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<?php
session_start ();
?>
<form method="POST" action="./form20240422.php">
<input type="text" name="form20240422a"></input>
<input type="submit">
</form>
<?php
echo session_id () . "<br>n";
setcookie ("form20240422b", "Ich bin das zweite Cookie", time () + 3600);
echo htmlentities (\$_POST ["form20240422a"]) . "<br>n";
echo htmlentities (\$_COOKIE ["form20240422b"]) . "<br>n";
echo htmlentities (\$_COOKIE ["form20240422c"]) . "<br>n";
session_destroy ();
?>
Trying ::1... Connected to localhost. Escape character is '\^]'. HTTP/1.1 200 OK Date: Mon, 22 Apr 2024 07:54:29 GMT Server: Apache/2.4.57 (Debian) Set-Cookie: PHPSESSID=38a8eko1rq2nqna835v35hq00r; path=/ Expires: Thu, 19 Nov 1981 08:52:00 GMT Cache-Control: no-store, no-cache, must-revalidate Pragma: no-cache Set-Cookie: form20240422b=Ich%20bin%20das%20zweite%20Cookie; expires=Mon, 22 Apr 2024 08:54:29 GMT; Max-Age=3600 Vary: Accept-Encoding Content-Length: 231 Content-Type: text/html; charset=UTF-8 <form method="POST" action="./form20240422.php"> <input type="text" name="form20240422a"></input> <input type="submit"> </form> 38a8eko1rq2nqna835v35hq00r<br> Hallo, ich bin das Datum<br> <br> Hallo, ich bin das erste Cookie<br>
POST http://localhost/mysql20240217/20240422/form20240422.php HTTP/1.1 host: localhost Cookie: form20240422c=Hallo, ich bin das erste Cookie Content-Length: 38 Content-Type: application/x-www-form-urlencoded form20240422a=Hallo, ich bin das Datum
<?php
session_start ();
include ("/home/david/mysqldata.php");
\$db = new PDO ("mysql: host=localhost", \$MYSQL_USER, \$MYSQL_PASSWORD);
\$sql = "CREATE DATABASE mysql20240422" . session_id () . "; ";
\$db->query (\$sql);
\$sql = "USE mysql20240422" . session_id () . "; ";
\$db->query (\$sql);
\$sql = "CREATE TABLE a (x1 INTEGER, x2 INTEGER); CREATE TABLE b (y1 INTEGER, y2 INTEGER); ";
\$db->query (\$sql);
\$sql = "INSERT INTO a (x1, x2) VALUES (0, 0); ";
\$db->query (\$sql);
\$sql = "INSERT INTO a (x1, x2) VALUES (0, 1); ";
\$db->query (\$sql);
\$sql = "INSERT INTO a (x1, x2) VALUES (1, 0); ";
\$db->query (\$sql);
\$sql = "INSERT INTO a (x1, x2) VALUES (1, 1); ";
\$db->query (\$sql);
\$sql = "INSERT INTO a (x1, x2) VALUES (2, 7); ";
\$db->query (\$sql);
\$sql = "INSERT INTO b (y1, y2) VALUES (0, 1); ";
\$db->query (\$sql);
\$sql = "INSERT INTO b (y1, y2) VALUES (1, 0); ";
\$db->query (\$sql);
\$sql = "INSERT INTO b (y1, y2) VALUES (2, 7); ";
\$db->query (\$sql);
\$sql = "SELECT x1, x2 FROM a; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", " . \$row [1] . "; ";
echo "<br>n";
\$sql = "SELECT y1, y2 FROM b; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", " . \$row [1] . "; ";
echo "<br>n";
\$sql = "SELECT x1, x2, y1, y2 FROM a INNER JOIN b ON a.x1 = b.y1; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", " . \$row [1] . ", " . \$row [2] . ", " . \$row [3] . "; ";
echo "<br>n";
