Flo: Unterschied zwischen den Versionen

Version vom 22. Februar 2013, 14:03 Uhr

Wir weisen darauf hin, dass möglicherweise nicht alle Beiträge den Anforderungen genügen. Die Anforderungen sind: Flos sind in Liste "flo" gespeichert, zur Ausführ- oder Compilierzeit werden durch den Code einzelne flo0, flo1, flo2, flo3 Variablen angelegt, die später dann auch zur Ausgabe verwendet werden.

 Wir sind die Flo, Widerstand ist zwecklos!

Beiträge, die die Anforderungen erfüllen

#!/usr/bin/env ruby

flo = [ "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" ]

# flos sind keine arrayss1!
for i in 0..flo.size-1
  eval "flo#{i} = flo[#{i}]"
  puts "flo#{i} == \"" + eval("flo#{i}") + "\""
end

Dieses Perl (*duck*) kann ja keiner lesen!¹⁾ Daher:

(eval-when (:compile-toplevel :load-toplevel :execute)
  (defvar *flo-sequence* #("dividuum" "syb" "fiji" "flowhase" "florolf" "FlorianJW")))

(defmacro make-individual-flo-variables ()
  (cons 'progn
        (loop for flo across *flo-sequence*
              for i from 0
              collect `(defvar ,(read-from-string (format nil "*flo~d*" i)) ,flo))))

(make-individual-flo-variables)

(dotimes (i 5)
    (format t "~&flo~d = ~a" i (eval (read-from-string (format nil "*flo~d*" i)))))

Dreckiges C:

#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <unistd.h>
const int flolen = 6;
static const char *flos[] = {"dividuum","syb","fiji","flowhase","florolf", "FlorianJW"};
static const char *proghead = "#include <stdio.h>\nint main(void){\n";
static const char *progend =  "  return(0);\n}\n";
int main(void){
        int i; FILE *o;
        o=fopen("flo2.c","w");
        fputs(proghead,o);
        for(i=0;i<flolen;i++){
                fprintf(o,"  char *flo%d = \"%s\";\n",i,flos[i]);
                fprintf(o,"  printf(\"flo%%d ist %%s\\n\",%d,flo%d);\n",i,i); }
        fputs(progend,o);
        fclose(o);
        system("/usr/bin/gcc -o flos flo2.c;./flos;rm -f flo2.c flos");
        return 0;
}

Nu aber wirklich noch in Perl:

#!/usr/bin/perl

@flo = ( "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" );

for $i (0..$#flo) {
  eval "\$flo$i = \$flo\[$i\]";
  print "\$flo$i eq \"" . eval("\$flo$i") . "\"\n";
}

Perl:

#!/usr/bin/perl

@flo = ( "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" );

for $i (0..$#flo) {
  ${"flo$i"} = $flo[$i];
  print "\$flo$i eq \"" . ${"flo$i"} . "\"\n";
}

PHP:

<?php
$flo = array( "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" );

foreach ($flo as $i => $x) {
  ${"flo$i"} = $flo[$i];
  echo "\$flo$i = \"" . ${"flo$i"} . "\"\n";
}
?>

Gute alte Bash:

#!/bin/sh

flo="dividuum syb fiji flowhase florolf FlorianJW"

n=0
for f in $flo
do
  eval flo$n=$f
  echo -n "flo$n == "
  eval echo \$flo$n
  n=$(($n+1))
done

Realisiert in PHP, Lisp, Perl, XML, Bash und XSLT und immernoch kürzer als die C-Version:

<?php
$flo = array( "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" );

