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I'm studying Lisp now. I encountered 2 terms "list" and "S-expression". I just can't distinguish between them. Are they just synonyms in Lisp?

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For more information, see the C2 wiki on sexprs. –  Yuki Izumi May 27 '12 at 4:08
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5 Answers 5

up vote 13 down vote accepted

First, not all S-expressions represent lists. A bare atom is also considered an S-expression.

Second, the term "S-expression" refers to the syntax - (items like this (possibly nested)). Such an S-expression is the representation in Lisp source code of a list. It's not technically a list itself, much as a sequence of decimal digits is not the same as a number, or a sequence of characters within quotation marks is not the same as a string, but that's a technical distinction.

Also, while any non-atomic S-expression technically represents a list, such lists are interpreted differently in different contexts, and Lisp programmers usually use "list" to refer to a value that is being manipulated as a list by the program itself, rather than being interpreted by the Lisp interpreter as a function call or similar.

That is, this:

(+ 1 1)

is an S-expression that represents a list consisting of the atoms +, 1, and 1. However, within a Lisp program, such a list is interpreted as a call to the + function to add the numbers 1 and 1 together. While it is still a list, it would not normally be referred to as a "list" in that context, unless you were discussing the construction of macros, or a compiler or interpreter, or engaged in a metasyntactic discussion because of some other code-generation or parsing context.

On the other hand, any of the following S-expressions would likely be referred to as "lists" because they produce the above list as a value in the code at runtime:

'(+ 1 1)
(quote (+ 1 1))
(list '+ 1 1)

Of course the equivalence of code and data is one of the cool things about Lisp, so the distinction is fluid. But the point is that all of the above are S-expressions.

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S-expressions are a notation for data.

Historically an s-expression (short for symbolic expression) is described as:

  • symbols like FOO and BAR
  • cons cells with s-expressions as its first and second element : ( expression-1 . expression-2 )
  • the list termination symbol NIL
  • and a convention to write lists: ( A . ( B . NIL ) ) is simpler written as the list (A B)

Note also that historically program text was written differently. An example for the function ASSOC.

assoc[x;y] =
   eq[caar[y];x] -> cadar[y];
   T -> assoc[x;cdr[y]]

Historically there existed also a mapping from these m-expressions (short for meta expressions) to s-expressions. Today most Lisp program code is written using s-expressions.

This is described here: McCarthy, Recursive Functions of Symbolic Expressions

In a Lisp programming language like Common Lisp nowadays s-expressions have more syntax and can encode more data types:

  • Symbols: symbol123, |This is a symbol with spaces|
  • Numbers: 123, 1.0, 1/3, ...
  • Strings: "This is a string"
  • Characters: #\a, #\space
  • Vectors: #(a b c)
  • Conses and lists: ( a . b ), (a b c)
  • Comments: ; this is a comment, #| this is a comment |#

and more.

Lists

A list is a data structure. It consists of cons cells and a list end marker. Lists have in Lisp a notation as lists in s-expressions. You could use some other notations for lists, but in Lisp one has settled on the s-expression syntax to write them.

Side note: programs and forms

In a programming language like Common Lisp, the expressions of the programming language are not text, but data! This is different from many other programming languages. Expressions in the programming language Common Lisp are called Lisp forms.

For example a function call is Lisp data, where the call is a list with a function symbol as its first element and the next elements are its arguments.

We can write that as (sin 3.0). But it really is data. Data we can also construct.

The function to evaluate Lisp forms is called EVAL and it takes Lisp data, not program text or strings of program text. Thus you can construct programs using Lisp functions which return Lisp data: (EVAL (LIST 'SIN 3.0)) evaluates to 0.14112.

Since Lisp forms have a data representation, they are usually written using the external data representation of Lisp - which is what? - s-expressions!

It is s-expressions. Lisp forms as Lisp data are written externally as s-expression.