\$sql = "DROP DATABASE mysql20240422" . session_id () . "; ";
\$db->query (\$sql);
session_destroy ();
?>
<?php
session_start ();
include ("/home/david/mysqldata.php");
\$db = new PDO ("mysql: host=localhost", \$MYSQL_USER, \$MYSQL_PASSWORD);
\$sql = "CREATE DATABASE q20240422" . session_id () . "; ";
\$db->query (\$sql);
\$sql = "USE q20240422" . session_id () . "; ";
\$db->query (\$sql);
\$sql = "CREATE TABLE a (x INTEGER); CREATE TABLE b (x INTEGER); CREATE TABLE c (x INTEGER); ";
\$db->query (\$sql);
for (\$i = 0; \$i < 24; \$i++) {
\$sql = "INSERT INTO a (x) VALUES (" . rand () % 32 . "); ";
\$sql .= "INSERT INTO b (x) VALUES (" . rand () % 64 . "); ";
\$sql .= "INSERT INTO c (x) VALUES (" . rand () % 128 . "); ";
\$db->query (\$sql);
}
\$sql = "SELECT x FROM (SELECT x FROM a UNION SELECT x FROM b) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (SELECT x FROM a UNION SELECT x FROM c) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (SELECT x FROM b UNION SELECT x FROM c) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (SELECT x FROM a INTERSECT SELECT x FROM b) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (SELECT x FROM a INTERSECT SELECT x FROM c) x ORDER BY x; ";
\$sql = "SELECT x FROM (SELECT x FROM b INTERSECT SELECT x FROM c) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (
SELECT x FROM (SELECT x FROM a UNION SELECT x FROM b) x
INTERSECT
SELECT x FROM c
) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (
SELECT x FROM (SELECT x FROM a INTERSECT SELECT x FROM c) x
UNION
SELECT x FROM (SELECT x FROM b INTERSECT SELECT x FROM c) x
) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (
SELECT x FROM (SELECT x FROM a UNION SELECT x FROM c) x
INTERSECT
SELECT x FROM b
) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (
SELECT x FROM (SELECT x FROM a INTERSECT SELECT x FROM b) x
UNION
SELECT x FROM (SELECT x FROM b INTERSECT SELECT x FROM c) x
) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (
SELECT x FROM (SELECT x FROM b UNION SELECT x FROM c) x
INTERSECT
SELECT x FROM a
) x ORDER BY x;";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "SELECT x FROM (
SELECT x FROM (SELECT x FROM b INTERSECT SELECT x FROM a) x
UNION
SELECT x FROM (SELECT x FROM c INTERSECT SELECT x FROM x) x
) x ORDER BY x; ";
\$stmt = \$db->query (\$sql);
while (\$row = \$stmt -> fetch ())
echo \$row [0] . ", ";
echo "<br>n";
\$sql = "DROP DATABASE q20240422" . session_id () . "; ";
\$db->query (\$sql);
session_destroy ();
?>
#!/bin/bash
if [[ "\$1" == "David" \&\& "\$2" == "Vajda" ]]
then
echo "Das bin ich"
elif [[ "\$1" == "David Vajda" \&\& -z "\$2" ]]
then
echo "Das bin ich"
elif [[ "\$1" == "David" \&\& -z "\$2" ]]
then
echo "Das koennte ich sein"
elif [[ "\$1" == "Vajda" \&\& -z "\$2" ]]
then
echo "Das koennte ich sein"
elif [[ -n "\$1" ]]
then
echo "das koennte ich sein"
else
i=0
while [ \$i -lt 10 ]
do
echo "Hallo zum \$((\$i+1))."
