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https://github.com/freshOS/then
:clapper: Tame async code with battle-tested promises
https://github.com/freshOS/then
async async-await freshos future ios micro-framework promise swift task
Last synced: 3 months ago
JSON representation
:clapper: Tame async code with battle-tested promises
- Host: GitHub
- URL: https://github.com/freshOS/then
- Owner: freshOS
- License: mit
- Created: 2016-02-06T19:57:52.000Z (over 8 years ago)
- Default Branch: master
- Last Pushed: 2024-03-06T08:29:14.000Z (8 months ago)
- Last Synced: 2024-04-13T21:44:21.651Z (7 months ago)
- Topics: async, async-await, freshos, future, ios, micro-framework, promise, swift, task
- Language: Swift
- Homepage:
- Size: 75.7 MB
- Stars: 987
- Watchers: 21
- Forks: 76
- Open Issues: 7
-
Metadata Files:
- Readme: README.md
- Contributing: CONTRIBUTING.md
- Funding: .github/FUNDING.yml
- License: LICENSE
- Code of conduct: CODE_OF_CONDUCT.md
Awesome Lists containing this project
- awesome-ios - then㪠- Elegant Async code in Swift. (EventBus / Getting Started)
- awesome-ios-star - then㪠- Elegant Async code in Swift. (EventBus / Getting Started)
README
# Then
[](https://developer.apple.com/swift)
[](https://swift.org/package-manager/)
[](https://app.bitrise.io/app/c6b39aea308618bf)
[](https://github.com/freshOS/then/blob/master/LICENSE)
[Reason](#why) - [Example](#example) - [Documentation](#documentation) - [Installation](#installation)
```swift
fetchUserId().then { id in
print("UserID : \(id)")
}.onError { e in
print("An error occured : \(e)")
}.finally {
print("Everything is Done :)")
}
```
```swift
let userId = try! awaitPromise(fetchUserId())
```
Because async code is hard to write, hard to read, hard to reason about. **A pain to maintain**
## Try it
then is part of [freshOS](https://freshos.github.io/) iOS toolset. Try it in an example App! Download Starter Project
## How
By using a **then** keyword that enables you to write aSync code that *reads like an English sentence*
Async code is now **concise**, **flexible** and **maintainable** β€οΈ
## What
- [x] Based on the popular `Promise` / `Future` concept
- [x] `Async` / `Await`
- [x] `progress` `race` `recover` `validate` `retry` `bridgeError` `chain` `noMatterWhat` ...
- [x] Strongly Typed
- [x] Pure Swift & Lightweight
## Example
### Before
```swift
fetchUserId({ id in
fetchUserNameFromId(id, success: { name in
fetchUserFollowStatusFromName(name, success: { isFollowed in
// The three calls in a row succeeded YAY!
reloadList()
}, failure: { error in
// Fetching user ID failed
reloadList()
})
}, failure: { error in
// Fetching user name failed
reloadList()
})
}) { error in
// Fetching user follow status failed
reloadList()
}
πππ#callbackHell
```
----
### After
```swift
fetchUserId()
.then(fetchUserNameFromId)
.then(fetchUserFollowStatusFromName)
.then(updateFollowStatus)
.onError(showErrorPopup)
.finally(reloadList)
```
## πππ
## Going further π€
```swift
fetchUserId().then { id in
print("UserID : \(id)")
}.onError { e in
print("An error occured : \(e)")
}.finally {
print("Everything is Done :)")
}
```
If we want this to be **maintainable**, it should read *like an English sentence*
We can do this by extracting our blocks into separate functions:
```swift
fetchUserId()
.then(printUserID)
.onError(showErrorPopup)
.finally(reloadList)
```
This is now **concise**, **flexible**, **maintainable**, and it reads like an English sentence <3
Mental sanity saved
// #goodbyeCallbackHell
## Documentation
1. [Writing your own Promise](#writing-your-own-promise-πͺ)
2. [Progress](#progress)
3. [Registering a block for later](#registering-a-block-for-later)
4. [Returning a rejecting promise](#returning-a-rejecting-promise)
5. [Common Helpers](#common-helpers)
1. [race](#race)
2. [recover](#recover)
3. [validate](#validate)
4. [retry](#retry)
5. [bridgeError](#bridgeError)
6. [whenAll](#whenAll)
7. [chain](#chain)
8. [noMatterWhat](#nomatterwhat)
9. [unwrap](#unwrap)
6. [AsyncTask](#asynctask)
7. [Async/Await](#async/await)
### Writing your own Promise πͺ
Wondering what fetchUserId() is?