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S-expressions came first. They were never intended to be what the programmer saw, but rather an intermediate representation. However, it took a while to come up with the top-level representation, M-expressions, and it didn't impress the team. By that time everyone had decided they liked S-expressions as-is. So even historically, it was always S-expressions all the way down; M-expressions are a footnote at best. –  Mark Reed May 27 '12 at 4:58
    
@Mark Reed: McCarthy's paper from 1960 describes both symbolic expressions and meta expressions. –  Rainer Joswig May 27 '12 at 5:01
    
So it does, @rainerjoswig. I guess I misremembered. Thanks for the correction. –  Mark Reed May 27 '12 at 5:12
    
You said "cons cells with expressions...", shouldn't it be "cons cells with s-expressions..."? –  day Jun 13 '12 at 7:53
    
@plmday: yep, somehow. Actually the paper talks about ordered pairs... –  Rainer Joswig Jun 13 '12 at 14:38
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You should first understand main Lisp feature - program can be manipulated as data. Unlike other languages (like C or Java), where you write program by using special syntax ({, }, class, define, etc.), in Lisp you write code as (nested) lists (btw, this allows to express abstract syntactic trees directly). Once again: you write programs that look just like language's data structures.

When you talk about it as data, you call it "list", but when you talk about program code, you should better use term "s-expression". Thus, technically they are similar, but used in different contexts. The only real place where these terms are mixed is meta-programming (normally with macros).

Also note that s-expression may also consist of the only atom (like numbers, strings, etc.).

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Two downvotes and no explanation. Stay classy, StackOverflow... –  Mark Reed May 27 '12 at 4:46
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s-expression is historically not program code, but a data notation. A list is a data structure. See McCarthy's original paper on Lisp. –  Rainer Joswig May 27 '12 at 4:58
    
@RainerJoswig: as an example take a look at mapcar definition from CLHS - it says "mapcar operates on successive elements of the lists". Lists, not s-expressions. On other hand, you can rarely see phrase "interpreter evaluates this list...", in most cases you will see "interpreter evaluates s-expressions...". This is how they are used now in popular literature. Though (and I emphasized this) these terms are very similar and thus could interfere during long Lisp history, especially in scientific papers. –  ffriend May 27 '12 at 14:24
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@RainerJoswig: this is specific for Common Lisp only, but if you care, change every entry of "source code" to "source file" in my comments and you should get the idea. –  ffriend May 27 '12 at 22:41
3  
The takeaway here, terminological nit-picking aside, is that the Lisp eval function does not operate on strings; in this it is different from the function of the same name in most modern dynamic languages. Instead, it expects its argument to already be the in-memory representation of the code, which is (a tree of hierarchically nested) lists. The reader transforms S-expressions into lists to be evaluated. So, S-expressions: textual representation of lists. Serialized, really, much the same way JSON or XML can represent an object tree. –  Mark Reed May 30 '12 at 3:00
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A simple definition for an S-expression is

(define S-expression?
    (λ (object)
        (or (atom? object) (list? object))))

;; Where atom? is:

(define atom?
  (λ (object) 
    (and (not (pair? object)) (not (null? object)))))

;; And list? is:

(define list? (λ (object)
  (let loop ((l1 object) (l2 object))
    (if (pair? l1)
        (let ((l1 (cdr l1)))
          (cond ((eq? l1 l2) #f)
                ((pair? l1) (loop (cdr l1) (cdr l2)))
                (else (null? l1))))
        (null? l1)))))
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Both are written in similar way: (blah blah blah), may be nested. with one difference - lists are prefixed with apostrophe.

On evaluation:

  • S-expression returns some result (may be an atom or list or nil or whatever)
  • Lists return Lists

If we need, we can convert lists to s-exp and vice versa.

  • (eval '(blah blah blah)) => list is treated as an s-exp and a result is returned.
  • (quote (blah blah blah)) => sexp is converted to list and the list is returned without evaluating

IAS:

  • If a List is treated as data it is called List, if it is treated as code it is called s-exp.
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"If a List is treated as data it is called List, if it is treated as code it is called s-exp." IME, if a list is treated as data it's called a list, otherwise it's called whatever it is - usually a function call. The term s-expression is reserved for talking specifically about the syntax in a metatextual way. –  Mark Reed May 30 '12 at 3:02
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