sum of a list in scheme

I'm beginner in functional programming and scheme language.

I found a way to build the sum of a list:

``````(define (sum lst)
(if (empty? lst)
0
(+ (car lst) (sum (cdr lst)))))

(sum (list 1 2 3))
``````

My question is: is there a way to build the sum of a list without a extra function like sum, just using the "+" function like this:

``````(+ 1 2 3)
``````

You can `apply` list of arguments to a function. So in this case you can:

``````> (apply + (list 1 2 3))
6
``````

The reference for MIT/Gnu-Scheme says, that `+` takes ANY number of arguments. I am sure, that this standard.

In general:

``````(define (foo . args) ....)
``````

is used like `(foo)` or `(foo x)` or `(foo x y)`, `(foo x y z)`, .... . Inside `foo` the args will be `'()`, `(x)`, `(x y)` or `(x y z)`.

See exercise 2.20 in SICP or MIT/Scheme Reference 9.2 chap 2.1

This means:

For the arithmetic procedures `+`, `*`, `-` and `/` your procedure is not necessary, because they are defined for any number of arguments, including zero and one. This is also true for some other built-in procedures. For your own procedures you can use the dotted-tail notation.

You can download the MIT/Scheme Reference from the GNU-Pages. I think it helps for all implementation of Scheme, because extension of the standard are described. Most parts are easy to read.

Common Lisp programmers should look to [http://www.gigamonkeys.com/book/functions.html].

Here you must use &rest instead of >.< (defun + (&rest numbers) ...)

Both lisp-dialects know default, optional and rest parameters.