19

To be very frank, I am totally new to learn Extension creation and usage.

I wanted to create a category (Extension in swift 3.0) which can be used throughout an application to perform repeated operations for Array.

Sample Link 1

This is what I have seen and understand while doing research, I wanted to create an extension with various methods which should be generic, and not on the basis of datatype needed to create separate extensions.

Here in above example, we will need to create single extension if we will go for particular datatype wise extension. I wanted to have a guidance if any way is there to create the generic category (Extension in swift).

  1. extension _ArrayType where Generator.Element == Int
  2. extension Array where Element: Equatable
  3. extension Array where Element == Int
  4. extension _ArrayType where Generator.Element == Float
  5. extension SequenceType where Self.Generator.Element: FloatingPointType
  6. extension Array where Element: DoubleValue
  7. extension Sequence where Iterator.Element == String

,etc...

Sample Link 2

Note : In short, we can consider that I want to perform actions based on Array in single extension instead of just creating the single extension for each of the datatypes as per above requirement.

20
  • 2
    What are you trying to achieve? Which operations are you referring to?
    – averello
    Apr 18, 2017 at 11:38
  • 1
    I wanted to create category(in term of Objective C) class for Array in swift, which will offer to perform all the operations using those category methods defined for various datatypes (i.e. wanted to create methods in to that extension, which will be applicable on array consist of int, double, float, dictionary, string etc...) any of the types. Apr 18, 2017 at 11:43
  • 2
    This sounds like just extension Array { ... }. What problem are you having with that?
    – Rob Napier
    Apr 18, 2017 at 12:28
  • 1
    Suppose I have to pass any parameter to extension method and if that parameter will be dynamic type (i.e. int, double, float, dictionary, string etc...) then it should work with any type of the object. No need to create separate extension for each individual datatype. Apr 18, 2017 at 12:38
  • 1
    Here I have 5 different controller, from each i need to perform different operations like if from One Controller i need to sort array consist of integer in ascending or descending order. From Second Controller I need to sort array consist of dictionary value in ascending or descending order bases on any particular key parameter. From Third Controller I need to sort array consist of id(Any) type. *************** Same way if I want to create method for insert, remove, replace object with above mentioned datatypes dynamically then how can i be able to create generic method which can help me? Apr 18, 2017 at 12:45

2 Answers 2

22
+25

As mentioned in the comments, one way to accomplish this is to create your own protocol that the types you want to cover adopt (in the comments someone called it Content, used below for this example) (from first source):

protocol Content {
    var hash: String { get }
}
extension Array where Element : Content {

    func filterWithId(id : String) -> [Element] {
        return self.filter { (item) -> Bool in
            return item.id == id
        }
    }
}

It seems, though, that the original question is mainly asking about generic extensions for arrays, which one comment says are not possible but 100% are possible in Swift (it's a big Swift feature, actually) (from second source).

For example, if you want to define a specific extension method for Ints only, you can do that:

extension Sequence where Iterator.Element == Int {
    var sum: Int {
        return reduce(0, +)
    }
}

It seems like the question's original requirements are extension methods that could be agnostic to data type and therefore should be kept in common. If I understand correctly, seems though that these data types in general have some conformance to Equatable and/or Hashable, which is the minimum requirement for this kind of generic-stuff to work. With this element conformance, though, this is possible as such:

extension Sequence where Iterator.Element is Equatable {
    func extensionMethodName<T: Equatable>(_ input: [T], singleElement: T) -> [T] {
        // T is now a generic array of equatable items. You can implement whatever extension logic you need with these. 
        // I added different ways of passing in and returning this generic type, but the only thing that is likely going to be consistent is the `<T: Equatable>` which is Swift standard syntax for declaring generic type parameters for a method.
    }
}

The Swift syntax changes quickly, and what's here can quickly go out of date, but this guide is kept fairly up-to-date by Apple and shows the most up to date syntax for Generics used above ^.

My answer pulls from a couple StackOverflow questions/answers, used for example/syntax above ^. Source: (SO Source) (SO Source 2)

In summary, all the methods above can be combined, for a fully custom extension solution that has both generic functions/vars for all your Array types, while still having type-specific extension overrides.

1
  • 1
    you have provided really a good example here. But this suggestion is bit different to my question, thanks. Apr 28, 2017 at 5:11
17

In where clause, you specify "If the Element type has these rules, consider this extension".

You don't need to implement all of the methods in all extensions.

For example:

  • You want to extend Array<Element> to generally have method foo(_:Element):

    extension Array {
        func foo(bar: Element) { /*your code goes here */ }
    }
    
  • You want to extend Array<Element> where Element did implement Equatable (which includes Int,Double and ... or any structs/classes you've marked as Equatable):

    extension Array where Element: Equatable {
        func find(value: Element) -> Bool { 
            return index(of: value) != nil
        }
    }
    
  • You want to extend Sequence in cases that Element is Numeric, have get-only variable sum:

    extension Sequence where Element: Numeric {
        var sum: Element { 
            return reduce(0, +)
        }
    }
    
  • You want to extend Collection<Collection<Element: Equatable>> to have a method to compare to 2D Collections:

    extension Collection
        where Iterator.Element: Collection, 
        Iterator.Element.Iterator.Element: Equatable {
    
        func compare(to: Self) -> Bool {
            let flattenSelf = self.reduce([], +)
            let flattenTo = to.reduce([], +)
    
            return flattenSelf.count == flattenTo.count &&
                zip(flattenSelf, flattenTo).reduce(true) { $0 && $1.0 == $1.1 }
        }
    }
    

You don't need to extend Array or collection to have methods like sort, find, etc... Most of these methods are already extended inside the compiler if your Element: Equatable or Element: Comparable. using map, filter and reduce you can achieve more complex structures with not much of a code.

3
  • this is a helpful answer but i am asking for bit different thing. Thanks. Apr 28, 2017 at 5:11
  • 1
    Yeah I Realized your problem, but actually this is the way ios-engnieers suggest to code in swift. for example one extension for each delegate, one extension for each code functinoality and etc... Apr 28, 2017 at 17:56
  • Thanks @farzadshbfn for your valuable time. May 31, 2018 at 9:38

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.