You can trace the function execution by reducing the expression step-by-step (this is a very useful way to understanding execution that comes from Haskell and is called *computation by calculation*).

When you call a function:

```
hours2weeks 1728
```

F# evaluates the arguments and then starts evaluating the body:

```
let (w, h) = divAndRem 1728 (7*24)
let (d, h) = divAndRem 1728 24
(w, d, h)
```

It starts evaluating the argument of `let`

. First it evaluates arguments of `divAndRem`

```
let (w, h) = divAndRem 1728 168
let (d, h) = divAndRem 1728 24
(w, d, h)
```

and then it calls the `divAndRem`

function with the specified arguments:

```
let (w, h) = (1728/168, 1728%168)
let (d, h) = divAndRem h 24
(w, d, h)
```

The body of `divAndRem is evaluated and it gives a tuple with two numbers:

```
let (w, h) = (10, 48)
let (d, h) = divAndRem h 24
(w, d, h)
```

Then F# assigns the values to variables and continues:

```
let (d, h) = divAndRem 48 24
(10, d, h)
```

The second call to `divAndRem`

is evaluated similarly:

```
let (d, h) = (2, 0)
(10, d, h)
```

So you get:

```
(10, 2, 0)
```

Now you can use this step-by-step evaluation to see that the `0`

value in the result comes from the evaluation of `%`

in the second `divAndRem`

call and that the value `48`

(result of the first `%`

call) was needed to make the second `divAndRem`

call.

`%`

is the arithmetic modulus operator, as I'm sure you already know, so I'm not sure what you mean by "how it's evaluated". – ildjarn Apr 24 '11 at 19:32