I'm more familiar with ocaml but it all looks the same to me.

```
val y=2;
fun f(x) = x*y;
```

The first two lines bind variables `y`

and `f`

. `y`

to an integer `2`

and `f`

to a function which takes an integer `x`

and multiplies it by what's bound to `y`

, `2`

. So you can think of the function `f`

takes some integer and multiplies it by `2`

. (`f(x) = x*2`

)

```
fun g(h) = let val y=5
in
3+h(y)
end;
```

The next line defines a function `g`

which takes some `h`

(which turns out to be a function which takes an integer and returns an integer) and does the following:

- Binds the integer
`5`

to a temporary variable `y`

.
- You can think of the
`let`

/`in`

/`end`

syntax as a way to declare a temporary variable which could be used in the expression following `in`

. `end`

just ends the expression. (this is in contrast to ocaml where `end`

is omitted)

- Returns the sum of
`3`

plus the function `h`

applying the argument `y`

, or `5`

.

At a high level, the function `g`

takes some function, applies `5`

to that function and adds `3`

to the result. (`g(h) = 3+h(5)`

)

At this point, three variables are bound in the environment: `y = 2`

, `f = function`

and `g = function`

.

```
let val y=3
in
g(f)
end;
```

Now `3`

is bound to a temporary variable `y`

and calls function `g`

with the function `f`

as the argument. You need to remember that when a function is defined, it keeps it's environment along with it so the temporary binding of `y`

here has no affect on the functions `g`

and `f`

. Their behavior does not change.

`g`

(`g(h) = 3+h(5)`

), is called with argument `f`

(`f(x) = x*2`

). Performing the substitutions for parameter `h`

, `g`

becomes `3+((5)*2)`

which evaluates to `13`

.

I hope this is clear to you.