Quine (computing)
A quine's output is exactly the same as its source code.

A quine is a non-empty computer program which takes no input and produces a copy of its own source code as its only output. The standard terms for these programs in the computability theory and computer science literature are "self-replicating programs", "self-reproducing programs", and "self-copying programs".

A quine is a fixed point of an execution environment, when the execution environment is viewed as a function transforming programs into their outputs. Quines are possible in any Turing complete programming language, as a direct consequence of Kleene's recursion theorem. For amusement, programmers sometimes attempt to develop the shortest possible quine in any given programming language.

The name "quine" was coined by Douglas Hofstadter, in his popular science book Gödel, Escher, Bach: An Eternal Golden Braid, in the honor of philosopher Willard Van Orman Quine (1908-2000), who made an extensive study of indirect self-reference, and in particular for the following paradox-producing expression, known as Quine's paradox:

"Yields falsehood when preceded by its quotation" yields falsehood when preceded by its quotation.

In some languages, particularly scripting languages, an empty source file is a fixed point of the language, being a valid program that produces no output.[a] Such an empty program, submitted as "the world's smallest self reproducing program", once won the "worst abuse of the rules" prize in the International Obfuscated C Code Contest.[1]

History

The idea of self-reproducing automata came from the dawn of computing, if not before. John von Neumann theorized about them in the 1940s. Later, Paul Bratley and Jean Millo's article "Computer Recreations: Self-Reproducing Automata" discussed them in 1972.[2] Bratley first became interested in self-reproducing programs after seeing the first known such program written in Atlas Autocode at Edinburgh in the 1960s by the University of Edinburgh lecturer and researcher Hamish Dewar.

The "download source" requirement of the Affero General Public License is based on the idea of a quine.

Examples

In general, the method used to create a quine in any programming language is to have, within the program, two pieces: (a) code used to do the actual printing and (b) data that represents the textual form of the code. The code functions by using the data to print the code (which makes sense since the data represents the textual form of the code), but it also uses the data, processed in a simple way, to print the textual representation of the data itself.

The following Java code demonstrates the basic structure of a quine.

public class Quine
{
  public static void main(String[] args)
  {
    char q = 34;      // Quotation mark character
    String[] l = {    // Array of source code
    "public class Quine",
    "{",
    "  public static void main(String[] args)",
    "  {",
    "    char q = 34;      // Quotation mark character",
    "    String[] l = {    // Array of source code",
    "    ",
    "    };",
    "    for(int i = 0; i < 6; i++)           // Print opening code",
    "        System.out.println(l[i]);",
    "    for(int i = 0; i < l.length; i++)    // Print string array",
    "        System.out.println(l[6] + q + l[i] + q + ',');",
    "    for(int i = 7; i < l.length; i++)    // Print this code",
    "        System.out.println(l[i]);",
    "  }",
    "}",
    };
    for(int i = 0; i < 6; i++)           // Print opening code
        System.out.println(l[i]);
    for(int i = 0; i < l.length; i++)    // Print string array
        System.out.println(l[6] + q + l[i] + q + ',');
    for(int i = 7; i < l.length; i++)    // Print this code
        System.out.println(l[i]);
  }
}

The source code contains a string array of itself, which is output twice, once inside quotation marks.

The same idea is used in the following SQL quine:

SELECT REPLACE(REPLACE('SELECT REPLACE(REPLACE("$",CHAR(34),CHAR(39)),CHAR(36),"$") AS Quine',CHAR(34),CHAR(39)),CHAR(36),'SELECT REPLACE(REPLACE("$",CHAR(34),CHAR(39)),CHAR(36),"$") AS Quine') AS Quine

A very concise quine with the same basic structure can be written in Lua:

x = [["x = [" .. "[" .. x .. "]" .. "]\nprint(" .. x)]]
print("x = [" .. "[" .. x .. "]" .. "]\nprint(" .. x)

