17

Say I have an array [1, 2, 3, 4, 5]. How can I iterate two at a time?

Iteration 1: (1, 2)
Iteration 2: (3, 4)
Iteration 3: (5, nil)

8 Answers 8

31

You can use a progression loop called stride(to:, by:) to iterate over your elements every n elements:

let array = Array(1...5)

let pairs = stride(from: 0, to: array.endIndex, by: 2).map {
    (array[$0], $0 < array.index(before: array.endIndex) ? array[$0.advanced(by: 1)] : nil)
}   // [(.0 1, {some 2}), (.0 3, {some 4}), (.0 5, nil)]

print(pairs)  // "[(1, Optional(2)), (3, Optional(4)), (5, nil)]\n"

To iterate your collection subsequences instead of tuples:

extension Collection {
    func unfoldSubSequences(limitedTo maxLength: Int) -> UnfoldSequence<SubSequence,Index> {
        sequence(state: startIndex) { start in
            guard start < self.endIndex else { return nil }
            let end = self.index(start, offsetBy: maxLength, limitedBy: self.endIndex) ?? self.endIndex
            defer { start = end }
            return self[start..<end]
        }
    }
}

let array = Array(1...5)
for subsequence in array.unfoldSubSequences(limitedTo: 2) {
    print(subsequence)  // [1, 2] [3, 4] [5]
}

This would work on any kind of collection:

let string = "12345"
for substring in string.unfoldSubSequences(limitedTo: 2) {
    print(substring)  // "12" "34" "5"
}
6
  • 1
    Note: the first element of the tuple doesn't need to be an optional considering the fact that the input array has only integers (Int) and therefore it will never be nil so you can declare it as [(Int,Int?)]
    – Leo Dabus
    Dec 31, 2015 at 20:50
  • 1
    Cool! How about for something that is not indexable by integer?
    – fumoboy007
    Jan 1, 2016 at 6:23
  • @fumoboy007 I didn't know you can have an array that is not indexable by integer
    – Leo Dabus
    Jan 2, 2016 at 3:12
  • 1
    Actually nvm. Anything worth iterating two at a time will have an index that is Strideable.
    – fumoboy007
    Jan 2, 2016 at 3:45
  • 1
    @PaulBrewczynski it doesn’t make any difference if dealing with genetics or not. Just personal preference (syntax). Just change it to +1 if that bothers you.
    – Leo Dabus
    Apr 25, 2019 at 14:41
7

You can use sequence() and the iterator's next() method to iterate over pairs of consecutive elements. This works for arbitrary sequences, not only arrays:

let a = "ABCDE"

for pair in sequence(state: a.makeIterator(), next: { it in
    it.next().map { ($0, it.next()) }
}) {
    print(pair)
}

Output:

("A", Optional("B"))
("C", Optional("D"))
("E", nil)

The “outer” it.next() yields the elements at even positions, or nil (in which case it.next().map { } evaluates to nil as well, and the sequence terminates). The “inner” it.next() yields the elements at odd positions or nil.

As an extension method for arbitrary sequences:

extension Sequence {
    func pairs() -> AnyIterator<(Element, Element?)> {
        return AnyIterator(sequence(state: makeIterator(), next: { it in
            it.next().map { ($0, it.next()) }
        }))
    }
}

Example:

let seq = (1...).prefix(5)
for pair in seq.pairs() { print(pair) }

Note that the pairs are generated lazily, no intermediate array is created. If you want an array with all pairs then

let pairs = Array([1, 2, 3, 4, 5].pairs())
print(pairs) // [(1, Optional(2)), (3, Optional(4)), (5, nil)]

does the job.

5
  • 1
    Surely the real goal is to implement ruby's each_slice, where we are not limited to pairs but can chunk a sequence into subsequences of any given length (triples etc.).
    – matt
    Oct 17, 2018 at 13:15
  • @matt: Something like stackoverflow.com/q/27984914/1187415 ? – I posted this answer because here the request was to fill “incomplete” chunks with nil instead of truncating, but yes, it is very similar.
    – Martin R
    Oct 17, 2018 at 13:34
  • Great, I was hoping you'd have something like this!
    – matt
    Oct 17, 2018 at 13:36
  • Very clean! One question: Don’t you need to use optional chaining in it.next().map { } since it.next() returns an optional?
    – fumoboy007
    Oct 18, 2018 at 15:50
  • 1
    @fumoboy007 No, this is Optional.map
    – Martin R
    Oct 18, 2018 at 16:23
6

This is not identically what was asked, but I use an extension on Sequence that generates an array of arrays chunking the original sequence by any desired size:

extension Sequence {
    func clump(by clumpsize:Int) -> [[Element]] {
        let slices : [[Element]] = self.reduce(into:[]) {
            memo, cur in
            if memo.count == 0 {
                return memo.append([cur])
            }
            if memo.last!.count < clumpsize {
                memo.append(memo.removeLast() + [cur])
            } else {
                memo.append([cur])
            }
        }
        return slices
    }
}

So [1, 2, 3, 4, 5].clump(by:2) yields [[1, 2], [3, 4], [5]] and now you can iterate through that if you like.

