Interpretar> <> (Pez)


21

Si bien> <> no es un lenguaje popular, puede ser bueno para el golf y se ha utilizado en este sitio web. Fue inspirado por Befunge y tiene algunas similitudes en sus instrucciones.

Comandos requeridos:

> < ^ v
Cambia la dirección del puntero de instrucción (derecha, izquierda, arriba, abajo)
/ \ | _ #
Espejos; el puntero cambiará de dirección según la dirección que ya tenga.
x
Dirección aleatoria
+ - * , %
Suma, resta, multiplicación, división y módulo, respectivamente. Aparece A y B de la pila y empuja al operador B de A. La división por 0 genera un error.
0-9 a-f
Empuja el valor correspondiente en la pila. a = 10, ..., f = 15
=
Aparece A y B de la pila, y empuja 1 si B = A, y 0 en caso contrario.
)
Mas grande que. Aparece A y B de la pila, y empuja 1 si B <A
(
Menos que. Aparece A y B de la pila, y empuja 1 si B> A
' "
Habilita el análisis de cadenas. El análisis de cadenas empuja todos los caracteres encontrados a la pila hasta que encuentra una cita de cierre.
!
Omite las siguientes instrucciones.
?
Omite las siguientes instrucciones si la parte superior de la pila es cero o si la pila está vacía. (nota: ¡esto no saca nada de la pila!)
:
Duplica el valor superior en la pila.
~
Elimina el valor superior de la pila.
$
Gira los 2 valores superiores en la pila en sentido horario, respectivamente. (por ejemplo, si su pila es 1,2,3,4, daría como resultado 1,2,4,3)
@
Rota los 3 valores superiores en la pila en sentido horario, respectivamente. (por ejemplo, si su pila es 1,2,3,4, resultaría en 1,4,2,3) Extrae
&
el valor superior de la pila y lo coloca en el registro. Llamar & nuevamente tomará el valor en el registro y lo pondrá de nuevo en la pila.
r
Invierte la pila.
}
Desplaza la pila hacia la derecha / gira toda la pila en el sentido de las agujas del reloj (por ejemplo, 1,2,3,4 se convierte en 4,1,2,3
{
Desplaza la pila hacia la izquierda / gira toda la pila en sentido antihorario (por ejemplo, 1,2,3,4 se convierte en 2,3,4,1 Aparece
g
A y B de la pila, y empuja el valor en B, A en el cuadro de código. Aparece
p
A, B y C de la pila, y cambia el valor en C, B a A.
o
Aparece y sale como un carácter
n
Aparece y sale el valor
i
Toma un carácter como entrada del usuario y empuja su valor ASCII a la pila
;
Finaliza la ejecución

No es necesario implementar subprocesos, aunque puede hacerlo si lo desea.

La respuesta más corta gana, en caso de empate, gana la primera respuesta.

Puede usar cualquier idioma y se permite evaluar.

El archivo se proporcionará a través de argumentos de línea de comando y tendrá una .fishextensión.

Puede usar el intérprete oficial de Python como referencia si es necesario. El artículo Wiki de Esolangs tiene más información sobre cómo funciona el lenguaje, junto con algunos ejemplos más.

Casos de prueba:

Hola Mundo!
Código:

"Hello World!"r>?o?<;

Salida:

Hello World!


Código de factoriales :

01::nv
:@*:n>84*o$1+

Salida (hasta 5):

1 2 6 24 120

44
¡Guauu! ¡Qué linda tarea!
FUZxxl

¿Estás seguro de la salida factorial? Mi intérprete emite '1 2 2 6 12 48 144 720 2880 17280 20864' (después de eso, el entero de 16 bits se ajusta). (Bien podría ser un error en mi código, así que solo pregunto ...)
PatrickvL

@Patrickvl, mi intérprete genera 1 2 6 24 120 720 ...y debería ser lo que el intérprete de Python también genera .
Kevin Brown

3
¿No se puede implementar Fish en Fish?
Vi.

1
También hay lpara empujar la longitud de la pila. Y hasta donde yo sé, ?resalta el valor.
JNF

Respuestas:


9

APL (Dyalog) (750)

Debido a que APL realmente no tiene una línea de comando, cárguela en un espacio de trabajo (es decir, con )ed F) y luego ejecútela desde la línea APL de esta manera:

      F'quine.fish'
"ar00g!;oooooooooo|

      F'hello.fish'
Hello World!

