So im still very new to programming and I'm struggling a lot with the Syntax of Haskell. I kind of know what I want to implement but im not really sure how to do it so I came here to ask.

So what I have is a "pile" of Numbers in no particular order that are defined by 3 different functions. An example for this would be:

```
lowestnumber = 4
highestnumber 5 = True
highestnumber _ = False
above 4 = 11
above 11 = 18
above 18 = 2
above 2 = 3
above 3 = 5
above 5 = error "highest Number"
above _ = error "Not part of the pile"
```

Now for one I want to write a function that checks if a certain number is part of this pile and a different function "sum' = " that sums up all the elements of the list without an input variable. First I solved these problems by defining a list and using listcommands in order to sum up and see if something is "`elem`

" of that list but I am supposed to solve it without using lists.

So I have ideas of how to solve this but I have no idea of how to actually write it without receiving countless errors. Some examples of what I've tried for the check function:

```
check x = if above x /= error "Not part of the stack" || lowestnumber == x then True else False
```

I also tried the checks with "_" like this but it wouldn't work either:

```
check x if above x == _ || lowestnumber == x then True else False
```

My idea for the sum function was this:

```
sum' = lowestnumber + above lowestnumber + above (above lowestnumber) + above (above (above lowestnumber))
```

or also something like

```
sum' = lowestnumber + (above sum')
```

Which I understand woul

and so on but I did not figure out how I could implement this using recursion which is apparently the way to go.

Well hopefully this question isnt too stupid! I hope you can help me :)

Edit: Ok, so these are the solutions to my 3 function-problems

```
sumup' a b
|highestNumber a == True = a+b
|otherwise = sumup' (above a) (a+b)
sumup = sumup' lowestNumber 0
check' a b
|a == b = True
|True == highestNumber a && a==b = True
|True == highestNumber a && a/=b = False
|check' (above a) (b) == True = True
|otherwise = False
check b = check' (lowestNumber) (b)
above' :: Integer -> Integer -> Bool
above' x y
| check x == False = False
| check y == False = False
| highestNumber y == True = False
| highestNumber x == True = True
| x==y = True
| above' x (above y) == True = True
| otherwise = False
```

`error`

doesn't work the way you're trying to use it. It should generally be avoided, you're better of looking into`Maybe`

. – ollanta May 1 '13 at 9:37