A simple package for a functional and typesafe error handling with zero dependencies
To install this package run either:
yarn add @api3/promise-utils
or if you use npm:
npm install @api3/promise-utils --save
The API is small and well focused on providing more concise error handling. The main functions of this
package are go
and goSync
functions. They accept a function to execute, and additionally go
accepts an optional
GoAsyncOptions
object as the second parameter. If the function executes without an error, a success response with the
data is returned, otherwise an error response is returned.
// Imagine an async function for fetching API data
const goFetchData = await go(() => fetchData('users'));
// The "goFetchData" value is either: {success: true, data: ...} or {success: false, error: ...}
if (goFetchData.success) {
const data = goFetchData.data
...
}
or:
// Imagine an async function for fetching API data
// If the fetch data is a non class function returning a promise, you can drop the arrow function
const goFetchData = await go(() => fetchData('users'));
// The "goFetchData" value is either: {success: true, data: ...} or {success: false, error: ...}
if (!goFetchData.success) {
const error = goFetchData.error
...
}
and with GoAsyncOptions
:
// The `fetchData` function will be retried a maximum of 2 times on error, with each attempt having
// a timeout of 5 seconds and a total timeout 10 seconds (shared among all attempts and delays).
const goFetchData = await go(() => fetchData('users'), { retries: 2, attemptTimeoutMs: 5_000, totalTimeoutMs: 10_000 });
...
and for synchronous functions:
const someData = ...
// Imagine a synchronous function for parsing data
const goParseData = goSync(() => parseData(someData));
// The goParseData value is either: {success: true, data: ...} or {success: false, error: ...}
if (goParseData.success) {
const data = goParseData.data
...
}
The return value from the promise utils functions works very well with TypeScript inference. When you check the the
success
property, TypeScript will infer the correct response type.
The full promise-utils
API consists of the following functions:
go(asyncFn, options)
- Executes theasyncFn
and returns a response of typeGoResult
goSync(fn)
- Executes thefn
and returns a response of typeGoResult
assertGoSuccess(goRes)
- Verifies that thegoRes
is a success response (GoResultSuccess
type) and throws otherwise.assertGoError(goRes)
- Verifies that thegoRes
is an error response (GoResultError
type) and throws otherwise.success(value)
- Creates a successful result value, specifically{success: true, data: value}
fail(error)
- Creates an error result, specifically{success: false, error: error}
and the following Typescript types:
-
type GoResult<T> = { data: T; success: true };
-
type GoResultSuccess<E extends Error = Error> = { error: E; success: false };
-
type GoResultError<T, E extends Error = Error> = GoResultSuccess<T> | GoResultError<E>;
-
interface GoAsyncOptions<E extends Error = Error> { retries?: number; // Number of retries to attempt if the go callback is unsuccessful. attemptTimeoutMs?: number | number[]; // The timeout for each attempt. Can provide an array for different timeouts for each attempt. If the array is shorter than the number of retries, the last value is used for all remaining attempts, if the length of the array is longer than the number of retries, the extra values are ignored. totalTimeoutMs?: number; // The maximum timeout for all attempts and delays. No more retries are performed after this timeout. delay?: StaticDelayOptions | RandomDelayOptions; // Type of the delay before each attempt. There is no delay before the first request. onAttemptError?: (goRes: GoResultError<E>) => void; // Callback invoked after each failed attempt is completed. This callback does not fire for the last attempt or when a "totalTimeoutMs" is exceeded (these should be handled explicitly with the result of "go" call). }
-
interface StaticDelayOptions { type: 'static'; delayMs: number; }
-
interface RandomDelayOptions { type: 'random'; minDelayMs: number; maxDelayMs: number; }
Careful, the attemptTimeoutMs
value of 0
means timeout of 0 ms. If you want to have infinite timeout omit the key or
set it to undefined
.
The last exported value is a GoWrappedError
class which wraps an error which happens in go callback. The difference
between GoWrappedError
and regular Error
class is that you can access GoWrappedError.reason
to get the original
value which was thrown by the function.
Take a look at the implementation and tests for detailed examples and usage.
// Verbose try catch
try {
const data = await someAsyncCall();
...
} catch (e) {
// The "e" is "unknown" because any value can be thrown in Javascript so casting is needed
return logError((e as MyError).reason);
}
// Compare it to simpler version using go
const goRes = await go<MyData, MyError>(someAsyncCall);
if (!goRes.success) return logError(goRes.error.reason);
// At this point TypeScript infers that the error was handled and "goRes" must be a success response
const data = goRes.data;
...
Also, think about what happens when you want to handle multiple "can fail" operations in a single function call. You can either:
- Have them in a same try catch block - but then it's difficult to differentiate between what error has been thrown. Also this usually leads to a lot of code inside a try block and the catch clause acts more like "catch anything".
- Use nested try catch blocks - but this hurts readability and forces you into the callback hell pattern.
JavaScript supports throwing any expression, not just Error
instances. This is also a reason why TypeScript infers the
error as unknown
or any
(see:
useUnknownInCatchVariables).
The error response from go
and goSync
always return an instance of the Error
class. Of course, throwing custom
errors (derived from Error
) is supported.
The go utils by design offer only very basic timeout and retry capabilities as these are often application specific and could quickly result in bloated configuration. If you are looking for more complex features, consider using one of the alternatives, e.g. https://github.com/lifeomic/attempt
There is a limitation when using class functions due to how javascript this works.
class MyClass {
constructor() {}
get() {
return this._get();
}
_get() {
return '123';
}
}
const myClass = new MyClass();
const resWorks = goSync(() => myClass.get()); // This works
// However, seeing the line above it may be tempting to rewrite it to
const resFails = goSync(myClass.get); // This doesn't work
The problem is that the this
keyword is determined by how a function is called and in the second example, the this
inside the get
function is undefined
which makes the this._get()
throw an error.
To release a new version follow these steps:
yarn && yarn build
yarn version
and choose the version to be releasedyarn publish --access public
git push --follow-tags