with no property argument', () => {
const result = map<number, string>(
a => {
a // $ExpectType number
return `${a}`
},
{a: 1, b: 2}
)
result // $ExpectType Dictionary<string>
})
})
mapObjIndexed
mapObjIndexed<T>(fn: ObjectIterator<T, T>, iterable: Dictionary<T>): Dictionary<T>
It works the same way as R.map
does for objects. It is added as Ramda also has this method.
Try this R.mapObjIndexed example in Rambda REPL
All Typescript definitions
mapObjIndexed<T>(fn: ObjectIterator<T, T>, iterable: Dictionary<T>): Dictionary<T>;
mapObjIndexed<T, U>(fn: ObjectIterator<T, U>, iterable: Dictionary<T>): Dictionary<U>;
mapObjIndexed<T>(fn: ObjectIterator<T, T>): (iterable: Dictionary<T>) => Dictionary<T>;
mapObjIndexed<T, U>(fn: ObjectIterator<T, U>): (iterable: Dictionary<T>) => Dictionary<U>;
Typescript test
import {mapObjIndexed} from 'rambda'
const obj = {a: 1, b: 2, c: 3}
describe('R.mapObjIndexed', () => {
it('without type transform', () => {
const result = mapObjIndexed((x, prop, obj) => {
x // $ExpectType number
prop // $ExpectType string
obj // $ExpectType Dictionary<number>
return x + 2
}, obj)
result // $ExpectType Dictionary<number>
})
it('without type transform - curried', () => {
const result = mapObjIndexed<number>((x, prop, obj) => {
x // $ExpectType number
prop // $ExpectType string
obj // $ExpectType Dictionary<number>
return x + 2
})(obj)
result // $ExpectType Dictionary<number>
})
it('change of type', () => {
const result = mapObjIndexed((x, prop, obj) => {
x // $ExpectType number
prop // $ExpectType string
obj // $ExpectType Dictionary<number>
return String(x + 2)
}, obj)
result // $ExpectType Dictionary<string>
})
it('change of type - curried', () => {
const result = mapObjIndexed<number, string>((x, prop, obj) => {
x // $ExpectType number
prop // $ExpectType string
obj // $ExpectType Dictionary<number>
return String(x + 2)
})(obj)
result // $ExpectType Dictionary<string>
})
})
match
match(regExpression: RegExp, str: string): string[]
Curried version of String.prototype.match
which returns empty array, when there is no match.
Try this R.match example in Rambda REPL
All Typescript definitions
match(regExpression: RegExp, str: string): string[];
match(regExpression: RegExp): (str: string) => string[];
R.match source
export function match(pattern, input){
if (arguments.length === 1) return _input => match(pattern, _input)
const willReturn = input.match(pattern)
return willReturn === null ? [] : willReturn
}
Tests
import { equals } from './equals.js'
import { match } from './match.js'
test('happy', () => {
expect(match(/a./g)('foo bar baz')).toEqual([ 'ar', 'az' ])
})
test('fallback', () => {
expect(match(/a./g)('foo')).toEqual([])
})
test('with string', () => {
expect(match('a', 'foo')).toEqual([])
expect(equals(match('o', 'foo'), [ 'o' ])).toBeTrue()
})
test('throwing', () => {
expect(() => {
match(/a./g, null)
}).toThrowErrorMatchingInlineSnapshot('"Cannot read properties of null (reading \'match\')"')
})
Typescript test
import {match} from 'rambda'
const str = 'foo bar'
describe('R.match', () => {
it('happy', () => {
const result = match(/foo/, str)
result // $ExpectType string[]
})
it('curried', () => {
const result = match(/foo/)(str)
result // $ExpectType string[]
})
})
mathMod
R.mathMod
behaves like the modulo operator should mathematically, unlike the %
operator (and by extension, R.modulo
). So while -17 % 5
is -2
, mathMod(-17, 5)
is 3
.
Try this R.mathMod example in Rambda REPL
max
It returns the greater value between x
and y
.
Try this R.max example in Rambda REPL
maxBy
It returns the greater value between x
and y
according to compareFn
function.
Try this R.maxBy example in Rambda REPL
mean
mean(list: number[]): number
It returns the mean value of list
input.
Try this R.mean example in Rambda REPL
All Typescript definitions
mean(list: number[]): number;
R.mean source
import { sum } from './sum.js'
export function mean(list){
return sum(list) / list.length
}
Tests
import { mean } from './mean.js'
test('happy', () => {
expect(mean([ 2, 7 ])).toBe(4.5)
})
test('with NaN', () => {
expect(mean([])).toBeNaN()
})
Typescript test
import {mean} from 'rambda'
describe('R.mean', () => {
it('happy', () => {
const result = mean([1, 2, 3])
result // $ExpectType number
})
})
median
median(list: number[]): number
It returns the median value of list
input.
Try this R.median example in Rambda REPL
All Typescript definitions
median(list: number[]): number;
R.median source
import { mean } from './mean.js'
export function median(list){
const len = list.length
if (len === 0) return NaN
const width = 2 - len % 2
const idx = (len - width) / 2
return mean(Array.prototype.slice
.call(list, 0)
.sort((a, b) => {
if (a === b) return 0
return a < b ? -1 : 1
})
.slice(idx, idx + width))
}
Tests
import { median } from './median.js'
test('happy', () => {
expect(median([ 2 ])).toBe(2)
expect(median([ 7, 2, 10, 2, 9 ])).toBe(7)
})
test('with empty array', () => {
expect(median([])).toBeNaN()
})
Typescript test
import {median} from 'rambda'
describe('R.median', () => {
it('happy', () => {
const result = median([1, 2, 3])
result // $ExpectType number
})
})
merge
Same as R.mergeRight
.
mergeAll
mergeAll<T>(list: object[]): T
It merges all objects of list
array sequentially and returns the result.
Try this R.mergeAll example in Rambda REPL
All Typescript definitions
mergeAll<T>(list: object[]): T;
mergeAll(list: object[]): object;
R.mergeAll source
import { map } from './map.js'
import { mergeRight } from './mergeRight.js'
export function mergeAll(arr){
let willReturn = {}
map(val => {
willReturn = mergeRight(willReturn, val)
}, arr)
return willReturn
}
Tests
import { mergeAll } from './mergeAll.js'
test('case 1', () => {
const arr = [ { a : 1 }, { b : 2 }, { c : 3 } ]
const expectedResult = {
a : 1,
b : 2,
c : 3,
}
expect(mergeAll(arr)).toEqual(expectedResult)
})
test('case 2', () => {
expect(mergeAll([ { foo : 1 }, { bar : 2 }, { baz : 3 } ])).toEqual({
foo : 1,
bar : 2,
baz : 3,
})
})
Typescript test
import {mergeAll} from 'rambda'
describe('R.mergeAll', () => {
it('with passing type', () => {
interface Output {
foo: number,
bar: number,
}
const result = mergeAll<Output>([{foo: 1}, {bar: 2}])
result.foo // $ExpectType number
result.bar // $ExpectType number
})
it('without passing type', () => {
const result = mergeAll([{foo: 1}, {bar: 2}])
result // $ExpectType unknown
})
})
mergeDeepRight
mergeDeepRight<Output>(target: object, newProps: object): Output
Creates a new object with the own properties of the first object merged with the own properties of the second object. If a key exists in both objects:
- and both values are objects, the two values will be recursively merged
- otherwise the value from the second object will be used.
All Typescript definitions
mergeDeepRight<Output>(target: object, newProps: object): Output;
mergeDeepRight<Output>(target: object): (newProps: object) => Output;
R.mergeDeepRight source
import { clone } from './clone.js'
import { type } from './type.js'
export function mergeDeepRight(target, source){
if (arguments.length === 1){
return sourceHolder => mergeDeepRight(target, sourceHolder)
}
const willReturn = clone(target)
Object.keys(source).forEach(key => {
if (type(source[ key ]) === 'Object'){
if (type(target[ key ]) === 'Object'){
willReturn[ key ] = mergeDeepRight(target[ key ], source[ key ])
} else {
willReturn[ key ] = source[ key ]
}
} else {
willReturn[ key ] = source[ key ]
}
})
return willReturn
}
Tests
import { mergeDeepRight as mergeDeepRightRamda } from 'ramda'
import { mergeDeepRight } from './mergeDeepRight.js'
const student = {
name : 'foo',
age : 10,
contact : {
a : 1,
email : '[email protected]',
},
}
const teacher = {
age : 40,
contact : { email : '[email protected]' },
songs : { title : 'Remains the same' },
}
test('happy', () => {
const result = mergeDeepRight(student, teacher)
const curryResult = mergeDeepRight(student)(teacher)
const expected = {
age : 40,
name : 'foo',
contact : {
a : 1,
email : '[email protected]',
},
songs : { title : 'Remains the same' },
}
expect(result).toEqual(expected)
expect(curryResult).toEqual(expected)
})
test('issue 650', () => {
expect(Object.keys(mergeDeepRight({ a : () => {} }, { b : () => {} }))).toEqual([
'a',
'b',
])
})
test('ramda compatible test 1', () => {
const a = {
w : 1,
x : 2,
y : { z : 3 },
}
const b = {
a : 4,
b : 5,
c : { d : 6 },
}
const result = mergeDeepRight(a, b)
const expected = {
w : 1,
x : 2,
y : { z : 3 },
a : 4,
b : 5,
c : { d : 6 },
}
expect(result).toEqual(expected)
})
test('ramda compatible test 2', () => {
const a = {
a : {
b : 1,
c : 2,
},
y : 0,
}
const b = {
a : {
b : 3,
d : 4,
},
z : 0,
}
const result = mergeDeepRight(a, b)
const expected = {
a : {
b : 3,
c : 2,
d : 4,
},
y : 0,
z : 0,
}
expect(result).toEqual(expected)
})
test('ramda compatible test 3', () => {
const a = {
w : 1,
x : { y : 2 },
}
const result = mergeDeepRight(a, { x : { y : 3 } })
const expected = {
w : 1,
x : { y : 3 },
}
expect(result).toEqual(expected)
})
test('functions are not discarded', () => {
const obj = { foo : () => {} }
expect(typeof mergeDeepRight(obj, {}).foo).toBe('function')
})
Typescript test
import {mergeDeepRight} from 'rambda'
interface Output {
foo: {
bar: number,
},
}
describe('R.mergeDeepRight', () => {
const result = mergeDeepRight<Output>({foo: {bar: 1}}, {foo: {bar: 2}})
result.foo.bar // $ExpectType number
})
mergeLeft
mergeLeft<Output>(newProps: object, target: object): Output
Same as R.merge
, but in opposite direction.
Try this R.mergeLeft example in Rambda REPL
All Typescript definitions
mergeLeft<Output>(newProps: object, target: object): Output;
mergeLeft<Output>(newProps: object): (target: object) => Output;
R.mergeLeft source
import { mergeRight } from './mergeRight.js'
export function mergeLeft(x, y){
if (arguments.length === 1) return _y => mergeLeft(x, _y)
return mergeRight(y, x)
}
Tests
import { mergeLeft } from './mergeLeft.js'
const obj = {
foo : 1,
bar : 2,
}
test('happy', () => {
expect(mergeLeft({ bar : 20 }, obj)).toEqual({
foo : 1,
bar : 20,
})
})
test('curry', () => {
expect(mergeLeft({ baz : 3 })(obj)).toEqual({
foo : 1,
bar : 2,
baz : 3,
})
})
test('when undefined or null instead of object', () => {
expect(mergeLeft(null, undefined)).toEqual({})
expect(mergeLeft(obj, null)).toEqual(obj)
expect(mergeLeft(obj, undefined)).toEqual(obj)
expect(mergeLeft(undefined, obj)).toEqual(obj)
})
Typescript test
import {mergeLeft} from 'rambda'
interface Output {
foo: number,
bar: number,
}
describe('R.mergeLeft', () => {
const result = mergeLeft<Output>({foo: 1}, {bar: 2})
const curriedResult = mergeLeft<Output>({foo: 1})({bar: 2})
result.foo // $ExpectType number
result.bar // $ExpectType number
curriedResult.bar // $ExpectType number
})
mergeRight
It creates a copy of target
object with overidden newProps
properties. Previously known as R.merge
but renamed after Ramda did the same.
Try this R.mergeRight example in Rambda REPL
mergeWith
mergeWith(fn: (x: any, z: any) => any, a: Record<string, unknown>, b: Record<string, unknown>): Record<string, unknown>
It takes two objects and a function, which will be used when there is an overlap between the keys.
Try this R.mergeWith example in Rambda REPL
All Typescript definitions
mergeWith(fn: (x: any, z: any) => any, a: Record<string, unknown>, b: Record<string, unknown>): Record<string, unknown>;
mergeWith<Output>(fn: (x: any, z: any) => any, a: Record<string, unknown>, b: Record<string, unknown>): Output;
mergeWith(fn: (x: any, z: any) => any, a: Record<string, unknown>): (b: Record<string, unknown>) => Record<string, unknown>;
mergeWith<Output>(fn: (x: any, z: any) => any, a: Record<string, unknown>): (b: Record<string, unknown>) => Output;
mergeWith(fn: (x: any, z: any) => any): <U, V>(a: U, b: V) => Record<string, unknown>;
mergeWith<Output>(fn: (x: any, z: any) => any): <U, V>(a: U, b: V) => Output;
R.mergeWith source
import { curry } from './curry.js'
function mergeWithFn(
mergeFn, a, b
){
const willReturn = {}
Object.keys(a).forEach(key => {
if (b[ key ] === undefined){
willReturn[ key ] = a[ key ]
} else {
willReturn[ key ] = mergeFn(a[ key ], b[ key ])
}
})
Object.keys(b).forEach(key => {
if (willReturn[ key ] !== undefined) return
if (a[ key ] === undefined){
willReturn[ key ] = b[ key ]
} else {
willReturn[ key ] = mergeFn(a[ key ], b[ key ])
}
})
return willReturn
}
export const mergeWith = curry(mergeWithFn)
Tests
import { concat } from './concat.js'
import { mergeWith } from './mergeWith.js'
test('happy', () => {
const result = mergeWith(
concat,
{
a : true,
values : [ 10, 20 ],
},
{
b : true,
values : [ 15, 35 ],
}
)
const expected = {
a : true,
values : [ 10, 20, 15, 35 ],
b : true,
}
expect(result).toEqual(expected)
})
Typescript test
import {concat, mergeWith} from 'rambda'
interface Output {
a: boolean,
b: boolean,
values: number[],
}
const A = {
a: true,
values: [10, 20],
}
const B = {
b: true,
values: [15, 35],
}
describe('R.mergeWith', () => {
test('no curry | without explicit types', () => {
const result = mergeWith(concat, A, B)
result // $ExpectType Record<string, unknown>
})
test('no curry | with explicit types', () => {
const result = mergeWith<Output>(concat, A, B)
result // $ExpectType Output
})
test('curry 1 | without explicit types', () => {
const result = mergeWith(concat, A)(B)
result // $ExpectType Record<string, unknown>
})
test('curry 1 | with explicit types', () => {
const result = mergeWith<Output>(concat, A)(B)
result // $ExpectType Output
})
test('curry 2 | without explicit types', () => {
const result = mergeWith(concat)(A, B)
result // $ExpectType Record<string, unknown>
})
test('curry 2 | with explicit types', () => {
const result = mergeWith<Output>(concat)(A, B)
result // $ExpectType Output
})
})
min
It returns the lesser value between x
and y
.
Try this R.min example in Rambda REPL
minBy
It returns the lesser value between x
and y
according to compareFn
function.
Try this R.minBy example in Rambda REPL
modify
modify<T extends object, K extends keyof T, P>(
prop: K,
fn: (a: T[K]) => P,
obj: T,
): Omit<T, K> & Record<K, P>
Try this R.modify example in Rambda REPL
All Typescript definitions
modify<T extends object, K extends keyof T, P>(
prop: K,
fn: (a: T[K]) => P,
obj: T,
): Omit<T, K> & Record<K, P>;
modify<K extends string, A, P>(
prop: K,
fn: (a: A) => P,
): <T extends Record<K, A>>(target: T) => Omit<T, K> & Record<K, P>;
R.modify source
import { isArray } from './_internals/isArray.js'
import { isIterable } from './_internals/isIterable.js'
import { curry } from './curry.js'
import { updateFn } from './update.js'
function modifyFn(
property, fn, iterable
){
if (!isIterable(iterable)) return iterable
if (iterable[ property ] === undefined) return iterable
if (isArray(iterable)){
return updateFn(
property, fn(iterable[ property ]), iterable
)
}
return {
...iterable,
[ property ] : fn(iterable[ property ]),
}
}
export const modify = curry(modifyFn)
Tests
import { modify as modifyRamda } from 'ramda'
import { compareCombinations, FALSY_VALUES } from './_internals/testUtils.js'
import { add } from './add.js'
import { compose } from './compose.js'
import { modify } from './modify.js'
const person = {
name : 'foo',
age : 20,
}
test('happy', () => {
expect(modify(
'age', x => x + 1, person
)).toEqual({
name : 'foo',
age : 21,
})
})
test('property is missing', () => {
expect(modify(
'foo', x => x + 1, person
)).toEqual(person)
})
test('adjust if `array` at the given key with the `transformation` function', () => {
expect(modify(
1, add(1), [ 100, 1400 ]
)).toEqual([ 100, 1401 ])
})
describe('ignores transformations if the input value is not Array and Object', () => {
;[ 42, undefined, null, '' ].forEach(value => {
it(`${ value }`, () => {
expect(modify(
'a', add(1), value
)).toEqual(value)
})
})
})
const possibleProperties = [ ...FALSY_VALUES, 'foo', 0 ]
const possibleTransformers = [
...FALSY_VALUES,
add(1),
add('foo'),
compose,
String,
]
const possibleObjects = [
...FALSY_VALUES,
{},
[ 1, 2, 3 ],
{
a : 1,
foo : 2,
},
{
a : 1,
foo : [ 1 ],
},
{
a : 1,
foo : 'bar',
},
]
describe('brute force', () => {
compareCombinations({
fn : modify,
fnRamda : modifyRamda,
firstInput : possibleProperties,
secondInput : possibleTransformers,
thirdInput : possibleObjects,
callback : errorsCounters => {
expect(errorsCounters).toMatchInlineSnapshot(`
{
"ERRORS_MESSAGE_MISMATCH": 0,
"ERRORS_TYPE_MISMATCH": 0,
"RESULTS_MISMATCH": 0,
"SHOULD_NOT_THROW": 0,
"SHOULD_THROW": 0,
"TOTAL_TESTS": 630,
}
`)
},
})
})
Typescript test
import {modify, add} from 'rambda'
const person = {name: 'James', age: 20}
describe('R.modify', () => {
it('happy', () => {
const {age} = modify('age', add(1), person)
const {age: ageAsString} = modify('age', String, person)
age // $ExpectType number
ageAsString // $ExpectType string
})
it('curried', () => {
const {age} = modify('age', add(1))(person)
age // $ExpectType number
})
})
modifyPath
modifyPath<T extends Record<string, unknown>>(path: Path, fn: (x: any) => unknown, object: Record<string, unknown>): T
It changes a property of object on the base of provided path and transformer function.
Try this R.modifyPath example in Rambda REPL
All Typescript definitions
modifyPath<T extends Record<string, unknown>>(path: Path, fn: (x: any) => unknown, object: Record<string, unknown>): T;
modifyPath<T extends Record<string, unknown>>(path: Path, fn: (x: any) => unknown): (object: Record<string, unknown>) => T;
modifyPath<T extends Record<string, unknown>>(path: Path): (fn: (x: any) => unknown) => (object: Record<string, unknown>) => T;
R.modifyPath source
import { createPath } from './_internals/createPath.js'
import { isArray } from './_internals/isArray.js'
import { assoc } from './assoc.js'
import { curry } from './curry.js'
import { path as pathModule } from './path.js'
export function modifyPathFn(
pathInput, fn, object
){
const path = createPath(pathInput)
if (path.length === 1){
return {
...object,
[ path[ 0 ] ] : fn(object[ path[ 0 ] ]),
}
}
if (pathModule(path, object) === undefined) return object
const val = modifyPath(
Array.prototype.slice.call(path, 1),
fn,
object[ path[ 0 ] ]
)
if (val === object[ path[ 0 ] ]){
return object
}
return assoc(
path[ 0 ], val, object
)
}
export const modifyPath = curry(modifyPathFn)
Tests
import { modifyPath } from './modifyPath.js'
test('happy', () => {
const result = modifyPath(
'a.b.c', x => x + 1, { a : { b : { c : 1 } } }
)
expect(result).toEqual({ a : { b : { c : 2 } } })
})
test('with array', () => {
const input = { foo : [ { bar : '123' } ] }
const result = modifyPath(
'foo.0.bar', x => x + 'foo', input
)
expect(result).toEqual({ foo : { 0 : { bar : '123foo' } } })
})
Typescript test
import {modifyPath} from 'rambda'
const obj = {a: {b: {c: 1}}}
describe('R.modifyPath', () => {
it('happy', () => {
const result = modifyPath('a.b.c', (x: number) => x + 1, obj)
result // $ExpectType Record<string, unknown>
})
it('explicit return type', () => {
interface Foo extends Record<string, unknown> {
a: 1,
}
const result = modifyPath<Foo>('a.b.c', (x: number) => x + 1, obj)
result // $ExpectType Foo
})
})
modulo
Curried version of x%y
.