      F'stack.fish'
12543

No maneja ningún error. No se especifica el comportamiento del código incorrecto. Tampoco puede hacer hilos. Cuando la página de Esolang y la pregunta entran en conflicto, sigue la pregunta.

Editar: una versión un poco más legible con comentarios se puede encontrar aquí: https://gist.github.com/anonymous/6428866

F f
⎕IO←0
S←⍬
i←''
s←,0
D←4 2⍴D,⌽D←0 1 0 ¯1
p←0 0
v←0
r←⍬
d←0 1
M←d↓↑M⊂⍨10=M←13~⍨10,83 ¯1⎕MAP f
W←{p+←d⋄p|⍨←⍴M⋄p}
R←{⌽{v←⊃⌽S⋄S↓⍨←¯1⋄v}¨⍳⍵}
U←⎕UCS
→v/43
{L←(⍴S)-⊃⌽s
⍵∊G←'><^v':d∘←D[G⍳⍵;]
⍵∊G←'\/':d∘←⌽d×1-2×G⍳⍵
⍵∊G←'|_#':d×←⊃(1 ¯1)(¯1 1)(¯1 ¯1)[G⍳⍵]
⍵∊'x':d∘←D[?4;]
(((~×⊃⌽S)∨L≤0)∧⍵∊'?')∨⍵∊'!':{}W⍬
⍵∊'.':p∘←R 2
⍵∊G←⎕D,'abcdef':S,←G⍳⍵
⍵∊G←'+-=*,)(':S,←⊃(⍎'+-=×,><'[G⍳⍵])/R 2
⍵∊'%':S,←⊃|⍨/R 2
⍵∊'"''':v V∘←1,U⍵
⍵∊':':S,←2/R 1
⍵∊'~':{}R 1
⍵∊'$@':S,←¯1⌽R 2+⍵='@'
⍵∊G←'{}':S,←(1-2×G⍳⍵)⌽R L
⍵∊'r':S,←⌽R L
⍵∊'l':S,←L
⍵∊'[':s,←1-⍨L-R 1
⍵∊']':s↓⍨←¯1
⍵∊G←'no':⍞←(U⍣(G⍳⍵))R 1
⍵∊'&':{⍴r:r∘←⍬⊣S,←r⋄r,←R 1}⍬
⍵∊'i':i↓⍨←1⊣S,←⊃{i∘←10,⍨U⍞}⍣(⊃~×⍴i)⍨i
⍵∊'g':S,←M⌷⍨⌽R 2
⍵∊'p':((⌽1↓G)⌷M)∘←⊃G←R 3
⍵∊';':S∘←0
s≡⍬:s∘←,0⊣S∘←⍬
}U p⌷M
→45
{}{+S,←p⌷M}⍣{V=M⌷⍨W⍬}⍬
v←0
{}W⍬
→14/⍨S≢0

5

Delfos, 1144

Se implementan todas menos las instrucciones de encabezado.

 var f:TextFile;c,k,s:String;i,m,b,v,w,x,y,A,l:Int16;procedure U(v:Int16);begin s:=s+Chr(v)end;function O:Int32;begin if l=0then Exit(0);O:=Ord(s[l]);Delete(s,l,1);Dec(l)end;procedure T(a,b:Int16);begin x:=a;y:=b;end;procedure E;begin v:=(v+x+80)mod 80;w:=(w+y+25)mod 25;i:=Ord(c[1+v+80*w])end;begin Assign(f,ParamStr(1));Reset(f);for A:=1to 25do begin ReadLn(f,k);c:=c+k+StringOfChar(' ',80-Length(k))end;x:=1;v:=-1;repeat E;k:=s;l:=Length(k);A:=i;case i-32of 2,7:repeat E;U(i);Inc(l)until i=A;4,5,8,9,12,13,26,32,71,80,93:A:=O;6:b:=1-b;88:i:=Ord('<>^v'[1+Random(4)]);91:l:=1;73:Read(PChar(@A)^)end;case i-32of 4:l:=l+1;80:l:=O;91:A:=O;93:l:=2;26:U(A)end;case i-32of 0:;1:E;2,7,94:O;3:T(-x,-y);4,32,93:Insert(Chr(A),s,l-1);5:U(O mod A);6:if b=0then U(m)else m:=O;8:U(Ord(O>A));9:U(Ord(O<A));10:U(O*O);11:U(O+O);12:U(O div A);13:U(O-A);15:T(-y,-x);16..25:U(i-48);26,73,91:U(A);28:T(-1,0);29:U(Ord(O=O));30:T(1,0);31:if(l=0)or(k[l]=#0)then E;60:T(y,x);62:T(0,-1);63:T(x,-y);65..70:U(i-87);71:U(Ord(c[1+O+80*A]));78:Write(O);79:Write(Chr(O));80:c[1+O+80*l]:=Chr(A);82:for A:=1to(l)do s[A]:=k[l-A+1];86:T(0,1);92:T(-x,y)else Exit;end;until 0=1;end.

