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I am new to Haskell and facing a "cannot construct infinite type" error that I cannot make sense of.

In fact, beyond that, I have not been able to find a good explanation of what this error even means, so if you could go beyond my basic question and explain the "infinite type" error, I'd really appreciate it.

Here's the code:

intersperse :: a -> [[a]] -> [a]

-- intersperse '*' ["foo","bar","baz","quux"] 
--  should produce the following:
--  "foo*bar*baz*quux"

-- intersperse -99 [ [1,2,3],[4,5,6],[7,8,9]]
--  should produce the following:
--  [1,2,3,-99,4,5,6,-99,7,8,9]

intersperse _ [] = []
intersperse _ [x] = x
intersperse s (x:y:xs) = x:s:y:intersperse s xs

And here's the error trying to load it into the interpreter:

Prelude> :load ./chapter.3.ending.real.world.haskell.exercises.hs
[1 of 1] Compiling Main (chapter.3.ending.real.world.haskell.exercises.hs, interpreted )

chapter.3.ending.real.world.haskell.exercises.hs:147:0:
Occurs check: cannot construct the infinite type: a = [a]
When generalising the type(s) for `intersperse'
Failed, modules loaded: none.

UPDATE after reading several answers and researching further (fyi, this was accidentally deleted by someone in a recent edit):

Here is some corrected the code and a general guideline for dealing with the "infinite type" error in Haskell:

Corrected code

intersperse _ [] = []
intersperse _ [x] = x
intersperse s (x:xs) =  x ++ s:intersperse s xs

What the problem was:

My type signature states that the second parameter to intersperse is a list of lists. Therefore, when I pattern matched against "s (x:y:xs)", x and y became lists. And yet I was treating x and y as elements, not lists.

Guideline for dealing with the "infinite type" error:

Most of the time, when you get this error, you have forgotten the types of the various variables you're dealing with, and you have attempted to use a variable as if it were some other type than what it is. Look carefully at what type everything is versus how you're using it, and this will usually uncover the problem.

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  • 3
    Another good tip: declare the types explicitly. This gives the compiler something to check against. May 1, 2009 at 18:47
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    So this solves the problem, but why does the compiler say "Cannot construct infinite type?". What does that mean? If the problem is you are trying to perform operations on types that do not support those operations, why doesn't the compiler say something like that?
    – freedrull
    Mar 8, 2010 at 7:13
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    @freedrull: the error is worded that way because I told the compiler that the type parameter "a" should be "filled" with a "list of a's". That's like saying my coffee cup contains a bunch of copies of my coffee cup. It truly is a recursive definition that makes no sense (or at least, is defined as invalid in Haskell). So it tells me, "Cannot construct infinite type". The thing is, I could do other things with that type parameter that are based on a. For ex, I could fill that type parameter with "Maybe a". So the kind of thing I was doing is ok, but the specific thing I did is not ok. Jul 27, 2010 at 6:49
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    @freedrull: The compiler has noticed the code does a bunch of things with values related to a, any of which would be fine in isolation. So it can't point to any one of them and say "that's an unsupported operation for this type". But together they add up to a requirement for a type satisfying a = [a]. The compiler knows that is impossible, so it tells you that. It doesn't know which parts of the code that led to that requirement are the wrong parts; that depends on what you intended the code to mean.
    – Ben
    Sep 2, 2016 at 4:33
  • Tangentially, I'm a bit puzzled why you'd define that function of type a -> [[a]] -> [a] instead of a generalized version with type [a] -> [[a]] -> [a].
    – SamB
    May 13, 2019 at 18:07

4 Answers 4

38

The problem is in the last clause, where you treat x and y as elements, while they are lists. This will work:

intersperse _ [] = []
intersperse _ [x] = x 
intersperse s (x:y:xs) = x ++ [s] ++ y ++ intersperse s xs

The infinite type error occurs because the : operator has type a -> [a] -> [a], while you treat it as [a] -> a -> [a], which means that [a] must be identified with a, which would mean that a is an infinitely nested list. That is not allowed (and not what you mean, anyway).

