Haskell Returns only Numerator of Division (Sometimes)

I have two functions:

``````calctvd :: [Perk] -> [Perk] -> Perk -> Double
calctvd ps fs p = (fromIntegral(tvn) / fromIntegral(points)) :: Double
where
tvn = calctvn ps fs p
points = length \$ [i | i <- perkAndPreqs ps p, i `notElem` fs]
``````

The above function always succeeds in returning the double that I would expect. The important line is the division `(fromIntegral(tvn) / fromIntegral(points))`. The function calctvn (not shown here) and the variable points are always integers, so fromIntegral() is necessary.

``````updatetvd :: [Perk] -> [Perk] -> [Perk]
updatetvd [] _ = []
updatetvd ps fs
--If p is in the list of elements already taken, then do not update it
| p `elem` fs = [p] ++ updatetvd (tail ps) fs
--Otherwise, update the tvd value
| otherwise = [PerkImpl (tvd, school, skill, name, def, preqstr, pref)] ++ updatetvd (tail ps) fs
where
PerkImpl (_, school, skill, name, def, preqstr, pref) = p
tvd = calctvd ps fs p
``````

Essentially, this second function should just insert the value of the first function into a list. However, it only inserts the numerator of the term `(fromIntegral(tvn) / fromIntegral(points))`. I proved this by changing that line in calctvd to `3 / fromIntegral(points)`. With this, calctvd still returned the correctly divided double, whereas updatetvd always inserted a value of 3.0. It is as if Haskell does not evaluate the denominator if calctvd is called from inside updatetvd.

Update 1:

However, it appears that this oddity relies on some complexity in the above two functions. I tried to break it down into a simple example:

``````testcalctvd :: Double
testcalctvd = fromIntegral(3) / fromIntegral(4) :: Double

testupdatetvd :: Double
testupdatetvd = testcalctvd
``````

However, both testcalctvd and testupdatetvd return the correct 0.75.

Update 2:

Here is an example straight from Terminal, using the test term `3 / fromIntegral(points)`:

``````> calctvd initial [] i17
0.6    {This is 3/5, because i17 has 5 points}
> updatetvd initial []
[...3.0...]    {This is just the numerator 3}
``````

Update 3:

Here is the perkAndPreqs function, which is probably the culprit, but I am not sure how much sense it will make:

``````--Take a perk and return a list of that perk and all of its pre-requisites
perkAndPreqs :: [Perk] -> Perk -> [Perk]
perkAndPreqs _ NULL = []
perkAndPreqs ps p = [p] ++ perkAndPreqs ps preq
where
PerkImpl (_, _, _, _, _, preqstring, _) = p
preq = perkIdentifier preqstring ps
``````
-
Just a note: for your `calctvd` function, you don't need the `:: Double` at the end or any of the parentheses. –  Tikhon Jelvis Nov 21 '11 at 0:34
Show us your definition of `perkAndPreqs`. –  dave4420 Nov 21 '11 at 0:40
@kienjakenobi: Well, clearly `calctvd` is a pure function. So if it's giving you unexpected outputs when called from `updatetvd`, it must be because you're not giving it the expected inputs. You could try using `Debug.Trace` to check what you're passing to it. –  hammar Nov 21 '11 at 0:44
@kienjakenobi When you call them yourself, do you call them with `p` as the first element of `ps`? hammar's suggestion of using Debug.Trace is a good one. –  dave4420 Nov 21 '11 at 1:15
@kienjakenobi: In that case, your function can be rewritten using `map` since it's doing the same thing to every element of `ps`. Doing your own recursion can be error-prone (as you've noticed), so you should prefer to use higher-order functions when appropriate. –  hammar Nov 21 '11 at 2:16
My guess is that when you call `calctvd` by hand, the `p` parameter you pass is not also the first element of the `ps` parameter. But when `calctvd` is called from `updatetvd`, `p = head ps`.
I cannot be sure, because you've shown us neither failing test cases nor the definition of `perkAndPreqs` (if `points` is being miscalculated as `1`, the clue as to why is likely to be in `perkAndPreqs`).