Try this R.modulo example in Rambda REPL
move
It returns a copy of list
with exchanged fromIndex
and toIndex
elements.
Try this R.move example in Rambda REPL
multiply
Curried version of x*y
.
Try this R.multiply example in Rambda REPL
negate
Try this R.negate example in Rambda REPL
none
none<T>(predicate: (x: T) => boolean, list: T[]): boolean
It returns true
, if all members of array list
returns false
, when applied as argument to predicate
function.
Try this R.none example in Rambda REPL
All Typescript definitions
none<T>(predicate: (x: T) => boolean, list: T[]): boolean;
none<T>(predicate: (x: T) => boolean): (list: T[]) => boolean;
R.none source
export function none(predicate, list){
if (arguments.length === 1) return _list => none(predicate, _list)
for (let i = 0; i < list.length; i++){
if (predicate(list[ i ])) return false
}
return true
}
Tests
import { none } from './none.js'
const isEven = n => n % 2 === 0
test('when true', () => {
expect(none(isEven, [ 1, 3, 5, 7 ])).toBeTrue()
})
test('when false curried', () => {
expect(none(input => input > 1, [ 1, 2, 3 ])).toBeFalse()
})
Typescript test
import {none} from 'rambda'
describe('R.none', () => {
it('happy', () => {
const result = none(
x => {
x // $ExpectType number
return x > 0
},
[1, 2, 3]
)
result // $ExpectType boolean
})
it('curried needs a type', () => {
const result = none<number>(x => {
x // $ExpectType number
return x > 0
})([1, 2, 3])
result // $ExpectType boolean
})
})
nop
nop(): void
It returns undefined
.
Try this R.nop example in Rambda REPL
All Typescript definitions
nop(): void;
R.nop source
export function nop(){}
Tests
import { nop } from './nop.js'
test('call', () => {
expect(nop).not.toThrow()
})
Typescript test
import {nop} from 'rambda'
describe('R.nop', () => {
it('call', () => {
const result = nop()
result // $ExpectType void
})
})
not
not(input: any): boolean
It returns a boolean negated version of input
.
Try this R.not example in Rambda REPL
All Typescript definitions
not(input: any): boolean;
R.not source
export function not(input){
return !input
}
Tests
import { not } from './not.js'
test('not', () => {
expect(not(false)).toBeTrue()
expect(not(true)).toBeFalse()
expect(not(0)).toBeTrue()
expect(not(1)).toBeFalse()
})
Typescript test
import {not} from 'rambda'
describe('R.not', () => {
it('happy', () => {
const result = not(4)
result // $ExpectType boolean
})
})
nth
nth(index: number, input: string): string
Curried version of input[index]
.
Try this R.nth example in Rambda REPL
All Typescript definitions
nth(index: number, input: string): string;
nth<T>(index: number, input: T[]): T | undefined;
nth(n: number): {
<T>(input: T[]): T | undefined;
(input: string): string;
};
R.nth source
export function nth(index, input){
if (arguments.length === 1) return _input => nth(index, _input)
const idx = index < 0 ? input.length + index : index
return Object.prototype.toString.call(input) === '[object String]' ?
input.charAt(idx) :
input[ idx ]
}
Tests
import { nth } from './nth.js'
test('happy', () => {
expect(nth(2, [ 1, 2, 3, 4 ])).toBe(3)
})
test('with curry', () => {
expect(nth(2)([ 1, 2, 3, 4 ])).toBe(3)
})
test('with string and correct index', () => {
expect(nth(2)('foo')).toBe('o')
})
test('with string and invalid index', () => {
expect(nth(20)('foo')).toBe('')
})
test('with negative index', () => {
expect(nth(-3)([ 1, 2, 3, 4 ])).toBe(2)
})
Typescript test
import {nth} from 'rambda'
const list = [1, 2, 3]
describe('R.nth', () => {
it('happy', () => {
const result = nth(4, list)
result // $ExpectType number | undefined
})
it('curried', () => {
const result = nth(1)(list)
result // $ExpectType number | undefined
})
})
describe('R.nth - string', () => {
const str = 'abc'
it('happy', () => {
const result = nth(4, str)
result // $ExpectType string
})
it('curried', () => {
const result = nth(1)(str)
result // $ExpectType string
})
})
objOf
It creates an object with a single key-value pair.
Try this R.objOf example in Rambda REPL
of
of<T>(x: T): T[]
Try this R.of example in Rambda REPL
All Typescript definitions
of<T>(x: T): T[];
R.of source
export function of(value){
return [ value ]
}
Tests
import { of } from './of.js'
test('happy', () => {
expect(of(3)).toEqual([ 3 ])
expect(of(null)).toEqual([ null ])
})
Typescript test
import {of} from 'rambda'
const list = [1, 2, 3]
describe('R.of', () => {
it('happy', () => {
const result = of(4)
result // $ExpectType number[]
})
it('curried', () => {
const result = of(list)
result // $ExpectType number[][]
})
})
omit
omit<T, K extends string>(propsToOmit: K[], obj: T): Omit<T, K>
It returns a partial copy of an obj
without propsToOmit
properties.
Try this R.omit example in Rambda REPL
All Typescript definitions
omit<T, K extends string>(propsToOmit: K[], obj: T): Omit<T, K>;
omit<K extends string>(propsToOmit: K[]): <T>(obj: T) => Omit<T, K>;
omit<T, U>(propsToOmit: string, obj: T): U;
omit<T, U>(propsToOmit: string): (obj: T) => U;
omit<T>(propsToOmit: string, obj: object): T;
omit<T>(propsToOmit: string): (obj: object) => T;
R.omit source
import { createPath } from './_internals/createPath.js'
export function omit(propsToOmit, obj){
if (arguments.length === 1) return _obj => omit(propsToOmit, _obj)
if (obj === null || obj === undefined){
return undefined
}
const propsToOmitValue = createPath(propsToOmit, ',')
const willReturn = {}
for (const key in obj){
if (!propsToOmitValue.includes(key)){
willReturn[ key ] = obj[ key ]
}
}
return willReturn
}
Tests
import { omit } from './omit.js'
test('with string as condition', () => {
const obj = {
a : 1,
b : 2,
c : 3,
}
const result = omit('a,c', obj)
const resultCurry = omit('a,c')(obj)
const expectedResult = { b : 2 }
expect(result).toEqual(expectedResult)
expect(resultCurry).toEqual(expectedResult)
})
test('with null', () => {
expect(omit('a,b', null)).toBeUndefined()
})
test('doesn\'t work with number as property', () => {
expect(omit([ 42 ], {
a : 1,
42 : 2,
})).toEqual({
42 : 2,
a : 1,
})
})
test('happy', () => {
expect(omit([ 'a', 'c' ])({
a : 'foo',
b : 'bar',
c : 'baz',
})).toEqual({ b : 'bar' })
})
Typescript test
import {omit} from 'rambda'
describe('R.omit with array as props input', () => {
it('allow Typescript to infer object type', () => {
const input = {a: 'foo', b: 2, c: 3, d: 4}
const result = omit(['b,c'], input)
result.a // $ExpectType string
result.d // $ExpectType number
const curriedResult = omit(['a,c'], input)
curriedResult.a // $ExpectType string
curriedResult.d // $ExpectType number
})
it('declare type of input object', () => {
interface Input {
a: string,
b: number,
c: number,
d: number,
}
const input: Input = {a: 'foo', b: 2, c: 3, d: 4}
const result = omit(['b,c'], input)
result // $ExpectType Omit<Input, "b,c">
result.a // $ExpectType string
result.d // $ExpectType number
const curriedResult = omit(['a,c'], input)
curriedResult.a // $ExpectType string
curriedResult.d // $ExpectType number
})
})
describe('R.omit with string as props input', () => {
interface Output {
b: number,
d: number,
}
it('explicitly declare output', () => {
const result = omit<Output>('a,c', {a: 1, b: 2, c: 3, d: 4})
result // $ExpectType Output
result.b // $ExpectType number
const curriedResult = omit<Output>('a,c')({a: 1, b: 2, c: 3, d: 4})
curriedResult.b // $ExpectType number
})
it('explicitly declare input and output', () => {
interface Input {
a: number,
b: number,
c: number,
d: number,
}
const result = omit<Input, Output>('a,c', {a: 1, b: 2, c: 3, d: 4})
result // $ExpectType Output
result.b // $ExpectType number
const curriedResult = omit<Input, Output>('a,c')({
a: 1,
b: 2,
c: 3,
d: 4,
})
curriedResult.b // $ExpectType number
})
it('without passing type', () => {
const result = omit('a,c', {a: 1, b: 2, c: 3, d: 4})
result // $ExpectType unknown
})
})
on
It passes the two inputs through unaryFn
and then the results are passed as inputs the the binaryFn
to receive the final result(binaryFn(unaryFn(FIRST_INPUT), unaryFn(SECOND_INPUT))
).
This method is also known as P combinator.
Try this R.on example in Rambda REPL
once
once<T extends AnyFunction>(func: T): T
It returns a function, which invokes only once fn
function.
Try this R.once example in Rambda REPL
All Typescript definitions
once<T extends AnyFunction>(func: T): T;
R.once source
import { curry } from './curry.js'
function onceFn(fn, context){
let result
return function (){
if (fn){
result = fn.apply(context || this, arguments)
fn = null
}
return result
}
}
export function once(fn, context){
if (arguments.length === 1){
const wrap = onceFn(fn, context)
return curry(wrap)
}
return onceFn(fn, context)
}
Tests
import { once } from './once.js'
test('with counter', () => {
let counter = 0
const runOnce = once(x => {
counter++
return x + 2
})
expect(runOnce(1)).toBe(3)
runOnce(1)
runOnce(1)
runOnce(1)
expect(counter).toBe(1)
})
test('happy path', () => {
const addOneOnce = once((
a, b, c
) => a + b + c, 1)
expect(addOneOnce(
10, 20, 30
)).toBe(60)
expect(addOneOnce(40)).toBe(60)
})
Typescript test
import {once} from 'rambda'
describe('R.once', () => {
it('happy', () => {
const runOnce = once((x: number) => {
return x + 2
})
const result = runOnce(1)
result // $ExpectType number
})
})
or
Logical OR
Try this R.or example in Rambda REPL
over
over<T>(lens: Lens, fn: Arity1Fn, value: T): T
It returns a copied Object or Array with modified value received by applying function fn
to lens
focus.
Try this R.over example in Rambda REPL
All Typescript definitions
over<T>(lens: Lens, fn: Arity1Fn, value: T): T;
over<T>(lens: Lens, fn: Arity1Fn, value: T[]): T[];
over(lens: Lens, fn: Arity1Fn): <T>(value: T) => T;
over(lens: Lens, fn: Arity1Fn): <T>(value: T[]) => T[];
over(lens: Lens): <T>(fn: Arity1Fn, value: T) => T;
over(lens: Lens): <T>(fn: Arity1Fn, value: T[]) => T[];
R.over source
import { curry } from './curry.js'
const Identity = x => ({
x,
map : fn => Identity(fn(x)),
})
function overFn(
lens, fn, object
){
return lens(x => Identity(fn(x)))(object).x
}
export const over = curry(overFn)
Tests
import { assoc } from './assoc.js'
import { lens } from './lens.js'
import { lensIndex } from './lensIndex.js'
import { lensPath } from './lensPath.js'
import { over } from './over.js'
import { prop } from './prop.js'
import { toUpper } from './toUpper.js'
const testObject = {
foo : 'bar',
baz : {
a : 'x',
b : 'y',
},
}
test('assoc lens', () => {
const assocLens = lens(prop('foo'), assoc('foo'))
const result = over(
assocLens, toUpper, testObject
)
const expected = {
...testObject,
foo : 'BAR',
}
expect(result).toEqual(expected)
})
test('path lens', () => {
const pathLens = lensPath('baz.a')
const result = over(
pathLens, toUpper, testObject
)
const expected = {
...testObject,
baz : {
a : 'X',
b : 'y',
},
}
expect(result).toEqual(expected)
})
test('index lens', () => {
const indexLens = lensIndex(0)
const result = over(indexLens, toUpper)([ 'foo', 'bar' ])
expect(result).toEqual([ 'FOO', 'bar' ])
})
partial
partial<V0, V1, T>(fn: (x0: V0, x1: V1) => T, args: [V0]): (x1: V1) => T
It is very similar to R.curry
, but you can pass initial arguments when you create the curried function.
R.partial
will keep returning a function until all the arguments that the function fn
expects are passed.
The name comes from the fact that you partially inject the inputs.
Try this R.partial example in Rambda REPL
All Typescript definitions
partial<V0, V1, T>(fn: (x0: V0, x1: V1) => T, args: [V0]): (x1: V1) => T;
partial<V0, V1, V2, T>(fn: (x0: V0, x1: V1, x2: V2) => T, args: [V0, V1]): (x2: V2) => T;
partial<V0, V1, V2, T>(fn: (x0: V0, x1: V1, x2: V2) => T, args: [V0]): (x1: V1, x2: V2) => T;
partial<V0, V1, V2, V3, T>(fn: (x0: V0, x1: V1, x2: V2, x3: V3) => T, args: [V0, V1, V2]): (x2: V3) => T;
partial<V0, V1, V2, V3, T>(fn: (x0: V0, x1: V1, x2: V2, x3: V3) => T, args: [V0, V1]): (x2: V2, x3: V3) => T;
partial<V0, V1, V2, V3, T>(fn: (x0: V0, x1: V1, x2: V2, x3: V3) => T, args: [V0]): (x1: V1, x2: V2, x3: V3) => T;
partial<T>(fn: (...a: any[]) => T, args: any[]): (...x: any[]) => T;
R.partial source
export function partial(fn, ...args){
const len = fn.length
return (...rest) => {
if (args.length + rest.length >= len){
return fn(...args, ...rest)
}
return partial(fn, ...[ ...args, ...rest ])
}
}
Tests
import { partial } from './partial.js'
import { type } from './type.js'
const greet = (
salutation, title, firstName, lastName
) =>
salutation + ', ' + title + ' ' + firstName + ' ' + lastName + '!'
test('happy', () => {
const canPassAnyNumberOfArguments = partial(
greet, 'Hello', 'Ms.'
)
const fn = canPassAnyNumberOfArguments('foo')
const sayHello = partial(greet, [ 'Hello' ])
const sayHelloRamda = partial(sayHello, [ 'Ms.' ])
expect(type(fn)).toBe('Function')
expect(fn('bar')).toBe('Hello, Ms. foo bar!')
expect(sayHelloRamda('foo', 'bar')).toBe('Hello, Ms. foo bar!')
})
test('extra arguments are ignored', () => {
const canPassAnyNumberOfArguments = partial(
greet, 'Hello', 'Ms.'
)
const fn = canPassAnyNumberOfArguments('foo')
expect(type(fn)).toBe('Function')
expect(fn(
'bar', 1, 2
)).toBe('Hello, Ms. foo bar!')
})
test('when array is input', () => {
const fooFn = (
a, b, c, d
) => ({
a,
b,
c,
d,
})
const barFn = partial(
fooFn, [ 1, 2 ], []
)
expect(barFn(1, 2)).toEqual({
a : [ 1, 2 ],
b : [],
c : 1,
d : 2,
})
})
test('ramda spec', () => {
const sayHello = partial(greet, 'Hello')
const sayHelloToMs = partial(sayHello, 'Ms.')
expect(sayHelloToMs('Jane', 'Jones')).toBe('Hello, Ms. Jane Jones!')
})
Typescript test
import {partial} from 'rambda'
describe('R.partial', () => {
it('happy', () => {
function greet(
salutation: string,
title: string,
firstName: string,
lastName: string
) {
return `${salutation}, ${title} ${firstName} ${lastName}!`
}
const sayHello = partial(greet, ['Hello'])
const sayHelloToMs = partial(sayHello, ['Ms.'])
const result = sayHelloToMs('Jane', 'Jones')
result // $ExpectType string
})
})
partialObject
partialObject<Input, PartialInput, Output>(
fn: (input: Input) => Output,
partialInput: PartialInput,
): (input: Pick<Input, Exclude<keyof Input, keyof PartialInput>>) => Output
R.partialObject
is a curry helper designed specifically for functions accepting object as a single argument.
Initially the function knows only a part from the whole input object and then R.partialObject
helps in preparing the function for the second part, when it receives the rest of the input.
Try this R.partialObject example in Rambda REPL
All Typescript definitions
partialObject<Input, PartialInput, Output>(
fn: (input: Input) => Output,
partialInput: PartialInput,
): (input: Pick<Input, Exclude<keyof Input, keyof PartialInput>>) => Output;
R.partialObject source
import { mergeDeepRight } from './mergeDeepRight.js'
export function partialObject(fn, input){
return nextInput => fn(mergeDeepRight(nextInput, input))
}
Tests
import { delay } from './delay.js'
import { partialObject } from './partialObject.js'
import { type } from './type.js'
test('with plain function', () => {
const fn = ({ a, b, c }) => a + b + c
const curried = partialObject(fn, { a : 1 })
expect(type(curried)).toBe('Function')
expect(curried({
b : 2,
c : 3,
})).toBe(6)
})
test('with function that throws an error', () => {
const fn = ({ a, b, c }) => {
throw new Error('foo')
}
const curried = partialObject(fn, { a : 1 })
expect(type(curried)).toBe('Function')
expect(() =>
curried({
b : 2,
c : 3,
})).toThrowErrorMatchingInlineSnapshot('"foo"')
})
test('with async', async () => {
const fn = async ({ a, b, c }) => {
await delay(100)
return a + b + c
}
const curried = partialObject(fn, { a : 1 })
const result = await curried({
b : 2,
c : 3,
})
expect(result).toBe(6)
})
test('async function throwing an error', async () => {
const fn = async ({ a, b, c }) => {
await delay(100)
throw new Error('foo')
}
const curried = partialObject(fn, { a : 1 })
try {
await curried({
b : 2,
c : 3,
})
expect(true).toBeFalsy()
} catch (e){
expect(e.message).toBe('foo')
}
})
Typescript test
import {partialObject, delay} from 'rambda'
describe('R.partialObject', () => {
it('happy', () => {
interface Input {
a: number,
b: number,
c: string,
}
const fn = ({a, b, c}: Input) => a + b + c
const curried = partialObject(fn, {a: 1})
const result = curried({
b: 2,
c: 'foo',
})
result // $ExpectType string
})
it('asynchronous', async() => {
interface Input {
a: number,
b: number,
c: string,
}
const fn = async({a, b, c}: Input) => {
await delay(100)
return a + b + c
}
const curried = partialObject(fn, {a: 1})
const result = await curried({
b: 2,
c: 'foo',
})
result // $ExpectType string
})
})
partition
partition<T>(
predicate: Predicate<T>,
input: T[]
): [T[], T[]]
It will return array of two objects/arrays according to predicate
function. The first member holds all instances of input
that pass the predicate
function, while the second member - those who doesn't.