i=\$((\$i+1))
done
a=(Hallo, ich bin ein Array)
a+=(Und ich bin die Fortsetzung)
i=0
while [ \$i -lt 10 ]
do
echo "\${a[\$i]}"
i=\$((\$i+1))
done
for s in "\${a[@]}"
do
echo "\$s"
done
l=\$(ls)
for s in \$l
do
echo "\$s"
done
fi
#!/bin/bash /bin/bash bash20240422.sh "David" "Vajda" /bin/bash bash20240422.sh "David Vajda" /bin/bash bash20240422.sh "David" "Vajda" "Mustermann" /bin/bash bash20240422.sh "David" /bin/bash bash20240422.sh "Vajda" /bin/bash bash20240422.sh "David" "Mustermann" /bin/bash bash20240422.sh "Max" "Mustermann" /bin/bash bash20240422.sh
Das bin ich Das bin ich Das bin ich Das koennte ich sein Das koennte ich sein das koennte ich sein das koennte ich sein Hallo zum 1. Hallo zum 2. Hallo zum 3. Hallo zum 4. Hallo zum 5. Hallo zum 6. Hallo zum 7. Hallo zum 8. Hallo zum 9. Hallo zum 10. Hallo, ich bin ein Array Und ich bin die Fortsetzung Hallo, ich bin ein Array Und ich bin die Fortsetzung 1024px-Pentagram.svg.png 435899368_1909247672858224_3350755409360955247_n.jpg 436382100_25155971550684924_1096422984899398839_n.jpg 436411508_25117903904491689_7903038619813751120_n.jpg 436440417_25125336627081750_5701952718187325856_n.jpg 437152281_1909244259525232_335543314414381643_n.jpg 437360993_1909087499540908_7005213253562161532_n.jpg 438733625_25163161313299281_6177185615677845513_n.jpg 438885838_1909247576191567_4866744226356302471_n.jpg 61411-02-S#1-2000042.pdf addressdecodertestbench.c alllinks.sh a.out asm15 asm16 asm20240415 asm20240415.asm asm20240415.o asm20240419-1.jpg asm20240419.aux asm20240419_b.jpg asm20240419_b.odg asm20240419.jpg asm20240419.log asm20240419.odg asm20240419.pdf asm20240419.tex asm20240420-1.jpg asm20240420.aux asm20240420.jpg asm20240420.log asm20240420.odg asm20240420.pdf asm20240420.tex asm202404all.odg aufgabe2.1.pdf ausgaben.ods auswendig20240418a.txt auswendig20240420b.txt auswendig20240420c.txt automat15 automat15.c automat20240418-1.jpg automat20240418.aux automat20240418.csv automat20240418.log automat20240418.pdf automat20240418.tex automat20240418.txt bash20240418all.sh bash20240418.out bash20240418.sh bash20240419all.out bash20240419all.sh bash20240419al"o.out bash20240419.out bash20240419.sh bash20240420all.sh bash20240420.out bash20240420.sh bash20240422all.sh bash20240422.out bash20240422.sh Bilder bin20240415.txt bin20240417.txt bin20240418.txt bin20240419.txt binary2 binary2.c binomial20240414a.c complex20240415-1.jpg complex20240415.aux complex20240415.log complex20240415.pdf complex20240415.tex complex20240418-1.jpg complex20240418.aux complex20240418.log complex20240418.pdf complex20240418.tex complexoperationswerk20240418.jpg complexoperationswerk20240418.odg complexsteuerwerk20240418.jpg complexsteuerwerk20240418.odg David Pru_fung2024-1.jpg David Pru_fung2024.pdf DE83641400360891263600_EUR_20-04-2024_0641b.csv DE83641400360891263600_EUR_20-04-2024_0641.csv deepsearch1.c deepsearch2 deepsearch2.c doc Dokumente dos-inst Downloads float.c fsmprogs generatetestbench2 generatetestbench3 generatetestbench4 generatetestbench5 gnu-hello Greek_letter_omega_serif+sans.svg.png ieee754aufgabe