And in Python:

s = 's = %r\nprint(s%%s)'
print(s%s)

In SAS: [3]

SAS Metadata Program:
/* Assign Macro Variables */
%Let DSN=sashelp.cars ;
%Let Var=Type ;
%Let Option_1=nopct ;
%Let Option_2=nocum ;

/* Assign Output Fileref */
Filename outpgm 'E:\Data-driven Program.sas' ;

/* DATA Step to Produce External SAS Program */
DATA _NULL_ ;
  FILE outpgm ;
  PUT "/* Substitute Variable Names with Macro Variables */" ;
  PUT "title Display NLevels for &Var with PROC FREQ ;" ;
  PUT "proc freq data=&DSN nlevels ;" ;
  PUT "  tables &Var / &Option_1 &Option_2 ;" ;
  PUT "run ;" ;
RUN ;

Results:
/* Substitute Variable Names with Macro Variables */
title Display NLevels for Type with PROC FREQ ;
proc freq data=sashelp.cars nlevels ;
  tables Type / nopct nocum ;
run ;

In Scala:

object Quine extends App {
  val s = 
    """object Quine extends App {
      |  val s = 
      |    ""%2$s%1$s%2$s""
      |  print(s.stripMargin.format(s, "\""))
      |}"""
  print(s.stripMargin.format(s, "\""))
}

In R:

m<-"m<-0;cat(sub(0,deparse(m),m))";cat(sub(0,deparse(m),m))

In Rust: [4]

fn main {
    let x = "fn main {\n    let x = ";
    let y = "print!(\"{}{:?};\n    let y = {:?};\n    {}\", x, x, y, y)\n}\n";
    print!("{}{:?};
    let y = {:?};
    {}", x, x, y, y)
}

In Go: [5]

package main

import "fmt"

func main {
	fmt.Printf("%s%c%s%c\n", s, 0x60, s, 0x60)
}

var s = `package main

import "fmt"

func main {
	fmt.Printf("%s%c%s%c\n", s, 0x60, s, 0x60)
}

var s = `

In OCaml: [6]

(fun s -> Printf.printf "%s%S;;\n" s s) "(fun s -> Printf.printf \"%s%S;;\\n\" s s) ";;

In Haskell: [7]

main = putStr s >> print s where s = "main = putStr s >> print s where s = "

Quines can take advantage of eval. For example, this Ruby quine:

eval s="print 'eval s=';p s"

"Cheating" quines

Quines, per definition, cannot receive any form of input, including reading a file, which means a quine is considered to be "cheating" if it looks at its own source code. The following shell script is not a quine:

#!/bin/sh
# Invalid quine.
# Reading the executed file from disk is cheating.
cat $0

Nor is this succinct use of the Shebang:

#!/bin/cat

The above also applies to this JavaScript code:

function a {
    document.write(a, "a");
}
a

In PHP:

<? highlight_file(__FILE__) ?>

A program in the joke language HQ9+ is a quine if and only if the source code consists only of zero or more '+' characters and a single 'Q' character (the 'Q' command prints a quine and '+' prints nothing):

++Q++++++


One of the shortest cheating quines is provided by Forth, which has a built-in command to read its own source:

source type

An even shorter cheating quine exists on the ZX Spectrum as follows:

1 LIST

Other questionable techniques include making use of compiler messages; for example, in the GW-BASIC environment, entering "Syntax Error" will cause the interpreter to respond with "Syntax Error". Ignoring the restriction that quines be non-empty, there are many examples of programming languages where an empty program is valid (such as C). Such programs generally do nothing, in effect, reproducing the program.

Ouroboros programs

The quine concept can be extended to multiple levels or recursion, originating "ouroboros programs", or quine-relays. This should not be confused with Multiquines.

Example

This Java program outputs the source for a C++ program that outputs the original Java code.