Try this R.partition example in Rambda REPL
All Typescript definitions
partition<T>(
predicate: Predicate<T>,
input: T[]
): [T[], T[]];
partition<T>(
predicate: Predicate<T>
): (input: T[]) => [T[], T[]];
partition<T>(
predicate: (x: T, prop?: string) => boolean,
input: { [key: string]: T}
): [{ [key: string]: T}, { [key: string]: T}];
partition<T>(
predicate: (x: T, prop?: string) => boolean
): (input: { [key: string]: T}) => [{ [key: string]: T}, { [key: string]: T}];
R.partition source
import { isArray } from './_internals/isArray.js'
export function partitionObject(predicate, iterable){
const yes = {}
const no = {}
Object.entries(iterable).forEach(([ prop, value ]) => {
if (predicate(value, prop)){
yes[ prop ] = value
} else {
no[ prop ] = value
}
})
return [ yes, no ]
}
export function partitionArray(
predicate, list, indexed = false
){
const yes = []
const no = []
let counter = -1
while (counter++ < list.length - 1){
if (
indexed ? predicate(list[ counter ], counter) : predicate(list[ counter ])
){
yes.push(list[ counter ])
} else {
no.push(list[ counter ])
}
}
return [ yes, no ]
}
export function partition(predicate, iterable){
if (arguments.length === 1){
return listHolder => partition(predicate, listHolder)
}
if (!isArray(iterable)) return partitionObject(predicate, iterable)
return partitionArray(predicate, iterable)
}
Tests
import { partition } from './partition.js'
test('with array', () => {
const predicate = x => x > 2
const list = [ 1, 2, 3, 4 ]
const result = partition(predicate, list)
const expectedResult = [
[ 3, 4 ],
[ 1, 2 ],
]
expect(result).toEqual(expectedResult)
})
test('with object', () => {
const predicate = (value, prop) => {
expect(typeof prop).toBe('string')
return value > 2
}
const hash = {
a : 1,
b : 2,
c : 3,
d : 4,
}
const result = partition(predicate)(hash)
const expectedResult = [
{
c : 3,
d : 4,
},
{
a : 1,
b : 2,
},
]
expect(result).toEqual(expectedResult)
})
test('readme example', () => {
const list = [ 1, 2, 3 ]
const obj = {
a : 1,
b : 2,
c : 3,
}
const predicate = x => x > 2
const result = [ partition(predicate, list), partition(predicate, obj) ]
const expected = [
[ [ 3 ], [ 1, 2 ] ],
[
{ c : 3 },
{
a : 1,
b : 2,
},
],
]
expect(result).toEqual(expected)
})
Typescript test
import {partition} from 'rambda'
describe('R.partition', () => {
it('with array', () => {
const predicate = (x: number) => {
return x > 2
}
const list = [1, 2, 3, 4]
const result = partition(predicate, list)
const curriedResult = partition(predicate)(list)
result // $ExpectType [number[], number[]]
curriedResult // $ExpectType [number[], number[]]
})
/*
revert to old version of `dtslint` and `R.partition` typing
as there is diff between VSCode types(correct) and dtslint(incorrect)
it('with object', () => {
const predicate = (value: number, prop?: string) => {
return value > 2
}
const hash = {
a: 1,
b: 2,
c: 3,
d: 4,
}
const result = partition(predicate, hash)
const curriedResult = partition(predicate)(hash)
result[0] // $xExpectType { [key: string]: number; }
result[1] // $xExpectType { [key: string]: number; }
curriedResult[0] // $xExpectType { [key: string]: number; }
curriedResult[1] // $xExpectType { [key: string]: number; }
})
*/
})
path
path<S, K0 extends keyof S = keyof S>(path: [K0], obj: S): S[K0]
If pathToSearch
is 'a.b'
then it will return 1
if obj
is {a:{b:1}}
.
It will return undefined
, if such path is not found.
Try this R.path example in Rambda REPL
All Typescript definitions
path<S, K0 extends keyof S = keyof S>(path: [K0], obj: S): S[K0];
path<S, K0 extends keyof S = keyof S, K1 extends keyof S[K0] = keyof S[K0]>(path: [K0, K1], obj: S): S[K0][K1];
path<
S,
K0 extends keyof S = keyof S,
K1 extends keyof S[K0] = keyof S[K0],
K2 extends keyof S[K0][K1] = keyof S[K0][K1]
>(path: [K0, K1, K2], obj: S): S[K0][K1][K2];
path<
S,
K0 extends keyof S = keyof S,
K1 extends keyof S[K0] = keyof S[K0],
K2 extends keyof S[K0][K1] = keyof S[K0][K1],
K3 extends keyof S[K0][K1][K2] = keyof S[K0][K1][K2],
>(path: [K0, K1, K2, K3], obj: S): S[K0][K1][K2][K3];
path<
S,
K0 extends keyof S = keyof S,
K1 extends keyof S[K0] = keyof S[K0],
K2 extends keyof S[K0][K1] = keyof S[K0][K1],
K3 extends keyof S[K0][K1][K2] = keyof S[K0][K1][K2],
K4 extends keyof S[K0][K1][K2][K3] = keyof S[K0][K1][K2][K3],
>(path: [K0, K1, K2, K3, K4], obj: S): S[K0][K1][K2][K3][K4];
path<
S,
K0 extends keyof S = keyof S,
K1 extends keyof S[K0] = keyof S[K0],
K2 extends keyof S[K0][K1] = keyof S[K0][K1],
K3 extends keyof S[K0][K1][K2] = keyof S[K0][K1][K2],
K4 extends keyof S[K0][K1][K2][K3] = keyof S[K0][K1][K2][K3],
K5 extends keyof S[K0][K1][K2][K3][K4] = keyof S[K0][K1][K2][K3][K4],
>(path: [K0, K1, K2, K3, K4, K5], obj: S): S[K0][K1][K2][K3][K4][K5];
path<T>(pathToSearch: string, obj: any): T | undefined;
path<T>(pathToSearch: string): (obj: any) => T | undefined;
path<T>(pathToSearch: RamdaPath): (obj: any) => T | undefined;
R.path source
import { createPath } from './_internals/createPath.js'
export function path(pathInput, obj){
if (arguments.length === 1) return _obj => path(pathInput, _obj)
if (obj === null || obj === undefined){
return undefined
}
let willReturn = obj
let counter = 0
const pathArrValue = createPath(pathInput)
while (counter < pathArrValue.length){
if (willReturn === null || willReturn === undefined){
return undefined
}
if (willReturn[ pathArrValue[ counter ] ] === null) return undefined
willReturn = willReturn[ pathArrValue[ counter ] ]
counter++
}
return willReturn
}
Tests
import { path } from './path.js'
test('with array inside object', () => {
const obj = { a : { b : [ 1, { c : 1 } ] } }
expect(path('a.b.1.c', obj)).toBe(1)
})
test('works with undefined', () => {
const obj = { a : { b : { c : 1 } } }
expect(path('a.b.c.d.f', obj)).toBeUndefined()
expect(path('foo.babaz', undefined)).toBeUndefined()
expect(path('foo.babaz')(undefined)).toBeUndefined()
})
test('works with string instead of array', () => {
expect(path('foo.bar.baz')({ foo : { bar : { baz : 'yes' } } })).toBe('yes')
})
test('path', () => {
expect(path([ 'foo', 'bar', 'baz' ])({ foo : { bar : { baz : 'yes' } } })).toBe('yes')
expect(path([ 'foo', 'bar', 'baz' ])(null)).toBeUndefined()
expect(path([ 'foo', 'bar', 'baz' ])({ foo : { bar : 'baz' } })).toBeUndefined()
})
test('null is not a valid path', () => {
expect(path('audio_tracks', {
a : 1,
audio_tracks : null,
})).toBeUndefined()
})
Typescript test
import {path} from 'rambda'
const input = {a: {b: {c: true}}}
describe('R.path with string as path', () => {
it('without specified output type', () => {
// $ExpectType unknown
path('a.b.c', input)
// $ExpectType unknown
path('a.b.c')(input)
})
it('with specified output type', () => {
// $ExpectType boolean | undefined
path<boolean>('a.b.c', input)
// $ExpectType boolean | undefined
path<boolean>('a.b.c')(input)
})
})
describe('R.path with list as path', () => {
it('with array as path', () => {
// $ExpectType boolean
path(['a', 'b', 'c'], input)
// $ExpectType unknown
path(['a', 'b', 'c'])(input)
})
test('shallow property', () => {
// $ExpectType number
path(['a'], {a: 1})
path(['b'], {a: 1}) // $ExpectError
})
test('deep property', () => {
// $ExpectType number
path(['a', 'b', 'c', 'd', 'e', 'f'], {a: {b: {c: {d: {e: {f: 1}}}}}})
})
})
pathEq
pathEq(pathToSearch: Path, target: any, input: any): boolean
It returns true
if pathToSearch
of input
object is equal to target
value.
pathToSearch
is passed to R.path
, which means that it can be either a string or an array. Also equality between target
and the found value is determined by R.equals
.
Try this R.pathEq example in Rambda REPL
All Typescript definitions
pathEq(pathToSearch: Path, target: any, input: any): boolean;
pathEq(pathToSearch: Path, target: any): (input: any) => boolean;
pathEq(pathToSearch: Path): (target: any) => (input: any) => boolean;
R.pathEq source
import { curry } from './curry.js'
import { equals } from './equals.js'
import { path } from './path.js'
function pathEqFn(
pathToSearch, target, input
){
return equals(path(pathToSearch, input), target)
}
export const pathEq = curry(pathEqFn)
Tests
import { pathEq } from './pathEq.js'
test('when true', () => {
const path = 'a.b'
const obj = { a : { b : { c : 1 } } }
const target = { c : 1 }
expect(pathEq(
path, target, obj
)).toBeTrue()
})
test('when false', () => {
const path = 'a.b'
const obj = { a : { b : 1 } }
const target = 2
expect(pathEq(path, target)(obj)).toBeFalse()
})
test('when wrong path', () => {
const path = 'foo.bar'
const obj = { a : { b : 1 } }
const target = 2
expect(pathEq(
path, target, obj
)).toBeFalse()
})
Typescript test
import {pathEq} from 'rambda'
describe('R.pathEq', () => {
it('with string path', () => {
const pathToSearch = 'a.b.c'
const input = {a: {b: {c: 1}}}
const target = {c: 1}
const result = pathEq(pathToSearch, input, target)
const curriedResult = pathEq(pathToSearch, input, target)
result // $ExpectType boolean
curriedResult // $ExpectType boolean
})
it('with array path', () => {
const pathToSearch = ['a', 'b', 'c']
const input = {a: {b: {c: 1}}}
const target = {c: 1}
const result = pathEq(pathToSearch, input, target)
const curriedResult = pathEq(pathToSearch, input, target)
result // $ExpectType boolean
curriedResult // $ExpectType boolean
})
})
describe('with ramda specs', () => {
const testPath = ['x', 0, 'y']
const testObj = {
x: [
{y: 2, z: 3},
{y: 4, z: 5},
],
}
const result1 = pathEq(testPath, 2, testObj)
const result2 = pathEq(testPath, 2)(testObj)
const result3 = pathEq(testPath)(2)(testObj)
result1 // $ExpectType boolean
result2 // $ExpectType boolean
result3 // $ExpectType boolean
})
pathOr
pathOr<T>(defaultValue: T, pathToSearch: Path, obj: any): T
It reads obj
input and returns either R.path(pathToSearch, Record<string, unknown>)
result or defaultValue
input.
Try this R.pathOr example in Rambda REPL
All Typescript definitions
pathOr<T>(defaultValue: T, pathToSearch: Path, obj: any): T;
pathOr<T>(defaultValue: T, pathToSearch: Path): (obj: any) => T;
pathOr<T>(defaultValue: T): (pathToSearch: Path) => (obj: any) => T;
R.pathOr source
import { curry } from './curry.js'
import { defaultTo } from './defaultTo.js'
import { path } from './path.js'
function pathOrFn(
defaultValue, pathInput, obj
){
return defaultTo(defaultValue, path(pathInput, obj))
}
export const pathOr = curry(pathOrFn)
Tests
import { pathOr } from './pathOr.js'
test('with undefined', () => {
const result = pathOr(
'foo', 'x.y', { x : { y : 1 } }
)
expect(result).toBe(1)
})
test('with null', () => {
const result = pathOr(
'foo', 'x.y', null
)
expect(result).toBe('foo')
})
test('with NaN', () => {
const result = pathOr(
'foo', 'x.y', NaN
)
expect(result).toBe('foo')
})
test('curry case (x)(y)(z)', () => {
const result = pathOr('foo')('x.y.z')({ x : { y : { a : 1 } } })
expect(result).toBe('foo')
})
test('curry case (x)(y,z)', () => {
const result = pathOr('foo', 'x.y.z')({ x : { y : { a : 1 } } })
expect(result).toBe('foo')
})
test('curry case (x,y)(z)', () => {
const result = pathOr('foo')('x.y.z', { x : { y : { a : 1 } } })
expect(result).toBe('foo')
})
Typescript test
import {pathOr} from 'rambda'
describe('R.pathOr', () => {
it('with string path', () => {
const x = pathOr<string>('foo', 'x.y', {x: {y: 'bar'}})
x // $ExpectType string
})
it('with array path', () => {
const x = pathOr<string>('foo', ['x', 'y'], {x: {y: 'bar'}})
x // $ExpectType string
})
it('without passing type looks bad', () => {
const x = pathOr('foo', 'x.y', {x: {y: 'bar'}})
x // $ExpectType "foo"
})
it('curried', () => {
const x = pathOr<string>('foo', 'x.y')({x: {y: 'bar'}})
x // $ExpectType string
})
})
paths
paths<Input, T>(pathsToSearch: Path[], obj: Input): (T | undefined)[]
It loops over members of pathsToSearch
as singlePath
and returns the array produced by R.path(singlePath, Record<string, unknown>)
.
Because it calls R.path
, then singlePath
can be either string or a list.
Try this R.paths example in Rambda REPL
All Typescript definitions
paths<Input, T>(pathsToSearch: Path[], obj: Input): (T | undefined)[];
paths<Input, T>(pathsToSearch: Path[]): (obj: Input) => (T | undefined)[];
paths<T>(pathsToSearch: Path[], obj: any): (T | undefined)[];
paths<T>(pathsToSearch: Path[]): (obj: any) => (T | undefined)[];
R.paths source
import { path } from './path.js'
export function paths(pathsToSearch, obj){
if (arguments.length === 1){
return _obj => paths(pathsToSearch, _obj)
}
return pathsToSearch.map(singlePath => path(singlePath, obj))
}
Tests
import { paths } from './paths.js'
const obj = {
a : {
b : {
c : 1,
d : 2,
},
},
p : [ { q : 3 } ],
x : {
y : 'FOO',
z : [ [ {} ] ],
},
}
test('with string path + curry', () => {
const pathsInput = [ 'a.b.d', 'p.q' ]
const expected = [ 2, undefined ]
const result = paths(pathsInput, obj)
const curriedResult = paths(pathsInput)(obj)
expect(result).toEqual(expected)
expect(curriedResult).toEqual(expected)
})
test('with array path', () => {
const result = paths([
[ 'a', 'b', 'c' ],
[ 'x', 'y' ],
],
obj)
expect(result).toEqual([ 1, 'FOO' ])
})
test('takes a paths that contains indices into arrays', () => {
expect(paths([
[ 'p', 0, 'q' ],
[ 'x', 'z', 0, 0 ],
],
obj)).toEqual([ 3, {} ])
expect(paths([
[ 'p', 0, 'q' ],
[ 'x', 'z', 2, 1 ],
],
obj)).toEqual([ 3, undefined ])
})
test('gets a deep property\'s value from objects', () => {
expect(paths([ [ 'a', 'b' ] ], obj)).toEqual([ obj.a.b ])
expect(paths([ [ 'p', 0 ] ], obj)).toEqual([ obj.p[ 0 ] ])
})
test('returns undefined for items not found', () => {
expect(paths([ [ 'a', 'x', 'y' ] ], obj)).toEqual([ undefined ])
expect(paths([ [ 'p', 2 ] ], obj)).toEqual([ undefined ])
})
Typescript test
import {paths} from 'rambda'
interface Input {
a: number,
b: number,
c: number,
}
const input: Input = {a: 1, b: 2, c: 3}
describe('R.paths', () => {
it('with dot notation', () => {
const result = paths<number>(['a.b.c', 'foo.bar'], input)
result // $ExpectType (number | undefined)[]
})
it('without type', () => {
const result = paths(['a.b.c', 'foo.bar'], input)
result // $ExpectType unknown[]
})
it('with array as path', () => {
const result = paths<number>([['a', 'b', 'c'], ['foo.bar']], input)
result // $ExpectType (number | undefined)[]
})
it('curried', () => {
const result = paths<number>([['a', 'b', 'c'], ['foo.bar']])(input)
result // $ExpectType (number | undefined)[]
})
})
pick
pick<T, K extends string | number | symbol>(propsToPick: K[], input: T): Pick<T, Exclude<keyof T, Exclude<keyof T, K>>>
It returns a partial copy of an input
containing only propsToPick
properties.
input
can be either an object or an array.
String anotation of propsToPick
is one of the differences between Rambda
and Ramda
.
Try this R.pick example in Rambda REPL
All Typescript definitions
pick<T, K extends string | number | symbol>(propsToPick: K[], input: T): Pick<T, Exclude<keyof T, Exclude<keyof T, K>>>;
pick<K extends string | number | symbol>(propsToPick: K[]): <T>(input: T) => Pick<T, Exclude<keyof T, Exclude<keyof T, K>>>;
pick<T, U>(propsToPick: string, input: T): U;
pick<T, U>(propsToPick: string): (input: T) => U;
pick<T>(propsToPick: string, input: object): T;
pick<T>(propsToPick: string): (input: object) => T;
R.pick source
import { createPath } from './_internals/createPath.js'
export function pick(propsToPick, input){
if (arguments.length === 1) return _input => pick(propsToPick, _input)
if (input === null || input === undefined){
return undefined
}
const keys = createPath(propsToPick, ',')
const willReturn = {}
let counter = 0
while (counter < keys.length){
if (keys[ counter ] in input){
willReturn[ keys[ counter ] ] = input[ keys[ counter ] ]
}
counter++
}
return willReturn
}
Tests
import { pick } from './pick.js'
const obj = {
a : 1,
b : 2,
c : 3,
}
test('props to pick is a string', () => {
const result = pick('a,c', obj)
const resultCurry = pick('a,c')(obj)
const expectedResult = {
a : 1,
c : 3,
}
expect(result).toEqual(expectedResult)
expect(resultCurry).toEqual(expectedResult)
})
test('when prop is missing', () => {
const result = pick('a,d,f', obj)
expect(result).toEqual({ a : 1 })
})
test('with list indexes as props', () => {
const list = [ 1, 2, 3 ]
const expected = {
0 : 1,
2 : 3,
}
expect(pick([ 0, 2, 3 ], list)).toEqual(expected)
expect(pick('0,2,3', list)).toEqual(expected)
})
test('props to pick is an array', () => {
expect(pick([ 'a', 'c' ])({
a : 'foo',
b : 'bar',
c : 'baz',
})).toEqual({
a : 'foo',
c : 'baz',
})
expect(pick([ 'a', 'd', 'e', 'f' ])({
a : 'foo',
b : 'bar',
c : 'baz',
})).toEqual({ a : 'foo' })
expect(pick('a,d,e,f')(null)).toBeUndefined()
})
test('works with list as input and number as props - props to pick is an array', () => {
const result = pick([ 1, 2 ], [ 'a', 'b', 'c', 'd' ])
expect(result).toEqual({
1 : 'b',
2 : 'c',
})
})
test('works with list as input and number as props - props to pick is a string', () => {
const result = pick('1,2', [ 'a', 'b', 'c', 'd' ])
expect(result).toEqual({
1 : 'b',
2 : 'c',
})
})
test('with symbol', () => {
const symbolProp = Symbol('s')
expect(pick([ symbolProp ], { [ symbolProp ] : 'a' })).toMatchInlineSnapshot(`
{
Symbol(s): "a",
}
`)
})
Typescript test
import {pick} from 'rambda'
const input = {a: 'foo', b: 2, c: 3, d: 4}
describe('R.pick with array as props input', () => {
it('without passing type', () => {
const result = pick(['a', 'c'], input)
result.a // $ExpectType string
result.c // $ExpectType number
})
})
describe('R.pick with string as props input', () => {
interface Input {
a: string,
b: number,
c: number,
d: number,
}
interface Output {
a: string,
c: number,
}
it('explicitly declare output', () => {
const result = pick<Output>('a,c', input)
result // $ExpectType Output
result.a // $ExpectType string
result.c // $ExpectType number
const curriedResult = pick<Output>('a,c')(input)
curriedResult.a // $ExpectType string
})
it('explicitly declare input and output', () => {
const result = pick<Input, Output>('a,c', input)
result // $ExpectType Output
result.a // $ExpectType string
const curriedResult = pick<Input, Output>('a,c')(input)
curriedResult.a // $ExpectType string
})
it('without passing type', () => {
const result = pick('a,c', input)
result // $ExpectType unknown
})
})
pickAll
pickAll<T, K extends keyof T>(propsToPicks: K[], input: T): Pick<T, K>
Same as R.pick
but it won't skip the missing props, i.e. it will assign them to undefined
.
