# (define (average …)) in Lisp

I'm just playing around with scheme/lisp and was thinking about how I would right my own definition of `average`. I'm not sure how to do some things that I think are required though.

• define a procedure that takes an arbitrary number of arguments
• count those arguments
• pass the argument list to (+) to sum them together

Does someone have an example of defining `average`? I don't seem to know enough about LISP to form a web search that gets back the results I'm looking for.

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This is not homework (got downvoted for some reason... probably because someone thought it was). I am working through the SICP course online and I was just playing around with LISP wondering how to create this time of procedure. – spoon16 Jul 14 '10 at 7:23
(FWIW, this was pretty clear -- almost all courses avoid going over functions with rest arguments.) – Eli Barzilay Jul 14 '10 at 14:47

The definition would be a very simple one-liner, but without spoiling it, you should look into:

• a "rest" argument -- this `(define (foo . xs) ...xs...)` defines `foo` as a function that takes any number of arguments and they're available as a list which will be the value of `xs`.

• `length` returns the length of a list.

• `apply` takes a function and a list of values and applies the function to these values.

When you get that, you can go for more:

• see the `foldl` function to avoid applying a list on a potentially very big list (this can matter in some implementations where the length of the argument list is limited, but it wouldn't make much difference in Racket).

• note that Racket has exact rationals, and you can use `exact->inexact` to make a more efficient floating-point version.

And the spoilers are:

• `(define (average . ns) (/ (apply + ns) (length ns)))`

• Make it require one argument: `(define (average n . ns) (/ (apply + n ns) (add1 (length ns))))`

• Use `foldl`: `(define (average n . ns) (/ (foldl + 0 (cons n ns)) (add1 (length ns))))`

• Make it use floating point: `(define (average n . ns) (/ (foldl + 0.0 (cons n ns)) (add1 (length ns))))`

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In Common Lisp, it looks like you can do:

```(defun average (&rest args)
(when args
(/ (apply #'+ args) (length args))))
```

although I have no idea if `&rest` is available on all implementations of Lisp. Reference here.

Putting that code into GNU CLISP results in:

```[1]> (defun average (&rest args)
(when args
(/ (apply #'+ args) (length args))))
AVERAGE
[2]> (average 1 2 3 4 5 6)
7/2
```

which is 3.5 (correct).

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You shouldn't assume that a lisp implementation can accept any number of inputs (and IIRC, CLisp will break). Also, the function should always return a number -- this code will return NIL when given no inputs. – Eli Barzilay Jul 14 '10 at 3:00
@Eli, you probably know more about LISP than I (as evidenced by your much more comprehensive answer). But I have to disagree on that last statement. Mathematically, the average of a null set is not a number, it's undefined. If you do want it to return 0 {ugh! IMNSHO :-) }, you can modify the code to do so. – paxdiablo Jul 14 '10 at 3:06
paxdiablo: right, it is undefined, and the translation of that to code is in most cases best done by throwing an error. See my code for example: it will throw an error when given no inputs (a bad division by zero in the first version, and a much better arity error later). Of course there are also cases where you'd want to return some "undefined" result (`null`, `undefined`, `nan`, etc), but usually it's better to make code throw an error earlier, rather than allowing it to propagate a potentially bogus result through. – Eli Barzilay Jul 14 '10 at 3:16
(Oh, and BTW, any lisper would groan at "LISP" -- it should be "Lisp".) – Eli Barzilay Jul 14 '10 at 3:17
Sorry, I thought it was the acronymn: Lots of Irritating Superfluous Parentheses :-) I only ever played a little with Lisp, more so with Scheme since it was part of a product we once adopted, but all I can remember of both them nowadays is the endless `%` bracket-matching I had to do in vi. – paxdiablo Jul 14 '10 at 4:55

Two versions in Common Lisp:

``````(defun average (items)
(destructuring-bind (l . s)
(reduce (lambda (c a)
(incf (car c))
(incf (cdr c) a)
c)
items
:initial-value (cons 0 0))
(/ s l)))

(defun average (items &aux (s 0) (l 0))
(dolist (i items (/ s l))
(incf s i)
(incf l)))
``````
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In Scheme, I prefer using a list instead of the "rest" argument because rest argument makes implementing procedures like the following difficult:

``````> (define (call-average . ns)
(average ns))
> (call-average 1 2 3) ;; => BANG!
``````

Packing arbitrary number of arguments into a list allows you to perform any list operation on the arguments. You can do more with less syntax and confusion. Here is my Scheme version of `average` that take 'n' arguments:

``````(define (average the-list)
(let loop ((count 0) (sum 0) (args the-list))
(if (not (null? args))
(loop (add1 count) (+ sum (car args)) (cdr args))
(/ sum count))))
``````

Here is the same procedure in Common Lisp:

``````(defun average (the-list)
(let ((count 0) (sum 0))
(dolist (n the-list)
(incf count)
(incf sum n))
(/ sum count)))
``````
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You can use `apply` for translating list into a list of arguments. – Zorf Jul 14 '10 at 10:39
`(Incf sum n)` is better than `(setf sum (+ sum n))`. Besides, my first prototype would usually be `(/ (reduce #'+ list) (length list))`, and then I might change it to a `(loop for element in list counting element into length summing element into sum finally (return (/ sum length)))`. – Svante Jul 14 '10 at 11:05

In Scheme R5RS:

``````(define (average . numbers)
(/ (apply + numbers) (length numbers)))
``````
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