First, the type signature is malformed.

```
deleteAllInstances :: (a, [l]) => a -> [l] -> [l]
```

A type signature has the form

```
name :: (Constraints) => type
```

where `Constraints`

involve type classes, like `(Ord a, Show a)`

. In this case, the function uses `(==)`

, so there must be a constraint of the form `Eq a`

.

Then the function definition doesn't match the type part, you defined it to take a pair as argument, while the type signature says otherwise (your definition is uncurried, the type is curried).

```
deleteAllInstances (a, []) = []
deleteAllInstances (i, (x:xs))
| i == x = tail
| otherwise = x ++ tail
where tail = deleteAllInstances i xs
```

then you use `(++)`

to glue an element to the front of a list, but `(++)`

concatenates two lists, you need `(:)`

here.

The simplest way to define the function would be to use `filter`

```
deleteAllInstances :: Eq a => a -> [a] -> [a]
deleteAllInstances a xs = filter (/= a) xs
```

but if you want to do the explicit recursion yourself,

```
deleteAllInstances :: Eq a => a -> [a] -> [a]
deleteAllInstances a (x:xs)
| a == x = rest
| otherwise = x : rest
where
rest = deleteAllInstances a xs
deleteAllInstances _ _ = []
```