API / Belt / Option

Option

In Belt we represent the existence and nonexistence of a value by wrapping it with the option type. In order to make it a bit more convenient to work with option-types, Belt provides utility-functions for it.

The option type is a part of the Reason / OCaml standard library which is defined like this:

RES
type option<'a> = None | Some('a)
RES
let someString: option<string> = Some("hello")

getExn

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let getExn: option<'a> => 'a

Raises an Error in case None is provided. Use with care.

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Belt.Option.getExn(Some(3)) /* 3 */ Belt.Option.getExn(None) /* Raises an Error */

mapWithDefault

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let mapWithDefault: (option<'a>, 'b, 'a => 'b) => 'b

If optionValue is of Some(value), this function returns that value applied with f, in other words f(value).

If optionValue is None, the default is returned.

RES
let someValue = Some(3) someValue->Belt.Option.mapWithDefault(0, x => x + 5) /* 8 */ let noneValue = None noneValue->Belt.Option.mapWithDefault(0, x => x + 5) /* 0 */

mapWithDefaultU

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let mapWithDefaultU: (option<'a>, 'b, (. 'a) => 'b) => 'b

Uncurried version of mapWithDefault.

map

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let map: (option<'a>, 'a => 'b) => option<'b>

If optionValue is Some(value) this returns f(value), otherwise it returns None.

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Belt.Option.map(Some(3), x => x * x) /* Some(9) */ Belt.Option.map(None, x => x * x) /* None */

mapU

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let mapU: (option<'a>, (. 'a) => 'b) => option<'b>

Uncurried version of map.

flatMap

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let flatMap: (option<'a>, 'a => option<'b>) => option<'b>

If optionValue is Some(value), returns f(value), otherwise returns None.
The function f must have a return type of option<'b>.

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let addIfAboveOne = value => if (value > 1) { Some(value + 1) } else { None } Belt.Option.flatMap(Some(2), addIfAboveOne) /* Some(3) */ Belt.Option.flatMap(Some(-4), addIfAboveOne) /* None */ Belt.Option.flatMap(None, addIfAboveOne) /* None */

flatMapU

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let flatMapU: (option<'a>, (. 'a) => option<'b>) => option<'b>

Uncurried version of flatMap.

getWithDefault

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let getWithDefault: (option<'a>, 'a) => 'a

If optionalValue is Some(value), returns value, otherwise default.

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Belt.Option.getWithDefault(None, "Banana") /* Banana */ Belt.Option.getWithDefault(Some("Apple"), "Banana") /* Apple */
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let greet = (firstName: option<string>) => "Greetings " ++ firstName->Belt.Option.getWithDefault("Anonymous") Some("Jane")->greet /* "Greetings Jane" */ None->greet /* "Greetings Anonymous" */
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Belt.Option.getWithDefault(Some(1812), 1066) /* 1812 */ Belt.Option.getWithDefault(None, 1066) /* 1066 */

isSome

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let isSome: option<'a> => bool

Returns true if the argument is Some(value), false otherwise.

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Belt.Option.isSome(None) /* false */ Belt.Option.isSome(Some(1)) /* true */

isNone

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let isNone: option<'a> => bool

Returns true if the argument is None, false otherwise.

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Belt.Option.isNone(None) /* true */ Belt.Option.isNone(Some(1)) /* false */

eq

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let eq: (option<'a>, option<'b>, ('a, 'b) => bool) => bool

Evaluates two optional values for equality with respect to a predicate function. If both optValue1 and optValue2 are None, returns true. If one of the arguments is Some(value) and the other is None, returns false.

If arguments are Some(value1) and Some(value2), returns the result of predicate(value1, value2); the predicate function must return a bool.

RES
let clockEqual = (a, b) => mod(a, 12) == mod(b, 12) open Belt.Option eq(Some(3), Some(15), clockEqual) /* true */ eq(Some(3), None, clockEqual) /* false */ eq(None, Some(3), clockEqual) /* false */ eq(None, None, clockEqual) /* true */

eqU

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let eqU: (option<'a>, option<'b>, (.'a, 'b) => bool) => bool

Uncurried version of eq.

cmp

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let cmp: (option<'a>, option<'b>, ('a, 'b) => int) => int

cmp(optValue1, optValue2, comparisonFunction) compares two optional values with respect to given comparisonFunction.

If both optValue1 and optValue2 are None, it returns 0.

If the first argument is Some(value1) and the second is None, returns 1 (something is greater than nothing).

If the first argument is None and the second is Some(value2), returns -1 (nothing is less than something).

If the arguments are Some(value1) and Some(value2), returns the result of comparisonFunction(value1, value2); comparisonFunction takes two arguments and returns -1 if the first argument is less than the second, 0 if the arguments are equal, and 1 if the first argument is greater than the second.

RES
let clockCompare = (a, b) => compare(mod(a, 12), mod(b, 12)) open Belt.Option cmp(Some(3), Some(15), clockCompare) /* 0 */ cmp(Some(3), Some(14), clockCompare) /* 1 */ cmp(Some(2), Some(15), clockCompare) /* (-1) */ cmp(None, Some(15), clockCompare) /* (-1) */ cmp(Some(14), None, clockCompare) /* 1 */ cmp(None, None, clockCompare) /* 0 */

cmpU

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let cmpU: (option<'a>, option<'b>, ((.'a, 'b) => int)) => int

Uncurried version of cmp.