# foldr1 and infinite list on Haskell

Reading about `folds` on this wonderful book I have a question regarding `foldr1` and the `head'` implementation proposed there, the code in question is:

``````head' = foldr1 (\x _ -> x)
``````

this code works on infinite list, whereas `foldl1` don't. A good visual explanation about why is this answer.

I do not quite understand though why does it work, considering that `foldr1` is using the last element as accumulator. For example:

``````foldr1 (\x _ -> x) [1..]
``````

This works because (I Think) lazy evaluation, even though `foldr` is starting from the last element of the list (which is infinite), I'm assuming because the function is not making use of any intermediate result, just return the first element.

So, is the compiler smart enough to know that, because inside of the lambda function only `x` is being used, just returns the first element of the list? even though it should start from the end?

On the contrary, doing

``````scanr1 (\x _ -> x) [1..]
``````

Will print all elements of the infinite list without ending, which I suppose it's what the `foldr` is doing, just the compiler is smart enough to not evaluate it and return the head.

Thanks in advance.

# Update

I found a really good answer that helped me understand how foldr works more deeply:

https://stackoverflow.com/a/63177677/1612432

## 1 Answer

`foldr1` is using the last element as an initial accumulator value, but the combining function `(\x _ -> x)` is lazy in its second argument.

So provided the list is non-empty (let alone infinite), the "accumulator" value is never needed, thus never demanded.

`foldr` does not mean it should start from the right, just that the operations are grouped / associated / parenthesized on the right. If the combining function is strict in its 2nd argument that will entail indeed starting the calculations from the right, but if not -- then not.

So no, this is not about compiler being smart, this is about Haskell's lazy semantics that demand this. `foldr` is defined so that

``````foldr g z [x1,x2,...,xn]  =  g x1 (foldr g z [x2,...,xn])
``````

and

``````foldr1 g xs  =  foldr g (last xs) (init xs)
``````

and that's that.

• And why it does not work for the left case? – ElBaulP May 16 at 18:51
• `foldl g a [x,y,...,z] = foldl g (a`g`x) [y,...,z] = (...((a`g`x)`g`y)...`g`z)` so before `g` gets to work the whole list must be traversed. even if `g` is lazy, if the list is infinite it won't help. – Will Ness May 16 at 18:56
• thank you so much. – ElBaulP May 16 at 19:18
• I don't think that's a bug, no. Consider two cases: `foldr1 (||) [True]` and `foldr1 (||) (True : undefined : undefined)`. Both of these give the same result, but for completely different reasons. In the first case, we see there's nothing left to combine, so we return the value. In the second case, we see there's more left to combine, so we apply the combining function. There's no way to be any lazier, because we have to distinguish these cases. – dfeuer May 17 at 8:31
• `foldr` does not mean it should *start* from the right, just that the operations are grouped / associated / parenthesized on the right. I like this explicitness. – Enlico May 17 at 9:51