I am going over, Haskel type inference which is a bit tricky for me even though it seems easy.

Given this function: nat x = x : ( nat (x+1))

which is of type: Num t => t -> [t]

and this is clear because nat function takes an element and constructs an infinite list.

But, now I am asked to specify the type of head (nat 2)

I fully understand why and what is the type of head :: [a] -> a

But why is head (nat 2) :: Num c => c can someone explain why?

Starting from the most general type which is A -> B (I assume its A -> B because it takes one argument) Whats next?


This Give the type of the expression: head (nat 2) means that I should give the type of the function, or simply just the value returned, which in fact must be a number and that's why it is Num c => c, did I just answered my question?

Original question: Give the type of the expression: head (nat 2)

Justify your answer.


  • I'm not sure I understand your question? You specified the type of nat and the type of head, why is the result confusing when you combine them? – jkeuhlen May 17 at 19:27
  • what do you mean combine them – NarrowVision May 17 at 19:28
  • Your question is "Give the type..." and you state it is Num c => c. What is your question? You combined the types of 2, nat, and head through function application. – jkeuhlen May 17 at 19:29

Well let us assume that we already derived the type of nat and we know the type of head :: [a] -> a

nat :: Num a => a -> [a]
head :: [b] -> b

Then we use different type variable names a and b, since right now we do not know anything about a and b, and hence we assume that the can be different, and hence assign a different name.

Now we see (nat 2) in the expression. We know that 2 has type:

2 :: Num c => c

So that means that nat 2 has type:

nat     :: Num a => a -> [a]
2       :: Num c => c
(nat 2) :: Num a =>      [a]

and we know that a ~ c (a and c are the same type). We know this since 2 is the parameter of a function call with nat as function, and nat has as parameter type a. Hence the type of 2 and the parameter of nat need to be the same.

Now we call head with as argument (nat 2), so that means we reason that:

head         ::          [b] -> b
(nat 2)      :: Num a => [a]
head (nat 2) :: Num b =>        b

And we know that a ~ b since the type of nat 2 is [a] and the first parameter of head should have type [b]. So that means that since a ~ b, that means that the type constraint Num a, also means Num b, and vice versa.

So the type is:

head (nat 2) :: Num b => b

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