extension Array {
    func removeObject<T where T : Equatable>(object: T) {
        var index = find(self, object)
        self.removeAtIndex(index)
    }
}

However, I get an error on var index = find(self, object)

'T' is not convertible to 'T'

I also tried with this method signature: func removeObject(object: AnyObject), however, I get the same error:

'AnyObject' is not convertible to 'T'

What is the proper way to do this?

13 Answers 13

As of Swift 2, this can be achieved with a protocol extension method. removeObject() is defined as a method on all types conforming to RangeReplaceableCollectionType (in particular on Array) if the elements of the collection are Equatable:

extension RangeReplaceableCollectionType where Generator.Element : Equatable {

    // Remove first collection element that is equal to the given `object`:
    mutating func removeObject(object : Generator.Element) {
        if let index = self.indexOf(object) {
            self.removeAtIndex(index)
        }
    }
}

Example:

var ar = [1, 2, 3, 2]
ar.removeObject(2)
print(ar) // [1, 3, 2]

Update for Swift 2 / Xcode 7 beta 2: As Airspeed Velocity noticed in the comments, it is now actually possible to write a method on a generic type that is more restrictive on the template, so the method could now actually be defined as an extension of Array:

extension Array where Element : Equatable {

    // ... same method as above ...
}

The protocol extension still has the advantage of being applicable to a larger set of types.

Update for Swift 3:

extension Array where Element: Equatable {

    // Remove first collection element that is equal to the given `object`:
    mutating func remove(object: Element) {
        if let index = index(of: object) {
            remove(at: index)
        }
    }
}
  • 1
    Perfect, you gotta love Swift (2). I really like how with time more things get possible and stuff gets simplified – Kametrixom Jun 28 '15 at 21:25
  • 1
    Good point, in many ways the fact that the answer is still technically correct, just no longer idiomatic, is even worse – people will come, read the answer, think a free function is the right way to solve it since it’s a highly rated answer. Pretty ugly scenario. Will post to meta. – Airspeed Velocity Jul 2 '15 at 11:21
  • 1
    @AirspeedVelocity: Wow, I missed that. Is it covered in the release notes? – Martin R Jul 2 '15 at 11:44
  • 1
    If you want the same functionality as ObjC (i.e. removes all matching objects instead of only the 1st one), you can change "if" to "while" – powertoold Nov 12 '15 at 0:24
  • 2
    The Swift 3 version is great, but I would rename its declaration slightly to remove(object: Element) in order to comply with the Swift API design guidelines and avoid verbosity. I have submitted an edit reflecting this. – swiftcode Oct 12 '16 at 16:07

You cannot write a method on a generic type that is more restrictive on the template.

NOTE: as of Swift 2.0, you can now write methods that are more restrictive on the template. If you have upgraded your code to 2.0, see other answers further down for new options to implement this using extensions.

The reason you get the error 'T' is not convertible to 'T' is that you are actually defining a new T in your method that is not related at all to the original T. If you wanted to use T in your method, you can do so without specifying it on your method.

The reason that you get the second error 'AnyObject' is not convertible to 'T' is that all possible values for T are not all classes. For an instance to be converted to AnyObject, it must be a class (it cannot be a struct, enum, etc.).

Your best bet is to make it a function that accepts the array as an argument:

func removeObject<T : Equatable>(object: T, inout fromArray array: [T]) {
}

Or instead of modifying the original array, you can make your method more thread safe and reusable by returning a copy:

func arrayRemovingObject<T : Equatable>(object: T, fromArray array: [T]) -> [T] {
}

As an alternative that I don't recommend, you can have your method fail silently if the type stored in the array cannot be converted to the the methods template (that is equatable). (For clarity, I am using U instead of T for the method's template):

extension Array {
    mutating func removeObject<U: Equatable>(object: U) {
        var index: Int?
        for (idx, objectToCompare) in enumerate(self) {
            if let to = objectToCompare as? U {
                if object == to {
                    index = idx
                }
            }
        }

        if(index != nil) {
            self.removeAtIndex(index!)
        }
    }
}

var list = [1,2,3]
list.removeObject(2) // Successfully removes 2 because types matched
list.removeObject("3") // fails silently to remove anything because the types don't match
list // [1, 3]

