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After learning a bit of Scheme from SICP, I started reading The Little Schemer (which I find quite entertaining) and am about one fourth done. I noticed that I can write many (most? all?) solutions without using lambda whereas The Little Schemer always uses them. For example, the very first definition is

(define atom?
  (lambda (x)
    (and (not (pair? x)) (not (null? x)))))

which, unless I am mistaken, can be written more simply as

(define (atom? x) 
   (and (not (pair? x)) (not (null? x))))

Am I missing something fundamental if I write lambda-less solutions?

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lambda is the alpha and omega – eljenso Jan 24 '11 at 10:43
up vote 14 down vote accepted

Originally, define had a single syntax, to set a variable to a value. That's the style used in such old (and timeless) books. Later on, define got a different syntax as a shortcut, which is the one you're using.

Just for fun, search on your Scheme libraries, you might find a macro that expands the non-lambda form into the old lambda-heavy one.

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Not really -- the "new" define form has been in the language since the first revised report, in 1978. The choice of using explicit lambdas in the book is a stylistic/pedagogical one. – Eli Barzilay May 15 '12 at 17:04
didn't know that... but checking the first edition (called "the Little LISPer" originally) was released on 1974 – Javier May 15 '12 at 22:16
Yeah, but the Lisp version is irrelevant since there is no such choice there... – Eli Barzilay May 16 '12 at 16:42

I strongly prefer the lambda-heavy style for teaching, since it makes function creation more explicit, as Jay says.

When learning, the simple functions you start with like atom? are defined at the top level. This means it's possible, and even more compact, to create the function with the defun-style define you mention.

However, when you start using functions as first-class values, e.g., as an argument to map, you'll be seeing lambda for the first time, and it might seem weirder and more magical than it really is.

Instead, if you've been defining your functions with lambda the whole time, it's less of a leap to see that functions are just like any other value. They happen to be on the right-hand side of define pretty frequently, but are no different from a number or a quoted constant:

(define x 1)
(define l '(2 3 4 5))
(define s (cons x ls))
(define f (lambda (n) (+ n 2)))

Of course, the language supports both forms, so it comes down to style eventually. To me, there is an appealing consistency in the usage of define when all of your functions are made with lambda: the first argument is always a symbol, and the second argument is just any old expression. And the fact that lambda is just like any old expression is one of the most important things for any functional programmer to learn.

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+1 It's refreshing to think about declaring functions the same way you declare variables: name on left, value on right. – erjiang Jan 24 '11 at 3:32
Thank you for highlighting the consistency aspect of this approach; it complements the other explanation. – André Jan 24 '11 at 12:54
"And the fact that lambda is just like any old expression is one of the most important things for any functional programmer to learn" - this was not clear to me until i read through your explanation. – matt eisenberg Jul 8 '15 at 18:45
@Andrè - I don't see this as a complement to the other answer. This looks to me a quite deeply different answer. The good one, if you'd ask me :-) – Muzietto Oct 17 '15 at 5:19

You can see what your Scheme expands these shortcuts (macros) into using expand (if supported):

mzscheme 4.2.4 (with DrScheme):

> (expand '(define (add1 x) (+ 1 x)))
#<syntax (define-values (add1) (lambda...>
  (lambda (x) (apply + '1 x)))

Chez Scheme 8.0:

> (expand '(define (add1 x) (+ 1 x)))
  (set! add1
    (lambda (x)
      (+ 1 x)))

The lambda appears plain as day.

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Just goes to show how important macros are in Scheme, even define is a macro! – acfoltzer Jan 24 '11 at 3:53
This is very useful to help understand, thank you. – André Jan 24 '11 at 12:52

I vaguely remember a professor discussing something like this.

I think the lambda solution is used for two reasons:

The first is purely a historical thing. At one point in time, that was the only way it was possible. So some people still use that method.

The second is that some people just like to be more explicit about the fact that a function is being created, so they like to see the word lambda.

So I believe the choice comes down to what ever you personally like the best.

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The Little Schemer uses a pseudo-code Scheme (to make simplifications for educational purposes and to be implementation-independent). Today's standard Scheme has a definition of define in which you are implicitly invoking lambda (see The Little Schemer scheme is very simple and does not include this alternate form.

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I'm reading a bit about lambda calculus (reading "The Implementation of Functional Programming Languages" by Simon Peyton Jones; free pdf on-line) as I use TLS. And so this is just a guess, but I believe the authors of TLS want you to really be lambda-heavy in your thinking. They don't come out and say it, but there are hints (check out p. 107 of TLS) that this is all just an exercise in applied lambda calc. So maybe they're saying without saying, "You're doing lambda abstractions, my friend!"

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