A clear way for handling success and failure in both synchronous and asynchronous operations.
npm install resultage
import { Result, ok, err } from 'resultage';
type JsonObject = Record<string, unknown>;
const okIfObject = (value: unknown): Result<JsonObject, 'ERR_NOT_AN_OBJECT'> =>
typeof value === 'object' && value !== null && !Array.isArray(value)
? ok(value as JsonObject)
: err('ERR_NOT_AN_OBJECT');
const okIfInt = (value: unknown): Result<number, 'ERR_NOT_AN_INT'> =>
Number.isInteger(value)
? ok(value as number)
: err('ERR_NOT_AN_INT');
const okIfString = (value: unknown): Result<string, 'ERR_NOT_A_STRING'> =>
typeof value === 'string'
? ok(value)
: err('ERR_NOT_A_STRING');
type Person = {
name: string;
age: number;
}
const okIfPerson = (value: unknown): Result<Person, 'ERR_NOT_A_PERSON'> =>
Do(function*() {
const obj = yield* okIfObject(value);
const name = yield* okIfString(obj.name);
const age = yield* okIfInt(obj.age);
return { name, age };
}).mapErr(() => 'ERR_NOT_A_PERSON');
const person: Person = okIfPerson({ name: 'John', age: 42 }).unwrap();
const okIfPerson =
(value: unknown) => okIfObject(value).chain(
(obj) => okIfString(obj.name).chain(
(name) => okIfInt(obj.age).chain(
(age) => ok({ name, age })
)));
or the same with map
on the last step:
const okIfPerson =
(value: unknown) => okIfObject(value).chain(
(obj) => okIfString(obj.name).chain(
(name) => okIfInt(obj.age).map(
(age) => ({ name, age })
)));
Note: from the performance perspective, using
chain
is preferable toDo
-notation, becausechain
doesn't create and run generators. However,Do
-notation is more readable and easier to use. Additionally, the formatting of the code in this section requires specific linters and formatters configuration.
const lordOfTheRingsAuthors = collect([
ok({ id, name: 'J. R. R. Tolkien' }),
ok({ id, name: 'Christopher Tolkien' }),
]);
const silmarillionAuthors = collect([
ok({ id, name: 'J. R. R. Tolkien' }),
err('ERR_PERSON_NOT_FOUND' as const),
]);
console.log(lordOfTheRingsAuthors.unwrap());
// Prints to console:
// [
// { id, name: 'J. R. R. Tolkien' },
// { id, name: 'Christopher Tolkien' }
// ]
console.log(silmarillionAuthors.unwrapErr());
// Prints to console: ERR_PERSON_NOT_FOUND
import { Do, collect, err, ok } from 'resultage';
const getBookWithAuthors = (bookId: string) =>
Do(async function* () {
const book = yield* await fetchBook(bookId);
const authors = yield* await fetchPersons(book.authorIds);
return { ...book, authors };
});
const fetchBook = async (id: string) => (
id === '1' ? ok({ id, title: 'The Lord of the Rings', authorIds: ['1', '2'] }) :
id === '2' ? ok({ id, title: 'The Silmarillion', authorIds: ['1', '3'] }) :
err('ERR_BOOK_NOT_FOUND' as const)
);
const fetchPersons = async (ids: string[]) => collect(
ids.map(id => (
id === '1' ? ok({ id, name: 'J. R. R. Tolkien' }) :
id === '2' ? ok({ id, name: 'Christopher Tolkien' }) :
err("ERR_PERSON_NOT_FOUND" as const)
))
);
async function run() {
const LordOfTheRings = await getBookWithAuthors('1');
console.log(LordOfTheRings.unwrap());
// Prints to console book with authors populated
const Silmarillion = await getBookWithAuthors('2');
console.log(Silmarillion.unwrapErr());
// Prints to console: ERR_PERSON_NOT_FOUND
const TheHobbit = await getBookWithAuthors('3');
console.log(TheHobbit.unwrapErr());
// Prints to console: ERR_BOOK_NOT_FOUND
}
run().catch(console.error);
[TODO: insert link to documentation]
Result<T, E>
is a generic type that represents either success or failure, and
is an union of Ok<T>
and Err<E>
types:
type Result<T, E> = Ok<T> | Err<E>;
Where:
-
Ok<T>
is a type that represents success and wraps the value of typeT
. -
Err<E>
is a type that represents failure and wraps the error of typeE
.
Ok<T>
is an interface that extends the ResultInterface<T, never>
interface
with the following structure.
interface Ok<T> extends ResultInterface<T, never> {
readonly value: T;
readonly isOk: true;
readonly isErr: false;
}
The property value
is accessible only when the type of the correspondent variable
or parameter is narrowed from the Result<T, E>
to the Ok<T>
.