Edit To overcome the silent failure you can return the success as a bool:

extension Array {
  mutating func removeObject<U: Equatable>(object: U) -> Bool {
    for (idx, objectToCompare) in self.enumerate() {  //in old swift use enumerate(self) 
      if let to = objectToCompare as? U {
        if object == to {
          self.removeAtIndex(idx)
          return true
        }
      }
    }
    return false
  }
}
var list = [1,2,3,2]
list.removeObject(2)
list
list.removeObject(2)
list
  • Check out my answer here: stackoverflow.com/a/24939242/458960 Why am I able to do it this way and not using the find method? – Snowman Jul 24 '14 at 16:29
  • Your method is susceptible to runtime crashes. With my function, the compiler will prevent that from happening at all. – drewag Jul 24 '14 at 16:35
  • 1
    @Isuru This method works with any object that implements the Equatable protocol. UIView does so yes it will work with UIViews – drewag Oct 26 '14 at 5:12
  • 4
    Wow, writing a for loop to remove an element, back to the 90s it is! – Zorayr Mar 28 '15 at 3:58
  • 5
    In the latest swift. enumerate(self) have to fix to self.enumerate() – TomSawyer Oct 12 '15 at 19:13

briefly and concisely:

func removeObject<T : Equatable>(object: T, inout fromArray array: [T]) 
{
    var index = find(array, object)
    array.removeAtIndex(index!)
}
  • 2
    This is cool. Of course it can be done without the inout, too. Even with the inout intact, one could use, array = array.filter() { $0 != object }, I think. – Dan Rosenstark Jan 12 '15 at 20:05
  • 11
    Be aware of using force unwrapped index, which may be nil. Change to "if let ind = index {array.removeAtIndex(ind)}" – HotJard Apr 26 '15 at 9:05
  • doesn't work for Swift 2+ – Zaid Pathan Jan 11 '16 at 7:05

After reading all the above, to my mind the best answer is:

func arrayRemovingObject<U: Equatable>(object: U, # fromArray:[U]) -> [U] {
  return fromArray.filter { return $0 != object }
}

Sample:

var myArray = ["Dog", "Cat", "Ant", "Fish", "Cat"]
myArray = arrayRemovingObject("Cat", fromArray:myArray )

Swift 2 (xcode 7b4) array extension:

extension Array where Element: Equatable {  
  func arrayRemovingObject(object: Element) -> [Element] {  
    return filter { $0 != object }  
  }  
}  

Sample:

var myArray = ["Dog", "Cat", "Ant", "Fish", "Cat"]
myArray = myArray.arrayRemovingObject("Cat" )

Swift 3.1 update

Came back to this now that Swift 3.1 is out. Below is an extension which provides exhaustive, fast, mutating and creating variants.

extension Array where Element:Equatable {
    public mutating func remove(_ item:Element ) {
        var index = 0
        while index < self.count {
            if self[index] == item {
                self.remove(at: index)
            } else {
                index += 1
            }
        }
    }

    public func array( removing item:Element ) -> [Element] {
        var result = self
        result.remove( item )
        return result
    }
}

Samples:

// Mutation...
      var array1 = ["Cat", "Dog", "Turtle", "Cat", "Fish", "Cat"]
      array1.remove("Cat")
      print(array1) //  ["Dog", "Turtle", "Socks"]

// Creation...
      let array2 = ["Cat", "Dog", "Turtle", "Cat", "Fish", "Cat"]
      let array3 = array2.array(removing:"Cat")
      print(array3) // ["Dog", "Turtle", "Fish"]
  • doesn't this return a completely new instance of the array? – pxpgraphics Mar 18 '16 at 19:51
  • Yes. It's a more functional style. YMMV. – rosstulloch Mar 20 '16 at 20:43
  • I tend to agree with the functional styling, except, in this case, when the filter function already handles that functionality for you. This seems to duplicate functionality. But a good answer nonetheless :] – pxpgraphics Mar 20 '16 at 20:47

With protocol extensions you can do this,

extension Array where Element: Equatable {
    mutating func remove(object: Element) {
        if let index = indexOf({ $0 == object }) {
            removeAtIndex(index)
        }
    }
}

Same functionality for classes,

Swift 2

extension Array where Element: AnyObject {
    mutating func remove(object: Element) {
        if let index = indexOf({ $0 === object }) {
            removeAtIndex(index)
        }
    }
}

Swift 3

extension Array where Element: AnyObject {
    mutating func remove(object: Element) {
        if let index = index(where: { $0 === object }) {
             remove(at: index)
        }
    }
}

But if a class implements Equatable it becomes ambiguous and the compiler gives an throws an error.