$l = fopen("flo.lisp", "w"); $p = fopen("flo.pl", "w");
fwrite($l, '(progn (format t "~a" "<flo>")');
fwrite($p,'
print <<EOF
  <xsl:stylesheet version="1.0"
                  xmlns:xsl="http://www.w3.org/1999/XSL/Transform"
                  xmlns="http://www.w3.org/TR/xhtml1/strict">
  <xsl:template match="/">');
    for($i=0;$i<count($flo);$i++) {
      fwrite($l, "(format t \"~a~a~a\" \"<flo$i>\" \"$flo[$i]\" \"</flo$i>\")");
      fwrite($p, "flo$i == <xsl:value-of select=\"flo/flo$i\"/>\n");
    }
    fwrite($l, '(format t "~a" "</flo>"))');
    fwrite($p,'
  </xsl:template>
  </xsl:stylesheet>
EOF'."\n");
fclose($l); fclose($p);
system("sbcl --noinform --load flo.lisp --eval '(quit)' > flo.xml");
system("perl flo.pl > flo.xslt");
system("xsltproc flo.xslt flo.xml | grep -v xml");
?>

Noch einmal in Ruby:

#!/usr/bin/env ruby

flo = [ "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" ]

# flos sind keine arrayss1!
flo.each_with_index do | f, i |
  instance_variable_set "@flo#{i}", f
  puts "flo#{i} = #{instance_variable_get "@flo#{i}"}"
end

'cause JavaScript rocks:

flo = new Array("dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW");
for (i in flo) {
  eval("flo"+i+" = flo["+i+"]");
  dump("flo"+i+" == "+eval("flo"+i)+"\n");
}

Wir moegen Lua:

#include <lua.h>
#include <lualib.h>
#include <lauxlib.h>

lua_State *L;

char *flos[] = {"dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW"};
char buf[1024];

void main() {
        char *p;
        int i;

        L = luaL_newstate();
        luaL_openlibs(L);

        for(i=0; i < 6; i++) {
                sprintf(buf, "flo%d", i);
                lua_pushstring(L, flos[i]);
                lua_setglobal(L, buf);
        }

        p=buf;
        for(i=0; i < 6; i++)
                p += sprintf(p, "print(\"flo%d = \" .. flo%d);", i, i);

        luaL_dostring(L, buf);
}

C++11:

#include <vector>
#include <string>
#include <cstdlib>
#include <fstream>

using namespace std;

int main(){
	vector<string> flo={"dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW"};
	ofstream cpp_2("cpp_2.cpp");
	cpp_2<<"#include <iostream>\n#include <string> \nusing namespace std;\nint main(){\n";
	for(int i=0;i<flo.size();++i){
		cpp_2<<"\tstring flo"<<i<<" =\""<<flo[i]<<"\";\n";
	}
	cpp_2<<"\tcout\n";
	for(int i=0;i<flo.size();++i){
		cpp_2<<"\t\t<<flo"<<i;
		if(i+1==flo.size()){
			cpp_2<<"<<endl;\n";
		}
		else{
			cpp_2<<"<<\", \"\n";
		}
		
	}
	cpp_2<<"}"<<endl;
	cpp_2.close();
	system("g++ cpp_2.cpp -o cpp_2; ./cpp_2");
	return 0;
}

Bloatiger Angebercode, der auch noch etwas völlig anderes macht

Und nochmal das, was das Ruby-Programm "mit viel bloatigem Metaprogramming-Foo" macht, allerdings wiederum in Common Lisp gegossen:
(Warnung: (Zumindest) als Lispprogramm ist dieses Beispiel ziemlich unsinning, und z.B. die PRINT-OBJECT-Methode widerspricht der gängigen Konvention.)

(defclass flo ()
  ((name :initarg :name :reader flo-name)
   (skill :initarg :skill :reader flo-skill)
   (notebook :initarg :notebook :reader flo-notebook)))

(defun slot-value-or-something (object &key (slot 'name) (something "without name"))
  (if (slot-boundp object slot)
      (slot-value object slot)
      something))

(defmethod print-object ((flo flo) stream)
  (format stream "~&~a is actually ~a and is good at ~a.~&He loves hacking on his ~a."
          (class-name (class-of flo))
          (slot-value-or-something flo)
          (slot-value-or-something flo :slot 'skill    :something "nothing")
          (slot-value-or-something flo :slot 'notebook :something "dulcimer")))