El código sangrado y comentado dice:

{debug}uses Windows;{}
var
  // f is the source file
  f:TextFile;
  // c is the entire codebox (a 2-dimensional program)
  c,
  // k is a temporary stack copy, needed for reversal
  k,
  // s is the stack (kept as a string)
  s:String;
  // i is the current instruction read from the program
  i,
  // m is the registry memory value (read/written by the '&' instruction)
  m,
  // b indicates if the registry should be written (b=0) or read (b>0) by the '&' instruction
  b,
  // v,w are x,y positions into the program
  v,w,
  // x,y are steps in the respective direction (values -1,0 or 1) :
  x,y,
  // A is a temporary variable (only uppercase var, to coincide with comments)
  A,
  // l is the length of the stack (may be abused as a temporary)
  l
  :Int16;

procedure U(v:Int16); // PUSH
begin
  // Push value onto the stack:
  s:=s+Chr(v)
end;

function O:Int32; // POP
begin
  // Pop value from the stack :
  if l=0then Exit(0);
  O:=Ord(s[l]);
  Delete(s,l,1);
  Dec(l)
end;

procedure T(a,b:Int16); // TURN
begin
  // Turn in a new direction :
  x:=a;
  y:=b;
end;

procedure E; // STEP
begin
{debug}Sleep(10);{}
  // Note : x-step needs to stay on same line, y-step needs to stay on same column
  v:=(v+x+80)mod 80;
  w:=(w+y+25)mod 25;
  i:=Ord(c[1+v+80*w])
end;

begin
  // Open file given at the command-line, and read & expand it's lines into our program buffer :
  Assign(f,ParamStr(1));
  Reset(f);
  for A:=1to 25do
  begin
    ReadLn(f,k);
    c:=c+k+StringOfChar(' ',80-Length(k))
    {debug};SetLength(c,A*80)
  end;
  x:=1;
  v:=-1;
  repeat
    // Take a step (which gives a new 'i'nstruction) and make a copy of the stack :
    E;
    k:=s;
    // Note : 'l' is used to get an element from the stack. So this gives pops from the top.
    l:=Length(k);
    // Shorten '''' and '"' (case 2 and 7) string-collecting, by remembering the quote character in A :
    A:=i;

    // Prevent begin+end pairs by handling instructions in 3 consecutive case blocks; This is applied to
    // all situations where this saves 1 or more characters, justifying the cost for another case-block.

    // Shorten a few cases by preparing variables so they can be shared with eachother and the 3rd case-block below :
    case i-32of // Note : The instruction is decreased by 32, resulting in less digits in the cases below!
      // Shorten string-collecting, by pushing the entire string here (the opening quote was remembered in A) :
      2,7:repeat E;U(i);Inc(l)until i=A; // Note :  We stop at the closing character, so the next block will still handle 'i'!
      // These instructions all need to Pop A, so write it just once here :
      4,5,8,9,12,13,26,32,71,80,93:A:=O;
      // Prevent begin+end for register access, by switching the read/write flag here :
      6:b:=1-b;
      // Shorten 'x' (case 120>88): Choose a random direction instruction and let the 3rd case-block handle it :
      88:i:=Ord('<>^v'[1+Random(4)]);
      // Shorten '{' (case 123-32=91): Share 3rd case-block with ':' (>26) and 'i' (>73) by setting l to 1 here :
      91:l:=1;
      // Prevent begin+end for input retrieval, by reading the input into A here :
      73:Read(PChar(@A)^) // Note : This case is last, because it ends on ')', which avoids a closing ';'
    end;