To narrow the type of the variable or parameter to Ok<T>
, use either the isOk
method
or the isErr
method on the Result<T, E>
instance.
Note: The Ok<T>
is an interface, not a class, so it is not possible to create
an instance of Ok<T>
directly. Use the ok
function to create an instance of Ok<T>
.
Err<E>
is an interface that extends the ResultInterface<never, E>
interface
with the following structure.
interface Err<E> extends ResultInterface<never, E> {
readonly error: E;
readonly isOk: false;
readonly isErr: true;
}
The property error
is accessible only when the type of the correspondent variable
or parameter is narrowed from the Result<T, E>
to the Err<E>
.
To narrow the type of the variable or parameter to Err<E>
, use either the isOk
method
or the isErr
method on the Result<T, E>
instance.
Note: The Err<E>
is an interface, not a class, so it is not possible to create
an instance of Err<E>
directly. Use the err
function to create an instance of Err<E>
.
ResultInterface<T, E>
is an interface that defines the common Result
methods.
interface ResultInterface<T, E> {
map<S>(fn: (data: T) => S): Result<S, E>;
mapErr<F>(fn: (error: E) => F): Result<T, F>;
chain<S, F>(next: (data: T) => Result<S, F>): Result<S, F | E>;
chainErr<S, F>(next: (error: E) => Result<S, F>): Result<T | S, F>;
unwrap(): T;
unwrapOr<S>(fallback: S): T | S;
unwrapOrElse<S>(fallback: (error: E) => S): T | S;
unwrapErr(): E;
unwrapErrOr<F>(fallback: F): E | F;
unwrapErrOrElse<F>(fallback: (data: T) => F): E | F;
unwrapOrThrow(): T;
unpack(): T | E;
match<ER, TR>(
okMatcher: (data: T) => TR,
errMatcher: (error: E) => ER,
): ER | TR;
tap(fn: (data: T) => void): Result<T, E>;
tapErr(fn: (error: E) => void): Result<T, E>;
biMap<S, F>(okFn: (data: T) => S, errFn: (error: E) => F): Result<S, F>;
biChain<TS, TF, ES, EF>(
okFn: (data: T) => Result<TS, TF>,
errFn: (error: E) => Result<ES, EF>,
): Result<TS | ES, TF | EF>;
[Symbol.iterator](): Generator<E, T>;
}
As mentioned above, Ok<T>
and Err<E>
are interfaces, not classes, so it is not
possible to create an instance of Ok<T>
or Err<E>
directly. Use the following
functions to create an instance of Ok<T>
or Err<E>
.
Creates an instance of OkImpl<T>
class (that is not exported from the package).
Function Signature:
const ok: <T>(value: T) => Ok<T>
Example:
import { ok } from 'resultage';
const okNumber = ok(42);
Creates an instance of ErrImpl<E>
class (that is not exported from the package).
Function Signature:
const err: <E>(error: E) => Err<E>
Example:
import { err } from 'resultage';
const errString = err('Error message');
Returns true
if Result is Ok<T>
, false
otherwise. Narrows the Result<T, E>
to Ok<T>
in "if"-branches,
and to Err<E>
in "else"-branches.
Property Definition:
interface Ok<T> { readonly isOk: true }
interface Err<E> { readonly isOk: false }
Function Signature:
const isOk: <T, E>(result: Result<T, E>) => result is Ok<T>
Example:
import { ok } from 'resultage';
const result = ok(42);
if (result.isOk) {
console.log(result.value);
} else {
console.error(result.error);
}
Example with function:
import { ok, isOk } from 'resultage';
const result = ok(42);
if (isOk(result)) {
console.log(result.value);
} else {
console.error(result.error);
}
The function isOk(result)
is good to be used as a callback in
the Array.prototype.filter
method or similar.
import { isOk } from 'resultage';
const results = [ok(42), err('Error')];
const isEverythingOk = results.every(isOk);
Returns true
if Result is Err<E>
, false
otherwise. Narrows the Result<T, E>
to Err<E>
in "if"-branches,
and to Ok<T>
in "else"-branches.
