F# equals operator complexity

I have a question about default "=" (equals) operator in F#. It allows to compare user-defined union types. The question is: what's the complexity of it? For example, let's consider following type:

``````type Tree<'a> =
| Nil
| Leaf of 'a
| Node of Tree<'a> * Tree<'a>
``````

and following trees:

``````let a : Tree<int> = Node (Node (Node (Leaf 1, Leaf 2), Node (Leaf 3, Node (Leaf 4, Leaf 5))), Node (Leaf 6, Nil))
let b : Tree<int> = Node (Node (Node (Leaf 1, Leaf 2), Node (Leaf 3, Node (Leaf 4, Leaf 5))), Node (Leaf 6, Nil))
let c : Tree<int> = Node (Node (Node (Leaf 1, Leaf 2), Nil), Node (Node (Leaf 3, Node (Leaf 4, Leaf 5)), Leaf 6))
``````

It is obvious that this code:

``````printfn "a = b: %b" (a = b)
printfn "a = c: %b" (a = c)
printfn "a = a: %b" (a = a)
``````

produces this output:

``````a = b: true
a = c: false
a = a: true
``````

I expect that the "a = b" and "a = c" comparsions takes the linear time. But what about "a = a"? If it is constant what about more complex structures, like that one:

``````let d : Tree<int> = Node (a, c)
let e : Tree<int> = Node (a, c)
``````

Will it go through whole d and e structure or will it stop at "a = a" and "c = c"?

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F# uses structural equality whereas the default `Equals` implementation in .NET uses reference equality. This means, in the typical case, equality comparisons are O(N) where N is the number of fields in the object graphs being compared.

If you want to ensure `a = a` is optimized, you can override `Equals` to check for reference equality first, and fall back on structural equality otherwise. You'll need to annotate your type with `[<CustomEquality>]`.

You can see the rather lengthy implementation of structural equality in the F# source code on github. To follow the call hierarchy start with `GenericEqualityObj` on line 1412.

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EDIT: The original answer was wrong.

The usual implementation of `Equals()` in .Net works like this:

• Compare the two instances by reference. If they both refer to the same object, return `true`.
• Compare the runtime types of the two instances. If they are different, return `false`.
• Compare each of the fields of the type pairwise for equality. If any are not equal, return `false`, else return `true`.

For some reason, F# skips the first step, which means the time complexity is always linear.

Since the compiler knows that `a` and `b` are the same and some subtrees of `c` are same as some subtrees of `a`, and it also knows that they are immutable, it could theoretically make `a` and `b` the same object and reuse some of their parts in `c`. The runtime does something similar with strings, called string interning. But (based on decompiled code) it seems the compiler currently doesn't do this.

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Downvoter, care to comment? –  svick Jan 16 '12 at 19:26
I'm not the downvoter, but the "usual implementation of `Equals`" you described doesn't apply to F# unions. –  Daniel Jan 16 '12 at 19:29
Why not? It behaves exactly like that. –  svick Jan 16 '12 at 19:30
Yes, `Equals(obj)` does, but for types implementing `IStructuralEquatable<T>` (records, unions, etc) `(=)` calls `Equals(obj, IEqualityComparer)` instead. Its implementation is provided by the compiler and, and far as I can see, doesn't include a check for reference equality. –  Daniel Jan 16 '12 at 19:33
@Brian - is there any reason why structural equality in F# doesn't start with `ReferenceEquals`? –  Stephen Swensen Jan 17 '12 at 1:00