All of the following are correct. But versoin 2 seems a bit confusing as it suggests an order/sequence of execution, which I think is discouraged in functional progrmaming. So I wonder what is the intuition/benifit of allowing version 2. Is it just for simpler code than versoin 3?

; version 1
(define (foo x)
  (cond ((> x 0) 1)))

; version 2
(define (foo x)
  (cond ((> x 0) 1 2 3)))

; version 3
(define (foo x)
  (cond ((> x 0)
         (begin 1 2 3))))
  • Version 2 and 3 are exactly the same, it's just that in version 2 the begin is implicit. Dec 14 '16 at 4:07
  • Why are you worrying about cond: if you want to worry, worry about why lambda supports multiple expressions.
    – user5920214
    Dec 14 '16 at 8:51
  • @tfb Why would you write multiple expressions in a lambda expression in the first place? But that's irrelevant anyway. I was asking why the designers of Scheme allow both version 2 and version 3 to exist, instead of one only (preferably version 3). And it seems you didn't answer that at all :(
    – wlnirvana
    Dec 15 '16 at 13:43
  • @wlnirvana: well, why did they not require you to write (define (x ...) (begin ... ...)) instead of (define (x) ... ...), as I said? Because its a complete pain is why, and implicit-progn (or implicit-begin in Scheme terms) makes the language actually usable.
    – user5920214
    Dec 15 '16 at 15:51

It is not only discouraged, but pointless, for functional programming (either of version 2 or 3). But it is useful if you need to produce side-effects (for example, printing), and version 2 is a bit simpler than version 3.

  • 2
    @wlnirvana - remember that Lisp and Scheme are general-purpose languages that allow, but do not enforce functional programming. If you want to do pure FP in a Lisp, it is up to you to enforce pure FP constraints. Fortunately Lisp is "the programmable programming language", so you can do that enforcing in Lisp if you want to.
    – Gavin Lock
    Dec 14 '16 at 11:50

Scheme isn't a functional language, let alone a non-strictly evaluated one. Scheme directly provides sequenced evaluation of forms. The cond form itself isn't strictly functional: it evaluates the test clauses in strict order, and when it finds one which yields true, it skips the remaining ones. So even without using multiple forms in a single cond clause, we can express imperative programming:

  ((> x 10)
   (set! y 3))
  ((< x 0)
   (set! z 5)))

The cond form has a long history in Lisp. It was present in some of the earliest versions of Lisp and is described in the 1960 Lisp 1 manual. In that manual, the cond which is described in fact doesn't allow multiple forms: it arguments are strict pairs. It is still that way in the Lisp 1.5 manual. At some point, Lisp dialects started exhibiting the multiple-forms support in cond clauses. Curiously, though, the "cond pair" terminology refuses to die.

The intuition behind allowing (cond (test1 e1 e2 .. en)) is that if you do not provide this, the programmer will get the desired behavior anyway, at the cost of extra verbiage, as your example shows with the explicit begin: another level of parenthesis nesting accompanied by an operator symbol.

It is a backward-compatible extension to the original cond. Allowing the extra forms doesn't change the meaning of cond expressions that were previously correct; it adds meaning to cond expressions that were previously ill-formed.

Other dialects of Lisp, such as Common Lisp and Emacs Lisp, have multiple form evaluation in their cond clauses, so not allowing it in Scheme would only reduce compatibility, adding to someone's workload when they convert code from another dialect to Scheme.

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