When calling List.indexOf(...), what are the advantages of returning -1 rather than null if the value isn't present?

For example:

val list = listOf("a", "b", "c")
val index = list.indexOf("d")

print(index) // Prints -1

Wouldn't it be a cleaner result if index was null instead? If it had an optional return type, then it would be compatible with the elvis operator :? as well as doing things such as index?.let { ... }.

What are the advantages of returning -1 instead of null when there are no matches?

  • 1
    @Myszsoda he is asking why it works the way it does
    – Tim
    Commented Jul 23, 2019 at 13:20
  • 6
    I would say "to be compatible with java's" indexOf
    – Burdui
    Commented Jul 23, 2019 at 13:28
  • 1
    Rather than "Why was the language designed that way" which is basically unanswerable, a somewhat better question might be "What are the advantages to having .indexOf return -1 instead of null for no matches?" Also, while the question as it stands should be closed (and I voted to do so) 4 downvotes seems a little harsh... Commented Jul 23, 2019 at 13:39
  • @JaredSmith Thanks, I'll edit that in.
    – Andy
    Commented Jul 23, 2019 at 13:39
  • 1
    @Andy close vote rescinded. Nice edit. Commented Jul 23, 2019 at 13:45

2 Answers 2


Just speculations but i could think of two reasons:

The first reason is to be compatible with Java and its List.indexOf

As the documentation states:

Returns: the index of the first occurrence of the specified element in this list, or -1 if this list does not contain the element

The second reason is to have the same datatype as kotlins binarySearch.

Return the index of the element, if it is contained in the list within the specified range; otherwise, the inverted insertion point (-insertion point - 1). The insertion point is defined as the index at which the element should be inserted, so that the list (or the specified subrange of list) still remains sorted.

Where the negative values actually hold additional information where to insert the element if absent. But since the normal indexOf method works on unsorted collections you can not infer the insertion position.


To add to the definitive answer of @Burdui, another reason of such behavior is that -1 return value can be expressed with the same primitive Int type as the other possible results of indexOf function.

If indexOf returned null, it would require making its return type nullable, Int?, and that would cause a primitive return value being boxed into an object. indexOf is often used in a tight loop, for example, when searching for all occurrences of a substring in a string, and having boxing on that hot path could make the cost of using indexOf prohibitive.

On the other hand, there definitely can be situations where performance does not so matter, and returning null from indexOf would make code more expressive. There's a request KT-8133 to introduce indexOfOrNull extension for such situations.

Meanwhile a workaround with calling .takeIf { it >= 0 } on the result of indexOf allows to achieve the same.

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