Try this R.pickAll example in Rambda REPL
All Typescript definitions
pickAll<T, K extends keyof T>(propsToPicks: K[], input: T): Pick<T, K>;
pickAll<T, U>(propsToPicks: string[], input: T): U;
pickAll(propsToPicks: string[]): <T, U>(input: T) => U;
pickAll<T, U>(propsToPick: string, input: T): U;
pickAll<T, U>(propsToPick: string): (input: T) => U;
R.pickAll source
import { createPath } from './_internals/createPath.js'
export function pickAll(propsToPick, obj){
if (arguments.length === 1) return _obj => pickAll(propsToPick, _obj)
if (obj === null || obj === undefined){
return undefined
}
const keysValue = createPath(propsToPick, ',')
const willReturn = {}
let counter = 0
while (counter < keysValue.length){
if (keysValue[ counter ] in obj){
willReturn[ keysValue[ counter ] ] = obj[ keysValue[ counter ] ]
} else {
willReturn[ keysValue[ counter ] ] = undefined
}
counter++
}
return willReturn
}
Tests
import { pickAll } from './pickAll.js'
test('when input is undefined or null', () => {
expect(pickAll('a', null)).toBeUndefined()
expect(pickAll('a', undefined)).toBeUndefined()
})
test('with string as condition', () => {
const obj = {
a : 1,
b : 2,
c : 3,
}
const result = pickAll('a,c', obj)
const resultCurry = pickAll('a,c')(obj)
const expectedResult = {
a : 1,
b : undefined,
c : 3,
}
expect(result).toEqual(expectedResult)
expect(resultCurry).toEqual(expectedResult)
})
test('with array as condition', () => {
expect(pickAll([ 'a', 'b', 'c' ], {
a : 'foo',
c : 'baz',
})).toEqual({
a : 'foo',
b : undefined,
c : 'baz',
})
})
Typescript test
import {pickAll} from 'rambda'
interface Input {
a: string,
b: number,
c: number,
d: number,
}
interface Output {
a?: string,
c?: number,
}
const input = {a: 'foo', b: 2, c: 3, d: 4}
describe('R.pickAll with array as props input', () => {
it('without passing type', () => {
const result = pickAll(['a', 'c'], input)
result.a // $ExpectType string
result.c // $ExpectType number
})
it('without passing type + curry', () => {
const result = pickAll(['a', 'c'])(input)
result // $ExpectType unknown
})
it('explicitly passing types', () => {
const result = pickAll<Input, Output>(['a', 'c'], input)
result.a // $ExpectType string | undefined
result.c // $ExpectType number | undefined
})
})
describe('R.pickAll with string as props input', () => {
it('without passing type', () => {
const result = pickAll('a,c', input)
result // $ExpectType unknown
})
it('without passing type + curry', () => {
const result = pickAll('a,c')(input)
result // $ExpectType unknown
})
it('explicitly passing types', () => {
const result = pickAll<Input, Output>('a,c', input)
result.a // $ExpectType string | undefined
result.c // $ExpectType number | undefined
})
it('explicitly passing types + curry', () => {
const result = pickAll<Input, Output>('a,c')(input)
result.a // $ExpectType string | undefined
result.c // $ExpectType number | undefined
})
})
pipe
It performs left-to-right function composition.
Try this R.pipe example in Rambda REPL
pluck
pluck<K extends keyof T, T>(property: K, list: T[]): T[K][]
It returns list of the values of property
taken from the all objects inside list
.
Try this R.pluck example in Rambda REPL
All Typescript definitions
pluck<K extends keyof T, T>(property: K, list: T[]): T[K][];
pluck<T>(property: number, list: { [k: number]: T }[]): T[];
pluck<P extends string>(property: P): <T>(list: Record<P, T>[]) => T[];
pluck(property: number): <T>(list: { [k: number]: T }[]) => T[];
R.pluck source
import { map } from './map.js'
export function pluck(property, list){
if (arguments.length === 1) return _list => pluck(property, _list)
const willReturn = []
map(x => {
if (x[ property ] !== undefined){
willReturn.push(x[ property ])
}
}, list)
return willReturn
}
Tests
import { pluck } from './pluck.js'
test('happy', () => {
expect(pluck('a')([ { a : 1 }, { a : 2 }, { b : 1 } ])).toEqual([ 1, 2 ])
})
test('with number', () => {
const input = [
[ 1, 2 ],
[ 3, 4 ],
]
expect(pluck(0, input)).toEqual([ 1, 3 ])
})
Typescript test
import {pluck} from 'rambda'
describe('R.pluck', () => {
it('with object', () => {
interface ListMember {
a: number,
b: string,
}
const input: ListMember[] = [
{a: 1, b: 'foo'},
{a: 2, b: 'bar'},
]
const resultA = pluck('a', input)
const resultB = pluck('b')(input)
resultA // $ExpectType number[]
resultB // $ExpectType string[]
})
it('with array', () => {
const input = [
[1, 2],
[3, 4],
[5, 6],
]
const result = pluck(0, input)
const resultCurry = pluck(0)(input)
result // $ExpectType number[]
resultCurry // $ExpectType number[]
})
})
prepend
prepend<T>(x: T, input: T[]): T[]
It adds element x
at the beginning of list
.
Try this R.prepend example in Rambda REPL
All Typescript definitions
prepend<T>(x: T, input: T[]): T[];
prepend<T>(x: T): (input: T[]) => T[];
R.prepend source
export function prepend(x, input){
if (arguments.length === 1) return _input => prepend(x, _input)
if (typeof input === 'string') return [ x ].concat(input.split(''))
return [ x ].concat(input)
}
Tests
import { prepend } from './prepend.js'
test('happy', () => {
expect(prepend('yes', [ 'foo', 'bar', 'baz' ])).toEqual([
'yes',
'foo',
'bar',
'baz',
])
})
test('with empty list', () => {
expect(prepend('foo')([])).toEqual([ 'foo' ])
})
test('with string instead of array', () => {
expect(prepend('foo')('bar')).toEqual([ 'foo', 'b', 'a', 'r' ])
})
Typescript test
import {prepend} from 'rambda'
const list = [1, 2, 3]
describe('R.prepend', () => {
it('happy', () => {
const result = prepend(4, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = prepend(4)(list)
result // $ExpectType number[]
})
})
product
product(list: number[]): number
Try this R.product example in Rambda REPL
All Typescript definitions
product(list: number[]): number;
R.product source
import { multiply } from './multiply.js'
import { reduce } from './reduce.js'
export const product = reduce(multiply, 1)
Tests
import { product } from './product.js'
test('happy', () => {
expect(product([ 2, 3, 4 ])).toBe(24)
})
test('bad input', () => {
expect(product([ null ])).toBe(0)
expect(product([])).toBe(1)
})
Typescript test
import {product} from 'rambda'
describe('R.product', () => {
it('happy', () => {
const result = product([1, 2, 3])
result // $ExpectType number
})
})
prop
prop<P extends keyof never, T>(propToFind: P, value: T): Prop<T, P>
It returns the value of property propToFind
in obj
.
If there is no such property, it returns undefined
.
Try this R.prop example in Rambda REPL
All Typescript definitions
prop<P extends keyof never, T>(propToFind: P, value: T): Prop<T, P>;
prop<P extends keyof never>(propToFind: P): {
<T>(value: Record<P, T>): T;
<T>(value: T): Prop<T, P>;
};
prop<P extends keyof T, T>(propToFind: P): {
(value: T): Prop<T, P>;
};
prop<P extends keyof never, T>(propToFind: P): {
(value: Record<P, T>): T;
};
R.prop source
export function prop(propToFind, obj){
if (arguments.length === 1) return _obj => prop(propToFind, _obj)
if (!obj) return undefined
return obj[ propToFind ]
}
Tests
import { prop } from './prop.js'
test('prop', () => {
expect(prop('foo')({ foo : 'baz' })).toBe('baz')
expect(prop('bar')({ foo : 'baz' })).toBeUndefined()
expect(prop('bar')(null)).toBeUndefined()
})
Typescript test
import {pipe, prop} from 'rambda'
describe('R.prop', () => {
const obj = {a: 1, b: 'foo'}
interface Something {
a?: number,
b?: string,
}
it('issue #553', () => {
const result = prop('e', {e: 'test1', d: 'test2'})
const curriedResult = prop<string>('e')({e: 'test1', d: 'test2'})
result // $ExpectType string
curriedResult // $ExpectType string
})
it('happy', () => {
const result = prop('a', obj)
result // $ExpectType number
})
it('curried', () => {
const result = prop('b')(obj)
result // $ExpectType string
})
it('curried with explicit object type', () => {
const result = prop<'a', Something>('a')(obj)
result // $ExpectType number | undefined
})
it('curried with implicit object type', () => {
const result = pipe(value => value as Something, prop('b'))(obj)
result // $ExpectType undefined
})
it('curried with explicit result type', () => {
const result = prop<'b', string>('b')(obj)
result // $ExpectType string
})
})
describe('with number as prop', () => {
const list = [1, 2, 3]
const index = 1
it('happy', () => {
const result = prop(index, list)
result // $ExpectType number
})
it('curried require explicit type', () => {
const result = prop<number>(index)(list)
result // $ExpectType number
})
})
propEq
propEq<K extends string | number>(propToFind: K, valueToMatch: any, obj: Record<K, any>): boolean
It returns true if obj
has property propToFind
and its value is equal to valueToMatch
.
Try this R.propEq example in Rambda REPL
All Typescript definitions
propEq<K extends string | number>(propToFind: K, valueToMatch: any, obj: Record<K, any>): boolean;
propEq<K extends string | number>(propToFind: K, valueToMatch: any): (obj: Record<K, any>) => boolean;
propEq<K extends string | number>(propToFind: K): {
(valueToMatch: any, obj: Record<K, any>): boolean;
(valueToMatch: any): (obj: Record<K, any>) => boolean;
};
R.propEq source
import { curry } from './curry.js'
import { equals } from './equals.js'
import { prop } from './prop.js'
function propEqFn(
propToFind, valueToMatch, obj
){
if (!obj) return false
return equals(valueToMatch, prop(propToFind, obj))
}
export const propEq = curry(propEqFn)
Tests
import { propEq } from './propEq.js'
test('happy', () => {
expect(propEq('foo', 'bar')({ foo : 'bar' })).toBeTrue()
expect(propEq('foo', 'bar')({ foo : 'baz' })).toBeFalse()
expect(propEq('foo')('bar')({ foo : 'baz' })).toBeFalse()
expect(propEq(
'foo', 'bar', null
)).toBeFalse()
})
test('returns false if called with a null or undefined object', () => {
expect(propEq(
'name', 'Abby', null
)).toBeFalse()
expect(propEq(
'name', 'Abby', undefined
)).toBeFalse()
})
Typescript test
import {propEq} from 'rambda'
const property = 'foo'
const numberProperty = 1
const value = 'bar'
const obj = {[property]: value}
const objWithNumberIndex = {[numberProperty]: value}
describe('R.propEq', () => {
it('happy', () => {
const result = propEq(property, value, obj)
result // $ExpectType boolean
})
it('number is property', () => {
const result = propEq(1, value, objWithNumberIndex)
result // $ExpectType boolean
})
it('with optional property', () => {
interface MyType {
optional?: string | number,
}
const myObject: MyType = {}
const valueToFind = '1111'
// @ts-expect-error
propEq('optional', valueToFind, myObject)
// @ts-expect-error
propEq('optional', valueToFind, myObject)
})
it('imported from @types/ramda', () => {
interface A {
foo: string | null,
}
const obj: A = {
foo: 'bar',
}
const value = ''
const result = propEq('foo', value)(obj)
result // $ExpectType boolean
// @ts-expect-error
propEq('bar', value)(obj)
})
})
propIs
propIs<C extends AnyFunction, K extends keyof any>(type: C, name: K, obj: any): obj is Record<K, ReturnType<C>>
It returns true
if property
of obj
is from target
type.
Try this R.propIs example in Rambda REPL
All Typescript definitions
propIs<C extends AnyFunction, K extends keyof any>(type: C, name: K, obj: any): obj is Record<K, ReturnType<C>>;
propIs<C extends AnyConstructor, K extends keyof any>(type: C, name: K, obj: any): obj is Record<K, InstanceType<C>>;
propIs<C extends AnyFunction, K extends keyof any>(type: C, name: K): (obj: any) => obj is Record<K, ReturnType<C>>;
propIs<C extends AnyConstructor, K extends keyof any>(type: C, name: K): (obj: any) => obj is Record<K, InstanceType<C>>;
propIs<C extends AnyFunction>(type: C): {
<K extends keyof any>(name: K, obj: any): obj is Record<K, ReturnType<C>>;
<K extends keyof any>(name: K): (obj: any) => obj is Record<K, ReturnType<C>>;
};
R.propIs source
import { curry } from './curry.js'
import { is } from './is.js'
function propIsFn(
targetPrototype, property, obj
){
return is(targetPrototype, obj[ property ])
}
export const propIs = curry(propIsFn)
Tests
import { propIs } from './propIs.js'
const obj = {
a : 1,
b : 'foo',
}
test('when true', () => {
expect(propIs(
Number, 'a', obj
)).toBeTrue()
expect(propIs(
String, 'b', obj
)).toBeTrue()
})
test('when false', () => {
expect(propIs(
String, 'a', obj
)).toBeFalse()
expect(propIs(
Number, 'b', obj
)).toBeFalse()
})
Typescript test
import {propIs} from 'rambda'
const property = 'a'
const obj = {a: 1}
describe('R.propIs', () => {
it('happy', () => {
const result = propIs(Number, property, obj)
result // $ExpectType boolean
})
it('curried', () => {
const result = propIs(Number, property)(obj)
result // $ExpectType boolean
})
})
propOr
propOr<T, P extends string>(defaultValue: T, property: P, obj: Partial<Record<P, T>> | undefined): T
It returns either defaultValue
or the value of property
in obj
.
Try this R.propOr example in Rambda REPL
All Typescript definitions
propOr<T, P extends string>(defaultValue: T, property: P, obj: Partial<Record<P, T>> | undefined): T;
propOr<T, P extends string>(defaultValue: T, property: P): (obj: Partial<Record<P, T>> | undefined) => T;
propOr<T>(defaultValue: T): {
<P extends string>(property: P, obj: Partial<Record<P, T>> | undefined): T;
<P extends string>(property: P): (obj: Partial<Record<P, T>> | undefined) => T;
}
R.propOr source
import { curry } from './curry.js'
import { defaultTo } from './defaultTo.js'
function propOrFn(
defaultValue, property, obj
){
if (!obj) return defaultValue
return defaultTo(defaultValue, obj[ property ])
}
export const propOr = curry(propOrFn)
Tests
import { propOr } from './propOr.js'
test('propOr (result)', () => {
const obj = { a : 1 }
expect(propOr(
'default', 'a', obj
)).toBe(1)
expect(propOr(
'default', 'notExist', obj
)).toBe('default')
expect(propOr(
'default', 'notExist', null
)).toBe('default')
})
test('propOr (currying)', () => {
const obj = { a : 1 }
expect(propOr('default')('a', obj)).toBe(1)
expect(propOr('default', 'a')(obj)).toBe(1)
expect(propOr('default')('notExist', obj)).toBe('default')
expect(propOr('default', 'notExist')(obj)).toBe('default')
})
Typescript test
import {propOr} from 'rambda'
const obj = {foo: 'bar'}
const property = 'foo'
const fallback = 'fallback'
describe('R.propOr', () => {
it('happy', () => {
const result = propOr(fallback, property, obj)
result // $ExpectType string
})
it('curry 1', () => {
const result = propOr(fallback)(property, obj)
result // $ExpectType string
})
it('curry 2', () => {
const result = propOr(fallback, property)(obj)
result // $ExpectType string
})
it('curry 3', () => {
const result = propOr(fallback)(property)(obj)
result // $ExpectType string
})
})
props
props<P extends string, T>(propsToPick: P[], obj: Record<P, T>): T[]
It takes list with properties propsToPick
and returns a list with property values in obj
.
Try this R.props example in Rambda REPL
All Typescript definitions
props<P extends string, T>(propsToPick: P[], obj: Record<P, T>): T[];
props<P extends string>(propsToPick: P[]): <T>(obj: Record<P, T>) => T[];
props<P extends string, T>(propsToPick: P[]): (obj: Record<P, T>) => T[];
R.props source
import { isArray } from './_internals/isArray.js'
import { mapArray } from './map.js'
export function props(propsToPick, obj){
if (arguments.length === 1){
return _obj => props(propsToPick, _obj)
}
if (!isArray(propsToPick)){
throw new Error('propsToPick is not a list')
}
return mapArray(prop => obj[ prop ], propsToPick)
}
Tests
import { props } from './props.js'
const obj = {
a : 1,
b : 2,
}
const propsToPick = [ 'a', 'c' ]
test('happy', () => {
const result = props(propsToPick, obj)
expect(result).toEqual([ 1, undefined ])
})
test('curried', () => {
const result = props(propsToPick)(obj)
expect(result).toEqual([ 1, undefined ])
})
test('wrong input', () => {
expect(() => props(null)(obj)).toThrowErrorMatchingInlineSnapshot('"propsToPick is not a list"')
})
Typescript test
import {props} from 'rambda'
const obj = {a: 1, b: 2}
describe('R.props', () => {
it('happy', () => {
const result = props(['a', 'b'], obj)
result // $ExpectType number[]
})
it('curried', () => {
const result = props(['a', 'b'])(obj)
result // $ExpectType number[]
})
})
propSatisfies
propSatisfies<T>(predicate: Predicate<T>, property: string, obj: Record<string, T>): boolean
It returns true
if the object property satisfies a given predicate.
Try this R.propSatisfies example in Rambda REPL
All Typescript definitions
propSatisfies<T>(predicate: Predicate<T>, property: string, obj: Record<string, T>): boolean;
propSatisfies<T>(predicate: Predicate<T>, property: string): (obj: Record<string, T>) => boolean;
R.propSatisfies source
import { curry } from './curry.js'
import { prop } from './prop.js'
function propSatisfiesFn(
predicate, property, obj
){
return predicate(prop(property, obj))
}
export const propSatisfies = curry(propSatisfiesFn)
Tests
import { propSatisfies } from './propSatisfies.js'
const obj = { a : 1 }
test('when true', () => {
expect(propSatisfies(
x => x > 0, 'a', obj
)).toBeTrue()
})
test('when false', () => {
expect(propSatisfies(x => x < 0, 'a')(obj)).toBeFalse()
})
Typescript test
import {propSatisfies} from 'rambda'
const obj = {a: 1}
describe('R.propSatisfies', () => {
it('happy', () => {
const result = propSatisfies(x => x > 0, 'a', obj)
result // $ExpectType boolean
})
it('curried requires explicit type', () => {
const result = propSatisfies<number>(x => x > 0, 'a')(obj)
result // $ExpectType boolean
})
})
range
range(startInclusive: number, endExclusive: number): number[]
It returns list of numbers between startInclusive
to endExclusive
markers.
Try this R.range example in Rambda REPL
All Typescript definitions
range(startInclusive: number, endExclusive: number): number[];
range(startInclusive: number): (endExclusive: number) => number[];
R.range source
export function range(start, end){
if (arguments.length === 1) return _end => range(start, _end)
if (Number.isNaN(Number(start)) || Number.isNaN(Number(end))){
throw new TypeError('Both arguments to range must be numbers')
}
if (end < start) return []
const len = end - start
const willReturn = Array(len)
for (let i = 0; i < len; i++){
willReturn[ i ] = start + i
}
return willReturn
}
Tests
import { range } from './range.js'
test('happy', () => {
expect(range(0, 10)).toEqual([ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 ])
})
test('end range is bigger than start range', () => {
expect(range(7, 3)).toEqual([])
expect(range(5, 5)).toEqual([])
})
test('with bad input', () => {
const throwMessage = 'Both arguments to range must be numbers'
expect(() => range('a', 6)).toThrowWithMessage(Error, throwMessage)
expect(() => range(6, 'z')).toThrowWithMessage(Error, throwMessage)
})
test('curry', () => {
expect(range(0)(10)).toEqual([ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 ])
})
Typescript test
import {range} from 'rambda'
describe('R.range', () => {
it('happy', () => {
const result = range(1, 4)
result // $ExpectType number[]
})
it('curried', () => {
const result = range(1)(4)
result // $ExpectType number[]
})
})
reduce
Try this R.reduce example in Rambda REPL
reject
reject<T>(predicate: Predicate<T>, list: T[]): T[]
It has the opposite effect of R.filter
.
