In Swift 2, I'm receiving an error:

Cannot convert value of type '[String:AnyObject]' to expected argument type '@noescape ([String:AnyObject])' throws -> Bool"

//today = NSDate()
//array : [[String:AnyObject]]
// I use if let because of we might now get element in the array matching our condition

if let elementOfArray = array.filter({$0["id"] as? Int == anotherDictionary["matchID"] as? Int && ($0["nextFireDate"] as? NSDate)?.compare(today) == NSComparisonResult.OrderedAscending}).first {

   let index = array.indexOf(elementOfArray) // error here

What I'm doing wrong? I can't understand. :/

My aim, is to find index of that item, I think that I open for alternative solutions, but of course this one is preferred, because I think this is the "right way".

  • What's the actual code in place of the ... look like? I don't know if it matters, but it might be helpful if someone could copy & paste exactly what you've got into a playground to see the exact error. – nhgrif Oct 30 '15 at 12:51
  • @nhgrif I think this doesn't matter, in few words this code finds exactly one row by dictionary key/value match. – Dima Deplov Oct 30 '15 at 12:52
  • It probably doesn't matter, but Swift allows us to compact so much into so little. Questions should be as elaborately clear as to what the exact problem is. I'm playing with this in a playground myself. We can remove the entirety of the if let actually. You should really simplify this question down to where only the indexOf call and the actual error produced are the question here. – nhgrif Oct 30 '15 at 12:55
  • @nhgrif, ok, this not a secret, see an update in few secs. – Dima Deplov Oct 30 '15 at 12:56

The indexOf method on Swift arrays does not take an object of a type matching the array's type. Instead, it takes a closure. That closure takes an element of the array's type and returns a bool.

So, in fact, we don't (and shouldn't) even bother with the filter call unless we actually need the resultant array. If we're just looking for the first object that passes whatever test you are filtering for... well we just pass that exact same test to indexOf.

So, to keep things simple, if we have an array of strings (and let's say they're all single letter strings with lots of repetition), and I want to find the first index of the string "a", rather than filtering the array down to strings that are "a", then finding the first string that passed that test with the first method, and then finding the index of that exact object, instead, I just pass that test into the indexOf method:

let letters: [String] = ["x", "y", "z", "a", "b", "c"]

let index = letters.indexOf {
    $0 == "a"

For clarity, it appears that simply passing an individual element and looking for that does work in some cases. It probably relies on conformance to Swift's Equatable protocol. I could for example have simplied used letters.indexOf("a") here. The compiler would have been happy. But obviously, not every array is composed required to hold things that conform to Equatable, and the array can't make assumptions about how to compare its elements then. In these cases, you will have to use the above example of passing a closure. It's probably worth noting that passing this closure to indexOf rather than first filtering and then calling indexOf is going to be egregiously more efficient anyway, even if your array allows the letters.indexOf("a") approach. If for example, I had more complex strings, and I just wanted the first string that started with the letter 'a', this would be far, far more efficient than starting by filtering down the original array to an array of strings starting with 'a'.

  • almost! Oh, looks like this is the answer. – Dima Deplov Oct 30 '15 at 13:04
  • 2
    There are two indexOf methods, one taking an element and one taking a predicate. ["x", "y", "z", "a", "b", "c"].indexOf("a") compiles without problems. – Martin R Oct 30 '15 at 13:05
  • @MartinR, but this not a dictionary, at least. – Dima Deplov Oct 30 '15 at 13:06
  • 2
    @MartinR Indeed. I added a big footnote there. I'm fairly confident the "simple" one is only available for Equatable types (which explains why flinth couldn't see it probably). But additionally, as I explained, there will be cases where you don't want to be ignorant of the predicate overload even for Equatable types. – nhgrif Oct 30 '15 at 13:07
  • @nhgrif: Yes, saw your addendum now. – Martin R Oct 30 '15 at 13:07

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