Property Definition:
interface Ok<T> { readonly isErr: false }
interface Err<E> { readonly isErr: true }
Function Signature:
const isErr: <T, E>(result: Result<T, E>): result is Err<E>
Example:
import { err } from 'resultage';
const result = err('Error message');
if (result.isErr) {
console.error(result.error);
} else {
console.log(result.value);
}
Example with function:
import { err, isErr } from 'resultage';
const result = err('Error message');
if (isErr(result)) {
console.error(result.error);
} else {
console.log(result.value);
}
The function isErr(result)
is good to be used as a callback in
the Array.prototype.filter
method or similar.
import { isErr } from 'resultage';
const results = [ok(42), err('Error')];
const isSomethingWrong = results.some(isErr);
Returns the value of Ok<T>
. Could be accessed if and only if the Result<T, S>
is explicitly narrowed to Ok<T>
.
Property Definition:
interface Ok<T> { readonly value: T }
Example:
import { ok } from 'resultage';
const result = ok(42);
console.log(result.value); // Prints to console: 42
Example with narrowing:
import { ok, err } from 'resultage';
const okIfOdd = (value: number) =>
value % 2 === 1
? ok(value)
: err('Value is not odd');
const result = okIfOdd(43);
result.value;
// ^^^^^ - Error: Property 'value' does not exist on type 'Result<number, string>'.
if (result.isOk) {
console.log(result.value);
} else {
console.error(result.error);
}
Returns the error of Err<E>
. Could be accessed if and only if the Result<T, S>
is explicitly narrowed to Err<E>
.
Property Definition:
interface Err<E> { readonly error: E }
Example:
import { err } from 'resultage';
const result = err('Error message');
console.log(result.error); // Prints to console: Error message
Example with narrowing:
import { ok, err } from 'resultage';
const okIfOdd = (value: number) =>
value % 2 === 1
? ok(value)
: err('Value is not odd');
const result = okIfOdd(42);
result.error;
// ^^^^^ - Error: Property 'error' does not exist on type 'Result<number, string>'.
if (result.isErr) {
console.error(result.error);
} else {
console.log(result.value);
}
Applies fn
to the value of Ok<T>
and returns the value wrapped in Ok<S>
. If Result<T, E>
is Err<E>
returns itself without applying fn
.
Method Signature:
interface ResultInterface<T, E> {
map<S>(fn: (data: T) => S): Result<S, E>
}
Curried Function Signature:
const map:
<T, S>(fn: (data: T) => S) =>
<E>(result: Result<T, E>) => Result<S, E>
Example:
import { ok } from 'resultage';
const result = ok(42);
const mappedResult = result.map(value => value * 2);
console.log(mappedResult.value); // Prints to console: 84
Applies fn
to the value of Err<E>
and returns the value wrapped in Err<F>
. If Result<T, E>
is Ok<T>
returns itself without applying fn
.
Method Signature:
interface ResultInterface<T, E> {
mapErr<F>(fn: (error: E) => F): Result<T, F>
}
Curried Function Signature:
const mapErr:
<E, F>(fn: (error: E) => F) =>
<T>(result: Result<T, E>) => Result<T, F>
Example:
import { err } from 'resultage';
const result = err('Error message');
const mappedResult = result.mapErr(error => new Error(error));
Applies next
to the value of Ok<T>
and returns the result of next
. If the Result<T, E>
is Err<E>
,
returns itself without applying next
.
The next function must return a Result<S, F>
.
Method Signature:
interface ResultInterface<T, E> {
chain<S, F>(next: (data: T) => Result<S, F>): Result<S, E | F>
}
Curried Function Signature:
const chain:
<T, S, F>(next: (data: T) => Result<S, F>) =>
<E>(result: Result<T, E>) => Result<S, E | F>
Example:
import { ok } from 'resultage';
const result = ok(42);
const chainedResult = result.chain(value => ok(value * 2));
The chain
method is a main method to compose (...) => Result<T, E>
functions.
Applies next
to the value of Err<E>
and returns the result of next
.
If the Result<T, E>
is Ok<T>
, returns itself without applying next
.
The next function must return a Result<S, F>
.
Method Signature:
interface ResultInterface<T, E> {
chainErr<S, F>(next: (error: E) => Result<S, F>): Result<T | S, F>
}
Curried Function Signature:
const chainErr:
<S, E, F>(next: (error: E) => Result<S, F>) =>
<T>(result: Result<T, E>) => Result<T | S, F>
Example:
import { err } from 'resultage';
const result = err('Error message');
const chainedResult = result.chainErr(error => err(new Error(error)));
The chainErr
is a convenient method to recover from an error.
import { err, ok } from 'resultage';
const okIfOdd = (value: number) =>
value % 2 === 1
? ok(value)
: err('Value is not odd');
const getOdd = (value: number): number =>
okIfOdd(value)
.chainErr(() => ok(value + 1))
.unwrap();
console.log(getOdd(1)); // 1
Returns the value of Ok<T>
. If the Result<T, E>
is Err<E>
throws a TypeError
where cause
is the result.
