sds's answer answers this question well, but there are a few more general aspects that I think are worth mentioning. As that answer and others have pointed out,
if, is built into the language as a special operator, because it really is a kind of primitive. Most importantly,
if is not a function.
That said, the functionality of
if can be achieved using just functions and normal function calling where all the arguments are evaluated. Thus, conditionals can be implemented in the lambda calculus, on which languages in the family are somewhat based, but which doesn't have a conditional operator.
In the lambda calculus, one can define true and false as functions of two arguments. The arguments are presumed to be functions, and true calls the first of its arguments, and false calls the second. (This is a slight variation of Church booleans which simply return their first or second argument.)
true = λ[x y].(x)
false = λ[x y].(y)
(This is obviously a departure from boolean values in Common Lisp, where
nil is false and anything else is true.) The benefit of this, though, is that we can use a boolean value to call one of two functions, depending on whether the boolean is true or false. Consider the Common Lisp form:
If were were using the booleans as defined above, then evaluating
some-condition will produce either
false, and if we were to call that result with the arguments
(lambda () then-part)
(lambda () else-part)
then only one of those would be called, so only one of
else-part would actually be evaluated. In general, wrapping some forms up in a
lambda is a good way to be able delay the evaluation of those forms.
The power of the Common Lisp macro system means that we could actually define an
if macro using the types of booleans described above:
(lambda (x y)
(declare (ignore y))
(lambda (x y)
(declare (ignore x))
(defmacro new-if (test then &optional else)
(lambda () ,then)
(lambda () ,else)))
With these definitions, some code like this:
(new-if (member 'a '(1 2 3))
(print "it's a member")
(print "it's not a member"))))
expands to this:
(FUNCALL (MEMBER 'A '(1 2 3)) ; assuming MEMBER were rewritten
(LAMBDA () (PRINT "it's a member")) ; to return `true` or `false`
(LAMBDA () (PRINT "it's not a member")))
In general, if there is some form and some of the arguments aren't getting evaluated, then the (
car of the) form is either a Common Lisp special operator or a macro. If you need to write a function where the arguments will be evaluated, but you want some forms not to be evaluated, you can wrap them up in
lambda expressions and have your function call those anonymous functions conditionally.
This is a possible way to implement
if, if you didn't already have it in the language. Of course, modern computer hardware isn't based on a lambda calculus interpreter, but rather on CPUs that have test and jump instructions, so it's more efficient for the language to provide
if a primitive and to compile down to the appropriate machine instructions.