Bring the benefits of Rust's error handling and optional types to your TypeScript projects.
Reduce the need for null checks and write safer, more expressive code.
rsult offers a collection of practical utilities for handling `Option` and `Result` types,
helping you create more robust and maintainable codebases.
$ pnpm add rsult
import { Option, Result, Some, None, Ok, Err } from 'rsult';
- rsult is inspired by Rust's
Option
andResult
types. - It helps you handle optional values and results, eliminating
null
andundefined
checks. - You can wrap values in
Some
,None
,Ok
, orErr
, and use handy functions to transform, combine, and handle errors expressively. - It's a friendly sidekick that makes your code safer and more predictable. ✨
rsult makes your code safer and more predictable.
The Option
type is used for values that may or may not be present. It can be either Some
or None
.
const someValue: Option<number> = Some(5);
const noneValue: Option<number> = None();
if (someValue.is_some()) {
console.log("It's Some!");
}
if (noneValue.is_none()) {
console.log("It's None!");
}
const transformedValue = someValue.map(x => x * 2); // Some(10)
const valueWithDefault = noneValue.unwrap_or(0); // 0
The Result
type is used for operations that can succeed or fail. It can be either Ok
or Err
.
const okResult: Result<number, string> = Ok(5);
const errResult: Result<number, string> = Err("An error occurred");
if (okResult.is_ok()) {
console.log("It's Ok!");
}
if (errResult.is_err()) {
console.log("It's Err!");
}
const transformedResult = okResult.map(x => x * 2); // Ok(10)
const valueWithDefault = errResult.unwrap_or(0); // 0
Applying multiple transformations consecutively demonstrates the power of composable operations.
const option = Some(10);
const transform = option
.map(x => x * 2)
.and_then(x => x > 15 ? Some(x) : None())
.unwrap_or(0);
console.log(transform); // 20
This example showcases converting a numeric option to a string if it meets a condition, providing a default otherwise.
When dealing with multiple optional values, Option
can elegantly handle combinations, making sure all values are present.
const option1: Option<number> = Some(10);
const option2: Option<string> = Some("twenty");
const combinedOption = option1.and_then(num =>
option2.map(str => `${num} and ${str}`)
);
console.log(combinedOption.unwrap_or("Missing value")); // "10 and twenty"
This demonstrates combining numerical and string options into a single descriptive string if both are present.
Filter out options that don't satisfy a certain condition, effectively allowing conditional access to Some
values.
const numberOption: Option<number> = Some(42);
const filteredOption = numberOption.filter(x => x > 100);
console.log(filteredOption.is_none()); // true
Only values satisfying the condition remain, others turn into None
.
By chaining operations, you can handle complex data manipulation and error handling with ease.
const processResult: Result<number, string> = Ok(5);
const chainedResult = processResult.map(x => x * 2)
.and_then(x => x > 5 ? Ok(x.toString()) : Err("Value too small"))
.map_err(err => `Error encountered: ${err}`);
console.log(chainedResult.unwrap_or("Default value")); // "10"
This transformation sequence demonstrates error handling and conditional mapping in a powerful, readable manner.
Perform error recovery by providing alternative workflows in case of errors.
enum ErrorType {
NotFound,
Invalid,
Unrecoverable,
}
const riskyOperation: Result<number, ErrorType> = Err(ErrorType.NotFound);
const recoveryAttempt = riskyOperation.or_else(err =>
err !== ErrorType.Unrecoverable ? Ok(0) : Err("Unrecoverable error")
);
console.log(recoveryAttempt.unwrap()); // 0
This example shows a simple mechanism for recovering from specific errors, providing a fallback result.
Use case-driven transformations to work with results of varying types, demonstrating flexibility in handling operations that might fail.
const fetchResource: () => Result<string, Error> = () => Ok("Resource content");
const parseResource: (content: string) => Result<object, string> = content =>
content.length > 0 ? Ok({ parsed: content }) : Err("Empty content");
const result = fetchResource()
.and_then(parseResource)
.map(parsed => `Parsed content: ${JSON.stringify(parsed)}`)
.unwrap_or("Default content");
console.log(result); // "Parsed content: {"parsed":"Resource content"}"
-
is_some()
: Checks if the Option is Some. -
is_none()
: Checks if the Option is None. -
is_some_and(f: (arg: T) => boolean)
: Determines if the Option is Some and the contained value meets a condition.
-
map(fn: (arg: T) => U)
: Transforms the contained value of a Some with a provided function. Returns None if this Option is None. -
map_or<U>(defaultVal: U, fn: (arg: T) => U)
: Applies a function to the contained value if Some, otherwise returns a provided default.