(defmacro def-flo-class (class-name &key name skill notebook)
  (macrolet ((make-slot-def (name)
               `(when ,name
                  `(,',name :initform ,,name))))
  `(defclass ,class-name (flo)
     ,(remove nil (list
                   (make-slot-def name)
                   (make-slot-def skill)
                   (make-slot-def notebook))))))

(def-flo-class |Flo0|
    :name "dividuum"
    :skill "DOOM"
    :notebook "old Dell")

(def-flo-class |Flo1|
    :name "Peter"
    :skill "math"
    :notebook "IBM Thinkpad")

(def-flo-class |Flo2|
    :name "Fiji"
    :skill "WOW"
    :notebook "I-have-no-idea")

(def-flo-class |Flo3|
    :name "flohase"
    :skill "hoppeln"
    :notebook "hasIbook")

(def-flo-class |Flo4|
    :name "florolf"
    :skill "konfusion"
    :notebook "Thinkpad")

(def-flo-class |Flo5|
    :name "FlorianJW"
    :skill "pirat"
    :notebook "I-have-no-idea")


(let ((flos (list (make-instance '|Flo0|)
                  (make-instance '|Flo1|)
                  (make-instance '|Flo2|)
                  (make-instance '|Flo3|)
                  (make-instance '|Flo4|)
                  (make-instance '|Flo5|))))
  (dolist (flo flos)
    (print flo)))

Ru^W Objektorientiertes C

// Das aendern:
#include "/usr/local/lib/ruby/1.8/i386-freebsd5/ruby.h"

VALUE flo_init(VALUE self)
{
        char *flo[] = {"dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW"};
        int i;

        for(i = 0; i < 6; i++)
        {
                char varname[7];
                sprintf(varname, "@flo%i", i);  // Insecure!
                rb_iv_set(self, varname, rb_str_new2(flo[i]));
        }
}

VALUE flo_each(VALUE self)
{
        int i;
        VALUE vars = rb_funcall(self, rb_intern("instance_variables"), 0);
        VALUE varname = rb_ary_shift(vars);

        while(varname != Qnil)
        {
                rb_yield(rb_ary_new3(2, varname, rb_iv_get(self, RSTRING(varname)->ptr)));
                varname = rb_ary_shift(vars);
        }

        return(Qnil);
}

int main()
{
        VALUE flo;

        ruby_init();

        flo = rb_define_class("Flo", rb_cObject);
        rb_define_method(flo, "initialize", flo_init, 0);
        rb_define_method(flo, "each", flo_each, 0);

        rb_eval_string("Flo.new.each { |name,value| puts \"#{name.gsub(/^@/, '')} = #{value}\" }");

        return(0);
}

Die Enterprise-Loesung

Das Schlimmste aus beiden Welten.

#include <stdlib.h>
#include <stdio.h>
#include <stdint.h>
#include <string.h>

#include <jni.h>

const char *flos[] = { "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" };
const int n_flos = sizeof(flos)/sizeof(char*);

unsigned char class[] = {
	0xca, 0xfe, 0xba, 0xbe,
	0x00, 0x00,
	0x00, 0x33,
	0, 0,
	0x01, 0x00, 16, 'j', 'a', 'v', 'a', '/', 'l', 'a', 'n', 'g', '/', 'O', 'b', 'j', 'e', 'c', 't',
	0x01, 0x00, 4, 'F', 'l', 'o', 's',
	0x01, 0x00, 18, 'L', 'j', 'a', 'v', 'a', '/', 'l', 'a', 'n', 'g', '/', 'S', 't', 'r', 'i', 'n', 'g', ';',
	0x01, 0x00, 6, '<', 'i', 'n', 'i', 't', '>',
	0x01, 0x00, 3, '(', ')', 'V',
	0x07, 0, 1,
	0x07, 0, 2,
	0x0C, 0, 4, 0, 5,
	0x0A, 0, 6, 0, 8,
	0x01, 0x00, 4, 'C', 'o', 'd', 'e',
};