It is a simple function that returns a strongly typed promise :
```swift
func fetchUserId() -> Promise {
return Promise { resolve, reject in
print("fetching user Id ...")
wait { resolve(1234) }
}
}
```
Here you would typically replace the dummy wait function by your network request <3
### Progress
As for `then` and `onError`, you can also call a `progress` block for things like uploading an avatar for example.
```swift
uploadAvatar().progress { p in
// Here update progressView for example
}
.then(doSomething)
.onError(showErrorPopup)
.finally(doSomething)
```
### Registering a block for later
Our implementation slightly differs from the original javascript Promises. Indeed, they do not start right away, on purpose. Calling `then`, `onError`, or `finally` will start them automatically.
Calling `then` starts a promise if it is not already started.
In some cases, we only want to register some code for later.
For instance, in the case of JSON to Swift model parsing, we often want to attach parsing blocks to JSON promises, but without starting them.
In order to do that we need to use `registerThen` instead. It's the exact same thing as `then` without starting the promise right away.
```swift
let fetchUsers:Promise<[User]> = fetchUsersJSON().registerThen(parseUsersJSON)
// Here promise is not launched yet \o/
// later...
fetchUsers.then { users in
// YAY
}
```
Note that `onError` and `finally` also have their non-starting counterparts : `registerOnError` and `registerFinally`.
### Returning a rejecting promise
Oftetimes we need to return a rejecting promise as such :
```swift
return Promise { _, reject in
reject(anError)
}
```
This can be written with the following shortcut :
```swift
return Promise.reject(error:anError)
```
### Common Helpers
#### Race
With `race`, you can send multiple tasks and get the result of the first one coming back :
```swift
race(task1, task2, task3).then { work in
// The first result !
}
```
#### Recover
With `.recover`, you can provide a fallback value for a failed Promise.
You can :
- Recover with a value
- Recover with a value for a specific Error type
- Return a value from a block, enabling you to test the type of error and return distinct values.
- Recover with another Promise with the same Type
```swift
.recover(with: 12)
.recover(MyError.defaultError, with: 12)
.recover { e in
if e == x { return 32 }
if e == y { return 143 }
throw MyError.defaultError
}
.recover { e -> Promise in
// Deal with the error then
return Promise.resolve(56)
// Or
return Promise.reject(e)
}
}
.recover(with: Promise.resolve(56))
```
Note that in the block version you can also throw your own error \o/
#### Validate
With `.validate`, you can break the promise chain with an assertion block.
You can:
- Insert assertion in Promise chain
- Insert assertion and return you own Error
For instance checking if a user is allowed to drink alcohol :
```swift
fetchUserAge()
.validate { $0 > 18 }
.then { age in
// Offer a drink
}
.validate(withError: MyError.defaultError, { $0 > 18 })`
```
A failed validation will retrun a `PromiseError.validationFailed` by default.
#### Retry
With `retry`, you can restart a failed Promise X number of times.
```swift
doSomething()
.retry(10)
.then { v in
// YAY!
}.onError { e in
// Failed 10 times in a row
}
```
#### BridgeError
With `.bridgeError`, you can intercept a low-level Error and return your own high level error.
The classic use-case is when you receive an api error and you bridge it to your own domain error.
You can:
- Catch all errors and use your own Error type
- Catch only a specific error
```swift
.bridgeError(to: MyError.defaultError)
.bridgeError(SomeError, to: MyError.defaultError)
```
#### WhenAll
With `.whenAll`, you can combine multiple calls and get all the results when all the promises are fulfilled :
```swift
whenAll(fetchUsersA(),fetchUsersB(), fetchUsersC()).then { allUsers in
// All the promises came back
}
```
#### Chain
With `chain`, you can add behaviours without changing the chain of Promises.