Try this R.reject example in Rambda REPL
All Typescript definitions
reject<T>(predicate: Predicate<T>, list: T[]): T[];
reject<T>(predicate: Predicate<T>): (list: T[]) => T[];
reject<T>(predicate: Predicate<T>, obj: Dictionary<T>): Dictionary<T>;
reject<T, U>(predicate: Predicate<T>): (obj: Dictionary<T>) => Dictionary<T>;
R.reject source
import { filter } from './filter.js'
export function reject(predicate, list){
if (arguments.length === 1) return _list => reject(predicate, _list)
return filter(x => !predicate(x), list)
}
Tests
import { reject } from './reject.js'
const isOdd = n => n % 2 === 1
test('with array', () => {
expect(reject(isOdd)([ 1, 2, 3, 4 ])).toEqual([ 2, 4 ])
})
test('with object', () => {
const obj = {
a : 1,
b : 2,
c : 3,
d : 4,
}
expect(reject(isOdd, obj)).toEqual({
b : 2,
d : 4,
})
})
Typescript test
import {reject} from 'rambda'
describe('R.reject with array', () => {
it('happy', () => {
const result = reject(
x => {
x // $ExpectType number
return x > 1
},
[1, 2, 3]
)
result // $ExpectType number[]
})
it('curried require explicit type', () => {
const result = reject<number>(x => {
x // $ExpectType number
return x > 1
})([1, 2, 3])
result // $ExpectType number[]
})
})
describe('R.reject with objects', () => {
it('happy', () => {
const result = reject(
x => {
x // $ExpectType number
return x > 1
},
{a: 1, b: 2}
)
result // $ExpectType Dictionary<number>
})
it('curried require dummy type', () => {
const result = reject<number, any>(x => {
return x > 1
})({a: 1, b: 2})
result // $ExpectType Dictionary<number>
})
})
repeat
repeat<T>(x: T): (timesToRepeat: number) => T[]
Try this R.repeat example in Rambda REPL
All Typescript definitions
repeat<T>(x: T): (timesToRepeat: number) => T[];
repeat<T>(x: T, timesToRepeat: number): T[];
R.repeat source
export function repeat(x, timesToRepeat){
if (arguments.length === 1){
return _timesToRepeat => repeat(x, _timesToRepeat)
}
return Array(timesToRepeat).fill(x)
}
Tests
import { repeat } from './repeat.js'
test('repeat', () => {
expect(repeat('')(3)).toEqual([ '', '', '' ])
expect(repeat('foo', 3)).toEqual([ 'foo', 'foo', 'foo' ])
const obj = {}
const arr = repeat(obj, 3)
expect(arr).toEqual([ {}, {}, {} ])
expect(arr[ 0 ] === arr[ 1 ]).toBeTrue()
})
Typescript test
import {repeat} from 'rambda'
describe('R.repeat', () => {
it('happy', () => {
const result = repeat(4, 7)
result // $ExpectType number[]
})
it('curried', () => {
const result = repeat(4)(7)
result // $ExpectType number[]
})
})
replace
replace(strOrRegex: RegExp | string, replacer: string, str: string): string
It replaces strOrRegex
found in str
with replacer
.
Try this R.replace example in Rambda REPL
All Typescript definitions
replace(strOrRegex: RegExp | string, replacer: string, str: string): string;
replace(strOrRegex: RegExp | string, replacer: string): (str: string) => string;
replace(strOrRegex: RegExp | string): (replacer: string) => (str: string) => string;
R.replace source
import { curry } from './curry.js'
function replaceFn(
pattern, replacer, str
){
return str.replace(pattern, replacer)
}
export const replace = curry(replaceFn)
Tests
import { replace } from './replace.js'
test('happy', () => {
expect(replace(
'foo', 'yes', 'foo bar baz'
)).toBe('yes bar baz')
})
test('1', () => {
expect(replace(/\s/g)('|')('foo bar baz')).toBe('foo|bar|baz')
})
test('2', () => {
expect(replace(/\s/g)('|', 'foo bar baz')).toBe('foo|bar|baz')
})
test('3', () => {
expect(replace(/\s/g, '|')('foo bar baz')).toBe('foo|bar|baz')
})
Typescript test
import {replace} from 'rambda'
const str = 'foo bar foo'
const replacer = 'bar'
describe('R.replace', () => {
it('happy', () => {
const result = replace(/foo/g, replacer, str)
result // $ExpectType string
})
it('with string as search pattern', () => {
const result = replace('foo', replacer, str)
result // $ExpectType string
})
})
describe('R.replace - curried', () => {
it('happy', () => {
const result = replace(/foo/g, replacer)(str)
result // $ExpectType string
})
it('with string as search pattern', () => {
const result = replace('foo', replacer)(str)
result // $ExpectType string
})
})
reverse
reverse<T>(input: T[]): T[]
It returns a reversed copy of list or string input
.
Try this R.reverse example in Rambda REPL
All Typescript definitions
reverse<T>(input: T[]): T[];
reverse(input: string): string;
R.reverse source
export function reverse(listOrString){
if (typeof listOrString === 'string'){
return listOrString.split('').reverse()
.join('')
}
const clone = listOrString.slice()
return clone.reverse()
}
Tests
import { reverse } from './reverse.js'
test('happy', () => {
expect(reverse([ 1, 2, 3 ])).toEqual([ 3, 2, 1 ])
})
test('with string', () => {
expect(reverse('baz')).toBe('zab')
})
test('it doesn\'t mutate', () => {
const arr = [ 1, 2, 3 ]
expect(reverse(arr)).toEqual([ 3, 2, 1 ])
expect(arr).toEqual([ 1, 2, 3 ])
})
Typescript test
import {reverse} from 'rambda'
const list = [1, 2, 3, 4, 5]
describe('R.reverse', () => {
it('happy', () => {
const result = reverse(list)
result // $ExpectType number[]
})
})
set
set<T, U>(lens: Lens, replacer: U, obj: T): T
It returns a copied Object or Array with modified lens
focus set to replacer
value.
Try this R.set example in Rambda REPL
All Typescript definitions
set<T, U>(lens: Lens, replacer: U, obj: T): T;
set<U>(lens: Lens, replacer: U): <T>(obj: T) => T;
set(lens: Lens): <T, U>(replacer: U, obj: T) => T;
R.set source
import { always } from './always.js'
import { curry } from './curry.js'
import { over } from './over.js'
function setFn(
lens, replacer, x
){
return over(
lens, always(replacer), x
)
}
export const set = curry(setFn)
Tests
import { assoc } from './assoc.js'
import { lens } from './lens.js'
import { lensIndex } from './lensIndex.js'
import { lensPath } from './lensPath.js'
import { prop } from './prop.js'
import { set } from './set.js'
const testObject = {
foo : 'bar',
baz : {
a : 'x',
b : 'y',
},
}
test('assoc lens', () => {
const assocLens = lens(prop('foo'), assoc('foo'))
const result = set(
assocLens, 'FOO', testObject
)
const expected = {
...testObject,
foo : 'FOO',
}
expect(result).toEqual(expected)
})
test('path lens', () => {
const pathLens = lensPath('baz.a')
const result = set(
pathLens, 'z', testObject
)
const expected = {
...testObject,
baz : {
a : 'z',
b : 'y',
},
}
expect(result).toEqual(expected)
})
test('index lens', () => {
const indexLens = lensIndex(0)
const result = set(
indexLens, 3, [ 1, 2 ]
)
expect(result).toEqual([ 3, 2 ])
})
slice
slice(from: number, to: number, input: string): string
Try this R.slice example in Rambda REPL
All Typescript definitions
slice(from: number, to: number, input: string): string;
slice<T>(from: number, to: number, input: T[]): T[];
slice(from: number, to: number): {
(input: string): string;
<T>(input: T[]): T[];
};
slice(from: number): {
(to: number, input: string): string;
<T>(to: number, input: T[]): T[];
};
R.slice source
import { curry } from './curry.js'
function sliceFn(
from, to, list
){
return list.slice(from, to)
}
export const slice = curry(sliceFn)
Tests
import { slice } from './slice.js'
test('slice', () => {
expect(slice(
1, 3, [ 'a', 'b', 'c', 'd' ]
)).toEqual([ 'b', 'c' ])
expect(slice(
1, Infinity, [ 'a', 'b', 'c', 'd' ]
)).toEqual([ 'b', 'c', 'd' ])
expect(slice(
0, -1, [ 'a', 'b', 'c', 'd' ]
)).toEqual([ 'a', 'b', 'c' ])
expect(slice(
-3, -1, [ 'a', 'b', 'c', 'd' ]
)).toEqual([ 'b', 'c' ])
expect(slice(
0, 3, 'ramda'
)).toBe('ram')
})
Typescript test
import {slice} from 'rambda'
const list = [1, 2, 3, 4, 5]
describe('R.slice', () => {
it('happy', () => {
const result = slice(1, 3, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = slice(1, 3)(list)
result // $ExpectType number[]
})
})
sort
sort<T>(sortFn: (a: T, b: T) => number, list: T[]): T[]
It returns copy of list
sorted by sortFn
function, where sortFn
needs to return only -1
, 0
or 1
.
Try this R.sort example in Rambda REPL
All Typescript definitions
sort<T>(sortFn: (a: T, b: T) => number, list: T[]): T[];
sort<T>(sortFn: (a: T, b: T) => number): (list: T[]) => T[];
R.sort source
import { cloneList } from './_internals/cloneList.js'
export function sort(sortFn, list){
if (arguments.length === 1) return _list => sort(sortFn, _list)
return cloneList(list).sort(sortFn)
}
Tests
import { sort } from './sort.js'
const fn = (a, b) => a > b ? 1 : -1
test('sort', () => {
expect(sort((a, b) => a - b)([ 2, 3, 1 ])).toEqual([ 1, 2, 3 ])
})
test('it doesn\'t mutate', () => {
const list = [ 'foo', 'bar', 'baz' ]
expect(sort(fn, list)).toEqual([ 'bar', 'baz', 'foo' ])
expect(list[ 0 ]).toBe('foo')
expect(list[ 1 ]).toBe('bar')
expect(list[ 2 ]).toBe('baz')
})
Typescript test
import {sort} from 'rambda'
const list = [3, 0, 5, 2, 1]
function sortFn(a: number, b: number): number {
return a > b ? 1 : -1
}
describe('R.sort', () => {
it('happy', () => {
const result = sort(sortFn, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = sort(sortFn)(list)
result // $ExpectType number[]
})
})
sortBy
sortBy<T>(sortFn: (a: T) => Ord, list: T[]): T[]
It returns copy of list
sorted by sortFn
function, where sortFn
function returns a value to compare, i.e. it doesn't need to return only -1
, 0
or 1
.
Try this R.sortBy example in Rambda REPL
All Typescript definitions
sortBy<T>(sortFn: (a: T) => Ord, list: T[]): T[];
sortBy<T>(sortFn: (a: T) => Ord): (list: T[]) => T[];
sortBy(sortFn: (a: any) => Ord): <T>(list: T[]) => T[];
R.sortBy source
import { cloneList } from './_internals/cloneList.js'
export function sortBy(sortFn, list){
if (arguments.length === 1) return _list => sortBy(sortFn, _list)
const clone = cloneList(list)
return clone.sort((a, b) => {
const aSortResult = sortFn(a)
const bSortResult = sortFn(b)
if (aSortResult === bSortResult) return 0
return aSortResult < bSortResult ? -1 : 1
})
}
Tests
import { compose } from './compose.js'
import { prop } from './prop.js'
import { sortBy } from './sortBy.js'
import { toLower } from './toLower.js'
test('happy', () => {
const input = [ { a : 2 }, { a : 1 }, { a : 1 }, { a : 3 } ]
const expected = [ { a : 1 }, { a : 1 }, { a : 2 }, { a : 3 } ]
const result = sortBy(x => x.a)(input)
expect(result).toEqual(expected)
})
test('with compose', () => {
const alice = {
name : 'ALICE',
age : 101,
}
const bob = {
name : 'Bob',
age : -10,
}
const clara = {
name : 'clara',
age : 314.159,
}
const people = [ clara, bob, alice ]
const sortByNameCaseInsensitive = sortBy(compose(toLower, prop('name')))
expect(sortByNameCaseInsensitive(people)).toEqual([ alice, bob, clara ])
})
Typescript test
import {sortBy, pipe} from 'rambda'
interface Input {
a: number,
}
describe('R.sortBy', () => {
it('passing type to sort function', () => {
function fn(x: any): number {
return x.a
}
function fn2(x: Input): number {
return x.a
}
const input = [{a: 2}, {a: 1}, {a: 0}]
const result = sortBy(fn, input)
const curriedResult = sortBy(fn2)(input)
result // $ExpectType { a: number; }[]
curriedResult // $ExpectType Input[]
result[0].a // $ExpectType number
curriedResult[0].a // $ExpectType number
})
it('passing type to sort function and list', () => {
function fn(x: Input): number {
return x.a
}
const input: Input[] = [{a: 2}, {a: 1}, {a: 0}]
const result = sortBy(fn, input)
const curriedResult = sortBy(fn)(input)
result // $ExpectType Input[]
curriedResult // $ExpectType Input[]
result[0].a // $ExpectType number
})
it('with R.pipe', () => {
interface Obj {
value: number,
}
const fn = pipe(sortBy<Obj>(x => x.value))
const result = fn([{value: 1}, {value: 2}])
result // $ExpectType Obj[]
})
})
split
split(separator: string | RegExp): (str: string) => string[]
Curried version of String.prototype.split
Try this R.split example in Rambda REPL
All Typescript definitions
split(separator: string | RegExp): (str: string) => string[];
split(separator: string | RegExp, str: string): string[];
R.split source
export function split(separator, str){
if (arguments.length === 1) return _str => split(separator, _str)
return str.split(separator)
}
Tests
import { split } from './split.js'
const str = 'foo|bar|baz'
const splitChar = '|'
const expected = [ 'foo', 'bar', 'baz' ]
test('happy', () => {
expect(split(splitChar, str)).toEqual(expected)
})
test('curried', () => {
expect(split(splitChar)(str)).toEqual(expected)
})
Typescript test
import {split} from 'rambda'
const str = 'foo|bar|baz'
const splitChar = '|'
describe('R.split', () => {
it('happy', () => {
const result = split(splitChar, str)
result // $ExpectType string[]
})
it('curried', () => {
const result = split(splitChar)(str)
result // $ExpectType string[]
})
})
splitAt
splitAt<T>(index: number, input: T[]): [T[], T[]]
It splits string or array at a given index.
Try this R.splitAt example in Rambda REPL
All Typescript definitions
splitAt<T>(index: number, input: T[]): [T[], T[]];
splitAt(index: number, input: string): [string, string];
splitAt(index: number): {
<T>(input: T[]): [T[], T[]];
(input: string): [string, string];
};
R.splitAt source
import { isArray } from './_internals/isArray.js'
import { drop } from './drop.js'
import { maybe } from './maybe.js'
import { take } from './take.js'
export function splitAt(index, input){
if (arguments.length === 1){
return _list => splitAt(index, _list)
}
if (!input) throw new TypeError(`Cannot read property 'slice' of ${ input }`)
if (!isArray(input) && typeof input !== 'string') return [ [], [] ]
const correctIndex = maybe(
index < 0,
input.length + index < 0 ? 0 : input.length + index,
index
)
return [ take(correctIndex, input), drop(correctIndex, input) ]
}
Tests
import { splitAt as splitAtRamda } from 'ramda'
import { splitAt } from './splitAt.js'
const list = [ 1, 2, 3 ]
const str = 'foo bar'
test('with array', () => {
const result = splitAt(2, list)
expect(result).toEqual([ [ 1, 2 ], [ 3 ] ])
})
test('with array - index is negative number', () => {
const result = splitAt(-6, list)
expect(result).toEqual([ [], list ])
})
test('with array - index is out of scope', () => {
const result = splitAt(4, list)
expect(result).toEqual([ [ 1, 2, 3 ], [] ])
})
test('with string', () => {
const result = splitAt(4, str)
expect(result).toEqual([ 'foo ', 'bar' ])
})
test('with string - index is negative number', () => {
const result = splitAt(-2, str)
expect(result).toEqual([ 'foo b', 'ar' ])
})
test('with string - index is out of scope', () => {
const result = splitAt(10, str)
expect(result).toEqual([ str, '' ])
})
test('with array - index is out of scope', () => {
const result = splitAt(4)(list)
expect(result).toEqual([ [ 1, 2, 3 ], [] ])
})
const badInputs = [ 1, true, /foo/g, {} ]
const throwingBadInputs = [ null, undefined ]
test('with bad inputs', () => {
throwingBadInputs.forEach(badInput => {
expect(() => splitAt(1, badInput)).toThrowWithMessage(TypeError,
`Cannot read property 'slice' of ${ badInput }`)
expect(() => splitAtRamda(1, badInput)).toThrowWithMessage(TypeError,
`Cannot read properties of ${ badInput } (reading 'slice')`)
})
badInputs.forEach(badInput => {
const result = splitAt(1, badInput)
const ramdaResult = splitAtRamda(1, badInput)
expect(result).toEqual(ramdaResult)
})
})
Typescript test
import {splitAt} from 'rambda'
const index = 1
const str = 'foo'
const list = [1, 2, 3]
describe('R.splitAt with array', () => {
it('happy', () => {
const result = splitAt(index, list)
result // $ExpectType [number[], number[]]
})
it('curried', () => {
const result = splitAt(index)(list)
result // $ExpectType [number[], number[]]
})
})
describe('R.splitAt with string', () => {
it('happy', () => {
const result = splitAt(index, str)
result // $ExpectType [string, string]
})
it('curried', () => {
const result = splitAt(index)(str)
result // $ExpectType [string, string]
})
})
splitEvery
splitEvery<T>(sliceLength: number, input: T[]): (T[])[]
It splits input
into slices of sliceLength
.
Try this R.splitEvery example in Rambda REPL
All Typescript definitions
splitEvery<T>(sliceLength: number, input: T[]): (T[])[];
splitEvery(sliceLength: number, input: string): string[];
splitEvery(sliceLength: number): {
(input: string): string[];
<T>(input: T[]): (T[])[];
};
R.splitEvery source
export function splitEvery(sliceLength, listOrString){
if (arguments.length === 1){
return _listOrString => splitEvery(sliceLength, _listOrString)
}
if (sliceLength < 1){
throw new Error('First argument to splitEvery must be a positive integer')
}
const willReturn = []
let counter = 0
while (counter < listOrString.length){
willReturn.push(listOrString.slice(counter, counter += sliceLength))
}
return willReturn
}
Tests
import { splitEvery } from './splitEvery.js'
test('happy', () => {
expect(splitEvery(3, [ 1, 2, 3, 4, 5, 6, 7 ])).toEqual([
[ 1, 2, 3 ],
[ 4, 5, 6 ],
[ 7 ],
])
expect(splitEvery(3)('foobarbaz')).toEqual([ 'foo', 'bar', 'baz' ])
})
test('with bad input', () => {
expect(() =>
expect(splitEvery(0)('foo')).toEqual([ 'f', 'o', 'o' ])).toThrowErrorMatchingInlineSnapshot('"First argument to splitEvery must be a positive integer"')
})
Typescript test
import {splitEvery} from 'rambda'
const list = [1, 2, 3, 4, 5, 6, 7]
describe('R.splitEvery', () => {
it('happy', () => {
const result = splitEvery(3, list)
result // $ExpectType number[][]
})
it('curried', () => {
const result = splitEvery(3)(list)
result // $ExpectType number[][]
})
})
splitWhen
splitWhen<T, U>(predicate: Predicate<T>, list: U[]): (U[])[]
It splits list
to two arrays according to a predicate
function.
The first array contains all members of list
before predicate
returns true
.
Try this R.splitWhen example in Rambda REPL
All Typescript definitions
splitWhen<T, U>(predicate: Predicate<T>, list: U[]): (U[])[];
splitWhen<T>(predicate: Predicate<T>): <U>(list: U[]) => (U[])[];
R.splitWhen source
export function splitWhen(predicate, input){
if (arguments.length === 1){
return _input => splitWhen(predicate, _input)
}
if (!input)
throw new TypeError(`Cannot read property 'length' of ${ input }`)
const preFound = []
const postFound = []
let found = false
let counter = -1
while (counter++ < input.length - 1){
if (found){
postFound.push(input[ counter ])
} else if (predicate(input[ counter ])){
postFound.push(input[ counter ])
found = true
} else {
preFound.push(input[ counter ])
}
}
return [ preFound, postFound ]
}
Tests
import { splitWhen as splitWhenRamda } from 'ramda'
import { equals } from './equals.js'
import { splitWhen } from './splitWhen.js'
const list = [ 1, 2, 1, 2 ]
test('happy', () => {
const result = splitWhen(equals(2), list)
expect(result).toEqual([ [ 1 ], [ 2, 1, 2 ] ])
})
test('when predicate returns false', () => {
const result = splitWhen(equals(3))(list)
expect(result).toEqual([ list, [] ])
})
const badInputs = [ 1, true, /foo/g, {} ]
const throwingBadInputs = [ null, undefined ]
test('with bad inputs', () => {
throwingBadInputs.forEach(badInput => {
expect(() => splitWhen(equals(2), badInput)).toThrowWithMessage(TypeError,
`Cannot read property 'length' of ${ badInput }`)
expect(() => splitWhenRamda(equals(2), badInput)).toThrowWithMessage(TypeError,
`Cannot read properties of ${ badInput } (reading 'length')`)
})
badInputs.forEach(badInput => {
const result = splitWhen(equals(2), badInput)
const ramdaResult = splitWhenRamda(equals(2), badInput)
expect(result).toEqual(ramdaResult)
})
})
Typescript test
import {splitWhen} from 'rambda'
const list = [1, 2, 1, 2]
const predicate = (x: number) => x === 2
describe('R.splitWhen', () => {
it('happy', () => {
const result = splitWhen(predicate, list)
result // $ExpectType number[][]
})
it('curried', () => {
const result = splitWhen(predicate)(list)
result // $ExpectType number[][]
})
})
startsWith
startsWith(target: string, str: string): boolean
When iterable is a string, then it behaves as String.prototype.startsWith
.
When iterable is a list, then it uses R.equals to determine if the target list starts in the same way as the given target.
