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I have this piece of scheme code:

(define (x . y) y)
(x 1 2 3)

and I know it equivalent to:

'(1 2 3)

But i can't understand why.

What does the first line of code do?

Thank you.

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They are not equivalent. (x 1 2 3) is the same as (list 1 2 3). And what do you want? R6RS is a very readable document and there is everything about function definitions and parameters. –  yazu Apr 17 '12 at 11:02

1 Answer 1

up vote 3 down vote accepted

The first line (define (x . y) y) is equivalent to (define x (lambda y y)), according to 5.2 Definitions(the last clause).

And (lambda y y) is a procedure; when called all the arguments will stored in a newly allocated list. e.g. list could be defined as (define list (lambda xs xs)). (See 4.1.4 Procedures the second form of formal parameters.)

So (x 1 2 3) is equivalent to (list 1 2 3).

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Thank you for your answer, I just have a doubt: why (lambda y y) accept unlimited number of arguments? Which is the difference with (lambda (y) y)? (That accept only one argument). I'm reading the r6rs standard, but i'm missing something. Thank you again. –  Aslan986 Apr 17 '12 at 11:56
It accepts an unlimited number of arguments because when you say x . y or (lambda y y) you are defining an improper list. Thus in that context y can refer to a single element or a whole list of elements. This would be different than defining (lambda (y) y) because in that context y is a single element within a list. –  Justin Ethier Apr 17 '12 at 14:00
The formal parameters part of (lambda y y) is y, and of (lambda (y) y) is (y). Procedures which accept unlimited number of arguments are sometime useful, so many programming languages support it. In lisp, there are many ways to denote variadic arguments. CL uses special symbol &rest for instance. And Scheme uses only cons: the formal parameters part is a chain of pairs(fixed part, maybe empty) and ends in empty list(can't accept any more arguments) or ends in a symbol(accept unlimited number of arguments). –  OwnWaterloo Apr 17 '12 at 14:00
Some examples: (a b) is (a . (b . '())), which has fixed part a and b and ends in empty list, so (lambda (a b) ...) accept two arguments exactly. (a b . c) is (a . (b . c)), which has fixed part a and b and ends in symbol c, so (lambda (a b . c) accept N(N>=2) arguments, the first two binds to a and b, the rest binds to c. (lambda y ...) is a special case, which has no fixed part. –  OwnWaterloo Apr 17 '12 at 14:29
@Aslan986 yes. And some more examples: (define f (lambda (a . b) b)), (f) => error, (f 0) => (), (f 0 1) => (1), (f 0 1 2) => (1 2). (define g (lambda a a)), (g) => (), (g 1) => (1), (g 1 2) => (1 2). –  OwnWaterloo Apr 17 '12 at 17:52

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