11

My app uses mutable sets of custom elements. Once I had a crash with error „Duplicate element found in Set. Elements may have been mutated after insertion.“

Searching for an explanation, I found this post, which I don’t fully understand.
My impression is that one should not modify an element of a set, since this would modify also the hash value of the set, so that further accesses might fail.

My questions:

  • Is it allowed to modify an element of a mutable set, or which modifications are allowed, if any?
  • If not, do I have first to remove the element from the set, then modify it, and then insert it back?

EDIT:

To phrase it differently: Is it safe to modify the property of a custom element of a mutable set, without modifying the set itself?

8
  • Are your custom object class is confirming to Hasable protocol ? if so then can you show us code where it is crashing Apr 14, 2019 at 10:49
  • According to the docs, Swift sets MUST conform to the Hashable protocol, so my custom elements do. Actually, I eliminated the crash by a workaround some time ago, and left a TODO to clarify the situation. So I cannot show the crashing code. Apr 14, 2019 at 10:58
  • Why has this question been downvoted? Apr 14, 2019 at 11:02
  • ok got it.... duplicate will come only if your custom object won't conform to Hashable protocol. Apr 14, 2019 at 11:08
  • 3
    I do not have a reference, but I am sure that after insertion into a set, you must not modify the instance in any way that the hash value or testing for equality is affected.
    – Martin R
    Apr 14, 2019 at 11:52

3 Answers 3

19

The implementation of Swift sets is similar to that of dictionaries, which is described nicely in Exploring Swift Dictionary's Implementation. In particular, the element storage is a list of “buckets“ each of which can be occupied or not. When a new element is inserted into the set, its hash value is used to determine the initial bucket. If that bucket is occupied, a linear search for the next free bucket is done. Similarly, when searching an element in the set, the hash value is used for determining the initial bucket, and then a linear search is done until the element (or an unoccupied bucket) is found.

(The details can be found in the open source implementation, the most relevant source files are Set.swift, NativeSet.swift, SetStorage.swift and HashTable.swift.)

Mutating the hash value of an inserted element breaks the invariants of the set storage implementation: Locating an element via its initial bucket no longer works. And mutating other properties which affect equality can lead to multiple “equal” elements in the same bucket list.

Therefore I think it is safe to say that

After inserting an instance of a reference type into a set, the properties of that instance must not be modified in a way that affects its hash value or testing for equality.

Examples

First, this is only a problem for sets of a reference type. A set of a value type contains independent copies of the value, and modifying a property of that value after the insertion does not affect the set:

struct Foo: Hashable {
    var x: Int
}

var set = Set<Foo>()
var foo = Foo(x: 1)
set.insert(foo)
print(set.map { $0.x })   // [1]
foo.x = 2
print(set.map { $0.x })   // [1]
set.insert(foo)
print(set.map { $0.x })   // [1, 2]

Instances of a reference type are “pointers” to the actual object storage, and modifying a property of that instance does not mutate the reference. It is therefore possible to modify a property of an instance after it has been inserted into a set:

class Bar: Hashable {
    var x : Int

    init(x: Int) { self.x = x }

    static func == (lhs: Bar, rhs: Bar) -> Bool { return lhs.x == rhs.x }

    func hash(into hasher: inout Hasher) { hasher.combine(x) }
}

var set = Set<Bar>()
let bar = Bar(x: 1)
set.insert(bar)
print(set.map { $0.x })   // [1]
bar.x = 2
print(set.map { $0.x })   // [2]

However, this leads to crashes easily, e.g. if we insert the same reference again:

set.insert(bar)
Fatal error: Duplicate elements of type 'Bar' were found in a Set.
This usually means either that the type violates Hashable's requirements, or
that members of such a set were mutated after insertion.

Here is another example, where the hash value is identical for all instances, but modifying a property which is used for equality testing leads to a set of two “equal” instances:

class Baz: Hashable {
    var x : Int

    init(x: Int) { self.x = x }

    static func == (lhs: Baz, rhs: Baz) -> Bool { return lhs.x == rhs.x }

    func hash(into hasher: inout Hasher) { }
}

var set = Set<Baz>()
let baz1 = Baz(x: 1)
set.insert(baz1)
let baz2 = Baz(x: 2)
set.insert(baz2)
baz1.x = 2

print(set.map { $0.x })   // [2, 2]
print(set.count)             // 2
print(Set(Array(set)).count) // 1 😲
0
1

Allowed Operations: You can add, remove, update elements from NSMutableSet. If you want to update/add an element then you have to call .add() method, it will add a given object to the set, if it is not already a member.

Please check here Apple documentation regarding NSMutableSet.

You can perform all types of operations like add,remove,update etc.

1
  • Sorry, that I did not phase my question clear enough: I wanted to know, if I can modify a property of an element of the set without changing the set itself. Apr 14, 2019 at 11:01
-2

Basically swift stdlib is a (quite often) unuseable kind of trash (similar to C++ STL and other c++ trash tech). The things that work out of the box in NextStep legacy take days (if ever) to get it right in swift runtime (such as Set).

I spent around two working days chasing the faux hash and == mismatch ditched swift Set in favor of NSMutableSet and somehow my app is very fine now.

Did I mention swift runtime is trash?

This:

public extension NSSet
{
    var isEmpty: Bool {
        return count == 0
    }
}
public extension NSMutableSet
{
    func insert(_ item: Any)
    {
        add(item)
    }
}

will help you to convert seamlessly

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