int cp_i = 11;
FILE *cout;

void fputc16(uint16_t in, FILE *out) {
	fputc(in >> 8, out); fputc(in & 0xFF, out);
}

uint16_t add_utf8(const char *string) {
	size_t len = strlen(string);

	fputc(0x01, cout);
	fputc16(len, cout);

	fputs(string, cout);

	return cp_i++;
}

uint16_t add_string(const char *string) {
	uint16_t utf8 = add_utf8(string);

	fputc(0x08, cout);
	fputc16(utf8, cout);
	return cp_i++;
}

uint16_t add_name_and_type(const char *name, uint16_t type) {
	uint16_t namei = add_utf8(name);

	fputc(0x0C, cout);
	fputc16(namei, cout);
	fputc16(type, cout);
	
	return cp_i++;
}

uint16_t add_field(uint16_t class, const char *name, uint16_t type) {
	int nat = add_name_and_type(name, type);

	fputc(0x09, cout);
	fputc16(class, cout);
	fputc16(nat, cout);

	return cp_i++;
}

void make_flontainer(void) {
	cout = fopen("Flos.class", "w");

	class[9] = 1 + 10 + 5 * n_flos;

	for(int i = 0; i < sizeof(class); i++) {
		fputc(class[i], cout);
	}

	for(int i = 0; i < n_flos; i++) {
		int ref;

		char varbuf[16];
		snprintf(varbuf, 16, "flo%u", i);
		add_field(7, varbuf, 3);

		add_string(flos[i]);
	}

	fputc16(0x0001, cout);
	fputc16(0x0007, cout);
	fputc16(0x0006, cout);

	fputc16(0, cout);

	fputc16(n_flos, cout);
	for(int i = 0; i < n_flos; i++) {
		fputc16(0x0001, cout);
		fputc16(11 + i * 5, cout);
		fputc16(3, cout);
		fputc16(0, cout);
	}

	fputc16(1, cout);
	fputc16(0x0001, cout);
	fputc16(4, cout);
	fputc16(5, cout);
	fputc16(1, cout);
	fputc16(10, cout);
	fputc16(0, cout);
	fputc16(17 + n_flos * 6, cout);
	fputc16(2, cout);
	fputc16(1, cout);
	fputc16(0, cout);
	fputc16(5 + n_flos * 6, cout);
	fputc(0x2A, cout);
	fputc(0xB7, cout); fputc16(0x0009, cout);
	for(int i = 0; i < n_flos; i++) {
		fputc(0x2A, cout);
		fputc(0x12, cout); fputc(15 + 5 * i, cout);
		fputc(0xB5, cout); fputc16(13 + 5 * i, cout);
	}
	fputc(0xB1, cout);

	fputc16(0, cout);
	fputc16(0, cout);

	fputc16(0, cout);

	fclose(cout);
}

const char *printer = "\
import java.lang.reflect.Field;\n\
\n\
public class Printer {\n\
	public static void print() throws Exception {\n\
		Flos floContainer = new Flos();\n\
		Field[] flos = floContainer.getClass().getFields();\n\
\n\
		for(Field flo : flos) {\n\
			System.out.println(flo.getName() + \": \" + flo.get(floContainer));\n\
		}\n\
	}\n\
}\n";

void make_printer(void) {
	FILE *out = fopen("Printer.java", "w");
	fputs(printer, out);
	fclose(out);

	system("javac Printer.java");
}

void print_flos(void) {
	JNIEnv *env;
	JavaVMInitArgs args;

	memset(&args, 0, sizeof(JavaVMInitArgs));
	args.version = JNI_VERSION_1_6;

	JavaVM *jvm;
	JNI_CreateJavaVM(&jvm, (void**)&env, &args);

	jclass printer = (*env)->FindClass(env, "Printer");
	jmethodID print = (*env)->GetStaticMethodID(env, printer, "print", "()V");
	(*env)->CallStaticVoidMethod(env, printer, print);
}

int main(void) {
	make_flontainer();
	make_printer();
	print_flos();

	return EXIT_SUCCESS;
}

Fußnoten

1) Anmerkung zu: "Dieses Perl (*duck*) kann ja keiner lesen!"