    // Shorten a few more cases by preparing variables so they can be shared with eachother and the 3rd case-block below :
    case i-32of // Note : The instruction is decreased by 32, resulting in less digits in the cases below!
      // Shorten '$' (case 38-32=4): Set 'l' to l+1 so that the 3rd case-block can insert just like '@' and '}' :
      4:l:=l+1;
      // Shorten 'p' (case 112-32=80): Set 'l' to O() so that the 3rd case-block doesn't need a begin+end pair :
      80:l:=O;
      // Shorten '{' (case 123-32=91): Share 3rd case-block with ':' (>26) and 'i' (>73) by popping A from position 1, as tricked above!:
      91:A:=O; // Note : This is NOT the same as doing this in the 1st case-block, as 'l' needs to be 1 first!
      // Shorten '}' (case 125-32=93): Prepare 'l' so that the implementation can be shared with '@' (>32):
      93:l:=2;
      // Shorten ':' (case 58-32=26): Share implementation with 'i' (>73) by pushing first copy of A (read above) here
      26:U(A) // Note : This case is last, because it ends on ')', which avoids a closing ';'
    end;

    // This 3rd case-block contains the final code for all statements (is there's no case here, it's an error) :
    case i-32of // Note : The instruction is decreased by 32, resulting in less digits in the cases below!
      //' ': Ignore spaces
      0:;
      //'!': Skips the following instruction.
      1:E;
      //'"','''': Enables string parsing. String parsing pushes every character found to the stack until it finds a closing quote.
      //'~': Removes the top value from the stack.
      2,7,94:O;
      //'#': Mirror both axes
      3:T(-x,-y);
      //'$': Rotates the top 2 values on the stack clockwise, respectively. (eg. if your stack is 1,2,3,4, would result in 1,2,4,3)
      //'@': Rotates the top 3 values on the stack clockwise, respectively. (eg. if your stack is 1,2,3,4, would result in 1,4,2,3)
      //'}': Shifts the stack to the right / rotates entire stack clockwise (e.g. 1,2,3,4 becomes 4,1,2,3)
      4,
      32,
      93:Insert(Chr(A),s,l-1); // Note : A was Popped in 1st case block
      //'%': Pops A and B off the stack, and pushes B mod A.
      5:U(O mod A);
      //'&': Pops the top value off the stack and puts it in the registry. Calling & again will take the value in the registry and put it back on the stack.
      6:if b=0then U(m)else m:=O;
      //'(': Less than. Pops A and B off the stack, and pushes 1 if B > A
      8:U(Ord(O>A));
      //')': Greater than. Pops A and B off the stack, and pushes 1 if B < A
      9:U(Ord(O<A));
      //'*': Pops A and B off the stack, and pushes B * A.
      10:U(O*O); // Note : A and B are inverted, but order is irrelevant here
      //'+': Pops A and B off the stack, and pushes B + A.
      11:U(O+O); // Note : A and B are inverted, but order is irrelevant here
      //',': Pops A and B off the stack, and pushes B / A. Division by 0 raises an error.
      12:U(O div A);
      //'-': Pops A and B off the stack, and pushes B - A.
      13:U(O-A);
      //'/': Mirror
      15:T(-y,-x);
      //'0'..'9': Push value 0-9 onto the stack.
      16..25:U(i-48);
      //':': Duplicates the top value on the stack.
      //'i': Takes one character as user input and pushes it's ASCII value to the stack
      //'{': Shifts the stack to the left / rotates entire stack counter-clockwise (e.g. 1,2,3,4 becomes 2,3,4,1)
      26,      // Note for ':' : First A was already pushed once above
      73,      // Note for 'i' : Read() into A was done in 1st case block
      91:U(A); // Note for '{' : l=1 was done in 1st case block, A:=O was done in 2nd block
      //'<': Turn west
      28:T(-1,0);
      //'=': Pops A and B off the stack, and pushes 1 if B = A, and 0 otherwise.
      29:U(Ord(O=O)); // Note : A and B are inverted, but order is irrelevant here
      //'>': Turn east
      30:T(1,0);
      //'?': Skips the following instruction if top of stack is zero, or stack is empty. (note: this does not pop anything off the stack!)
      31:if(l=0)or(k[l]=#0)then E;
      //'\': Mirror
      60:T(y,x);
      //'^': Turn north
      62:T(0,-1);
      //'_': Mirror y
      63:T(x,-y);
      //'a'..'f': Push value 10-15 onto the stack.
      65..70:U(i-87);
      //'g': Pops A and B off the stack, and pushes the value at B,A in the codebox.
      71:U(Ord(c[1+O+80*A])); // Note : A was Popped in 1st case block
      //'n': Pops and outputs the value
      78:Write(O);
      //'o': Pops and outputs as a character
      79:Write(Chr(O));
      //'p': Pops A, B, and C off the stack, and changes the value at C,B to A.
      80:c[1+O+80*l]:=Chr(A); // Note : A was Popped in 1st case block, l was set to 1 in 2nd case block
      //'r': Reverses the stack.
      82:for A:=1to(l)do s[A]:=k[l-A+1]; // Note: This reads from the stack-copy
      //'v': Turn south
      86:T(0,1);
      //'|': Mirror x
      92:T(-x,y) // Note : This case is last, because it ends on ')', which avoids a closing ';'
    else // ';' (27) and unrecognized instructions end execution.
      Exit;
    end;
  until 0=1;
end.

