It depends on what you're trying to do. `State s a`

is essentially a `newtype`

for a certain kind of function type (specifically `s -> (a, s)`

), so it doesn't really make sense to make a `State`

value from just a list. The simplified (internal) definition of `State`

looks something like

```
newtype State s a = State { runState :: s -> (a, s) }
```

Though you won't use the `State`

constructor directly, it does illustrate the fact that a `State s a`

value consists of a function.

You need a function that updates the state in some way (which could be considered a "`State`

action"), then you can use `runState :: State s a -> s -> (a, s)`

to execute the provided `State`

action, given a certain initial state (the `s`

argument).

It looks like you want to use `[1, 2, 3]`

as your initial state, but you do also need to provide that update function (which is what you use to construct the `State s a`

value itself).

In the Learn You a Haskell example, the `Stack`

type synonym represents the actual stack data while `State Stack ...`

represents a stateful action *on* the `Stack`

data. For instance, an action of type `State Stack Int`

uses a `Stack`

value as its state and results in an `Int`

when it is executed.

`State`

monad, you need to be doing something to change the state. – shree.pat18 Aug 18 '14 at 3:07`State [Int] Int`

is really just a function of type`[Int] -> (Int, [Int])`

. It doesn't "contain" a`[Int]`

or a`Int`

. You can create acomputationwhich represents ignoring the previous state, setting the state to`[1,2,3]`

, and returning 1 with`put [1,2,3] >> return 1`

or`state (\_ -> (1, [1,2,3])`

. – user2407038 Aug 18 '14 at 3:20`type Stack = [Int]`

? Once the state monad is introduced, it starts dealing with`State Stack a`

(for various choices of`a`

). So it’s not a`Stack [Int] Int`

you want. (Or perhaps those were typos.) – Luc Danton Aug 18 '14 at 5:48user2407038. There is no magic, just functions compound. Your example may be rewritten like`let sstack = state (\lst -> (sum lst, lst)) ; runState sstack [1,2,3,4]`

results in`(10,[1,2,3,4])`

. Your state is a list of numbers`:: [Int]`

and monad is a function`sum`

`:: [Int] -> Int`

which returns state's sum`::Int`

. In fact the parameter is a more generic`Num a`

but used`Int`

for briefness. – David Unric Aug 18 '14 at 11:16