ieee754aufgabe2.c ieee754aufgabe.c ieee754aufgabe.o inst mail Makefile Makefile20240417 Mars matlab mips32singlecycle2.vhdl mips32singlecycle.vhdl Musik mydaemontestd mysqldata.php nasm20240418 nasm20240418.asm nasm20240418.o node_modules NVIDIA_CUDA_Programming_Guide_1.0.pdf "Offentlich out.txt password quine quine20240415.txt quine20240415.vhdl quine20240417.txt quine20240417.vhdl quine20240418.txt quine20240418.vhdl quine20240419.txt quine20240419.vhdl quine20240420.txt quine20240420.vhdl replace.sh Schreibtisch Screenshot_20240415_073630.png Screenshot_20240415_214118.png Screenshot_20240416_153528.png Screenshot_20240416_212917.png Screenshot_20240417_192957.png Screenshot_20240418_080211.png Screenshot_20240418_084837.png Screenshot_20240418_192433.png Screenshot_20240418_193109.png Screenshot_20240419_120042.png Screenshot_20240419_125136.png Screenshot_20240420_084918.png Screenshot_20240420_094735.png Screenshot_20240422_095152.png state20240415.jpg state20240415.odg state20240415.txt state3 svg tagebuch.txt test.png.vcd Using_Inline_PTX_Assembly_In_CUDA.pdf Videos VirtualBox VMs Vorlagen wave.ghw work-obj93.cf
0 0 0 0 0 0
1 0 0 0 1 1
2 0 0 1 0 0
3 0 0 1 1 0
4 0 1 0 0 0
5 0 1 0 1 0
6 0 1 1 0 1
7 0 1 1 1 0
8 1 0 0 0 0
9 1 0 0 1 0
10 1 0 1 0 1
11 1 0 1 1 0
12 1 1 0 0 0
13 1 1 0 1 1
14 1 1 1 0 0
15 1 1 1 1 0
1 0 0 0 1 1
6 0 1 1 0 1
10 1 0 1 0 1
13 1 1 0 1 1
Gruppe 1:
1 0 0 0 1 1
Gruppe 2:
6 0 1 1 0 1
10 1 0 1 0 1
Gruppe 3
13 1 1 0 1 1
1 0 0 0 1 1
6 0 1 1 0 1
10 1 0 1 0 1
13 1 1 0 1 1
y <= (not x3 and not x2 and not x1 and x0) or
(not x3 and x2 and x1 and and not x0) or
(x3 and not x2 and not x1 and not x0) or
(x3 and x2 and not x1 and x0);
library ieee;
use ieee.std_logic_1164.all;
entity quine20240422 is
port (
x3, x2, x1, x0: in std_logic;
y: out std_logic
);
end;
architecture behaviour of quine20240422 is
begin
y <= (not x3 and not x2 and not x1 and x0) or
(not x3 and x2 and x1 and and not x0) or
(x3 and not x2 and not x1 and not x0) or
(x3 and x2 and not x1 and x0);
end;
library ieee;
use ieee.std_logic_1164.all;
entity quine20240422testbench is
port (
y: out std_logic
);
end;
architecture behaviour os quine20240422testbench is
component quine20240422
port (
x3, x2, x1, x0: in std_logic;
y: out std_logic
);
end compontent;
signal x3, x2, x1, x0: std_logic;
begin
q: quine20240422 PORT MAP (x3=>x3, x2=>x2, x1=>x1, x0=>x0, y=>y);
library ieee;
use ieee.std_logic_1164.all;
entity quine20240422 is
port (
x3, x2, x1, x0: in std_logic;
y: out std_logic
);
end;
architecture behaviour of quine20240422 is
begin
y <= (not x3 and not x2 and not x1 and x0) or
(not x3 and x2 and x1 and not x0) or
(x3 and not x2 and not x1 and not x0) or
(x3 and x2 and not x1 and x0);
end;
library ieee;
use ieee.std_logic_1164.all;
entity quine20240422testbench is
port (
y: out std_logic
);
end;
architecture behaviour of quine20240422testbench is
component quine20240422
port (
x3, x2, x1, x0: in std_logic;
y: out std_logic
);
end component;
signal x3, x2, x1, x0: std_logic;
begin
q: quine20240422 PORT MAP (x3=>x3, x2=>x2, x1=>x1, x0=>x0, y=>y);
