# Why is this giving me “is a rigid type variable bound by” error

``````heist :: (Num n) => [n] -> [n] -> n -> n
-- heist [] [] _ = 0
heist w v maxw = func w v i j where
i = length w
j = maxw
func :: (Num n) => [n] -> [n] -> n -> n -> n
func _ _ 0 0 = 0
``````

the above code is giving me:

```Heist.hs:15:27:
Could not deduce (n ~ Int)
from the context (Num n)
bound by the type signature for
heist :: Num n => [n] -> [n] -> n -> n
at Heist.hs:(15,1)-(17,16)
`n' is a rigid type variable bound by
the type signature for heist :: Num n => [n] -> [n] -> n -> n
at Heist.hs:15:1
In the third argument of `func', namely `i'
In the expression: func w v i j
In an equation for `heist':
heist w v maxw
= func w v i j
where
i = length w
j = maxw
```

Why is that happening?

I am wrapping my head around Haskell type system inch by inch

-

`length` returns an `Int`; use `i = Data.List.genericLength w` or `i = fromIntegral (length w)`.
hmm, elaborate please? I thought `Int` is an instance of `Num`, why does it still need that kind of "fromIntegral" conversion? –  qin Nov 2 '11 at 11:25
The type of `heist` promises "you give me an arbitrary type `n` with `Num n`, I'll give you a function of type `[n] -> [n] -> n -> n`". So suppose we are given some type `n` (the "rigid type variable"), about which we know nothing (except that it is an instance of `Num`). We then call `func` at `n = Int`, which again returns an `Int`. But we were supposed to return a value of the type `n` we were given. –  FunctorSalad Nov 2 '11 at 11:33
In short, your type signature promises that `heist` will also work for Double (among others). But it doesn't. –  Ingo Nov 2 '11 at 22:26
`length` always returns an `Int`. By passing `i` to `func` you're saying that `n` should be `Int`, but `heist` wants `n` to be generic, hence the type error.