Editar historial:

(1306 + 18 = 1324): se corrigieron errores en algunas órdenes de operación (Delphi evalúa los argumentos a la inversa). También se corrigió el estallido de la pila (no podía estallar más de una vez por instrucción).

(1324-33 = 1291): se eliminó la protección al escribir contenidos desde una pila vacía

(1291-56 = 1235): función de giro agregada, variables renombradas, dígitos de instrucción disminuidos

(1235-7 = 1228): variables reordenadas, error corregido en '@'

(1228-37 = 1191): compartió más código de implementación al distribuirlo en 3 bloques de casos consecutivos

(1191-12 = 1179): compartió la implementación del ciclo de pila entre las 3 instrucciones ahora.

(1179-20 = 1159): dividir el análisis de cadenas en 3 bloques de casos, eliminar la variable j, compartir otra implementación

(1159-15 = 1144): 'x' simplificado al cambiarlo en una de las 4 instrucciones de dirección


No creo que esto pueda hacerse más compacto ... ¿Alguien puede demostrar que estoy equivocado?
PatrickvL

¡Ya eres un héroe por hacer un programa tan corto en Delphi !
Oleh Prypin

El manejo de archivos entera (Asignar, reinicio, el bucle) podría ser sustituido por esta línea: for k in TFile.ReadAllLines(ParamStr(1))do c:=c+k+StringOfChar(' ',80-Length(k));. También puede deshacerse de f:TextFileeso, pero debe agregarlo uses IOUtils;al comienzo. Diferencia: lee todas las líneas, y no solo las primeras 25 líneas.
Wouter van Nifterick

5

Haskell 1428

Casi todos los caracteres en minúscula se usan como nombres de funciones.

PD: ¿Hay algún juego sobre este tipo (2d puntero) de esolangs? ¡Deben ser muy divertidos!

import qualified Data.Map as M
import System.Environment
import Data.Char
import System.Random
type I=Integer
data S=S{p::(I,I),d,e::Int,s::[I],r::S->S,m::M.Map(I,I)Char}
a=zip">v<^\\/_|x+-*,%()=:~!?$@&r{}gponi"[q 0,q 1,q 2,q 3,
 i[1,0,3,2],i[3,2,1,0],i[0,3,2,1],i[2,1,0,3],\s->do x<-randomRIO(0,3);t$s{d=x},
 h(+),h(-),h(*),h div,h mod,h$j(<),h$j(>),h$j(==),
 o(\(x:y)->x:x:y),o tail,t.g.g,\q->t$if s q==[]||head(s q)==0 then g q else q,
 o(\(x:y:z)->(y:x:z)),o(\(x:y:z:w)->(y:z:x:w)),\q->t$(r q)q,
 o reverse,o(\s->last s:init s),o(\s->tail s++[head s]),
 \q->let(i:j:x)=s q in t$q{s=l(b(i,j)q):x},
 \q->let(i:j:k:x)=s q in t$q{s=x,m=M.insert(i,j)(n k)(m q)},
 y$putChar.n,y$putStr.show,\q->do c<-getChar;t(q{s=l c:(s q)})
 ]++[(x,t.c i)|(x,i)<-zip['0'..'9'][0..9]++zip['a'..'f'][10..15]]
b p q=maybe ' 'id$M.lookup p(m q)
c x q=q{s=x:s q}
f(i,j)0=(i,j+1)
f(i,j)1=(i+1,j)
f(i,j)2=(i,j-1)
f(i,j)3=(i-1,j)
g q=q{p=f(p q)(d q)}
h f=o(\(b:a:k)->f b a:k)
i a s=t$s{d=a!!(d s)}
j f a b|f a b=1|1<2=0
k=zip[0,1..]
l=toInteger.ord
n=chr.fromInteger
o f q=t$q{s=f(s q)}
q x=i[x,x..]
t=return
u s=M.fromList.foldr1(++)$[map(\(j,x)->((i,j),x))l|(i,l)<-k$map k$lines s]
v q=let(x:y)=s q in q{r=w x,s=y}
w x q=q{s=x:(s q),r=v}
y o q=let(i:x)=s q in o i>>t(q{s=x})
z q=[[[y=<<(maybe t id$lookup x a)q,t()]!!j(==)x ';',y$c(l x)q]!!k,w]!!j elem x"'\""
 where k=e q;x=b(p q)q;w=y$q{e=1-k};y=z.g
main=z.S(0,0)0 0[]v.u=<<readFile.head=<<getArgs

