I'm having some trouble figuring out /how/ the bind operator would actually bind together the following State monads:

```
pop :: State [Int] Int
pop = do
(x:xs) <- get
put xs
return x
push :: Int -> State [Int] ()
push x = do
xs <- get
put (x:xs)
doStuff :: State [Int] ()
doStuff = do
pop
x <- pop
push 5
push x
```

Take `doStuff`

, which can be desugared to the following:

```
pop >>= (\_ -> pop >>= (\x -> push 5 >>= (\_ -> push x)))
```

When this line is evaluated, in what order does the binding actually happen? Since, to actually bind, Haskell needs to get a State monad out of the function on the right of the `>>=`

operator (i.e. the function right operands need to be fully evaluated first), I would've thought that the following would happen:

- s1 =
`push 5 >>= (\_ -> push x)`

- s2 =
`pop >>= (\x -> s1)`

- s3 =
`pop >>= (\_ -> s2)`

Is this the right way to think about it? I feel that I understand monads well, but my biggest problem is in actually visualising what's happening "behind the scenes" and how the data is flowing, so to speak. The `do`

notation gives the illusion that I'm dealing with a bunch of sequential operations, when in fact, there's a whole bunch of nesting and closures.

I feel somewhat like I'm over-thinking things here and further confusing myself as a result.

`>>=`

from the state monad to get a feel for what happens. There's nothing special going on, just ordinary evaluation. – augustss Apr 10 '13 at 13:09rightway to think about it. You can easily see that by trying different ways of evaluation. The result will always be the same. – Niklas B. Apr 10 '13 at 18:47