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I want to define sumOfSquares without explicity using parameter, relying instead on functional composition

Here's my code below

let sumOfSquares = (fun n -> n * n) >> Seq.sum

However, I got the following error

stdin(80,5): error FS0030: Value restriction. The value 'sumOfSquares' has been inferred to have generic type

val sumOfSquares : ('_a -> int) when '_a :> seq<int> 

Either make the arguments to 'sumOfSquares' explicit or, if you do not intend for it to be generic, add a type annotation.

One way to resolve it is by using parameters

let sumOfSquares nums = nums |> (fun n -> n * n) |> Seq.sum

and this will work. However, I want to see if I can define sum of squares by using composition alone


Here's a nice article describing the issue I've encountered: Value Restriction.

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up vote 1 down vote accepted

Make a type annotation:

let sumOfSquares : seq<int> -> int = (fun n -> n * n) >> Seq.sum
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Thanks. Correct me if I'm wrong, F# assumed I'm making a function that accepts generic typed parameter but upon type inference, it detected I wanted to define seq<int> -> int, hence it got "confused". Is is the case? – OnesimusUnbound Mar 28 '14 at 6:26
@OnesimusUnbound As you can see from the message, F# inferred that you want a function accepting any collection descending from IEnumerable<int> in the type hierarchy and returning int. If you want the argument to be strictly seq<int>, you have to annotate it :) Unfortunately, subtyping (and also overloading) can be tricky for the type inference... – Patryk Ćwiek Mar 28 '14 at 9:27

So lets see what happens when the type inference tries to work here. First you have (fun n -> n * n) >> Seq.sum

Now as Seq allows for anything that implements Seq, we can input int list int[] or many others.

As a result, you get this as the type

val sumOfSquares : ('_a -> int) when '_a :> seq<int> 

Now the problem is that sumofSquares is a value (which is a function). Unfortunately, you can't have a generic value in a top level binding. You can though have a generic function, if you make the arguments explicit.

As a result, one alternative to a type annotation is to make the argument explicit like so

let sumOfSquares s= s |> (fun n -> n * n) |> Seq.sum

And this works

Searching SO for "value restriction errors" should give some more examples of this problem.

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