Stimmt doch gar nicht! Ist ganz einfach:

map printf("%s = %s\n", [flo0..flo5]->[$_], [dividuum, syb, fiji, flowhase, florolf, FlorianJW]->[$_]), 0..$#{@{[flo0..flo5]}};

(Kommentar von mgr: Genau, "0..$#{@{[flo0..flo5]}}" ... q.e.d. Danke für das gute Beispiel. Aber ernsthaft, es ging hier eben gerade *nicht* um Einzeiler, die will niemand.)

Und auch in python kann man Einzeiler schreiben:

print "\n".join(["%s = %s" % (k, v) for k, v in {"flo0":"dividuum", "flo1":"syb", "flo2":"fiji", "flo3":"flowhase","flo4":"florolf", "flo5":"FlorianJW"}.items()])

@@ Zeile 10: / Zeile 10: @@
 == Beiträge, die die Anforderungen erfüllen ==
-<pre>
+<syntaxhighlight lang="ruby">
 #!/usr/bin/env ruby
@@ Zeile 20: / Zeile 20: @@
    puts "flo#{i} == \"" + eval("flo#{i}") + "\""
 end
-</pre>
+</syntaxhighlight>
 Dieses Perl (*duck*) kann ja keiner lesen!<span id="footref1">[[#footnote1|<sup><small>1)</small></sup>]]</span> Daher:
 {| cellpadding=5
-|<pre>
+|<syntaxhighlight lang="perl">
 (eval-when (:compile-toplevel :load-toplevel :execute)
    (defvar *flo-sequence* #("dividuum" "syb" "fiji" "flowhase" "florolf" "FlorianJW")))
@@ Zeile 39: / Zeile 39: @@
 (dotimes (i 5)
      (format t "~&flo~d = ~a" i (eval (read-from-string (format nil "*flo~d*" i)))))
-</pre>
+</syntaxhighlight>
 |
 |[[Bild:Lisplogo_warning_128.png]]
@@ Zeile 45: / Zeile 45: @@
 Dreckiges C:
-<pre>
+<syntaxhighlight lang="c">
 #include <stdio.h>
 #include <stdlib.h>
@@ Zeile 66: / Zeile 66: @@
          return 0;
 }
-</pre>
+</syntaxhighlight>
 Nu aber wirklich noch in Perl:
-<pre>
+<syntaxhighlight lang="perl">
 #!/usr/bin/perl
@@ Zeile 80: / Zeile 80: @@
    print "\$flo$i eq \"" . eval("\$flo$i") . "\"\n";
 }
-</pre>
+</syntaxhighlight>
 Perl:
-<pre>
+<syntaxhighlight lang="perl">
 #!/usr/bin/perl
@@ Zeile 93: / Zeile 93: @@
    print "\$flo$i eq \"" . ${"flo$i"} . "\"\n";
 }
-</pre>
+</syntaxhighlight>
 PHP:
-<pre>
+<syntaxhighlight lang="php">
 <?php
 $flo = array( "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" );
@@ Zeile 106: / Zeile 106: @@
 }
 ?>
-</pre>
+</syntaxhighlight>
 Gute alte Bash:
-<pre>
+<syntaxhighlight lang="bash">
 #!/bin/sh
@@ Zeile 124: / Zeile 124: @@
    n=$(($n+1))
 done
-</pre>
+</syntaxhighlight>
@@ Zeile 131: / Zeile 131: @@
 {| cellpadding=5
 |
-<pre>
+<syntaxhighlight lang="php">
 <?php
 $flo = array( "dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW" );
@@ Zeile 157: / Zeile 157: @@
 system("xsltproc flo.xslt flo.xml | grep -v xml");
 ?>
-</pre>
+</syntaxhighlight>
 |
 |