Edit: there is also another bug in the above code. It should be:

intersperse _ [] = []
intersperse _ [x] = x
intersperse s (x:xs) = x ++ [s] ++ intersperse s xs
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    Thanks. I figured both of those out and then came back here and saw your response, which was excellent verification for me. You also fixed my bug better than i did. My bug was that it was skipping a separator between y and xs. To fix it, I introduced yet another level of pattern matching, like this: intersperse s (x:y:[]) = x ++ s:y intersperse s (x:y:xs) = intersperse s [x,y] ++ s:intersperse s xs But it looks like you fixed my bug without the need for that extra level. Apr 27, 2009 at 22:20
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    Here's the lesson I learn: "When facing an 'infinite type' error, you're probably forgetting what types you're dealing with and therefore doing something you didn't mean to do. Carefully look at what type every one of your variables is, and that will usually uncover the problem." Is there anything you would add or change in that? Apr 27, 2009 at 22:23
  • That's certainly correct, and I would change nothing in that. Infinite types are not allowed, and hence an infinite type error means that somewhere a functions receives an argument with an incorrect type. Good luck with RWH :)
    – Stephan202
    Apr 27, 2009 at 22:29
  • where you treat x and y as elements, while they are lists. Why are they lists though, you didn't explain that? In x:xs , x is an element, right? I was hoping it'll be same in x:y:xs as well. Also, if they're lists, how they get splitted, containing how many elements? I guess one? Jul 12, 2020 at 13:12
  • What does "which means that [a] must be identified with a" mean? What does identify mean here? Oct 5, 2021 at 17:31
8

Often adding an explicit type definition can make the compiler's type error message make more sense. But in this case, the explicit typing makes the compiler's error message worse.

Look what happens when I let ghc guess the type of intersperse:

Occurs check: cannot construct the infinite type: a = [a]
  Expected type: [a] -> [[a]] -> [[a]]
  Inferred type: [a] -> [[a]] -> [a]
In the second argument of `(:)', namely `intersperse s xs'
In the second argument of `(:)', namely `y : intersperse s xs'

That clearly points toward the bug in the code. Using this technique you don't have to stare at everything and think hard about the types, as others have suggested doing.

3

I may be wrong, but it seems you're trying to solve a more difficult problem. Your version of intersperse doesn't just intersperse the value with the array, but also flattens it one level.

The List module in Haskell actually provides an intersperse function. It puts in the value given between every element in the list. For example:

intersperse 11 [1, 3, 5, 7, 9] = [1, 11, 3, 11, 5, 11, 7, 11, 9]
intersperse "*" ["foo","bar","baz","quux"] = ["foo", "*", "bar", "*", "baz", "*", "quux"]

I'm assuming this is what you want to do because it's what my professor wanted us to do when I was learning Haskell. I could, of course, be totally out.

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    Thanks for the comment. In this case, though, I do want to flatten it one level, because I'm doing exercise 7 from the end of Chapter 3 of "Real World Haskell". Apr 27, 2009 at 22:22
  • Gotcha. If I had the book, I would have checked before I wrote. Alas, all I could do was guess. Glad you got it sorted anyway. :-) Apr 28, 2009 at 14:44
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    The book's content is made freely available online: book.realworldhaskell.org
    – Stephan202
    Apr 28, 2009 at 20:11
  • Excellent. Bookmarked. Thanks for the link - I'll be helping in the Haskell labs come next year, and this will no doubt come in handy when brushing up. Apr 29, 2009 at 8:49
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Also I found this which explains the meaning of the error.

Every time the interpreter/compiler gives me this error it's because I'm using some type-parametrized tuple as formal parameter. Everything works correctly by removing the type definition of the function, which was containing type variables.

I still cannot figure out how to both fix it and keep the function type definition.

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