Try this R.startsWith example in Rambda REPL
All Typescript definitions
startsWith(target: string, str: string): boolean;
startsWith(target: string): (str: string) => boolean;
startsWith<T>(target: T[], list: T[]): boolean;
startsWith<T>(target: T[]): (list: T[]) => boolean;
R.startsWith source
import { isArray } from './_internals/isArray.js'
import { equals } from './equals.js'
export function startsWith(target, iterable){
if (arguments.length === 1)
return _iterable => startsWith(target, _iterable)
if (typeof iterable === 'string'){
return iterable.startsWith(target)
}
if (!isArray(target)) return false
let correct = true
const filtered = target.filter((x, index) => {
if (!correct) return false
const result = equals(x, iterable[ index ])
if (!result) correct = false
return result
})
return filtered.length === target.length
}
Tests
import { startsWith as startsWithRamda } from 'ramda'
import { compareCombinations } from './_internals/testUtils.js'
import { possibleIterables, possibleTargets } from './endsWith.spec.js'
import { startsWith } from './startsWith.js'
test('with string', () => {
expect(startsWith('foo', 'foo-bar')).toBeTrue()
expect(startsWith('baz')('foo-bar')).toBeFalse()
})
test('use R.equals with array', () => {
const list = [ { a : 1 }, { a : 2 }, { a : 3 } ]
expect(startsWith({ a : 1 }, list)).toBeFalse()
expect(startsWith([ { a : 1 } ], list)).toBeTrue()
expect(startsWith([ { a : 1 }, { a : 2 } ], list)).toBeTrue()
expect(startsWith(list, list)).toBeTrue()
expect(startsWith([ { a : 2 } ], list)).toBeFalse()
})
describe('brute force', () => {
compareCombinations({
fn : startsWith,
fnRamda : startsWithRamda,
firstInput : possibleTargets,
secondInput : possibleIterables,
callback : errorsCounters => {
expect(errorsCounters).toMatchInlineSnapshot(`
{
"ERRORS_MESSAGE_MISMATCH": 0,
"ERRORS_TYPE_MISMATCH": 0,
"RESULTS_MISMATCH": 0,
"SHOULD_NOT_THROW": 0,
"SHOULD_THROW": 0,
"TOTAL_TESTS": 32,
}
`)
},
})
})
Typescript test
import {startsWith} from 'rambda'
describe('R.startsWith - array as iterable', () => {
const target = [{a: 1}]
const iterable = [{a: 1}, {a: 2}]
it('happy', () => {
const result = startsWith(target, iterable)
result // $ExpectType boolean
})
it('curried', () => {
const result = startsWith(target)(iterable)
result // $ExpectType boolean
})
})
describe('R.startsWith - string as iterable', () => {
const target = 'foo'
const iterable = 'foo bar'
it('happy', () => {
const result = startsWith(target, iterable)
result // $ExpectType boolean
})
it('curried', () => {
const result = startsWith(target)(iterable)
result // $ExpectType boolean
})
})
subtract
Curried version of x - y
Try this R.subtract example in Rambda REPL
sum
sum(list: number[]): number
Try this R.sum example in Rambda REPL
All Typescript definitions
sum(list: number[]): number;
R.sum source
export function sum(list){
return list.reduce((prev, current) => prev + current, 0)
}
Tests
import { sum } from './sum.js'
test('happy', () => {
expect(sum([ 1, 2, 3, 4, 5 ])).toBe(15)
})
symmetricDifference
symmetricDifference<T>(x: T[], y: T[]): T[]
It returns a merged list of x
and y
with all equal elements removed.
R.equals
is used to determine equality.
Try this R.symmetricDifference example in Rambda REPL
All Typescript definitions
symmetricDifference<T>(x: T[], y: T[]): T[];
symmetricDifference<T>(x: T[]): <T>(y: T[]) => T[];
R.symmetricDifference source
import { concat } from './concat.js'
import { filter } from './filter.js'
import { includes } from './includes.js'
export function symmetricDifference(x, y){
if (arguments.length === 1){
return _y => symmetricDifference(x, _y)
}
return concat(filter(value => !includes(value, y), x),
filter(value => !includes(value, x), y))
}
Tests
import { symmetricDifference } from './symmetricDifference.js'
test('symmetricDifference', () => {
const list1 = [ 1, 2, 3, 4 ]
const list2 = [ 3, 4, 5, 6 ]
expect(symmetricDifference(list1)(list2)).toEqual([ 1, 2, 5, 6 ])
expect(symmetricDifference([], [])).toEqual([])
})
test('symmetricDifference with objects', () => {
const list1 = [ { id : 1 }, { id : 2 }, { id : 3 }, { id : 4 } ]
const list2 = [ { id : 3 }, { id : 4 }, { id : 5 }, { id : 6 } ]
expect(symmetricDifference(list1)(list2)).toEqual([
{ id : 1 },
{ id : 2 },
{ id : 5 },
{ id : 6 },
])
})
Typescript test
import {symmetricDifference} from 'rambda'
describe('R.symmetricDifference', () => {
it('happy', () => {
const list1 = [1, 2, 3, 4]
const list2 = [3, 4, 5, 6]
const result = symmetricDifference(list1, list2)
result // $ExpectType number[]
})
it('curried', () => {
const list1 = [{id: 1}, {id: 2}, {id: 3}, {id: 4}]
const list2 = [{id: 3}, {id: 4}, {id: 5}, {id: 6}]
const result = symmetricDifference(list1)(list2)
result // $ExpectType { id: number; }[]
})
})
T
T(): boolean
Try this R.T example in Rambda REPL
All Typescript definitions
T(): boolean;
R.T source
export function T(){
return true
}
tail
tail<T extends unknown[]>(input: T): T extends [any, ...infer U] ? U : [...T]
It returns all but the first element of input
.
Try this R.tail example in Rambda REPL
All Typescript definitions
tail<T extends unknown[]>(input: T): T extends [any, ...infer U] ? U : [...T];
tail(input: string): string;
R.tail source
import { drop } from './drop.js'
export function tail(listOrString){
return drop(1, listOrString)
}
Tests
import { tail } from './tail.js'
test('tail', () => {
expect(tail([ 1, 2, 3 ])).toEqual([ 2, 3 ])
expect(tail([ 1, 2 ])).toEqual([ 2 ])
expect(tail([ 1 ])).toEqual([])
expect(tail([])).toEqual([])
expect(tail('abc')).toBe('bc')
expect(tail('ab')).toBe('b')
expect(tail('a')).toBe('')
expect(tail('')).toBe('')
})
Typescript test
import {tail} from 'rambda'
describe('R.tail', () => {
it('with string', () => {
const result = tail('foo')
result // $ExpectType string
})
it('with list - one type', () => {
const result = tail([1, 2, 3])
result // $ExpectType number[]
})
it('with list - mixed types', () => {
const result = tail(['foo', 'bar', 1, 2, 3])
result // $ExpectType (string | number)[]
})
})
take
take<T>(howMany: number, input: T[]): T[]
It returns the first howMany
elements of input
.
Try this R.take example in Rambda REPL
All Typescript definitions
take<T>(howMany: number, input: T[]): T[];
take(howMany: number, input: string): string;
take<T>(howMany: number): {
<T>(input: T[]): T[];
(input: string): string;
};
R.take source
import baseSlice from './_internals/baseSlice.js'
export function take(howMany, listOrString){
if (arguments.length === 1)
return _listOrString => take(howMany, _listOrString)
if (howMany < 0) return listOrString.slice()
if (typeof listOrString === 'string') return listOrString.slice(0, howMany)
return baseSlice(
listOrString, 0, howMany
)
}
Tests
import { take } from './take.js'
test('happy', () => {
const arr = [ 'foo', 'bar', 'baz' ]
expect(take(1, arr)).toEqual([ 'foo' ])
expect(arr).toEqual([ 'foo', 'bar', 'baz' ])
expect(take(2)([ 'foo', 'bar', 'baz' ])).toEqual([ 'foo', 'bar' ])
expect(take(3, [ 'foo', 'bar', 'baz' ])).toEqual([ 'foo', 'bar', 'baz' ])
expect(take(4, [ 'foo', 'bar', 'baz' ])).toEqual([ 'foo', 'bar', 'baz' ])
expect(take(3)('rambda')).toBe('ram')
})
test('with negative index', () => {
expect(take(-1, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
expect(take(-Infinity, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
})
test('with zero index', () => {
expect(take(0, [ 1, 2, 3 ])).toEqual([])
})
Typescript test
import {take} from 'rambda'
const list = [1, 2, 3, 4]
const str = 'foobar'
const howMany = 2
describe('R.take - array', () => {
it('happy', () => {
const result = take(howMany, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = take(howMany)(list)
result // $ExpectType number[]
})
})
describe('R.take - string', () => {
it('happy', () => {
const result = take(howMany, str)
result // $ExpectType string
})
it('curried', () => {
const result = take(howMany)(str)
result // $ExpectType string
})
})
takeLast
takeLast<T>(howMany: number, input: T[]): T[]
It returns the last howMany
elements of input
.
Try this R.takeLast example in Rambda REPL
All Typescript definitions
takeLast<T>(howMany: number, input: T[]): T[];
takeLast(howMany: number, input: string): string;
takeLast<T>(howMany: number): {
<T>(input: T[]): T[];
(input: string): string;
};
R.takeLast source
import baseSlice from './_internals/baseSlice.js'
export function takeLast(howMany, listOrString){
if (arguments.length === 1)
return _listOrString => takeLast(howMany, _listOrString)
const len = listOrString.length
if (howMany < 0) return listOrString.slice()
let numValue = howMany > len ? len : howMany
if (typeof listOrString === 'string')
return listOrString.slice(len - numValue)
numValue = len - numValue
return baseSlice(
listOrString, numValue, len
)
}
Tests
import { takeLast } from './takeLast.js'
test('with arrays', () => {
expect(takeLast(1, [ 'foo', 'bar', 'baz' ])).toEqual([ 'baz' ])
expect(takeLast(2)([ 'foo', 'bar', 'baz' ])).toEqual([ 'bar', 'baz' ])
expect(takeLast(3, [ 'foo', 'bar', 'baz' ])).toEqual([ 'foo', 'bar', 'baz' ])
expect(takeLast(4, [ 'foo', 'bar', 'baz' ])).toEqual([ 'foo', 'bar', 'baz' ])
expect(takeLast(10, [ 'foo', 'bar', 'baz' ])).toEqual([ 'foo', 'bar', 'baz' ])
})
test('with strings', () => {
expect(takeLast(3, 'rambda')).toBe('bda')
expect(takeLast(7, 'rambda')).toBe('rambda')
})
test('with negative index', () => {
expect(takeLast(-1, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
expect(takeLast(-Infinity, [ 1, 2, 3 ])).toEqual([ 1, 2, 3 ])
})
Typescript test
import {takeLast} from 'rambda'
const list = [1, 2, 3, 4]
const str = 'foobar'
const howMany = 2
describe('R.takeLast - array', () => {
it('happy', () => {
const result = takeLast(howMany, list)
result // $ExpectType number[]
})
it('curried', () => {
const result = takeLast(howMany)(list)
result // $ExpectType number[]
})
})
describe('R.takeLast - string', () => {
it('happy', () => {
const result = takeLast(howMany, str)
result // $ExpectType string
})
it('curried', () => {
const result = takeLast(howMany)(str)
result // $ExpectType string
})
})
takeLastWhile
takeLastWhile(predicate: (x: string) => boolean, input: string): string
Try this R.takeLastWhile example in Rambda REPL
All Typescript definitions
takeLastWhile(predicate: (x: string) => boolean, input: string): string;
takeLastWhile(predicate: (x: string) => boolean): (input: string) => string;
takeLastWhile<T>(predicate: (x: T) => boolean, input: T[]): T[];
takeLastWhile<T>(predicate: (x: T) => boolean): <T>(input: T[]) => T[];
R.takeLastWhile source
import { isArray } from './_internals/isArray.js'
export function takeLastWhile(predicate, input){
if (arguments.length === 1){
return _input => takeLastWhile(predicate, _input)
}
if (input.length === 0) return input
let found = false
const toReturn = []
let counter = input.length
while (!found && counter){
counter--
if (predicate(input[ counter ]) === false){
found = true
} else if (!found){
toReturn.push(input[ counter ])
}
}
return isArray(input) ? toReturn.reverse() : toReturn.reverse().join('')
}
Tests
import { takeLastWhile } from './takeLastWhile.js'
const assert = require('assert')
const list = [ 1, 2, 3, 4 ]
test('happy', () => {
const predicate = x => x > 2
const result = takeLastWhile(predicate, list)
expect(result).toEqual([ 3, 4 ])
})
test('predicate is always true', () => {
const predicate = () => true
const result = takeLastWhile(predicate)(list)
expect(result).toEqual(list)
})
test('predicate is always false', () => {
const predicate = () => false
const result = takeLastWhile(predicate, list)
expect(result).toEqual([])
})
test('with string', () => {
const result = takeLastWhile(x => x !== 'F', 'FOOBAR')
expect(result).toBe('OOBAR')
})
Typescript test
import {takeLastWhile} from 'rambda'
const list = [1, 2, 3]
const str = 'FOO'
describe('R.takeLastWhile', () => {
it('with array', () => {
const result = takeLastWhile(x => x > 1, list)
result // $ExpectType number[]
})
it('with array - curried', () => {
const result = takeLastWhile(x => x > 1, list)
result // $ExpectType number[]
})
it('with string', () => {
const result = takeLastWhile(x => x !== 'F', str)
result // $ExpectType string
})
it('with string - curried', () => {
const result = takeLastWhile(x => x !== 'F')(str)
result // $ExpectType string
})
})
takeWhile
Try this R.takeWhile example in Rambda REPL
tap
tap<T>(fn: (x: T) => void, input: T): T
It applies function fn
to input x
and returns x
.
One use case is debuging in the middle of R.compose
.
Try this R.tap example in Rambda REPL
All Typescript definitions
tap<T>(fn: (x: T) => void, input: T): T;
tap<T>(fn: (x: T) => void): (input: T) => T;
R.tap source
export function tap(fn, x){
if (arguments.length === 1) return _x => tap(fn, _x)
fn(x)
return x
}
Tests
import { tap } from './tap.js'
test('tap', () => {
let a = 1
const sayX = x => a = x
expect(tap(sayX, 100)).toBe(100)
expect(tap(sayX)(100)).toBe(100)
expect(a).toBe(100)
})
Typescript test
import {tap, pipe} from 'rambda'
describe('R.tap', () => {
it('happy', () => {
pipe(
tap(x => {
x // $ExpectType number[]
}),
(x: number[]) => x.length
)([1, 2])
})
})
test
test(regExpression: RegExp): (str: string) => boolean
It determines whether str
matches regExpression
.
Try this R.test example in Rambda REPL
All Typescript definitions
test(regExpression: RegExp): (str: string) => boolean;
test(regExpression: RegExp, str: string): boolean;
R.test source
export function test(pattern, str){
if (arguments.length === 1) return _str => test(pattern, _str)
if (typeof pattern === 'string'){
throw new TypeError(`R.test requires a value of type RegExp as its first argument; received "${ pattern }"`)
}
return str.search(pattern) !== -1
}
Tests
import { test as testMethod } from './test.js'
test('happy', () => {
expect(testMethod(/^x/, 'xyz')).toBeTrue()
expect(testMethod(/^y/)('xyz')).toBeFalse()
})
test('throws if first argument is not regex', () => {
expect(() => testMethod('foo', 'bar')).toThrowErrorMatchingInlineSnapshot('"R.test requires a value of type RegExp as its first argument; received "foo""')
})
Typescript test
import {test} from 'rambda'
const input = 'foo '
const regex = /foo/
describe('R.test', () => {
it('happy', () => {
const result = test(regex, input)
result // $ExpectType boolean
})
it('curried', () => {
const result = test(regex)(input)
result // $ExpectType boolean
})
})
times
times<T>(fn: (i: number) => T, howMany: number): T[]
It returns the result of applying function fn
over members of range array.
The range array includes numbers between 0
and howMany
(exclusive).
Try this R.times example in Rambda REPL
All Typescript definitions
times<T>(fn: (i: number) => T, howMany: number): T[];
times<T>(fn: (i: number) => T): (howMany: number) => T[];
R.times source
import { isInteger } from './_internals/isInteger.js'
import { map } from './map.js'
import { range } from './range.js'
export function times(fn, howMany){
if (arguments.length === 1) return _howMany => times(fn, _howMany)
if (!isInteger(howMany) || howMany < 0){
throw new RangeError('n must be an integer')
}
return map(fn, range(0, howMany))
}
Tests
import assert from 'assert'
import { identity } from './identity.js'
import { times } from './times.js'
test('happy', () => {
const result = times(identity, 5)
expect(result).toEqual([ 0, 1, 2, 3, 4 ])
})
test('with bad input', () => {
assert.throws(() => {
times(3)('cheers!')
}, RangeError)
assert.throws(() => {
times(identity, -1)
}, RangeError)
})
test('curry', () => {
const result = times(identity)(5)
expect(result).toEqual([ 0, 1, 2, 3, 4 ])
})
Typescript test
import {times, identity} from 'rambda'
describe('R.times', () => {
it('happy', () => {
const result = times(identity, 5)
result // $ExpectType number[]
})
})
toLower
toLower<S extends string>(str: S): Lowercase<S>
Try this R.toLower example in Rambda REPL
All Typescript definitions
toLower<S extends string>(str: S): Lowercase<S>;
toLower(str: string): string;
R.toLower source
export function toLower(str){
return str.toLowerCase()
}
Tests
import { toLower } from './toLower.js'
test('toLower', () => {
expect(toLower('FOO|BAR|BAZ')).toBe('foo|bar|baz')
})
toPairs
toPairs<O extends object, K extends Extract<keyof O, string | number>>(obj: O): Array<{ [key in K]: [`${key}`, O[key]] }[K]>
It transforms an object to a list.
Try this R.toPairs example in Rambda REPL
All Typescript definitions
toPairs<O extends object, K extends Extract<keyof O, string | number>>(obj: O): Array<{ [key in K]: [`${key}`, O[key]] }[K]>;
toPairs<S>(obj: Record<string | number, S>): Array<[string, S]>;
R.toPairs source
export function toPairs(obj){
return Object.entries(obj)
}
Tests
import { toPairs } from './toPairs.js'
const obj = {
a : 1,
b : 2,
c : [ 3, 4 ],
}
const expected = [
[ 'a', 1 ],
[ 'b', 2 ],
[ 'c', [ 3, 4 ] ],
]
test('happy', () => {
expect(toPairs(obj)).toEqual(expected)
})
Typescript test
import {toPairs} from 'rambda'
const obj = {
a: 1,
b: 2,
c: [3, 4],
}
describe('R.toPairs', () => {
it('happy', () => {
const result = toPairs(obj)
result // $ExpectType (["b", number] | ["a", number] | ["c", number[]])[]
})
})
toString
toString(x: unknown): string
Try this R.toString example in Rambda REPL
All Typescript definitions
toString(x: unknown): string;
R.toString source
export function toString(x){
return x.toString()
}
Tests
import { toString } from './toString.js'
test('happy', () => {
expect(toString([ 1, 2, 3 ])).toBe('1,2,3')
})
toUpper
toUpper<S extends string>(str: S): Uppercase<S>
Try this R.toUpper example in Rambda REPL
All Typescript definitions
toUpper<S extends string>(str: S): Uppercase<S>;
toUpper(str: string): string;
R.toUpper source
export function toUpper(str){
return str.toUpperCase()
}
Tests
import { toUpper } from './toUpper.js'
test('toUpper', () => {
expect(toUpper('foo|bar|baz')).toBe('FOO|BAR|BAZ')
})
transpose
transpose<T>(list: (T[])[]): (T[])[]
Try this R.transpose example in Rambda REPL
All Typescript definitions
transpose<T>(list: (T[])[]): (T[])[];
R.transpose source
import { isArray } from './_internals/isArray.js'
export function transpose(array){
return array.reduce((acc, el) => {
el.forEach((nestedEl, i) =>
isArray(acc[ i ]) ? acc[ i ].push(nestedEl) : acc.push([ nestedEl ]))
return acc
}, [])
}
Tests
import { transpose } from './transpose.js'
test('happy', () => {
const input = [
[ 'a', 1 ],
[ 'b', 2 ],
[ 'c', 3 ],
]
expect(transpose(input)).toEqual([
[ 'a', 'b', 'c' ],
[ 1, 2, 3 ],
])
})
test('when rows are shorter', () => {
const actual = transpose([ [ 10, 11 ], [ 20 ], [], [ 30, 31, 32 ] ])
const expected = [ [ 10, 20, 30 ], [ 11, 31 ], [ 32 ] ]
expect(actual).toEqual(expected)
})
test('with empty array', () => {
expect(transpose([])).toEqual([])
})
test('array with falsy values', () => {
const actual = transpose([
[ true, false, undefined, null ],
[ null, undefined, false, true ],
])
const expected = [
[ true, null ],
[ false, undefined ],
[ undefined, false ],
[ null, true ],
]
expect(actual).toEqual(expected)
})
Typescript test
import {transpose} from 'rambda'
const input = [
['a', 1],
['b', 2],
['c', 3],
]
describe('R.transpose', () => {
it('happy', () => {
const result = transpose(input)
result // $ExpectType (string | number)[][]
})
})
trim
trim(str: string): string
Try this R.trim example in Rambda REPL
All Typescript definitions
trim(str: string): string;
R.trim source
export function trim(str){
return str.trim()
}
Tests
import { trim } from './trim.js'
test('trim', () => {
expect(trim(' foo ')).toBe('foo')
})
tryCatch
It returns function that runs fn
in try/catch
block. If there was an error, then fallback
is used to return the result. Note that fn
can be value or asynchronous/synchronous function(unlike Ramda
where fallback can only be a synchronous function).
