In Swift, using OperationQueue for asynchronous code may seem like pure hell because, under the hood, Operations are considered complete if the compilation of their synchronous code is completed.
In other words, compiling the example described below will output a broken execution order since, by the time the asynchronous code is executed, the Operation itself will have already been completed.
let operationQueue = OperationQueue()
operationQueue.maxConcurrentOperationCount = 1
operationQueue.addOperation {
DispatchQueue.main.asyncAfter(deadline: .now() + 1) {
print("First async operation complete")
}
print("First sync operation complete")
}
operationQueue.addOperation {
DispatchQueue.main.asyncAfter(deadline: .now() + 1.5) {
print("Second async operation complete")
}
print("Second sync operation complete")
}
This code will print:
First sync operation complete
Second sync operation complete
First async operation complete
Second async operation complete
However, there is a way to circumvent these restrictions. To understand how to solve the problem, you need to understand how Operation works under the hood.
The Operation itself has four flags by which you can track the life cycle of the operation:
isReady— indicates whether theOperationcan be performed at this time.
isExecuting—indicates whether anOperationis currently in progress.
isFinished—indicates whether theOperationis currently completed.
isCancelled—indicates whether theOperationwas canceled.
In theory, the Operation enters the isFinished state before the Operationitself is executed asynchronously, so we need to develop a technique by which we will be able to manipulate the life cycle of the Operation.
This possibility can be solved by subclassing the Operation and also by redefining the start / cancel methods, as well as all the flags on which the operation's life cycle is built.
Here’s the code:
public class AsyncOperation: Operation {
// MARK: Open
override open var isAsynchronous: Bool {
true
}
override open var isReady: Bool {
super.isReady && self.state == .ready
}
override open var isExecuting: Bool {
self.state == .executing
}
override open var isFinished: Bool {
self.state == .finished
}
override open func start() {
if isCancelled {
state = .finished
return
}
main()
state = .executing
}
override open func cancel() {
super.cancel()
state = .finished
}
// MARK: Public
public enum State: String {
case ready
case executing
case finished
// MARK: Fileprivate
fileprivate var keyPath: String {
"is" + rawValue.capitalized
}
}
public var state = State.ready {
willSet {
willChangeValue(forKey: newValue.keyPath)
willChangeValue(forKey: state.keyPath)
}
didSet {
didChangeValue(forKey: oldValue.keyPath)
didChangeValue(forKey: state.keyPath)
}
}
}
The subclass we received from the Operation is basic and allows us to forcefully complete it manually.
To work with completion blocks, you should create another subclass. However, this will not be a subclass of the Operation, but of AsyncOperation.
public typealias VoidClosure = () -> Void
public typealias Closure<T> = (T) -> Void
public class CompletionOperation: AsyncOperation {
// MARK: Lifecycle
public init(completeBlock: Closure<VoidClosure?>?) {
self.completeBlock = completeBlock
}
// MARK: Public
override public func main() {
DispatchQueue.main.async { [weak self] in
self?.completeBlock? {
DispatchQueue.main.async {
self?.state = .finished
}
}
}
}
// MARK: Private
private let completeBlock: Closure<VoidClosure?>?
}
This subclass will allow us to pass a closure to the Operation, after which the Operation will be completed.
Let’s try this type of operation in practice:
let operationQueue = OperationQueue()
operationQueue.maxConcurrentOperationCount = 1
operationQueue.addOperation(
CompletionOperation { completion in
DispatchQueue.main.asyncAfter(deadline: .now() + 1) {
print("First async operation complete")
completion?()
}
print("First sync operation complete")
}
)
operationQueue.addOperation(
CompletionOperation { completion in
DispatchQueue.main.asyncAfter(deadline: .now() + 1.5) {
print("Second async operation complete")
completion?()
}
print("Second sync operation complete")
}
)
As a result, we were able to achieve synchronous execution of Operations:
First sync operation complete
First async operation complete
Second sync operation complete
Second async operation complete
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