@@ Zeile 171: / Zeile 171: @@
 Noch einmal in Ruby:
-<pre>
+<syntaxhighlight lang="ruby">
 #!/usr/bin/env ruby
@@ Zeile 181: / Zeile 181: @@
    puts "flo#{i} = #{instance_variable_get "@flo#{i}"}"
 end
-</pre>
+</syntaxhighlight>
 'cause JavaScript rocks:
-<pre>
+<syntaxhighlight lang="JavaScript">
 flo = new Array("dividuum", "syb", "fiji", "flowhase", "florolf", "FlorianJW");
 for (i in flo) {
@@ Zeile 190: / Zeile 190: @@
    dump("flo"+i+" == "+eval("flo"+i)+"\n");
 }
-</pre>
+</syntaxhighlight>
 Wir moegen Lua:
-<pre>
+<syntaxhighlight lang="lua">
 #include <lua.h>
 #include <lualib.h>
@@ Zeile 222: / Zeile 222: @@
          luaL_dostring(L, buf);
 }
-</pre>
+</syntaxhighlight>
 C++11:
-<pre>
+<syntaxhighlight lang="c">
 #include <vector>
 #include <string>
@@ Zeile 256: / Zeile 256: @@
 	return 0;
 }
-</pre>
+</syntaxhighlight>
 == Bloatiger Angebercode, der auch noch etwas völlig anderes macht ==
@@ Zeile 264: / Zeile 264: @@
 {| cellpadding=5
-|<pre>
+|<syntaxhighlight lang="ruby">
 (defclass flo ()
    ((name :initarg :name :reader flo-name)
@@ Zeile 331: / Zeile 331: @@
    (dolist (flo flos)
      (print flo)))
-</pre>
+</syntaxhighlight>
 |
 |[[Bild:Lisplogo_256.png]]
@@ Zeile 337: / Zeile 337: @@
 == Ru^W Objektorientiertes C ==
-<pre>
+<syntaxhighlight lang="c">
 // Das aendern:
 #include "/usr/local/lib/ruby/1.8/i386-freebsd5/ruby.h"
@@ Zeile 383: / Zeile 383: @@
          return(0);
 }
-</pre>
+</syntaxhighlight>
 == Die Enterprise-Loesung ==
@@ Zeile 389: / Zeile 389: @@
 Das Schlimmste aus beiden Welten.
-<pre>
+<syntaxhighlight lang="diff">
 #include <stdlib.h>
 #include <stdio.h>
@@ Zeile 569: / Zeile 569: @@
 	return EXIT_SUCCESS;
 }
-</pre>
+</syntaxhighlight>
 == Fußnoten ==
@@ Zeile 576: / Zeile 576: @@
 Stimmt doch gar nicht! Ist ganz einfach:
-<pre>
+<syntaxhighlight lang="perl">
 map printf("%s = %s\n", [flo0..flo5]->[$_], [dividuum, syb, fiji, flowhase, florolf, FlorianJW]->[$_]), 0..$#{@{[flo0..flo5]}};
-</pre>
+</syntaxhighlight>
 (Kommentar von [[Benutzer:Mgr|mgr]]: Genau, "0..$#{@{[flo0..flo5]}}" ... q.e.d. Danke für das gute Beispiel.
 Aber ernsthaft, es ging hier eben gerade *nicht* um Einzeiler, die will niemand.)
@@ Zeile 584: / Zeile 584: @@
 Und auch in python kann man Einzeiler schreiben:
-<pre>
+<syntaxhighlight lang="python">
 print "\n".join(["%s = %s" % (k, v) for k, v in {"flo0":"dividuum", "flo1":"syb", "flo2":"fiji", "flo3":"flowhase","flo4":"florolf", "flo5":"FlorianJW"}.items()])
-</pre>
+</syntaxhighlight>
 [[Kategorie:Wissen]]
 [[Kategorie:Entropia]]