-
expect(msg: string)
: Extracts the value from a Some, throwing an error if it is None. -
unwrap()
: Unwraps the Option, returning the contained value, or throws an error if the Option is None. -
unwrap_or(defaultVal: T)
: Returns the contained value if Some, else returns a provided alternative. -
unwrap_or_else(fn: () => T)
: Returns the contained value if Some, else computes a value from a provided function. -
unwrap_or_default()
: Returns the contained value if Some, otherwise the default value for the type.
-
and<U>(opt: Option<U>)
: Returns the passed Option if this Option is Some, else returns None. -
and_then<U>(fn: (arg: T) => Option<U>)
: Returns the result of applying a function to the contained value if Some, otherwise returns None. -
or<U>(opt: Option<U>)
: Returns the passed Option if this Option is None, else returns this Option. -
or_else<U>(fn: () => Option<U>)
: Returns the result of applying a function if this Option is None, else returns this Option. -
xor(optb: Option<T>)
: Returns None if both this and the passed Option are Some. Otherwise returns the Option that is Some.
-
take()
: Takes the contained value out of the Option, leaving a None in its place. -
take_if(predicate: (arg: T) => boolean)
: Takes the contained value out of the Option if it satisfies a predicate, leaving a None in its place. -
replace(value: T)
: Replaces the contained value with another, returning the old value wrapped in an Option.
-
zip<U>(other: Option<U>)
: Combines two Option values into a single Option containing a tuple of their values if both are Some, otherwise returns None. -
zip_with<U, R>(other: Option<U>, f: (val: T, other: U) => R)
: Combines two Option values by applying a function if both are Some, otherwise returns None.
-
filter(predicate: (arg: T) => boolean)
: Applies a predicate to the contained value if Some, returns None if the predicate does not hold or if this Option is None.
-
flatten()
: Flattens a nested Option, if the Option contains another Option, returning the inner Option if it's Some.
-
is_ok()
: Checks if the Result is Ok. -
is_err()
: Checks if the Result is Err. -
ok()
: Retrieves the value fromResultOk
, wrapped in anOption
. -
err()
: Retrieves the error fromResultErr
, wrapped in anOption
.
-
expect(msg: string)
: Returns the containedResultOk
value, but throws an error with a provided message if the result is aResultErr
. -
unwrap()
: Unwraps aResultOk
, yielding the contained value. -
expect_err(msg: string)
: Returns the containedResultErr
error, but throws an error with a provided message if the result is aResultOk
. -
unwrap_err()
: Unwraps aResultErr
, yielding the contained error.
-
into_ok()
: Converts fromIResultCore<T, E>
toT
. -
into_err()
: Converts fromIResultCore<T, E>
toE
. -
transmute()
: Changes the type ofResult<T, E>
toResult<T, never>
orResult<never, E>
, respectively. This is particularly useful when trying to forward aResultErr
returned by a function whose error type overlaps with the returned error type of the current function, but whose value type does not.
-
is_ok_and(f: (value: T) => boolean)
: Checks if the result is Ok and the contained value passes a specified condition. -
is_err_and(f: (value: E) => boolean)
: Checks if the result is Err and the contained error passes a specified condition. -
map<U>(fn: (arg: T) => U)
: Transforms the result via a mapping function if it is Ok. -
map_or<U>(defaultVal: U, f: (arg: T) => U)
: Transforms the result via a mapping function if it is Ok, otherwise returns a default value. -
map_or_else<U>(defaultFunc: (err: E) => U, f: (arg: T) => U)
: Transforms the result via a mapping function if it is Ok, otherwise computes a default value using a function. -
map_err<U>(fn: (arg: E) => U)
: Maps aResult<T, E>
toResult<T, U>
by applying a function to a containedErr
value, leaving anOk
value untouched.
-
inspect(f: (val: T) => void)
: Applies a function to the contained value (if Ok), then returns the unmodified Result. -
inspect_err(f: (val: E) => void)
: Applies a function to the contained error (if Err), then returns the unmodified Result.
-
and<U>(res: Result<U, E>)
: Returnsres
if the result is Ok, otherwise returns the Err value ofself
. -
and_then<U>(fn: (arg: T) => Result<U, E>)
: Callsfn
if the result is Ok, otherwise returns the Err value ofself
. -
or<U>(res: Result<U, E>)
: Returnsres
if the result is Err, otherwise returns the Ok value ofself
. -
or_else<U>(fn: (arg: E) => Result<T, U>)
: Callsfn
if the result is Err, otherwise returns the Ok value ofself
.
-
unwrap_or(defaultVal: T)
: Returns the contained Ok value or a provided default. -
unwrap_or_else(fn: (arg: E) => T)
: Returns the contained Ok value or computes it from a function.
-
iter()
: Returns an iterator over the potentially contained value. -
flatten()
: Flattens a nestedResult
if the contained value is itself aResult
.
Contributions are welcome! Please open an issue or submit a pull request.
rsult is licensed under the MIT License.