x0 <= '0' after 0 ns, '1' after 10 ns, '0' after 20 ns, '1' after 30 ns, '0' after 40 ns, '1' after 50 ns, '0' after 60 ns, '1' after 70 ns, '0' after 80 ns, '1' after 90 ns, '0' after 100 ns, '1' after 110 ns, '0' after 120 ns, '1' after 130 ns, '0' after 140 ns, '1' after 150 ns;
x1 <= '0' after 0 ns, '0' after 10 ns, '1' after 20 ns, '1' after 30 ns, '0' after 40 ns, '0' after 50 ns, '1' after 60 ns, '1' after 70 ns, '0' after 80 ns, '0' after 90 ns, '1' after 100 ns, '1' after 110 ns, '0' after 120 ns, '0' after 130 ns, '1' after 140 ns, '1' after 150 ns;
x2 <= '0' after 0 ns, '0' after 10 ns, '0' after 20 ns, '0' after 30 ns, '1' after 40 ns, '1' after 50 ns, '1' after 60 ns, '1' after 70 ns, '0' after 80 ns, '0' after 90 ns, '0' after 100 ns, '0' after 110 ns, '1' after 120 ns, '1' after 130 ns, '1' after 140 ns, '1' after 150 ns;
x3 <= '0' after 0 ns, '0' after 10 ns, '0' after 20 ns, '0' after 30 ns, '0' after 40 ns, '0' after 50 ns, '0' after 60 ns, '0' after 70 ns, '1' after 80 ns, '1' after 90 ns, '1' after 100 ns, '1' after 110 ns, '1' after 120 ns, '1' after 130 ns, '1' after 140 ns, '1' after 150 ns;
end;
;; Ich habe da einen Fehler drin, ich finde - ihn gerade nicht
global _start
section .data
toSortArray: db "hasjdahsdjahdj", 0x00
toSortArrayLen: equ \$-toSortArray
section .code
_start:
mov esi, toSortArray
loop1:
mov ah, [esi]
cmp ah, 0x00
je loop1end
mov edi, esi
loop2:
inc edi
mov al, [edi]
cmp al, 0x00
je loop2end
mov al, [edi]
mov ah, [esi]
cmp al, ah
jle goon
mov al, [edi]
mov ah, [esi]
mov [edi], ah
mov [esi], al
goon:
jmp loop2
loop2end:
inc esi
jmp loop1
loop1end:
mov edx, toSortArrayLen
mov ecx, toSortArray
mov ebx, 1
mov eax, 4
int 0x80
mov ebx, 0
mov eax, 1
int 0x80
# Es tut schon, war fast kein Fehler david@laptop-peaq:~\$ make assemble nasm -f elf64 -g nasm20240422.asm david@laptop-peaq:~\$ make link ld -m elf_x86_64 -g nasm20240422.o -o nasm20240422 david@laptop-peaq:~\$ make run ./nasm20240422 ssjjjhhhdddaaadavid@laptop-peaq:~\$
;; der Fehler war, dass ich .code statt .text genommen hatte
global _start
section .data
toSortArray: db "hasjdahsdjahdj", 0x00
toSortArrayLen: equ \$-toSortArray
section .text
_start:
mov esi, toSortArray
loop1:
mov ah, [esi]
cmp ah, 0x00
je loop1end
mov edi, esi
loop2:
inc edi
mov al, [edi]
cmp al, 0x00
je loop2end
mov al, [edi]
mov ah, [esi]
cmp al, ah
jle goon
mov al, [edi]
mov ah, [esi]
mov [edi], ah
mov [esi], al
goon:
jmp loop2
loop2end:
inc esi
jmp loop1
loop1end:
mov edx, toSortArrayLen
mov ecx, toSortArray
mov ebx, 1
mov eax, 4
int 0x80
mov ebx, 0
mov eax, 1
int 0x80
assemble: nasm -f elf64 -g nasm20240422.asm link: ld -m elf_x86_64 -g nasm20240422.o -o nasm20240422 run: ./nasm20240422
1.) Rechne die Zahl in binaer Darstellung in eine Dezimale Darstellung um
0001011101110101b 6005d
2.) Rechne die Zahl in dezimal darstellung in eine Binaerdarstellung um
20008 0100111000101000
3.) Addiere die drei Zahlen schriftlich
7759
+ 36797
+ 50646
-----------------
95202
4.) Subtrahiere die letzten drei Zahlen schriftlich von der ersten schriftlich
12340
- 9720
- 15860
- 8161
-----------------
-21401
