Question 1: How is the lambda taking in s ( for state ) as a
parameter? How is it passed in?

Let's use the classic definitions of `get`

and `put`

, defined as:

```
put :: Int -> SimpleState ()
put n = SimpleState (\_ -> ((), n))
get :: SimpleState Int
get = SimpleState (\s -> (s, s))
```

When you call `applySimple`

, you unwrap the `SimpleState`

, which exposes a function of type `Int -> (a, Int)`

. Then you apply that function to your initial state. Let's try it out using some concrete examples.

First, we'll run the command `put 1`

, with an initial state of `0`

:

```
applySimple (put 1) 0
-- Substitute in definition of 'put'
= applySimple (SimpleState (\_ -> ((), 1))) 0
-- applySimple (Simple f) = f
(\_ -> ((), 1)) 0
-- Apply the function
= ((), 1)
```

Notice how `put`

ignores the initial state and just replaces the right state slot with `1`

, leaving behind `()`

in the left return value slot.

Now let's try running the get command, using a starting state of `0`

:

```
applySimple get 0
-- Substitute in definition of 'get'
= applySimple (SimpleState (\s -> (s, s))) 0
-- applySimple (SimpleState f) = f
= (\s -> (s, s)) 0
-- Apply the function
= (0, 0)
```

`get`

just copies `0`

into the left return value slot, leaving the right state slot unchanged.

So the way you pass your initial state into that lambda function is just by unwrapping the `SimpleState`

newtype to expose the underlying lambda function and directly applying the lambda function to the initial state.

Question 2: if applySimple is taking in one parameter in its function
signature, why do I have applySimple st s inside the lambda? Why is
applySimpleapplied twice?

That's because `applySimple`

's type is not `Int -> (a, Int)`

. It's actually:

```
applySimple :: SimpleState -> Int -> (a, Int)
```

This is a confusing aspect of Haskell's record syntax. Whenever you have a record field like:

```
data SomeType { field :: FieldType }
```

... then `field`

's type is actually:

```
field :: SomeType -> FieldType
```

I know it's weird.

Question 3. What is this? Why is it doing some sort of action on the
SimpleState but its signature is not a function?

The `SimpleState`

newtype hides the function that it wraps. `newtypes`

can hide absolutely anything until you unwrap them. Your `SimpleState`

does have function inside of it, but all the compiler sees is the outer newtype until you unwrap it with `applySimple`

.

Question 4: could I / how would I use tic with >>= ?

You're making a mistake in your definition of `incr`

. The correct way to use `tic`

would be like this:

```
ticTwice :: SimpleState ()
ticTwice = do
tic
tic
```

... which the compiler translates to:

```
ticTwice =
tic >>= \_ ->
tic
```

Using your definition of `(>>=)`

and tic, you can prove that this increments the value by two:

```
tic >>= \_ -> tic
-- Substitute in definition of `(>>=)`
SimpleState (\s ->
let (x, s') = applySimple tic s
in applySimple ((\_ -> tic) x) s')
-- Apply the (\_ -> tic) function
SimpleState (\s ->
let (x, s') = applySimple tic s
in applySimple tic s')
-- Substitute in definition of `tic`
SimpleState (\s ->
let (x, s') = applySimple (SimpleState (\s -> (s, s + 1))) s
in applySimple (SimpleState (\s -> (s, s + 1))) s'
-- applySimple (SimpleState f) = f
SimpleState (\s ->
let (x, s') = (\s -> (s, s + 1)) s
in (\s -> (s, s + 1)) s'
-- Apply both functions
SimpleState (\s ->
let (x, s') = (s, s + 1)
in (s', s' + 1)
-- Simplify by getting rid of unused 'x'
SimpleState (\s ->
let s' = s + 1
in (s', s' + 1)
-- Simplify some more:
SimpleState (\s -> s + 1, s + 2)
```

So you see that when you chain two `tic`

s using `(>>=)`

, it combines them into a single stateful function that increments the state by `2`

, and returns the state plus `1`

.