As an exercise, I'm trying to define a `ruler`

value

```
ruler :: (Num a, Enum a) => [a]
```

which corresponds to the ruler function

```
0,1,0,2,0,1,0,3,0,1,0,2,0,1,0,4,0,1,0,2...
```

where the `n`

'th element of the list (assuming the first element corresponds to `n=1`

) is the largest power of 2 which evenly divides `n`

. To make it more interesting, I'm trying to implement `ruler`

without having to do any divisibility testing.

Using a helper function

```
interleave :: [a] -> [a] -> [a]
```

which simply alternates the elements from the two given lists, I came up with this - but alas it doesn't work:

```
interleave :: [a] -> [a] -> [a]
interleave (x:xs) (y:ys) = x : y : interleave xs ys
interleave _ _ = []
ruler :: (Num a, Enum a) => [a]
ruler = foldr1 interleave . map repeat $ [0..]
main :: IO ()
main = print (take 20 ruler)
```

The program eventually uses up all stack space.

Now, what's strange is that the program works just fine if I adjust the definition of `interleave`

so that it reads

```
interleave (x:xs) ys = x : head ys : interleave xs (tail ys)
```

I.e. I no longer use pattern matching on the second argument. Why does using `head`

and `tail`

here make `ruler`

terminate - after all, the pattern matching is rather defensive (I only evaluate the first element of the list spine, no?).

`interleave (1..) []`

? – mb14 Aug 1 at 11:26`interleave _ _ = []`

case is the same for either version, I only gave the alternative definition for the other case. – Frerich Raabe Aug 1 at 11:27`interleave (x:xs) ys`

branch is choosen and blows up on`head ys`

– mb14 Aug 1 at 11:28`interleave`

definitions which still triggers the difference in behaviour. – Frerich Raabe Aug 1 at 11:29