Try this R.tryCatch example in Rambda REPL
type
It accepts any input and it returns its type.
Try this R.type example in Rambda REPL
unapply
unapply<T = any>(fn: (args: any[]) => T): (...args: any[]) => T
It calls a function fn
with the list of values of the returned function.
R.unapply
is the opposite of R.apply
method.
Try this R.unapply example in Rambda REPL
All Typescript definitions
unapply<T = any>(fn: (args: any[]) => T): (...args: any[]) => T;
R.unapply source
export function unapply(fn){
return function (...args){
return fn.call(this, args)
}
}
Tests
import { apply } from './apply.js'
import { converge } from './converge.js'
import { identity } from './identity.js'
import { prop } from './prop.js'
import { sum } from './sum.js'
import { unapply } from './unapply.js'
test('happy', () => {
const fn = unapply(identity)
expect(fn(
1, 2, 3
)).toEqual([ 1, 2, 3 ])
expect(fn()).toEqual([])
})
test('returns a function which is always passed one argument', () => {
const fn = unapply(function (){
return arguments.length
})
expect(fn('x')).toBe(1)
expect(fn('x', 'y')).toBe(1)
expect(fn(
'x', 'y', 'z'
)).toBe(1)
})
test('forwards arguments to decorated function as an array', () => {
const fn = unapply(xs => '[' + xs + ']')
expect(fn(2)).toBe('[2]')
expect(fn(2, 4)).toBe('[2,4]')
expect(fn(
2, 4, 6
)).toBe('[2,4,6]')
})
test('returns a function with length 0', () => {
const fn = unapply(identity)
expect(fn).toHaveLength(0)
})
test('is the inverse of R.apply', () => {
let a, b, c, d, e, f, g, n
const rand = function (){
return Math.floor(200 * Math.random()) - 100
}
f = Math.max
g = unapply(apply(f))
n = 1
while (n <= 100){
a = rand()
b = rand()
c = rand()
d = rand()
e = rand()
expect(f(
a, b, c, d, e
)).toEqual(g(
a, b, c, d, e
))
n += 1
}
f = function (xs){
return '[' + xs + ']'
}
g = apply(unapply(f))
n = 1
while (n <= 100){
a = rand()
b = rand()
c = rand()
d = rand()
e = rand()
expect(f([ a, b, c, d, e ])).toEqual(g([ a, b, c, d, e ]))
n += 1
}
})
test('it works with converge', () => {
const fn = unapply(sum)
const convergeFn = converge(fn, [ prop('a'), prop('b'), prop('c') ])
const obj = {
a : 1337,
b : 42,
c : 1,
}
const expected = 1337 + 42 + 1
expect(convergeFn(obj)).toEqual(expected)
})
Typescript test
import {join, unapply, sum} from 'rambda'
describe('R.unapply', () => {
it('happy', () => {
const fn = unapply(sum)
fn(1, 2, 3) // $ExpectType number
})
it('joins a string', () => {
const fn = unapply(join(''))
fn('s', 't', 'r', 'i', 'n', 'g') // $ExpectType string
})
})
union
union<T>(x: T[], y: T[]): T[]
It takes two lists and return a new list containing a merger of both list with removed duplicates.
R.equals
is used to compare for duplication.
Try this R.union example in Rambda REPL
All Typescript definitions
union<T>(x: T[], y: T[]): T[];
union<T>(x: T[]): (y: T[]) => T[];
R.union source
import { cloneList } from './_internals/cloneList.js'
import { includes } from './includes.js'
export function union(x, y){
if (arguments.length === 1) return _y => union(x, _y)
const toReturn = cloneList(x)
y.forEach(yInstance => {
if (!includes(yInstance, x)) toReturn.push(yInstance)
})
return toReturn
}
Tests
import { union } from './union.js'
test('happy', () => {
expect(union([ 1, 2 ], [ 2, 3 ])).toEqual([ 1, 2, 3 ])
})
test('with list of objects', () => {
const list1 = [ { a : 1 }, { a : 2 } ]
const list2 = [ { a : 2 }, { a : 3 } ]
const result = union(list1)(list2)
})
Typescript test
import {union} from 'rambda'
describe('R.union', () => {
it('happy', () => {
const result = union([1, 2], [2, 3])
result // $ExpectType number[]
})
it('with array of objects - case 1', () => {
const list1 = [{a: 1}, {a: 2}]
const list2 = [{a: 2}, {a: 3}]
const result = union(list1, list2)
result // $ExpectType { a: number; }[]
})
it('with array of objects - case 2', () => {
const list1 = [{a: 1, b: 1}, {a: 2}]
const list2 = [{a: 2}, {a: 3, b: 3}]
const result = union(list1, list2)
result[0].a // $ExpectType number
result[0].b // $ExpectType number | undefined
})
})
describe('R.union - curried', () => {
it('happy', () => {
const result = union([1, 2])([2, 3])
result // $ExpectType number[]
})
it('with array of objects - case 1', () => {
const list1 = [{a: 1}, {a: 2}]
const list2 = [{a: 2}, {a: 3}]
const result = union(list1)(list2)
result // $ExpectType { a: number; }[]
})
it('with array of objects - case 2', () => {
const list1 = [{a: 1, b: 1}, {a: 2}]
const list2 = [{a: 2}, {a: 3, b: 3}]
const result = union(list1)(list2)
result[0].a // $ExpectType number
result[0].b // $ExpectType number | undefined
})
})
uniq
uniq<T>(list: T[]): T[]
It returns a new array containing only one copy of each element of list
.
R.equals
is used to determine equality.
Try this R.uniq example in Rambda REPL
All Typescript definitions
uniq<T>(list: T[]): T[];
R.uniq source
import { _Set } from './_internals/set.js'
export function uniq(list){
const set = new _Set()
const willReturn = []
list.forEach(item => {
if (set.checkUniqueness(item)){
willReturn.push(item)
}
})
return willReturn
}
Tests
import { uniq } from './uniq.js'
test('happy', () => {
const list = [ 1, 2, 3, 3, 3, 1, 2, 0 ]
expect(uniq(list)).toEqual([ 1, 2, 3, 0 ])
})
test('with object', () => {
const list = [ { a : 1 }, { a : 2 }, { a : 1 }, { a : 2 } ]
expect(uniq(list)).toEqual([ { a : 1 }, { a : 2 } ])
})
test('with nested array', () => {
expect(uniq([ [ 42 ], [ 42 ] ])).toEqual([ [ 42 ] ])
})
test('with booleans', () => {
expect(uniq([ [ false ], [ false ], [ true ] ])).toEqual([ [ false ], [ true ] ])
})
test('with falsy values', () => {
expect(uniq([ undefined, null ])).toEqual([ undefined, null ])
})
test('can distinct between string and number', () => {
expect(uniq([ 1, '1' ])).toEqual([ 1, '1' ])
})
Typescript test
import {uniq} from 'rambda'
describe('R.uniq', () => {
it('happy', () => {
const result = uniq([1, 2, 3, 3, 3, 1, 2, 0])
result // $ExpectType number[]
})
})
uniqBy
Try this R.uniqBy example in Rambda REPL
uniqWith
uniqWith<T, U>(predicate: (x: T, y: T) => boolean, list: T[]): T[]
It returns a new array containing only one copy of each element in list
according to predicate
function.
This predicate should return true, if two elements are equal.
Try this R.uniqWith example in Rambda REPL
All Typescript definitions
uniqWith<T, U>(predicate: (x: T, y: T) => boolean, list: T[]): T[];
uniqWith<T, U>(predicate: (x: T, y: T) => boolean): (list: T[]) => T[];
R.uniqWith source
function includesWith(
predicate, target, list
){
let willReturn = false
let index = -1
while (++index < list.length && !willReturn){
const value = list[ index ]
if (predicate(target, value)){
willReturn = true
}
}
return willReturn
}
export function uniqWith(predicate, list){
if (arguments.length === 1) return _list => uniqWith(predicate, _list)
let index = -1
const willReturn = []
while (++index < list.length){
const value = list[ index ]
if (!includesWith(
predicate, value, willReturn
)){
willReturn.push(value)
}
}
return willReturn
}
Tests
import { uniqWith as uniqWithRamda } from 'ramda'
import { uniqWith } from './uniqWith.js'
const list = [ { a : 1 }, { a : 1 } ]
test('happy', () => {
const fn = (x, y) => x.a === y.a
const result = uniqWith(fn, list)
expect(result).toEqual([ { a : 1 } ])
})
test('with list of strings', () => {
const fn = (x, y) => x.length === y.length
const list = [ '0', '11', '222', '33', '4', '55' ]
const result = uniqWith(fn)(list)
const resultRamda = uniqWithRamda(fn, list)
expect(result).toEqual([ '0', '11', '222' ])
expect(resultRamda).toEqual([ '0', '11', '222' ])
})
Typescript test
import {uniqWith} from 'rambda'
describe('R.uniqWith', () => {
it('happy', () => {
const list = [{a: 1}, {a: 1}]
const fn = (x: any, y: any) => x.a === y.a
const result = uniqWith(fn, list)
result // $ExpectType { a: number; }[]
})
})
unless
unless<T, U>(predicate: (x: T) => boolean, whenFalseFn: (x: T) => U, x: T): T | U
The method returns function that will be called with argument input
.
If predicate(input)
returns false
, then the end result will be the outcome of whenFalse(input)
.
In the other case, the final output will be the input
itself.
Try this R.unless example in Rambda REPL
All Typescript definitions
unless<T, U>(predicate: (x: T) => boolean, whenFalseFn: (x: T) => U, x: T): T | U;
unless<T, U>(predicate: (x: T) => boolean, whenFalseFn: (x: T) => U): (x: T) => T | U;
unless<T>(predicate: (x: T) => boolean, whenFalseFn: (x: T) => T, x: T): T;
unless<T>(predicate: (x: T) => boolean, whenFalseFn: (x: T) => T): (x: T) => T;
R.unless source
export function unless(predicate, whenFalse){
if (arguments.length === 1){
return _whenFalse => unless(predicate, _whenFalse)
}
return input => predicate(input) ? input : whenFalse(input)
}
Tests
import { inc } from './inc.js'
import { isNil } from './isNil.js'
import { unless } from './unless.js'
test('happy', () => {
const safeInc = unless(isNil, inc)
expect(safeInc(null)).toBeNull()
expect(safeInc(1)).toBe(2)
})
test('curried', () => {
const safeIncCurried = unless(isNil)(inc)
expect(safeIncCurried(null)).toBeNull()
})
Typescript test
import {unless, inc} from 'rambda'
describe('R.unless', () => {
it('happy', () => {
const fn = unless(x => x > 5, inc)
const result = fn(1)
result // $ExpectType number
})
it('with one explicit type', () => {
const result = unless(
x => {
x // $ExpectType number
return x > 5
},
x => {
x // $ExpectType number
return x + 1
},
1
)
result // $ExpectType number
})
it('with two different explicit types', () => {
const result = unless(
x => {
x // $ExpectType number
return x > 5
},
x => {
x // $ExpectType number
return `${x}-foo`
},
1
)
result // $ExpectType string | number
})
})
describe('R.unless - curried', () => {
it('happy', () => {
const fn = unless(x => x > 5, inc)
const result = fn(1)
result // $ExpectType number
})
it('with one explicit type', () => {
const fn = unless<number>(
x => {
x // $ExpectType number
return x > 5
},
x => {
x // $ExpectType number
return x + 1
}
)
const result = fn(1)
result // $ExpectType number
})
it('with two different explicit types', () => {
const fn = unless<number, string>(
x => {
x // $ExpectType number
return x > 5
},
x => {
x // $ExpectType number
return `${x}-foo`
}
)
const result = fn(1)
result // $ExpectType string | number
})
})
unwind
Try this R.unwind example in Rambda REPL
update
update<T>(index: number, newValue: T, list: T[]): T[]
It returns a copy of list
with updated element at index
with newValue
.
Try this R.update example in Rambda REPL
All Typescript definitions
update<T>(index: number, newValue: T, list: T[]): T[];
update<T>(index: number, newValue: T): (list: T[]) => T[];
R.update source
import { cloneList } from './_internals/cloneList.js'
import { curry } from './curry.js'
export function updateFn(
index, newValue, list
){
const clone = cloneList(list)
if (index === -1) return clone.fill(newValue, index)
return clone.fill(
newValue, index, index + 1
)
}
export const update = curry(updateFn)
Tests
import { update } from './update.js'
const list = [ 1, 2, 3 ]
test('happy', () => {
const newValue = 8
const index = 1
const result = update(
index, newValue, list
)
const curriedResult = update(index, newValue)(list)
const tripleCurriedResult = update(index)(newValue)(list)
const expected = [ 1, 8, 3 ]
expect(result).toEqual(expected)
expect(curriedResult).toEqual(expected)
expect(tripleCurriedResult).toEqual(expected)
})
test('list has no such index', () => {
const newValue = 8
const index = 10
const result = update(
index, newValue, list
)
expect(result).toEqual(list)
})
test('with negative index', () => {
expect(update(
-1, 10, [ 1 ]
)).toEqual([ 10 ])
expect(update(
-1, 10, []
)).toEqual([])
expect(update(
-1, 10, list
)).toEqual([ 1, 2, 10 ])
expect(update(
-2, 10, list
)).toEqual([ 1, 10, 3 ])
expect(update(
-3, 10, list
)).toEqual([ 10, 2, 3 ])
})
Typescript test
import {update} from 'rambda'
describe('R.update', () => {
it('happy', () => {
const result = update(1, 0, [1, 2, 3])
result // $ExpectType number[]
})
})
values
values<T extends object, K extends keyof T>(obj: T): T[K][]
With correct input, this is nothing more than Object.values(Record<string, unknown>)
. If obj
is not an object, then it returns an empty array.
Try this R.values example in Rambda REPL
All Typescript definitions
values<T extends object, K extends keyof T>(obj: T): T[K][];
R.values source
import { type } from './type.js'
export function values(obj){
if (type(obj) !== 'Object') return []
return Object.values(obj)
}
Tests
import { values } from './values.js'
test('happy', () => {
expect(values({
a : 1,
b : 2,
c : 3,
})).toEqual([ 1, 2, 3 ])
})
test('with bad input', () => {
expect(values(null)).toEqual([])
expect(values(undefined)).toEqual([])
expect(values(55)).toEqual([])
expect(values('foo')).toEqual([])
expect(values(true)).toEqual([])
expect(values(false)).toEqual([])
expect(values(NaN)).toEqual([])
expect(values(Infinity)).toEqual([])
expect(values([])).toEqual([])
})
Typescript test
import {values} from 'rambda'
describe('R.values', () => {
it('happy', () => {
const result = values({
a: 1,
b: 2,
c: 3,
})
result // $ExpectType number[]
})
})
view
view<T, U>(lens: Lens): (target: T) => U
It returns the value of lens
focus over target
object.
Try this R.view example in Rambda REPL
All Typescript definitions
view<T, U>(lens: Lens): (target: T) => U;
view<T, U>(lens: Lens, target: T): U;
R.view source
const Const = x => ({
x,
map : fn => Const(x),
})
export function view(lens, target){
if (arguments.length === 1) return _target => view(lens, _target)
return lens(Const)(target).x
}
Tests
import { assoc } from './assoc.js'
import { lens } from './lens.js'
import { prop } from './prop.js'
import { view } from './view.js'
const testObject = { foo : 'Led Zeppelin' }
const assocLens = lens(prop('foo'), assoc('foo'))
test('happy', () => {
expect(view(assocLens, testObject)).toBe('Led Zeppelin')
})
Typescript test
import {lens, view, assoc} from 'rambda'
interface Input {
foo: string,
}
const testObject: Input = {
foo: 'Led Zeppelin',
}
const fooLens = lens<Input, string, string>((x: Input) => {
return x.foo
}, assoc('foo'))
describe('R.view', () => {
it('happt', () => {
const result = view<Input, string>(fooLens, testObject)
result // $ExpectType string
})
})
when
when<T, U>(predicate: (x: T) => boolean, whenTrueFn: (a: T) => U, input: T): T | U
All Typescript definitions
when<T, U>(predicate: (x: T) => boolean, whenTrueFn: (a: T) => U, input: T): T | U;
when<T, U>(predicate: (x: T) => boolean, whenTrueFn: (a: T) => U): (input: T) => T | U;
when<T, U>(predicate: (x: T) => boolean): ((whenTrueFn: (a: T) => U) => (input: T) => T | U);
R.when source
import { curry } from './curry.js'
function whenFn(
predicate, whenTrueFn, input
){
if (!predicate(input)) return input
return whenTrueFn(input)
}
export const when = curry(whenFn)
Tests
import { add } from './add.js'
import { when } from './when.js'
const predicate = x => typeof x === 'number'
test('happy', () => {
const fn = when(predicate, add(11))
expect(fn(11)).toBe(22)
expect(fn('foo')).toBe('foo')
})
Typescript test
import {when} from 'rambda'
const predicate = (x: number) => x > 2
const whenTrueFn = (x: number) => String(x)
describe('R.when', () => {
it('happy', () => {
const result = when(predicate, whenTrueFn, 1)
result // $ExpectType string | 1
})
it('curry 1', () => {
const fn = when(predicate, whenTrueFn)
const result = fn(1)
result // $ExpectType string | number
})
it('curry 2 require explicit types', () => {
const fn = when<number, string>(predicate)(whenTrueFn)
const result = fn(1)
result // $ExpectType string | number
})
})
where
where<T, U>(conditions: T, input: U): boolean
It returns true
if all each property in conditions
returns true
when applied to corresponding property in input
object.
Try this R.where example in Rambda REPL
All Typescript definitions
where<T, U>(conditions: T, input: U): boolean;
where<T>(conditions: T): <U>(input: U) => boolean;
where<ObjFunc2, U>(conditions: ObjFunc2, input: U): boolean;
where<ObjFunc2>(conditions: ObjFunc2): <U>(input: U) => boolean;
R.where source
export function where(conditions, input){
if (input === undefined){
return _input => where(conditions, _input)
}
let flag = true
for (const prop in conditions){
if (!flag) continue
const result = conditions[ prop ](input[ prop ])
if (flag && result === false){
flag = false
}
}
return flag
}
Tests
import { equals } from './equals.js'
import { where } from './where.js'
test('when true', () => {
const result = where({
a : equals('foo'),
b : equals('bar'),
},
{
a : 'foo',
b : 'bar',
x : 11,
y : 19,
})
expect(result).toBeTrue()
})
test('when false | early exit', () => {
let counter = 0
const equalsFn = expected => input => {
console.log(expected, 'expected')
counter++
return input === expected
}
const predicate = where({
a : equalsFn('foo'),
b : equalsFn('baz'),
})
expect(predicate({
a : 'notfoo',
b : 'notbar',
})).toBeFalse()
expect(counter).toBe(1)
})
Typescript test
import {where, equals} from 'rambda'
describe('R.where', () => {
it('happy', () => {
const input = {
a: 'foo',
b: 'bar',
x: 11,
y: 19,
}
const conditions = {
a: equals('foo'),
b: equals('bar'),
}
const result = where(conditions, input)
const curriedResult = where(conditions)(input)
result // $ExpectType boolean
curriedResult // $ExpectType boolean
})
})
whereAny
Same as R.where
, but it will return true
if at least one condition check returns true
.
Try this R.whereAny example in Rambda REPL
whereEq
whereEq<T, U>(condition: T, input: U): boolean
It will return true
if all of input
object fully or partially include rule
object.
R.equals
is used to determine equality.