Method Signature:
interface ResultInterface<T, E> {
unwrap(): T
}
Function Signature:
const unwrap: <T>(result: Result<T, unknown>) => T
Example:
import { ok } from 'resultage';
const result = ok(42);
console.log(result.unwrap()); // Prints to console: 42
Example with error:
import { err } from 'resultage';
const result = err('Error message');
console.log(result.unwrap());
// Throws a TypeError with the message: 'Result is not an Ok' and cause equal
// to the result.
Returns the value of Ok<T>
. If the Result<T, E>
is Err<E>
returns fallback
.
Method Signature:
interface ResultInterface<T, E> {
unwrapOr<S>(fallback: S): T | S
}
Curried Function Signature:
const unwrapOr:
<T, S>(fallback: S) =>
(result: Result<T, unknown>) => T | S
Returns the value of Ok<T>
. If the Result<T, E>
is Err<E>
throws a value of
type E
.
unwrapOrThrow
doesn't check if E
is an instance of Error
or not, so it is
possible to throw a non-error literal.
Method Signature:
interface ResultInterface<T, E> {
unwrapOrThrow(): T
}
Function Signature:
const unwrapOrThrow: <T>(result: Result<T, unknown>) => T
Returns the value of Ok<T>
. If the Result<T, E>
is Err<E>
returns the result of fallbackFn
.
Method Signature:
interface ResultInterface<T, E> {
unwrapOrElse<S>(fallbackFn: (error: E) => S): T | S
}
Curried Function Signature:
const unwrapOrElse:
<T, S>(fallbackFn: (error: unknown) => S) =>
(result: Result<T, unknown>) => T | S
Returns the value of Err<E>
. If the Result<T, E>
is Ok<T>
throws a TypeError
where cause
is the Ok<T>
.
Method Signature:
interface ResultInterface<T, E> {
unwrapErr(): E
}
Function Signature:
const unwrapErr: <E>(result: Result<unknown, E>) => E
Returns the value of Err<E>
. If the Result<T, E>
is Ok<T>
returns fallback
.
Method Signature:
interface ResultInterface<T, E> {
unwrapErrOr<F>(fallback: F): E | F
}
Curried Function Signature:
const unwrapErrOr:
<F>(fallback: F) =>
<T, E>(result: Result<T, E>) => E | F
Returns the value of Err<E>
. If the Result<T, E>
is Ok<T>
returns the result of fallback
.
Method Signature:
interface ResultInterface<T, E> {
unwrapErrOrElse<F>(fallbackFn: (data: T) => F): E | F
}
Curried Function Signature:
const unwrapErrOrElse:
<F, T>(fallbackFn: (data: T) => F) =>
<E>(result: Result<T, E>) => E | F
Returns the value of Ok<T>
or Err<E>
.
Method Signature:
interface ResultInterface<T, E> {
unpack(): T | E
}
Function Signature:
const unpack: <T, E>(result: Result<T, E>) => T | E
Applies okMatcher
to the value of Ok<T>
and returns the result. Applies errMatcher
to the value of Err<E>
and returns the result.
Method Signature:
interface ResultInterface<T, E> {
match<S, F>(okMatcher: (data: T) => S, errMatcher: (error: E) => F): S | F
}
Curried Function Signature:
const match:
<T, S, E, F>(okMatcher: (data: T) => S, errMatcher: (error: E) => F) =>
(result: Result<T, E>) => S | F
Applies fn
to the value of Ok<T>
and returns the original result. If the Result<T, E>
is Err<E>
doesn't apply fn
.
Method Signature:
interface ResultInterface<T, E> {
tap(fn: (data: T) => void): Result<T, E>
}
Curried Function Signature:
const tap:
<T>(fn: (data: T) => void) =>
<E>(result: Result<T, E>) => Result<T, E>
Applies fn
to the value of Err<E>
and returns the original result. If the Result<T, E>
is Ok<T>
doesn't apply fn
.
Method Signature:
interface ResultInterface<T, E> {
tapErr(fn: (error: E) => void): Result<T, E>
}
Curried Function Signature:
const tapErr:
<E>(fn: (error: E) => void) =>
<T>(result: Result<T, E>) => Result<T, E>
Collects Ok<T>
values from an array of Result<T, E>
and returns a Result<T[], E>
.
Function Signature:
const collect:
<R extends readonly Result<any, any>[]>(results: R) => Result<Collected<R>, ErrTypeOf<R[number]>>