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Swift Protocol-Oriented Programming

You're reading from   Swift Protocol-Oriented Programming Increase productivity and build faster applications with Swift 5

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Product type Paperback
Published in Jun 2019
Publisher
ISBN-13 9781789349023
Length 224 pages
Edition 4th Edition
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Author (1):
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Jon Hoffman Jon Hoffman
Author Profile Icon Jon Hoffman
Jon Hoffman
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Toc

Table of Contents (11) Chapters Close

Preface 1. Starting with the Protocol 2. Our Type Choices FREE CHAPTER 3. Extensions 4. Generics 5. Memory Management 6. Object-Oriented Programming 7. Protocol-Oriented Programming 8. Adopting Design Patterns in Swift 9. Case Studies 10. Other Books You May Enjoy

Delegation

Delegation is used extensively within the Cocoa and Cocoa Touch frameworks. The delegation pattern is a very simple but powerful pattern where an instance of one type acts on behalf of another instance. The instance that is doing the delegating keeps a reference to the delegate instance, and then, when an action happens, the delegating instance calls the delegate to perform the intended function. Sounds confusing? It really isn't.

This design pattern is implemented in Swift by creating a protocol that defines the delegates' responsibilities. The type that conforms to the protocol, known as the delegate, will adopt this protocol, guaranteeing that it will provide the functionality that's defined by the protocol.

For the example in this section, we will have a structure named Person. This structure will contain two properties of the String type, named firstName and lastName. It will also have a third property that will store the delegate instance. When either the firstName or lastName properties are set, we will call a method in the delegate instance that will display the full name. Since the Person structure is delegating the responsibility for displaying the name to another instance, it doesn't need to know or care how the name is being displayed. Therefore, the full name could be displayed in a console window or in a UILabel; alternatively, the message may be ignored altogether.

Let's start off by looking at the protocol that defines the delegate's responsibilities. We will name this delegate DisplayNameDelegate:

protocol DisplayNameDelegate { 
    func displayName(name: String) 
}  

In the DisplayNameDelegate protocol, we define one method that the delegate needs to implement named displayName(). It is assumed that, within this method, the delegate will somehow display the name; however, it is not required. The only requirement is that the delegate implements this method.

Now, let's look at the Person structure that uses the delegate:

struct Person  { 
    var displayNameDelegate: DisplayNameDelegate 
 
    var firstName = "" { 
        didSet { 
            displayNameDelegate.displayName(name: getFullName()) 
        } 
    } 
    var lastName =  "" { 
        didSet { 
            displayNameDelegate.displayName(name: getFullName()) 
        } 
    } 
 
    init(displayNameDelegate: DisplayNameDelegate) { 
        self.displayNameDelegate = displayNameDelegate 
    } 
 
    func getFullName() -> String { 
        return "\(firstName) \(lastName)" 
    } 
} 

In the Person structure, we start off by adding the three properties, that is, displayNameDelegate, firstName, and lastName. The displayNameDelegate property contains an instance of the delegate type. This instance will be responsible for displaying the full name when the values of the firstName and lastName properties change.

Within the definitions for the firstName and lastName properties, we define the property observers. The property observers are called each time the value of the properties are changed. Within these property observers is where we call the displayName() method of our delegate instance to display the full name.

Now, let's create a type that will conform to the DisplayNameDelegate protocol. We will name this type MyDisplayNameDelegate:

struct MyDisplayNameDelegate: DisplayNameDelegate { 
    func displayName(name: String)  { 
        print("Name: \(name)") 
    } 
}  

In this example, all we will do is print the name to the console. Now, let's see how we would use this delegate:

var displayDelegate = MyDisplayNameDelegate() 
var person = Person(displayNameDelegate: displayDelegate) 
person.firstName = "Jon"  
person.lastName = "Hoffman" 

In the preceding code, we begin by creating an instance of the MyDisplayNameDelegate type and then use that instance to create an instance of the Person type. Now, when we set the properties of the Person instance, the delegate is used to print the full name to the console.

While printing the name to the console may not seem that exciting, the real power of the delegation pattern comes when our application wants to change the behavior. Maybe we want to send the name to a web service or display it somewhere on the screen, or even ignore the change. To change this behavior, we simply need to create a new type that conforms to the DisplayNameDelegate protocol. We can then use this new type when we create an instance of the Person type.

Another advantage that we get from using the delegation pattern is loose coupling. In our example, we separated the logic part of our code from the view by using the delegate to display the name whenever the properties changed. Loose coupling promotes a separation of responsibility, where each type is responsible for very specific tasks; this makes it very easy to swap out these tasks when requirements change, because we all know that requirements change often.

So far in this chapter, we have looked at protocols from a coding point of view. Now, let's look at protocols from a design point of view.

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