#include <iostream>
#include <string>
using namespace std;

int main(int argc, char* argv[])
{
    char q = 34;
    string l[] = {
    "    ",
    "=============<<<<<<<< C++ Code >>>>>>>>=============",
    "#include <iostream>",
    "#include <string>",
    "using namespace std;",
    "",
    "int main(int argc, char* argv[])",
    "{",
    "    char q = 34;",
    "    string l[] = {",
    "    };",
    "    for(int i = 20; i <= 25; i++)",
    "        cout << l[i] << endl;",
    "    for(int i = 0; i <= 34; i++)",
    "        cout << l[0] + q + l[i] + q + ',' << endl;",
    "    for(int i = 26; i <= 34; i++)",
    "        cout << l[i] << endl;",
    "    return 0;",
    "}",
    "=============<<<<<<<< Java Code >>>>>>>>=============",
    "public class Quine",
    "{",
    "  public static void main(String[] args)",
    "  {",
    "    char q = 34;",
    "    String[] l = {",
    "    };",
    "    for(int i = 2; i <= 9; i++)",
    "        System.out.println( l[i] );",
    "    for(int i = 0; i < l.length; i++)",
    "        System.out.println(l[0] + q + l[i] + q + ',');",
    "    for(int i = 10; i <= 18; i++)",
    "        System.out.println(l[i]);",
    "  }",
    "}",
    };
    for(int i = 20; i <= 25; i++)
        cout << l[i] << endl;
    for(int i = 0; i <= 34; i++)
        cout << l[0] + q + l[i] + q + ',' << endl;
    for(int i = 26; i <= 34; i++)
        cout << l[i] << endl;
    return 0;
}
public class Quine
{
  public static void main(String[] args)
  {
    char q = 34;
    String[] l = {
    "    ",
    "=============<<<<<<<< C++ Code >>>>>>>>=============",
    "#include <iostream>",
    "#include <string>",
    "using namespace std;",
    "",
    "int main(int argc, char* argv[])",
    "{",
    "    char q = 34;",
    "    string l[] = {",
    "    };",
    "    for(int i = 20; i <= 25; i++)",
    "        cout << l[i] << endl;",
    "    for(int i = 0; i <= 34; i++)",
    "        cout << l[0] + q + l[i] + q + ',' << endl;",
    "    for(int i = 26; i <= 34; i++)",
    "        cout << l[i] << endl;",
    "    return 0;",
    "}",
    "=============<<<<<<<< Java Code >>>>>>>>==========",
    "public class Quine",
    "{",
    "  public static void main( String[] args )",
    "  {",
    "    char q = 34;",
    "    String[] l = {",
    "    };",
    "    for(int i = 2; i <= 9; i++)",
    "        System.out.println(l[i]);",
    "    for(int i = 0; i < l.length; i++)",
    "        System.out.println( l[0] + q + l[i] + q + ',' );",
    "    for(int i = 10; i <= 18; i++))",
    "        System.out.println(l[i]);",
    "  }",
    "}",
    };
    for(int i = 2; i <= 9; i++)
        System.out.println(l[i]);
    for(int i = 0; i < l.length; i++)
        System.out.println( l[0] + q + l[i] + q + ',' );
    for(int i = 10; i <= 18; i++)
        System.out.println(l[i]);
 
 }
}

Such programs have been produced with various cycle lengths:

Multiquines

David Madore, creator of Unlambda, describes multiquines as follows:[16]

"A multiquine is a set of r different programs (in r different languages -- without this condition we could take them all equal to a single quine), each of which is able to print any of the r programs (including itself) according to the command line argument it is passed. (Note that cheating is not allowed: the command line arguments must not be too long -- passing the full text of a program is considered cheating)."

A multiquine consisting of 2 languages (or biquine) would be a program which:

  • When run, is a quine in language X.
  • When supplied with a user-defined command line argument, would print a second program in language Y.
  • Given the second program in language Y, when run normally, would also be a quine in language Y.
  • Given the second program in language Y, and supplied with a user-defined command line argument, would produce the original program in language X.

