- April 27, 2024
- Mins Read
Flow is a lightweight Swift library for doing operation oriented programming. It enables you to easily define your own, atomic operations, and also contains an exensive library of ready-to-use operations that can be grouped, sequenced, queued and repeated.
Using Flow is all about splitting your code up into multiple atomic pieces – called operations. Each operation defines a body of work, that can easily be reused throughout an app or library.
An operation can do anything, synchronously or asynchronously, and its scope is really up to you. The true power of operation oriented programming however, comes when you create groups, sequences and queues out of operations. Operations can potentially make code that is either asynchronous, or where work has to be done in several places, a lot simpler.
Create your own operations by conforming to FlowOperation
in a custom object. All it needs to do it implement one method that performs it with a completion handler. It’s free to be initialized in whatever way you want, and can be either a class
or a struct
.
Use any of the built-in operations, such as FlowClosureOperation
, FlowDelayOperation
, etc.
Create sequences of operations (that get executed one by one) using FlowOperationSequence
, groups (that get executed all at once) using FlowOperationGroup
, or queues (that can be continuously filled with operations) using FlowOperationQueue
.
Let’s say we’re building a game and we want to perform a series of animations where a Player
attacks an Enemy
, destroys it and then plays a victory animation. This could of course be accomplished with the use of completion handler closures:
player.moveTo(enemy.position) {
player.performAttack() {
enemy.destroy() {
player.playVictoryAnimation()
}
}
}
However, this quickly becomes hard to reason about and debug, especially if we start adding multiple animations that we want to sync. Let’s say we decide to implement a new spin attack in our game, that destroys multiple enemies, and we want all enemies to be destroyed before we play the victory animation. We’d have to do something like this:
player.moveTo(mainEnemy.position) {
player.performAttack() {
var enemiesDestroyed = 0
for enemy in enemies {
enemy.destroy({
enemiesDestroyed += 1
if enemiesDestroyed == enemies.count {
player.playVictoryAnimation()
}
})
}
}
}
It becomes clear that the more we add to our animation, the more error prone and hard to debug it becomes. Wouldn’t it be great if our animations (or any other sequence of tasks) could scale gracefully as we make them more and more complex?
Let’s implement the above using Flow instead. We’ll start by defining all tasks that we need to perform during our animation as operations:
/// Operation that moves a Player to a destination
class PlayerMoveOperation: FlowOperation {
private let player: Player
private let destination: CGPoint
init(player: Player, destination: CGPoint) {
self.player = player
self.destination = destination
}
func perform(completionHandler: @escaping () -> Void) {
self.player.moveTo(self.destination, completionHandler: completionHandler)
}
}
/// Operation that performs a Player attack
class PlayerAttackOperation: FlowOperation {
private let player: Player
init(player: Player) {
self.player = player
}
func perform(completionHandler: @escaping () -> Void) {
self.player.performAttack(completionHandler)
}
}
/// Operation that destroys an enemy
class EnemyDestroyOperation: FlowOperation {
private let enemy: Enemy
init(enemy: Enemy) {
self.enemy = enemy
}
func perform(completionHandler: @escaping () -> Void) {
self.enemy.destroy(completionHandler)
}
}
/// Operation that plays a Player victory animation
class PlayerVictoryOperation: FlowOperation {
private let player: Player
init(player: Player) {
self.player = player
}
func perform(completionHandler: @escaping () -> Void) {
self.player.playVictoryAnimation()
completionHandler()
}
}
Secondly; we’ll implement our animation using the above operations:
let moveOperation = PlayerMoveOperation(player: player, destination: mainEnemy.position)
let attackOperation = PlayerAttackOperation(player: player)
let destroyEnemiesOperation = FlowOperationGroup(operations: enemies.map({
return EnemyDestroyOperation(enemy: $0)
}))
let victoryOperation = PlayerVictoryOperation(player: player)
let operationSequence = FlowOperationSequence(operations: [
moveOperation,
attackOperation,
destroyEnemiesOperation,
victoryOperation
])
operationSequence.perform()
While we had to write a bit more code using operations; this approach has some big advantages.
Firstly; we can now use a FlowOperationGroup
to make sure that all enemy animations are finished before moving on, and by doing this we’ve reduced the state we need to keep within the animation itself.
Secondly; all parts of the animation are now independant operations that don’t have to be aware of each other, making them a lot easier to test & debug – and they could also be reused in other parts of our game.
FlowOperation
Used to declare custom operations.
FlowOperationCollection
Used to declare custom collections of operations.
FlowClosureOperation
Operation that runs a closure, and returns directly when performed.
FlowAsyncClosureOperation
Operation that runs a closure, then waits for that closure to call a completion handler before it finishes.
FlowDelayOperation
Operation that waits for a certain delay before finishing. Useful in sequences and queues.
FlowOperationGroup
Used to group together a series of operations that all get performed at once when the group is performed.
FlowOperationSequence
Used to sequence a series of operations, performing them one by one once the sequence is performed.
FlowOperationQueue
Queue that keeps executing the next operation as soon as it becomes idle. New operations can constantly be added.
FlowOperationRepeater
Used to repeat operations, optionally using an interval in between repeats.
NSOperations
are awesome – and are definetly one of the main sources of inspiration for Flow. However, NSOperations
are quite heavyweight and can potentially take a long time to implement. Flow was designed to have the power of NSOperations
, but be a lot easier to use. It’s also written 100% using Swift – making it ideal for Swift-based projects.
Flow supports all current Apple platforms with the following minimum versions:
The current version of Flow supports Swift 3. If you need Swift 2 support, either use version 1.1, or the swift 2
branch.
CocoaPods:
Add the line pod "FlowOperations"
to your Podfile
Carthage:
Add the line github "johnsundell/flow"
to your Cartfile
Manual:
Clone the repo and drag the file Flow.swift
into your Xcode project.
Swift Package Manager:
Add the line .Package(url: "https://github.com/johnsundell/flow.git", majorVersion: 2)
to your Package.swift
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