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Hands-On Design Patterns with Swift

You're reading from   Hands-On Design Patterns with Swift Master Swift best practices to build modular applications for mobile, desktop, and server platforms

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Product type Paperback
Published in Dec 2018
Publisher Packt
ISBN-13 9781789135565
Length 414 pages
Edition 1st Edition
Languages
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Authors (3):
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Giordano Scalzo Giordano Scalzo
Author Profile Icon Giordano Scalzo
Giordano Scalzo
Florent Vilmart Florent Vilmart
Author Profile Icon Florent Vilmart
Florent Vilmart
Sergio De Simone Sergio De Simone
Author Profile Icon Sergio De Simone
Sergio De Simone
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Toc

Table of Contents (17) Chapters Close

Preface 1. Refreshing the Basics FREE CHAPTER 2. Understanding ARC and Memory Management 3. Diving into Foundation and the Standard Library 4. Working with Objective-C in a Mixed Code Base 5. Creational Patterns 6. Structural Patterns 7. Behavioral Patterns 8. Swift-Oriented Patterns 9. Using the Model-View-Controller Pattern 10. Model-View-ViewModel in Swift 11. Implementing Dependency Injection 12. Futures, Promises, and Reactive Programming 13. Modularize Your Apps with Swift Package Manager 14. Testing Your Code with Unit and UI Tests 15. Going Out in the Open (Source) 16. Other Books You May Enjoy

Closures, functions, and currying

Closures are blocks of code that can be executed later, and functions are a special case of closures. Functions and closures can be passed around in your code, returned by other functions or closures. You can store a closure or a function in a variable, and execute them later:

let runMe = { () -> Int in
print(“run”)
return 0
}
runMe()

The preceding code is equivalent to the following:

func runMe() -> Int {
print(“run”)
return 0
}
runMe()

Closures and functions are almost always interchangeable, except when it comes to class or struct members:

class MyClass  {
var running = false
lazy var runWithClosure: () -> Void = {
self.running = true
}

func runWithFunction() {
self.running = true
}
}

While both implementations are somewhat equivalent, we rarely want this function to be overridable at runtime. The closure can't reference self inside of it, unless marked lazyMarking it lazy forces the implementation to be var, which, in turn, doesn't reflect what we want to express. In practice, we never declare instance methods as closures.

Currying

Functions and closures don't have to be defined at the top level. This can be unintuitive, when coming from languages such as Objective-C and Java. Swift, like JavaScript, lets you define functions and closures anywhere in your code. Functions can also return functions. This mechanism is known as currying.

Imagine that you want to create a logger method that will print a single argument, but it will always pretend to be a string to find it easily in your logs.

Let's start with the following basic implementation:

private let PREFIX = ‘MyPrefix'

private func log(_ value: String) {
print(PREFIX + “ “ + value)
}

class MyClass {
func doSomething() {
log(“before”)
/* complex code */
log(“after”)
}
}

While this works properly in the scope of a simple class, if you need to reuse the log method or change the internal implementation, this will lead to a lot of duplication.

You can use currying to overcome that issue, as follows:

func logger(prefix: String) -> (String) ->  Void {
func log(value: String) {
print(prefix + “ “ + value)
}
return log
}

let log = logger(prefix: “MyClass”)
log(“before”)
// do something
log(“after”)

// console:
MyClass before
MyClass after

Using closures as callbacks

Functions and closures can capture the current scope, which means all of the declared variables outside of the function or closure definition, such as local variables or self. In the case of self, you can inadvertently extended the lifetime of your objects and leak memory:

class MyClass {
var running = false
func run() {
running = true
DispatchQueue.main.asyncAfter(deadline: .now() + 10) {
self.running = false
}
}
}

var instance: MyClass? = MyClass()
instance?.run()
instance = nil

Can you spot the potential issue in this code?

Depending on the use case, you may want instance to be destroyed when it is not referenced by any owner. In our case, we'll probably cause a memory leak, as the dispatch block is referencing self without any memory management qualifier.

Using weak and unowned

Swift provides us with two keywords that indicate how we want to extend the lifetime of an object in a closure. While both prevent creating retain cycles, they are fundamentally different.

Using weak will wrap the captured value inside of an optional, indicating that the instance may have been deallocated before the closure was executed:

class MyClass {
var running = false
func run() {
running = true
DispatchQueue.main.asyncAfter(deadline: .now() + 10) { [weak self] in
self?.running = false
}
}
}

var instance: MyClass? = MyClass()
instance?.run()
instance = nil

In this execution, instance will immediately be deallocated when set to nil.

Using unowned indicates that the variable won't be owned by the block. Another mechanism should be responsible for ensuring that the lifetime of the captured object is properly extended until the block is executed:

class MyClass {
var running = false
func run() {
running = true
DispatchQueue.main.asyncAfter(deadline: .now() + 10) { [unowned self] in
self.running = false
}
}
}

var instance: MyClass? = MyClass()
instance?.run()
instance = nil

In this case, your program will crash when the block is executing, because the self variable will be deallocated upon the execution of the block:

Fatal error: Attempted to read an unowned reference but object 0x7f80bc75a4e0 was already deallocated
You have been reading a chapter from
Hands-On Design Patterns with Swift
Published in: Dec 2018
Publisher: Packt
ISBN-13: 9781789135565
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