A biquine could then be seen as a set of two programs, both of which are able to print either of the two, depending on the command line argument supplied.

Theoretically, there is no limit on the number of languages in a multiquine, a 5-part multiquine (or pentaquine) has been produced with Python, Perl, C, NewLISP, and F#[17] and there is also a 25-language multiquine.[18]

Radiation-hardened

A radiation-hardened quine is a quine that can have any single character removed and still produce the original program with no missing character. Of necessity, such quines are much more convoluted than ordinary quines, as is seen by the following example in Ruby:[19]

eval='eval$q=%q(puts %q(10210/#{1 1 if 1==21}}/.i rescue##/

1 1"[13,213].max_by{|s|s.size}#"##").gsub(/\d/){["=\47eval$q=%q(#$q)#\47##\47

",:eval,:instance_,"||=9"][eval$&]}
exit)#'##'

instance_eval='eval$q=%q(puts %q(10210/#{1 1 if 1==21}}/.i rescue##/

1 1"[13,213].max_by{|s|s.size}#"##").gsub(/\d/){["=\47eval$q=%q(#$q)#\47##\47

",:eval,:instance_,"||=9"][eval$&]}
exit)#'##'

/#{eval eval if eval==instance_eval}}/.i rescue##/

eval eval"[eval||=9,instance_eval||=9].max_by{|s|s.size}#"##"

See also

Notes

  1. ^ Examples include Bash, Perl, and Python

References

  1. ^ IOCCC 1994 Worst Abuse of the Rules
  2. ^ Bratley, Paul; Millo, Jean (1972). "Computer Recreations: Self-Reproducing Automata". Software Practice and Experience. 2 (4): 397-400. doi:10.1002/spe.4380020411. 
  3. ^ Lafler, Kirk Paul (2017-05-14), Important & Valuable Things You Can Do with SAS® Metadata DICTIONARY Tables and SASHELP Views (PDF), SAS Institute and Kirk Paul Lafler, retrieved  
  4. ^ https://play.rust-lang.org/?gist=538739d5b3008dd6edbdc8e2022abb47
  5. ^ http://play.golang.org/p/pVBds0oHrO
  6. ^ RosettaCodeData: RosettaCode Data Project, Acmeism, 2017-08-14, retrieved  
  7. ^ http://www.iis.sinica.edu.tw/~scm/2007/a-haskell-quine/
  8. ^ Dan Piponi (5 February 2008). "A Third Order Quine in Three Languages". 
  9. ^ Bruce Ediger. "Ask and ye shall receive: Self-replicating program that goes through three generations, Python, Bash, Perl". 
  10. ^ b.m. (1 February 2011). "multiquine". Archived from the original on 2013-04-15. 
  11. ^ Dan Piponi (30 January 2011). "Quine Central". 
  12. ^ Ruslan Ibragimov (20 April 2013). "Quine Ruby -> Java -> C# -> Python" (in Russian). 
  13. ^ Shinichiro Hamaji (10 November 2007). "Quine by shinh (C C++ Ruby Python PHP Perl)".  (this one is also a polyglot)
  14. ^ Ku-ma-me (22 September 2009). "Uroboros Programming With 11 Programming Languages". 
  15. ^ Yusuke Endoh. "Quine Relay - An uroboros program with 100 programming languages". 
  16. ^ David Madore. "Quines (self-replicating programs)". 
  17. ^ Rijnard van Tonder. "Pentaquine - 5 part multiquine". 
  18. ^ Lu Wang. "Quine Chameleon#Variants". 
  19. ^ Yusuke Endoh. "Radiation-hardened Quine". Retrieved . 

Further reading

External links


  This article uses material from the Wikipedia page available here. It is released under the Creative Commons Attribution-Share-Alike License 3.0.


Quine_(computing)
 



 
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