So I want to have a bunch of functions that receive a state and return a result with a new state. In essence, the state monad, but without the monadic methods. Unlike the state monad, the state is not supposed to flow between the functions, rather, a function is called, returns a result and state and the state is saved until the next time the function is called. So I have a List of functions and a list of states (each function has a different state type) and I want to call each function with its state and update the list of states.

My problem is that I can't make it work without casting.

Here's a REPL session:

```
scala> type StateM[T] = T => (Int, T)
defined type alias StateM
scala> val c: StateM[Int] = {i => (i, i + 1)}
c: (Int) => (Int, Int) = <function1>
scala> val a: StateM[_] = c
a: StateM[_] = <function1>
scala> val z: Any = 0
z: Any = 0
scala> a(z)
<console>:19: error: type mismatch;
found : z.type (with underlying type Any)
required: _$1 where type _$1
a(z)
^
```

UPDATE: I thought that maybe existential types would help. Something like:

```
scala> type StateT = Pair[StateM[X], X] forSome {type X}
defined type alias StateT
scala> val t: StateT = (c, 0)
t: StateT = (<function1>,0)
scala> t._1(t._2)
<console>:13: error: type mismatch;
found : t._2.type (with underlying type Any)
required: X where type X
t._1(t._2)
^
```

`a(z)`

to work, which is equivalent to`c(0: Any)`

, which is clearly invalid - you can't pass an`Any`

to a function that takes an`Int`

. Could you explain what you were hoping would happen here? – Steve Feb 2 '11 at 21:19