  • 1
    i'm getting a Binary operator '===' cannot be applied to two elements of type '_' and 'Element' – shoe Jan 20 '17 at 1:20

With using protocol extensions in swift 2.0

extension _ArrayType where Generator.Element : Equatable{
    mutating func removeObject(object : Self.Generator.Element) {
        while let index = self.indexOf(object){
            self.removeAtIndex(index)
        }
    }
}

what about to use filtering? the following works quite well even with [AnyObject].

import Foundation
extension Array {
    mutating func removeObject<T where T : Equatable>(obj: T) {
        self = self.filter({$0 as? T != obj})
    }

}
  • 1
    this is the best solution that worked for me. – DeyaEldeen Jul 11 '16 at 10:17

There is another possibility of removing an item from an array without having possible unsafe usage, as the generic type of the object to remove cannot be the same as the type of the array. Using optionals is also not the perfect way to go as they are very slow. You could therefore use a closure like it is already used when sorting an array for example.

//removes the first item that is equal to the specified element
mutating func removeFirst(element: Element, equality: (Element, Element) -> Bool) -> Bool {
    for (index, item) in enumerate(self) {
        if equality(item, element) {
            self.removeAtIndex(index)
            return true
        }
    }
    return false
}

When you extend the Array class with this function you can remove elements by doing the following:

var array = ["Apple", "Banana", "Strawberry"]
array.removeFirst("Banana") { $0 == $1 } //Banana is now removed

However you could even remove an element only if it has the same memory address (only for classes conforming to AnyObject protocol, of course):

let date1 = NSDate()
let date2 = NSDate()
var array = [date1, date2]
array.removeFirst(NSDate()) { $0 === $1 } //won't do anything
array.removeFirst(date1) { $0 === $1 } //array now contains only 'date2'

The good thing is, that you can specify the parameter to compare. For example when you have an array of arrays, you can specify the equality closure as { $0.count == $1.count } and the first array having the same size as the one to remove is removed from the array.

You could even shorten the function call by having the function as mutating func removeFirst(equality: (Element) -> Bool) -> Bool, then replace the if-evaluation with equality(item) and call the function by array.removeFirst({ $0 == "Banana" }) for example.

  • Since == is a function, you can also call it like this for any type that implements == (like String, Int etc.): array.removeFirst("Banana", equality:==) – Aviel Gross Nov 10 '15 at 15:22
  • @AvielGross this is new in Swift 2 I think - feel free to edit the answer accordingly if you want to – borchero Nov 10 '15 at 15:24

Using indexOf instead of a for or enumerate:

extension Array where Element: Equatable {

   mutating func removeElement(element: Element) -> Element? {
      if let index = indexOf(element) {
         return removeAtIndex(index)
      }
      return nil
   }

   mutating func removeAllOccurrencesOfElement(element: Element) -> Int {
       var occurrences = 0
       while true {
          if let index = indexOf(element) {
             removeAtIndex(index)
             occurrences++
          } else {
             return occurrences
          }
       }
   }   
}

I finally ended up with following code.

extension Array where Element: Equatable {

    mutating func remove<Element: Equatable>(item: Element) -> Array {
        self = self.filter { $0 as? Element != item }
        return self
    }

}

I managed to remove a [String:AnyObject] from an array [[String:AnyObject]] by implementing a count outside of a for loop to represent the index since .find and .filter are not compatible with [String:AnyObject].

let additionValue = productHarvestChoices[trueIndex]["name"] as! String
var count = 0
for productHarvestChoice in productHarvestChoices {
  if productHarvestChoice["name"] as! String == additionValue {
    productHarvestChoices.removeAtIndex(count)
  }
  count = count + 1
}

Implementation in Swift 2:

extension Array {
  mutating func removeObject<T: Equatable>(object: T) -> Bool {
    var index: Int?
    for (idx, objectToCompare) in self.enumerate() {
      if let toCompare = objectToCompare as? T {
        if toCompare == object {
          index = idx
          break
        }
      }
    }
    if(index != nil) {
      self.removeAtIndex(index!)
      return true
    } else {
      return false
    }
  }
}

I was able to get it working with:

extension Array {
    mutating func removeObject<T: Equatable>(object: T) {
        var index: Int?
        for (idx, objectToCompare) in enumerate(self) {
            let to = objectToCompare as T
            if object == to {
                index = idx
            }
        }

        if(index) {
            self.removeAtIndex(index!)
        }
    }
}
  • The comparison if(index) is invalid – juanjo Nov 21 '15 at 21:08

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