Lets go through it step by step. The type of `foldl`

is

```
foldl :: (a -> b -> a) -> a -> [b] -> a
```

Your `where`

statement defines the function `f'`

, which takes two values and returns a third one. So all we know at that time is that `f`

has the following type:

```
f' :: a -> b -> c
```

Since `if ... then A else B`

needs both branches to have the same type, this concludes that your function will return a `Bool`

(your first branch returns `True`

). Therefore

```
f' :: a -> b -> Bool
```

But the second branch returns the first argument. So the first argument must be a `Bool`

too (otherwise you couldn't use it for `foldl`

, see above).

```
f' :: Bool -> b -> Bool
```

Since `x == a`

, this indicates that `x`

should be of the same type as `a`

. If we know have a look at `myElem'`

, we see that `a`

is of type `Int`

, and therefore your auxiliary function `f'`

has type

```
f' :: Bool -> Int -> Bool
```

The `x`

in the definition of `f'`

is not equal to `xs`

. Instead it is just another variable. `foldl`

will walk through `xs`

and use `f'`

on all elements in order to reduce the list to one single value.

`myElem' 0 [undefined, 0]`

and then`myElem' 1 [undefined, 0]`

. The first case returns`True`

instead of giving an error, since it never evaluates`undefined`

because it is after the first occurrence of`0`

. Also, the where clause can be written as`f' b x = a == x || b`

– user2407038 Oct 23 '13 at 2:51