5.) Rechne die Zahl ins zweier komplement um, mit 8 Bit - und subtrahiere diese zahl von der ersten und rechne das Ergebnis nach dezimal
24 -34 = -10
00011000 11011110 = 11110110
6.) Multipliziere die zwei Zahlen schriftlich
59949*64162 = 3846447738
7.) Dividiere die zwei Zahlen schriftlich
59579/36754 = 1
8.) Errechne x Logarithmisch mit dem Taschenrechner
36535\^x = 513672311
Rechne die Zahl in IEEE-754 um 19034.533203
1.) Rechne die Zahl in binaer Darstellung in eine Dezimale Darstellung um
0001011101110101b 6005d
2.) Rechne die Zahl in dezimal darstellung in eine Binaerdarstellung um
20008 0100111000101000
3.) Addiere die drei Zahlen schriftlich
7759
+ 36797
+ 50646
-----------------
95202
4.) Subtrahiere die letzten drei Zahlen schriftlich von der ersten schriftlich
12340
- 9720
- 15860
- 8161
-----------------
-21401
5.) Rechne die Zahl ins zweier komplement um, mit 8 Bit - und subtrahiere diese zahl von der ersten und rechne das Ergebnis nach dezimal
24 -34 = -10
00011000 11011110 = 11110110
6.) Multipliziere die zwei Zahlen schriftlich
59949*64162 = 3846447738
7.) Dividiere die zwei Zahlen schriftlich
59579/36754 = 1
8.) Errechne x Logarithmisch mit dem Taschenrechner
36535\^x = 513672311
Rechne die Zahl in IEEE-754 um 19034.533203
Zustand Folge-Zustand fuer Ausgang x=0 x=1 1 3 4 1 2 8 6 1 3 4 1 1 4 1 3 1 5 6 6 0 6 2 8 1 7 3 3 1 8 8 7 0 1 3 4 1 2 8 6 1 3 4 1 1 4 1 3 1 6 2 8 1 7 3 3 1 5 6 6 0 8 8 7 0 1 3 4 1 2 8 6 1 3 4 1 1 4 1 3 1 6 2 8 1 7 3 3 1 (1,2) (3,8) (4,6) (1,3) (3,4) (4,1) (1,4) (3,1) (4,3) (1,6) (3,2) (4,8) (1,7) (3,3) (4,3) (2,3) (8,4) (6,1) (2,4) (8,1) (6,3) (2,6) (8,2) (6,8) (2,7) (8,3) (6,3) (3,4) (4,1) (1,3) (3,6) (4,2) (1,8) (3,7) (4,3) (1,3) (4,7) (1,3) (3,3) (4,6) (1,2) (3,8) (6,7) (2,3) (8,3) (1,2) (3,8) (4,6) (1,3) (3,4) (1,4) (1,4) (1,3) (3,4) (1,6) (2,3) (4,8) (1,7) (3,3) (3,4) (2,3) (4,8) (1,6) (2,4) (1,8) (3,6) (2,6) (2,8) (6,8) (2,7) (3,8) (3,6) (3,4) (1,4) (1,3) (3,6) (2,4) (1,8) (3,7) (3,4) (1,3) (4,7) (1,3) (3,3) (4,6) (1,2) (3,8) (6,7) (2,3) (3,8) (1,2) (3,8) (4,6) (1,3) (3,4) (1,4) (1,4) (1,3) (3,4) (1,6) (2,3) (4,8) (1,7) (3,4) (2,3) (4,8) (1,6) (2,4) (1,8) (3,6) (2,6) (2,8) (6,8) (2,7) (3,8) (3,6) (3,4) (1,4) (1,3) (3,6) (2,4) (1,8) (3,7) (3,4) (1,3) (4,7) (1,3) (4,6) (1,2) (3,8) (6,7) (2,3) (3,8) --(1,2) --(3,8) (4,6) (1,3) (3,4) (1,4) (1,4) (1,3) (3,4) --(1,6) (2,3) --(4,8) (1,7) (3,4) --(2,3) --(4,8) (1,6) --(2,4) --(1,8) (3,6) --(2,6) --(2,8) (6,8) --(2,7) --(3,8) (3,6) (3,4) (1,4) (1,3) --(3,6) --(2,4) (1,8) (3,7) (3,4) (1,3) (4,7) (1,3) --(4,6) --(1,2) (3,8) --(6,7) --(2,3) (3,8) (1,3) (3,4) (1,4) (1,4) (1,3) (3,4) (1,7) (3,4) (3,4) (1,4) (1,3) (3,7) (3,4) (1,3) (4,7) (1,3) 5 6 6 0 8 8 7 0 (5,8) (6,8) (6,7) (1,3) (3,4) (1,4) (1,4) (1,3) (3,4) (1,7) (3,4) (3,4) (1,4) (1,3) (3,7) (3,4) (1,3) (4,7) (1,3) --(5,8) --(6,8) (6,7) (1,3) (3,4) (1,4) (1,4) (1,3) (3,4) (1,7) (3,4) (3,4) (1,4) (1,3) (3,7) (3,4) (1,3) (4,7) (1,3)
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Zustand,Eingabe,Ausgabe,Folgezustand 1,0,0,1 1,1,0,3 2,0,1,3 2,1,1,1 3,0,0,4 3,1,0,4 4,0,0,2 4,1,0,2
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