A common use-case is for adding Analytics tracking like so:
```swift
extension Photo {
public func post() -> Async {
return api.post(self).chain { _ in
Tracker.trackEvent(.postPicture)
}
}
}
```
#### NoMatterWhat
With `noMatterWhat` you can add code to be executed in the middle of a promise chain, no matter what happens.
```swift
func fetchNext() -> Promise<[T]> {
isLoading = true
call.params["page"] = page + 1
return call.fetch()
.registerThen(parseResponse)
.resolveOnMainThread()
.noMatterWhat {
self.isLoading = false
}
}
```
#### Unwrap
With `unwrap` you can transform an optional into a promise :
```swift
func fetch(userId: String?) -> Promise {
return unwrap(userId).then {
network.get("/user/\($0)")
}
}
```
Unwrap will fail the promise chain with `unwrappingFailed` error in case of a nil value :)
### AsyncTask
`AsyncTask` and `Async` typealisases are provided for those of us who think that Async can be clearer than `Promise`.
Feel free to replace `Promise` by `AsyncTask` and `Promise` by `Async` wherever needed.
This is purely for the eyes :)
### Async/Await
`awaitPromise` waits for a promise to complete synchronously and yields the result :
```swift
let photos = try! awaitPromise(getPhotos())
```
`async` takes a block and wraps it in a background Promise.
```swift
async {
let photos = try awaitPromise(getPhotos())
}
```
Notice how we don't need the `!` anymore because `async` will catch the errors.
Together, `async`/`awaitPromise` enable us to write asynchronous code in a synchronous manner :
```swift
async {
let userId = try awaitPromise(fetchUserId())
let userName = try awaitPromise(fetchUserNameFromId(userId))
let isFollowed = try awaitPromise(fetchUserFollowStatusFromName(userName))
return isFollowed
}.then { isFollowed in
print(isFollowed)
}.onError { e in
// handle errors
}
```
#### Await operators
Await comes with `..` shorthand operator. The `..?` will fallback to a nil value instead of throwing.
```swift
let userId = try awaitPromise(fetchUserId())
```
Can be written like this:
```swift
let userId = try ..fetchUserId()
```
## Installation
The Swift Package Manager (SPM) is now the official way to install `Then`. The other package managers are now deprecated as of `5.1.3` and won't be supported in future versions.
### Swift Package Manager
`Xcode` > `File` > `Swift Packages` > `Add Package Dependency...` > `Paste` `https://github.com/freshOS/Then`
### Cocoapods - Deprecated
```swift
target 'MyApp'
pod 'thenPromise'
use_frameworks!
```
### Carthage - Deprecated
```
github "freshOS/then"
```
## Contributors
[S4cha](https://github.com/S4cha), [Max Konovalov](https://github.com/maxkonovalov), [YannickDot](https://github.com/YannickDot), [Damien](https://github.com/damien-nd),
[piterlouis](https://github.com/piterlouis)
## Swift Version
- Swift 2 -> version [**1.4.2**](https://github.com/freshOS/then/releases/tag/1.4.2)
- Swift 3 -> version [**2.2.5**](https://github.com/freshOS/then/releases/tag/2.2.5)
- Swift 4 -> version [**3.1.0**](https://github.com/freshOS/then/releases/tag/3.1.0)
- Swift 4.1 -> version [**4.1.1**](https://github.com/freshOS/then/releases/tag/4.1.1)
- Swift 4.2 -> version [**4.2.0**](https://github.com/freshOS/then/releases/tag/4.2.0)
- Swift 4.2.1 -> version [**4.2.0**](https://github.com/freshOS/then/releases/tag/4.2.1)
- Swift 5.0 -> version [**5.0.0**](https://github.com/freshOS/then/releases/tag/5.0.0)
- Swift 5.1 -> version [**5.1.0**](https://github.com/freshOS/then/releases/tag/5.1.0)
- Swift 5.1.3 -> version [**5.1.2**](https://github.com/freshOS/then/releases/tag/5.1.2)
### Backers
Like the project? Offer coffee or support us with a monthly donation and help us continue our activities :)
### Sponsors
Become a sponsor and get your logo on our README on Github with a link to your site :)