1
  • Exactly what I needed! Thanks. Apr 9, 2021 at 16:05
6

Extension to split the array.

extension Array {
   func chunked(into size: Int) -> [[Element]] {
      return stride(from: 0, to: count, by: size).map {
      Array(self[$0 ..< Swift.min($0 + size, count)]) }
   }
}

let result = [1...10].chunked(into: 2)
4

I personally dislike looping through half the list (mainly because of dividing), so here is how I like to do it:

let array = [1,2,3,4,5];
var i = 0;

while i < array.count {
    var a = array[i];
    var b : Int? = nil;
    if i + 1 < array.count {
        b = array[i+1];
    }
    print("(\(a), \(b))");

    i += 2;
}

You loop through the array by incrementing by 2.

If you want to have nil in the element, you need to use optionals.

1
  • You should've declare a as a let, as its value doesn't change.
    – Cristik
    Dec 31, 2015 at 20:18
4

If the array would have an even number of elements, you would be able to write something like this:

for i in 0..<arr.count/2 {
    print(arr[2*i...2*i+1])
}

However that's not always the case. Moreover, nil is not always compatible with the type of elements in array, like the one in your example (nil is not compatible with Int, only with Int?).

Another solution would be to extend Array and add a pair() method, which returns a tuple (tuples can be heterogenous). You can use pair to walk within all pairs in the array, or, you can extend even more the Array struct and add pairs() that return an array of tuples. Note that since the second element in the tuple is an Optional you'll need to unwrap it before use.

extension Array {
    func pair(at i: Index) -> (Element, Element?) {
        return (self[i], i < self.count - 1 ? self[i+1] : nil)
    }

    func pairs() -> [(Element, Element?)] {
        guard !isEmpty else { return [] }
        var result = [(Element, Element?)]()
        for i in 0...arr.count/2 {
            result.append(self.pair(at: 2*i))
        }
        return result
    }
}

let arr = [1, 2, 3, 4, 5]

for i in 0...arr.count/2 {
    print(arr.pair(at: 2*i))
}

for pair in arr.pairs() {
    print(pair)
}

Update Both above solutions can be simplified by using map instead of manually looping:

let pairs = (0..<arr.count/2).map { (arr[$0*2], arr[$0*2+1]) }
print(pairs) // prints [(1, 2), (3, 4)]

or, for the Array extension:

extension Array {
    func pair(at i: Index) -> (Element, Element?) {
        return (self[i], i < self.count - 1 ? self[i+1] : nil)
    }

    func pairs() -> [(Element, Element?)] {
        guard !isEmpty else { return [] }
        return (0..<(arr.count/2 + arr.count%2)).map { pair(at: $0*2) }
    }
}

let arr = [1, 2, 3, 4, 5]
print(arr.pairs()) // [(1, Optional(2)), (3, Optional(4)), (5, nil)]

You can extend Collection instead, to have this pair functionality available for all collections:

extension Collection {
    func pairs() -> [(Element, Element?)] {
        guard !isEmpty else { return [] }
        return (0..<count/2+count%2).map {
            let i1 = index(startIndex, offsetBy: $0*2)
            let i2 = index(after: i1)
            return (self[i1], i2 < endIndex ? self[i2] : nil)
        }
    }
}
2
  • Why not simply let i2 = index(after: i1)?
    – Leo Dabus
    Jul 26, 2019 at 13:17
  • 1
    Yeah, that would be simpler, @LeoDabus
    – Cristik
    Jul 26, 2019 at 20:22
1

Here is my solution with one reduce and a few guards

extension Array {
  var touplesOfTwo: [(Element,Element?)] {
    self.reduce(into: [(Element,Element?)]()) {
      guard let last = $0.last else { $0.append( ($1,nil) ); return }
      let lastIndex = $0.count - 1
      guard let _ = last.1 else { $0[lastIndex].1 = $1; return }
      $0.append( ($1,nil) )
    }
  }
}
let list = [1,4,3,7,2,9,6,5]
let queues = list.map { $0 }
let touplesList = queues.touplesOfTwo
print("\(touplesList)")
// [(1, Optional(4)), (3, Optional(7)), (2, Optional(9)), (6, Optional(5))]
3
  • let queues = list.map { $0 } is pointless
    – Leo Dabus
    Apr 2, 2021 at 15:04
  • Btw Swift is a type inferred language reduce(into: [])
    – Leo Dabus
    Apr 2, 2021 at 15:17
  • And no need to use two guard statements. guard let last = $0.last, last.1 == nil else { $0.append(($1,nil)) return } $0[$0.index(before: $0.endIndex)].1 = $1
    – Leo Dabus
    Apr 2, 2021 at 15:19
0

One approach would be to encapsulate the array in a class. The return values for getting pairs of items would be optionals to protect against out-of-range calls.

Example:

class Pairs {

    let source = [1, 2, 3, 4, 5]  // Or set with init()
    var offset = 0

    func nextpair() -> (Int?, Int?) {
        var first: Int? = nil
        var second: Int? = nil
        if offset < source.count {
            first = source[offset]
            offset++
        }
        if offset < source.count {
            second = source[offset]
            offset++
        }
        return (first, second)
    }

}

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