...How is puts updating the state in the first place? It seems to just be sitting there doing nothing...

Ah, now I understand your question. You're wondering how `put`

(and `get`

) work, right?

Maybe an example in JavaScript will help (a language with actual mutable state):

```
var s; // mutable state
function get() { return s; }
function put(x) { s = x; }
function tick() {
var n = get();
put(n + 1);
return n;
}
```

I hope this illustrates that, while `n`

doesn't change, the internal state still will get updated. If you execute `tick()`

twice, the state will be incremented twice.

To get back to Haskell, here's the full definition of (the relevant parts) of the `State`

monad:

```
newtype State s a = State { runState :: s -> (a, s) }
instance Monad (State s) where
return a = State $ \s -> (a, s)
m >>= k = State $ \s -> let
(a, r) = runState m s
in runState (k a) r
get = State $ \s -> (s, s)
put s = State $ \_ -> ((), s)
```

Now try to expand your `tick`

example even further by manually inlining `>>=`

, `return`

, `get`

and `put`

. Hopefully it will get more clear how State works.