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I'm trying to learn and understand the Lisp programming language to a deep level. The function + evaluates its arguments in applicative order:

(+ 1 (+ 1 2))

(+ 1 2) will be evaluated and then (+ 1 3) will be evaluated, but the if function works differently:

(if (> 1 2) (not-defined 1 2) 1)

As the form (not-defined 1 2) isn't evaluated, the program doesn't break.

How can the same syntax lead to different argument evaluation? How is the if function defined so that its arguments aren't evaluated?

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It would not make any sense to do so. Example: (if (ask-user-should-i-quit) (quit) (continue)). Should that quit, even though the user does not want to? –  Rainer Joswig Sep 29 '13 at 11:10
@RainerJoswig I agree de question title was misleading, but the last two questions of the body are my doubts –  eliocs Sep 29 '13 at 11:47
It is not the same syntax. It is (if ...). A form with an IF in front. All other forms don't have an IF in front. Like there is an if syntax in Pascal/C/Java/..., Common Lisp has an IF syntax. You ask by writing 'How is the if function...?'. IF is not a function. Check the documentation. –  Rainer Joswig Sep 29 '13 at 12:52
@RainerJoswig I'm new to Lisp and thought Lisp syntax always was` (function args...)`, clearly I was wrong and thanks to this question I learnt about special operators. Its dificult to find out this trivial stuff when you don't find the right terms to expess what you are looking for –  eliocs Sep 29 '13 at 14:59
You can use this as a reference: clqr.boundp.org It shows the syntax. –  Rainer Joswig Sep 29 '13 at 15:51

6 Answers 6

up vote 12 down vote accepted

if is a special operator, not an ordinary function.

This means that the normal rule that the rest elements in the compound form are evaluated before the function associated with the first element is invoked is not applicable (in that it is similar to macro forms).

The way this is implemented in a compiler and/or an interpreter is that one looks at the compound form and decides what to do with it based on its first element:

  • if it is a special operator, it does its special thing;
  • if it is a macro, its macro-function gets the whole form;
  • otherwise it is treated as a function - even if no function is defined.

Note that some special forms can be defined as macros expanding to other special forms, but some special forms must actually be present.

E.g., one can define if in terms of cond:

(defmacro my-if (condition yes no) 
  `(cond (,condition ,yes)
         (t ,no)))

and vice versa (much more complicated - actually, cond is a macro, usually expanding into a sequence of ifs).

PS. Note that the distinction between system-supplied macros and special operators, while technically crisp and clear (see special-operator-p and macro-function), is ideologically blurred because

An implementation is free to implement a Common Lisp special operator as a macro. An implementation is free to implement any macro operator as a special operator, but only if an equivalent definition of the macro is also provided.

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Thanks for making it crystal clear, as a newbie to LISP I expected that there would be a syntax difference between functions, special forms and macros. –  eliocs Sep 29 '13 at 11:55
It should be pointed out that cond is a macro that uses if in its expansion, so my-if will still use if when fully expanded. –  sepp2k Sep 29 '13 at 11:55
@sepp2k Is that stated in the CL spec somewhere? Eg. If I make a CL with cond as the conditional and if as a macro, would it violate spec? –  Sylwester Sep 29 '13 at 17:13
@Sylwester Yes, the spec for cond specifically says that it's a macro whereas the spec for if calls it a special operator. –  sepp2k Sep 29 '13 at 17:51
@Sylwester: ANSI CL spec explicitly permits implementing macros as special operators as long as a macroexpansion is also provided. –  sds Sep 29 '13 at 21:18

Lisp syntax is regular, much more regular than other languages, but it's still not completely regular: for example in

(let ((x 0))

let is not the name of a function and ((x 0)) is not a bad form in which a list that is not a lambda form has been used in the first position.

There are quite a few "special cases" (still a lot less than other languages, of course) where the general rule of each list being a function call is not followed, and if is one of them. Common Lisp has quite a few "special forms" (because absolute minimality was not the point) but you can get away for example in a scheme dialect with just five of them: if, progn, quote, lambda and set! (or six if you want macros).

While the syntax of Lisp is not totally uniform the underlying representation of code is however quite uniform (just lists and atoms) and the uniformity and simplicity of representation is what facilitates metaprogramming (macros).

"Lisp has no syntax" is a statement with some truth in it, but so it's the statement "Lisp has two syntaxes": one syntax is what uses the reader to convert from character streams to s-expressions, another syntax is what uses the compiler/evaluator to convert from s-expressions to executable code.

It's also true that Lisp has no syntax because neither of those two levels is fixed. Differently from other programming languages you can customize both the first step (using reader macros) and the second step (using macros).

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Have heard many times the "Lisp has no syntax" statement, but no one explains the special cases. Thanks for your analysis! –  eliocs Sep 29 '13 at 11:58

It would not make any sense to do so. Example: (if (ask-user-should-i-quit) (quit) (continue)). Should that quit, even though the user does not want to?

IF is not a function in Lisp. It is a special built-in operator. Lisp a several built-in special operators. See: Special Forms. Those are not functions.

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I understand why it works like that, but I couldn't get my head around how it worked. –  eliocs Sep 29 '13 at 11:25
@eliocs: just like it works in 99% of other programming languages. –  Rainer Joswig Sep 29 '13 at 12:47

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 some-condition

If were were using the booleans as defined above, then evaluating some-condition will produce either true or 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 then-part and 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:

(defconstant true
  (lambda (x y)
    (declare (ignore y))
    (funcall x)))

(defconstant false
  (lambda (x y)
    (declare (ignore x))
    (funcall y)))

(defmacro new-if (test then &optional else)
  `(funcall ,test
            (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.

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really interesting lesson, thanks! –  eliocs Sep 29 '13 at 18:51
@eliocs Glad it was interesting! I hope it might somewhat useful. While you probably wouldn't go and implement if on your own, one very easy, and less error-prone way to write macros that evaluate some code is to write the functional version of the thing you want to do that takes a function as an argument, and then write a macro with a code body that expands to call to the functional version passing the body wrapped up in a lambda expression. The possible implementation of if described here is sort of like that, but farther than usual. –  Joshua Taylor Sep 29 '13 at 18:55

The arguments are not evaluated as for functions, because if is a special operator. Special operators can be evaluated in any arbitrary way, that's why they're called special.

Consider e.g.

(if (not (= x 0))
    (/ y x))

If the division was always evaluated, there could be a division by zero error which obviously was not intended.

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If isn't a function, it's a special form. If you wanted to implement similar functionality yourself, you could do so by defining a macro rather than a function.

This answer applies to Common Lisp, but it'll probably the same for most other Lisps (though in some if may be a macro rather than a special form).

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How would a macro my-if could be defined to work as the if special form? –  eliocs Sep 29 '13 at 11:27
@eliocs It would simply expand to the built-in if most likely. You could also define it in terms of and and or, when, cond or similar constructs, but those are themselves only macros that use if in their expansion. You can't define a my-if that does not directly or indirectly use if unless you use your own encoding of booleans (through lambdas for example). This is similar to how you can't define your own version of + without using the built-in + (again unless you use your own numeric type instead of the built-in one). –  sepp2k Sep 29 '13 at 11:54

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