As already answered, all arguments to a call to some function f are evaluated before the result of applying f is computed. Does it however mean that
if, or both should be special forms?
Well, first, if you have
if, you can easily simulate a
cond with nested tests. Conversely,
if is just a degenerate form of
cond. So you can say that it is sufficient to have one of them a special form. Let's choose
if because it is simpler to specify.
if be special?
It doesn't really need to...
If the underlying question is "is
if expressible in terms of a smaller set of special forms?", then the answers is yes: just implement
if in terms of functions:
(define true-fn (lambda (then else) (then)))
(define false-fn (lambda (then else) (else)))
Whenever you can return a boolean, you return one of the above function instead.
You could for example decide to bind
#f to those functions.
Notice how they call one of the two input parameters.
((pair? x) ;; returns either true-fn or false-fn
(lambda () (+ x 1))
(lambda () x))
...but why code in lambda calculus?
Evaluating code conditionally is really a fundamental operation of computing. Trying to find a minimal special forms where you cannot express that directly leads to a poorer programming language from the perspective of the programmer, however "clean" the core language is.
From a certain point of view, the
if form (or
cond) is necessary because without them it becomes really hard to express conditional execution in a way that a compiler/interpreter can handle efficiently.
This document referenced by uselpa discuss using closures to implement
if, and concludes:
However, the syntactic inconvenience would be so great that even
Scheme defines if as a special form.