Try this R.whereEq example in Rambda REPL
All Typescript definitions
whereEq<T, U>(condition: T, input: U): boolean;
whereEq<T>(condition: T): <U>(input: U) => boolean;
R.whereEq source
import { equals } from './equals.js'
import { filter } from './filter.js'
export function whereEq(condition, input){
if (arguments.length === 1){
return _input => whereEq(condition, _input)
}
const result = filter((conditionValue, conditionProp) =>
equals(conditionValue, input[ conditionProp ]),
condition)
return Object.keys(result).length === Object.keys(condition).length
}
Tests
import { whereEq } from './whereEq.js'
test('when true', () => {
const condition = { a : 1 }
const input = {
a : 1,
b : 2,
}
const result = whereEq(condition, input)
const expectedResult = true
expect(result).toEqual(expectedResult)
})
test('when false', () => {
const condition = { a : 1 }
const input = { b : 2 }
const result = whereEq(condition, input)
const expectedResult = false
expect(result).toEqual(expectedResult)
})
test('with nested object', () => {
const condition = { a : { b : 1 } }
const input = {
a : { b : 1 },
c : 2,
}
const result = whereEq(condition)(input)
const expectedResult = true
expect(result).toEqual(expectedResult)
})
test('with wrong input', () => {
const condition = { a : { b : 1 } }
expect(() => whereEq(condition, null)).toThrowErrorMatchingInlineSnapshot('"Cannot read properties of null (reading \'a\')"')
})
Typescript test
import {whereEq} from 'rambda'
describe('R.whereEq', () => {
it('happy', () => {
const result = whereEq({a: {b: 2}}, {b: 2})
const curriedResult = whereEq({a: {b: 2}})({b: 2})
result // $ExpectType boolean
curriedResult // $ExpectType boolean
})
})
without
without<T>(matchAgainst: T[], source: T[]): T[]
It will return a new array, based on all members of source
list that are not part of matchAgainst
list.
R.equals
is used to determine equality.
Try this R.without example in Rambda REPL
All Typescript definitions
without<T>(matchAgainst: T[], source: T[]): T[];
without<T>(matchAgainst: T[]): (source: T[]) => T[];
R.without source
import { _indexOf } from './equals.js'
import { reduce } from './reduce.js'
export function without(matchAgainst, source){
if (source === undefined){
return _source => without(matchAgainst, _source)
}
return reduce(
(prev, current) =>
_indexOf(current, matchAgainst) > -1 ? prev : prev.concat(current),
[],
source
)
}
Tests
import { without as withoutRamda } from 'ramda'
import { without } from './without.js'
test('should return a new list without values in the first argument', () => {
const itemsToOmit = [ 'A', 'B', 'C' ]
const collection = [ 'A', 'B', 'C', 'D', 'E', 'F' ]
expect(without(itemsToOmit, collection)).toEqual([ 'D', 'E', 'F' ])
expect(without(itemsToOmit)(collection)).toEqual([ 'D', 'E', 'F' ])
})
test('with list of objects', () => {
const itemsToOmit = [ { a : 1 }, { c : 3 } ]
const collection = [ { a : 1 }, { b : 2 }, { c : 3 }, { d : 4 } ]
const expected = [ { b : 2 }, { d : 4 } ]
expect(without(itemsToOmit, collection)).toEqual(expected)
expect(withoutRamda(itemsToOmit, collection)).toEqual(expected)
})
test('ramda accepts string as target input while rambda throws', () => {
expect(withoutRamda('0:1', [ '0', '0:1' ])).toEqual([])
expect(() =>
without('0:1', [ '0', '0:1' ])).toThrowErrorMatchingInlineSnapshot('"Cannot read property \'indexOf\' of 0:1"')
expect(without([ '0:1' ], [ '0', '0:1' ])).toEqual([ '0' ])
})
test('ramda test', () => {
expect(without([ 1, 2 ])([ 1, 2, 1, 3, 4 ])).toEqual([ 3, 4 ])
})
Typescript test
import {without} from 'rambda'
const itemsToOmit = ['A', 'B', 'C']
const collection = ['A', 'B', 'C', 'D', 'E', 'F']
describe('R.without', () => {
it('happy', () => {
const result = without(itemsToOmit, collection)
result // $ExpectType string[]
})
it('curried', () => {
const result = without(itemsToOmit)(collection)
result // $ExpectType string[]
})
})
xor
xor(x: boolean, y: boolean): boolean
Logical XOR
Try this R.xor example in Rambda REPL
All Typescript definitions
xor(x: boolean, y: boolean): boolean;
xor(y: boolean): (y: boolean) => boolean;
R.xor source
export function xor(a, b){
if (arguments.length === 1) return _b => xor(a, _b)
return Boolean(a) && !b || Boolean(b) && !a
}
Tests
import { xor } from './xor.js'
test('compares two values with exclusive or', () => {
expect(xor(true, true)).toBeFalse()
expect(xor(true, false)).toBeTrue()
expect(xor(false, true)).toBeTrue()
expect(xor(false, false)).toBeFalse()
})
test('when both values are truthy, it should return false', () => {
expect(xor(true, 'foo')).toBeFalse()
expect(xor(42, true)).toBeFalse()
expect(xor('foo', 42)).toBeFalse()
expect(xor({}, true)).toBeFalse()
expect(xor(true, [])).toBeFalse()
expect(xor([], {})).toBeFalse()
expect(xor(new Date(), true)).toBeFalse()
expect(xor(true, Infinity)).toBeFalse()
expect(xor(Infinity, new Date())).toBeFalse()
})
test('when both values are falsy, it should return false', () => {
expect(xor(null, false)).toBeFalse()
expect(xor(false, undefined)).toBeFalse()
expect(xor(undefined, null)).toBeFalse()
expect(xor(0, false)).toBeFalse()
expect(xor(false, NaN)).toBeFalse()
expect(xor(NaN, 0)).toBeFalse()
expect(xor('', false)).toBeFalse()
})
test('when one argument is truthy and the other is falsy, it should return true', () => {
expect(xor('foo', null)).toBeTrue()
expect(xor(null, 'foo')).toBeTrue()
expect(xor(undefined, 42)).toBeTrue()
expect(xor(42, undefined)).toBeTrue()
expect(xor(Infinity, NaN)).toBeTrue()
expect(xor(NaN, Infinity)).toBeTrue()
expect(xor({}, '')).toBeTrue()
expect(xor('', {})).toBeTrue()
expect(xor(new Date(), 0)).toBeTrue()
expect(xor(0, new Date())).toBeTrue()
expect(xor([], null)).toBeTrue()
expect(xor(undefined, [])).toBeTrue()
})
Typescript test
import {xor} from 'rambda'
describe('R.xor', () => {
it('happy', () => {
xor(true, false) // $ExpectType boolean
})
it('curry', () => {
xor(true)(false) // $ExpectType boolean
})
})
zip
zip<K, V>(x: K[], y: V[]): KeyValuePair<K, V>[]
It will return a new array containing tuples of equally positions items from both x
and y
lists.
The returned list will be truncated to match the length of the shortest supplied list.
Try this R.zip example in Rambda REPL
All Typescript definitions
zip<K, V>(x: K[], y: V[]): KeyValuePair<K, V>[];
zip<K>(x: K[]): <V>(y: V[]) => KeyValuePair<K, V>[];
R.zip source
export function zip(left, right){
if (arguments.length === 1) return _right => zip(left, _right)
const result = []
const length = Math.min(left.length, right.length)
for (let i = 0; i < length; i++){
result[ i ] = [ left[ i ], right[ i ] ]
}
return result
}
Tests
import { zip } from './zip.js'
const array1 = [ 1, 2, 3 ]
const array2 = [ 'A', 'B', 'C' ]
test('should return an array', () => {
const actual = zip(array1)(array2)
expect(actual).toBeInstanceOf(Array)
})
test('should return and array or tuples', () => {
const expected = [
[ 1, 'A' ],
[ 2, 'B' ],
[ 3, 'C' ],
]
const actual = zip(array1, array2)
expect(actual).toEqual(expected)
})
test('should truncate result to length of shorted input list', () => {
const expectedA = [
[ 1, 'A' ],
[ 2, 'B' ],
]
const actualA = zip([ 1, 2 ], array2)
expect(actualA).toEqual(expectedA)
const expectedB = [
[ 1, 'A' ],
[ 2, 'B' ],
]
const actualB = zip(array1, [ 'A', 'B' ])
expect(actualB).toEqual(expectedB)
})
Typescript test
import {zip} from 'rambda'
describe('R.zip', () => {
it('happy', () => {
const array1 = [1, 2, 3]
const array2 = ['A', 'B', 'C']
const result = zip(array1)(array2)
result // $ExpectType KeyValuePair<number, string>[]
})
})
zipObj
zipObj<T, K extends string>(keys: K[], values: T[]): { [P in K]: T }
It will return a new object with keys of keys
array and values of values
array.
Try this R.zipObj example in Rambda REPL
All Typescript definitions
zipObj<T, K extends string>(keys: K[], values: T[]): { [P in K]: T };
zipObj<K extends string>(keys: K[]): <T>(values: T[]) => { [P in K]: T };
zipObj<T, K extends number>(keys: K[], values: T[]): { [P in K]: T };
zipObj<K extends number>(keys: K[]): <T>(values: T[]) => { [P in K]: T };
R.zipObj source
import { take } from './take.js'
export function zipObj(keys, values){
if (arguments.length === 1) return yHolder => zipObj(keys, yHolder)
return take(values.length, keys).reduce((
prev, xInstance, i
) => {
prev[ xInstance ] = values[ i ]
return prev
}, {})
}
Tests
import { equals } from './equals.js'
import { zipObj } from './zipObj.js'
test('zipObj', () => {
expect(zipObj([ 'a', 'b', 'c' ], [ 1, 2, 3 ])).toEqual({
a : 1,
b : 2,
c : 3,
})
})
test('0', () => {
expect(zipObj([ 'a', 'b' ])([ 1, 2, 3 ])).toEqual({
a : 1,
b : 2,
})
})
test('1', () => {
expect(zipObj([ 'a', 'b', 'c' ])([ 1, 2 ])).toEqual({
a : 1,
b : 2,
})
})
test('ignore extra keys', () => {
const result = zipObj([ 'a', 'b', 'c', 'd', 'e', 'f' ], [ 1, 2, 3 ])
const expected = {
a : 1,
b : 2,
c : 3,
}
expect(equals(result, expected)).toBeTrue()
})
Typescript test
import {zipObj} from 'rambda'
describe('R.zipObj', () => {
it('happy', () => {
// this is wrong since 24.10.2020 `@types/ramda` changes
const result = zipObj(['a', 'b', 'c', 'd'], [1, 2, 3])
result // $ExpectType { b: number; a: number; c: number; d: number; }
})
it('imported from @types/ramda', () => {
const result = zipObj(['a', 'b', 'c'], [1, 2, 3])
const curriedResult = zipObj(['a', 'b', 'c'])([1, 2, 3])
result // $ExpectType { b: number; a: number; c: number; }
curriedResult // $ExpectType { b: number; a: number; c: number; }
})
})
zipWith
zipWith<T, U, TResult>(fn: (x: T, y: U) => TResult, list1: T[], list2: U[]): TResult[]
Try this R.zipWith example in Rambda REPL
All Typescript definitions
zipWith<T, U, TResult>(fn: (x: T, y: U) => TResult, list1: T[], list2: U[]): TResult[];
zipWith<T, U, TResult>(fn: (x: T, y: U) => TResult, list1: T[]): (list2: U[]) => TResult[];
zipWith<T, U, TResult>(fn: (x: T, y: U) => TResult): (list1: T[], list2: U[]) => TResult[];
R.zipWith source
import { curry } from './curry.js'
import { take } from './take.js'
function zipWithFn(
fn, x, y
){
return take(x.length > y.length ? y.length : x.length, x).map((xInstance, i) => fn(xInstance, y[ i ]))
}
export const zipWith = curry(zipWithFn)
Tests
import { add } from './add.js'
import { zipWith } from './zipWith.js'
const list1 = [ 1, 2, 3 ]
const list2 = [ 10, 20, 30, 40 ]
const list3 = [ 100, 200 ]
test('when second list is shorter', () => {
const result = zipWith(
add, list1, list3
)
expect(result).toEqual([ 101, 202 ])
})
test('when second list is longer', () => {
const result = zipWith(
add, list1, list2
)
expect(result).toEqual([ 11, 22, 33 ])
})
Typescript test
import {zipWith} from 'rambda'
const list1 = [1, 2]
const list2 = [10, 20, 30]
describe('R.zipWith', () => {
it('happy', () => {
const result = zipWith(
(x, y) => {
x // $ExpectType number
y // $ExpectType number
return `${x}-${y}`
},
list1,
list2
)
result // $ExpectType string[]
})
it('curried', () => {
const result = zipWith((x, y) => {
x // $ExpectType unknown
y // $ExpectType unknown
return `${x}-${y}`
})(list1, list2)
result // $ExpectType string[]
})
})
โฏ CHANGELOG
7.4.0
Synchronize with
@types/ramda
-R.prop
,R.path
,R.pickAll
Remove
esm
Rollup output due to tree-shaking issues.Upgrade all dev dependencies.
7.3.0
Important - changing import declaration in
package.json
in order to fix tree-shaking issue - Issue #647Add
R.modify
Allow multiple inputs in Typescript versions of
R.anyPass
andR.allPass
- Issue #642Using wrong clone of object in
R.mergeDeepRight
- Issue #650Missing early return in
R.where
- Issue #648R.allPass
doesn't accept more than 1 parameters for function predicates- Issue #604
7.2.1
Remove bad typings of
R.propIs
which caused the library to cannot be build with Typescript.Drop support for
Wallaby
as per https://github.com/wallabyjs/public/issues/3037
7.2.0
Wrong
R.update
if index is-1
- PR #593Wrong curried typings in
R.anyPass
- Issue #642R.modifyPath
not exported - Issue #640Add new method
R.uniqBy
. Implementation is coming from Ramda MR#2641Apply the following changes from
@types/rambda
:
-- [https://github.com/DefinitelyTyped/DefinitelyTyped/commit/bab47272d52fc7bb81e85da36dbe9c905a04d067](add AnyFunction
and AnyConstructor
)
-- Improve R.ifElse
typings - https://github.com/DefinitelyTyped/DefinitelyTyped/pull/59291
-- Make R.propEq
safe for null/undefined
arguments - https://github.com/ramda/ramda/pull/2594/files
7.1.4
R.mergeRight
not found onDeno
import - Issue #633
7.1.0
Add
R.mergeRight
- introduced by Ramda's latest release. While Ramda renamesR.merge
, Rambda will keepR.merge
.Rambda's
pipe/compose
doesn't return proper length of composed function which leads to issue withR.applySpec
. It was fixed by using Ramda'spipe/compose
logic - Issue #627Replace
Async
withPromise
as return type ofR.type
.Add new types as Typescript output for
R.type
- "Map", "WeakMap", "Generator", "GeneratorFunction", "BigInt", "ArrayBuffer"Add
R.juxt
methodAdd
R.propSatisfies
methodAdd new methods after
Ramda
version upgrade to0.28.0
:
-- R.count -- R.modifyPath -- R.on -- R.whereAny -- R.partialObject
7.0.3
Rambda.none has wrong logic introduced in version 7.0.0
- Issue #625
7.0.2
Rambda doesn't work with pnpm
due to wrong export configuration - Issue #619
7.0.1
- Wrong ESM export configuration in
package.json
- Issue #614
7.0.0
- Breaking change - sync
R.compose
/R.pipe
with@types/ramda
. That is significant change so as safeguard, it will lead a major bump. Important - this lead to raising required Typescript version to4.2.2
. In other words, to useRambda
you'll need Typescript version4.2.2
or newer.
Related commit in @types/ramda
- https://github.com/DefinitelyTyped/DefinitelyTyped/commit/286eff4f76d41eb8f091e7437eabd8a60d97fc1f#diff-4f74803fa83a81e47cb17a7d8a4e46a7e451f4d9e5ce2f1bd7a70a72d91f4bc1
There are several other changes in @types/ramda
as stated in this comment. This leads to change of typings for the following methods in Rambda:
-- R.unless
-- R.toString
-- R.ifElse
-- R.always
-- R.complement
-- R.cond
-- R.is
-- R.sortBy
-- R.dissoc
-- R.toPairs
-- R.assoc
-- R.toLower
-- R.toUpper
One more reason for the breaking change is changing of export declarations in
package.json
based on this blog post and this merged Ramda's PR. This also led to renaming ofbabel.config.js
tobabel.config.cjs
.Add
R.apply
,R.bind
andR.unapply
R.startsWith/R.endsWith
now support lists as inputs. This way, it matches current Ramda behavior.Remove unused typing for
R.chain
.R.map
/R.filter
no longer accept bad inputs as iterable. This way, Rambda behaves more like Ramda, which also throws.Make
R.lastIndexOf
follow the logic ofR.indexOf
.Change
R.type
logic to Ramda logic. This way,R.type
can returnError
andSet
as results.Add missing logic in
R.equals
to compare sets - Issue #599Improve list cloning - Issue #595
Handle multiple inputs with
R.allPass
andR.anyPass
- Issue #604Fix
R.length
wrong logic with inputs as{length: 123}
- Issue #606.Improve non-curry typings of
R.merge
by using types from mobily/ts-belt.Improve performance of
R.uniqWith
.Wrong
R.update
if index is-1
- PR #593Make
R.eqProps
safe for falsy inputs - based on this opened Ramda PR.Incorrect benchmarks for
R.pipe/R.compose
- Issue #608Fix
R.last/R.head
typings - Issue #609
6.9.0
- Fix slow
R.uniq
methods - Issue #581
Fixing R.uniq
was done by improving R.indexOf
which has performance implication to all methods importing R.indexOf
:
- R.includes
- R.intersection
- R.difference
- R.excludes
- R.symmetricDifference
R.union
R.without no longer support the following case -
without('0:1', ['0', '0:1']) // => ['0']
. Now it throws as the first argument should be a list, not a string. Ramda, on the other hand, returns an empty list - https://github.com/ramda/ramda/issues/3086.
6.8.3
Fix Typescript build process with
rambda/immutable
- Issue #572Add
R.objOf
methodAdd
R.mapObjIndexed
methodPublish shorter README.md version to NPM
6.8.0
R.has
useObject.prototype.hasOwnProperty
- Issue #572Expose
immutable.ts
typings which are Rambda typings withreadonly
statements - Issue #565Fix
R.intersection
wrong order compared to Ramda.R.path
wrong return ofnull
instead ofundefined
when path value isnull
- PR #577
6.7.0
- Remove
ts-toolbelt
types from Typescript definitions. Most affected are the following methods, which lose one of its curried definitions:
- R.maxBy
- R.minBy
- R.pathEq
- R.viewOr
- R.when
- R.merge
- R.mergeDeepRight
- R.mergeLeft
6.6.0
Change
R.piped
typings to mimic that ofR.pipe
. Main difference is thatR.pipe
is focused on unary functions.Fix wrong logic when
R.without
useR.includes
while it should use array version ofR.includes
.Use uglify plugin for UMD bundle.
Remove
dist
folder from.gitignore
in order to fixDeno
broken package. Issue #570Improve
R.fromPairs
typings - Issue #567
6.5.3
- Wrong logic where
R.without
useR.includes
while it should use the array version ofR.includes
This is Ramda bug, that Rambda also has before this release - https://github.com/ramda/ramda/issues/3086
6.5.2
Wrong
R.defaultTo
typings - changes introduced in v6.5.0 are missing their TS equivalent.Update dependencies
6.5.1
Fix wrong versions in changelog
6.5.0
R.defaultTo
no longer accepts infinite inputs, thus it follows Ramda implementation.R.equals
supports equality of functions.R.pipe
doesn't useR.compose
.Close Issue #561 - export several internal TS interfaces and types
Close Issue #559 - improve
R.propOr
typingsAdd
CHANGELOG.md
file in release files list
This is only part of the changelog. You can read the full text in [CHANGELOG.md](CHANGELOG.md) file.
[](#-changelog)
โฏ Additional info
Most influential contributors
@farwayer - improving performance in R.find, R.filter; give the idea how to make benchmarks more reliable;
@thejohnfreeman - add R.assoc, R.chain;
@helmuthdu - add R.clone; help improve code style;
@jpgorman - add R.zip, R.reject, R.without, R.addIndex;
@ku8ar - add R.slice, R.propOr, R.identical, R.propIs and several math related methods; introduce the idea to display missing Ramda methods;
@romgrk - add R.groupBy, R.indexBy, R.findLast, R.findLastIndex;
@squidfunk - add R.assocPath, R.symmetricDifference, R.difference, R.intersperse;
@synthet1c - add all lenses methods; add R.applySpec, R.converge;
@vlad-zhukov - help with configuring Rollup, Babel; change export file to use ES module exports;
Rambda references
Links to Rambda
[https://mailchi.mp/webtoolsweekly/web-tools-280](Web Tools Weekly)
[https://github.com/docsifyjs/awesome-docsify](awesome-docsify)
Deprecated from
Used by
section
- SAP's Cloud SDK - This repo doesn't uses
Rambda
since October/2020 commit that removes Rambda
Releases
Rambda's releases before 6.4.0 were used mostly for testing purposes.
[](#-additional-info)
My other libraries
Niketa theme Collection of 9 light VSCode themes Niketa dark theme Collection of 9 dark VSCode themes String-fn String utility library Useful Javascript libraries Large collection of JavaScript,Typescript and Angular related repos links Run-fn CLI commands for lint JS/TS files, commit git changes and upgrade of dependencies