1.
[syn: Quine, W. V. Quine, Willard Van Orman Quine]
WordNet (r) 3.0 (2006):
Quine
n 1: United States philosopher and logician who championed an
empirical view of knowledge that depended on language
(1908-2001) [syn: Quine, W. V. Quine, Willard Van
Orman Quine]
The Jargon File (version 4.4.7, 29 Dec 2003):
quine
/kwi:n/, n.
[from the name of the logician Willard van Orman Quine, via Douglas
Hofstadter] A program that generates a copy of its own source text as its
complete output. Devising the shortest possible quine in some given
programming language is a common hackish amusement. (We ignore some
variants of BASIC in which a program consisting of a single empty string
literal reproduces itself trivially.) Here is one classic quine:
((lambda (x)
(list x (list (quote quote) x)))
(quote
(lambda (x)
(list x (list (quote quote) x)))))
This one works in LISP or Scheme. It's relatively easy to write quines in
other languages such as Postscript which readily handle programs as data;
much harder (and thus more challenging!) in languages like C which do not.
Here is a classic C quine for ASCII machines:
char*f="char*f=%c%s%c;main()
printf(f,34,f,34,10);%c";
main()printf(f,34,f,34,10);
For excruciatingly exact quinishness, remove the interior line breaks. Here
is another elegant quine in ANSI C:
#define q(k)main()return!puts(#k"\nq("#k")");
q(#define q(k)main()return!puts(#k"\nq("#k")");)
Some infamous Obfuscated C Contest entries have been quines that
reproduced in exotic ways. There is an amusing Quine Home Page.
The Free On-line Dictionary of Computing (30 December 2018):
quine
/kwi:n/ (After the logician Willard V. Quine,
via Douglas Hofstadter) A program that generates a copy of its
own source text as its complete output. Devising the shortest
possible quine in some given programming language is a common
hackish amusement.
In most interpreted languages, any constant, e.g. 42, is a
quine because it "evaluates to itself". In certain Lisp
dialects (e.g. Emacs Lisp), the symbols "nil" and "t" are
"self-quoting", i.e. they are both a symbol and also the value
of that symbol. In some dialects, the function-forming
function symbol, "lambda" is self-quoting so that, when
applied to some arguments, it returns itself applied to those
arguments. Here is a quine in Lisp using this idea:
((lambda (x) (list x x)) (lambda (x) (list x x)))
Compare this to the lambda expression:
(\ x . x x) (\ x . x x)
which reproduces itself after one step of beta reduction.
This is simply the result of applying the combinator fix
to the identity function. In fact any quine can be
considered as a fixed point of the language's evaluation
mechanism.
We can write this in Lisp:
((lambda (x) (funcall x x)) (lambda (x) (funcall x x)))
where "funcall" applies its first argument to the rest of its
arguments, but evaluation of this expression will never
terminate so it cannot be called a quine.
Here is a more complex version of the above Lisp quine, which
will work in Scheme and other Lisps where "lambda" is not
self-quoting:
((lambda (x)
(list x (list (quote quote) x)))
(quote
(lambda (x)
(list x (list (quote quote) x)))))
It's relatively easy to write quines in other languages such
as PostScript which readily handle programs as data; much
harder (and thus more challenging!) in languages like C
which do not. Here is a classic C quine for ASCII
machines:
char*f="char*f=%c%s%c;main() printf(f,34,f,34,10);%c";
main()printf(f,34,f,34,10);
For excruciatingly exact quinishness, remove the interior line
break. Some infamous Obfuscated C Contest entries have been
quines that reproduced in exotic ways.
Ken Thompson's back door involved an interesting variant
of a quine - a compiler which reproduced part of itself when
compiling (a version of) itself.
[Jargon File]
(1995-04-25)