Why Choose Struct Over Class?

Question

Playing around with Swift, coming from a Java background, why would you want to choose a Struct instead of a Class? Seems like they are the same thing, with a Struct offering less functionality. Why choose it then?

Answer 1

According to the very popular WWDC 2015 talk Protocol Oriented Programming in Swift (video, transcript), Swift provides a number of features that make structs better than classes in many circumstances.

Structs are preferable if they are relatively small and copiable because copying is way safer than having multiple reference to the same instance as happens with classes. This is especially important when passing around a variable to many classes and/or in a multithreaded environment. If you can always send a copy of your variable to other places, you never have to worry about that other place changing the value of your variable underneath you.

With Structs there is no need to worry about memory leaks or multiple threads racing to access/modify a single instance of a variable.

Classes can also become bloated because a class can only inherit from a single superclass. That encourages us to created huge superclasses that encompass many different abilities that are only loosely related. Using protocols, especially with protocol extensions where you can provide implementations to protocols, allows you to eliminate the need for classes to achieve this sort of behavior.

The talk lays out these scenarios where classes are preferred:

• Copying or comparing instances doesn't make sense (e.g., Window)
• Instance lifetime is tide to external effects (e.g., TemporaryFile)
• Instances are just "sinks"--write-only conduits to external state (e.g.CGContext)

It implies that structs should be the default and classes should be a fallback.

On the other hand, The Swift Programming Language documentation is somewhat contradictory:

Structure instances are always passed by value, and class instances are always passed by reference. This means that they are suited to different kinds of tasks. As you consider the data constructs and functionality that you need for a project, decide whether each data construct should be defined as a class or as a structure.

As a general guideline, consider creating a structure when one or more of these conditions apply:

• The structure’s primary purpose is to encapsulate a few relatively simple data values.
• It is reasonable to expect that the encapsulated values will be copied rather than referenced when you assign or pass around an instance of that structure.
• Any properties stored by the structure are themselves value types, which would also be expected to be copied rather than referenced.
• The structure does not need to inherit properties or behavior from another existing type.

Examples of good candidates for structures include:

• The size of a geometric shape, perhaps encapsulating a width property and a height property, both of type Double.
• A way to refer to ranges within a series, perhaps encapsulating a start property and a length property, both of type Int.
• A point in a 3D coordinate system, perhaps encapsulating x, y and z properties, each of type Double.

In all other cases, define a class, and create instances of that class to be managed and passed by reference. In practice, this means that most custom data constructs should be classes, not structures.

Here it is claiming that we should default to using classes and use structures only in specific circumstances. Ultimately, you need to understand the real world implication of value types v.s. reference types and then you can make an informed decision about when to use structs or classes. Also keep in mind that these concepts are always evolving and The Swift Programming Language documentation was written before the Protocol Oriented Programming talk was given.

My personal advice, is to always default to using a struct because they greatly reduce complexity and fallback to classes if the Struct becomes very large or requires some feature that structs and protocols cannot provide, most notably the ability to have multiple variables reference the same data.

Answer 2

One big advantage is performance. Since struct instances are allocated on stack, and class instances are allocated on heap, structs can be drastically faster.

Consider the following example, which demonstrates 2 strategies of wrapping Int data type (e.g. as part of a mathematics library)

class IntClass {
    var value: Int
    init(_ val: Int) { self.value = val }
}

struct IntStruct {
    var value: Int
    init(_ val: Int) { self.value = val }
}

func + (x: IntClass, y: IntClass) -> IntClass {
    return IntClass(x.value + y.value)
}

func + (x: IntStruct, y: IntStruct) -> IntStruct {
    return IntStruct(x.value + y.value)
}

and measure the performance using

// Test 1: IntClass
var x = IntClass(0)
for i in 1...10000000 {
    x = x + IntClass(1)
}

// Test 2: IntStruct
var y = IntStruct(0)
for i in 1...10000000 {
    y = y + IntStruct(1)
}

UPDATE (1 June 2014):

As of Swift 1.2, XCode 6.3.2, running Release build on iPhone 5S, iOS 8.3, averaged over 5 runs

• The class version took 9.788332333s
• The struct version took 0.010532942s

That's 900 times faster.

OLD RESULTS

In release build (on my Macbook), the first test takes 1.10082 sec, while the second one takes 0.02324 sec. That's 50 times faster! (results are roughly the same in debug build).

Answer 3

Similarities between structs and classes.

I created gist for this with simple examples. https://github.com/objc-swift/swift-classes-vs-structures

And differences

1. Inheritance.

structures can't inherit in swift. If you want

class Vehicle{
}

class Car : Vehicle{
}

Go for an class.

2. Pass By

Swift structures pass by value and class instances pass by reference.

Contextual Differences

Struct constant and variables

Example (Used at WWDC 2014)

struct Point{

   var x = 0.0;
   var y = 0.0;

} 

Defines a struct called Point.

var point = Point(x:0.0,y:2.0)

Now if I try to change the x. Its a valid expression.

point.x = 5

But if I defined a point as constant.

let point = Point(x:0.0,y:2.0)
point.x = 5 //This will give compile time error.

In this case entire point is immutable constant.

If I used a class Point instead this is a valid expression. Because in a class immutable constant is the reference to the class itself not its instance variables (Unless those variables defined as constants)

Answer 4

Here are some other reasons to consider:

1. structs get an automatic initializer that you don't have to maintain in code at all.

   struct MorphProperty {
      var type : MorphPropertyValueType
      var key : String
      var value : AnyObject
   
      enum MorphPropertyValueType {
          case String, Int, Double
      }
    }
   
    var m = MorphProperty(type: .Int, key: "what", value: "blah")
   

To get this in a class, you would have to add the initializer, and maintain the intializer...

2. Basic collection types like Array are structs. The more you use them in your own code, the more you will get used to passing by value as opposed to reference. For instance:

   func removeLast(var array:[String]) {
      array.removeLast()
      println(array) // [one, two]
   }
   
   var someArray = ["one", "two", "three"]
   removeLast(someArray)
   println(someArray) // [one, two, three]
   

3. Apparently immutability vs. mutability is a huge topic, but a lot of smart folks think immutability -- structs in this case -- is preferable. Mutable vs immutable objects

Answer 5

Some advantages:

• automatically threadsafe due to not being shareable
• uses less memory due to no isa and refcount (and in fact is stack allocated generally)
• methods are always statically dispatched, so can be inlined (though @final can do this for classes)
• easier to reason about (no need to "defensively copy" as is typical with NSArray, NSString, etc...) for the same reason as thread safety

Answer 6

With classes you get inheritance and are passed by reference, structs do not have inheritance and are passed by value.

There are great WWDC sessions on Swift, this specific question is answered in close detail in one of them. Make sure you watch those, as it will get you up to speed much more quickly then the Language guide or the iBook.