Un ejemplo de programa de pescado

mm  v                           
   >              v
   ~>1f+00p       v                     
    ;v?)+afg00    <             #<-- Condition of loop 1
   p>>~ 410p      v             
   0vv?)+cfg01    <  <          #<-- Condition of loop 2
   00>~10g00gg'.'=?v~     v     #<-- Go this route when 
   +0    vp01+1g01~<            #    we find a digit.
   1g    >           ^   
   ^<                      
   v                      <   
                          >       >~      ;
0  >10g0cg"0"$-+00gg:" "=?^~:"."=?^v   
   ^     pc0+1gc0 n-$"0"          ~<

    .......................  
    .......................  
    ......112233...........   This program prints 
    .......................   the number on this field.
    .......................     <------------
    .......................  
    .......................      
    .......................       
    .......................       

3
Deshonraste a Haskell. : P
tomsmeding

solo eché un vistazo y vi que zip(['0'..'9']++['a'..'f'])[0..15]debería usarse en lugar de zip['0'..'9'][0..9]++zip['a'..'f'][10..15]. ¡Qué increíble golf!
orgulloso Haskeller

también, \q->t$(r q)qes básicamenter>>=t
orgulloso haskeller 01 de

4

Python, 978 980 981

import sys,random
f=open(sys.argv[1]).read().split('\n')
s=t=[]
d=p=x=y=k=0
r='n'
h='0123456789abcdef'
while h:
 c=f[y][x]
 if k:k=0
 elif p:
  if c==p:p=0
  else:s+=[ord(c)]
 else:
  for l in (h+'''0123456789abcdef`s+=[h.find(c)]
><^v`d='><^v'.find(c)
x`d=random.randint(0,3)
/`d=(d+2)%4
\`d=3-d
|#`if d<2:d=1-d
_#`if d>1:d=5-d
+-*,%=)($gp`a,b=s[-2:];s=s[:-2]
+-*%`s+=[eval('a%sb'%c)]
,`s+=[a/b]
=`s+=[a==b]
(`s+=[a<b]
)`s+=[a>b]
'"`p=c
!?`if(not s)or'!'==c or s[-1]==0:k=1
:`s+=s[-1:]
~`s.pop()
$`s+=[b,a]
@`s=s[:-3]+s[-1:]+s[-3:-1]
&`s,r=(s[:-1],s[-1])if r=='n'else (s+[r],'n')
.`s,t=t,s
r`s.reverse()
}`s=[:-1]+s[-1:]
{`s=s[1:]+s[:1]
m`s,t=[],s+t
g`s+=[f[b][a]]
p`f[s.pop()][b]=a
on`z=chr if c=='o'else str;sys.stdout.write(z(s.pop()));sys.stdout.flush()
i`s+=[int(sys.stdin.read(1))]
;`h=0''').split('\n'):
   l=l.split('`')
   if c in l[0]:
    try:exec(l[1])
    except:0
 if d<2:x=(x-d*2+1)%len(f[y])
 else:
  while 1:
   try:y=(y+d*2-5)%len(f);f[y][x];break
   except:0

No admite roscado.

Versiones:
 1. 981
 2. 980: pinstrucción fija ; pequeña mejora
 3. 978: ?instrucción fija .


No estoy muy seguro sobre el pprocedimiento aquí, porque no entendí esto> Pops A, B y C fuera de la pila
Oleh Prypin

1
El pcomando toma los últimos tres valores en la pila (los saca) a by c, y asigna el lugar c, ben la cuadrícula a a. Es por eso que no puede convertir a código nativo.
Kevin Brown

Realmente no has explicado nada con esto. a=pop();b=pop();c=pop()o c=pop();b=pop();a=pop()?
Oleh Prypin

1
a=pop();b=pop();c=pop()
Kevin Brown

Por lo que puedo decir, este programa nunca se detiene. Además, no parece envolver el cuadro de código, lo que significa que no se restablece al comienzo de la línea cuando llega al final. Ambos se muestran aquí (modificado para usar stdin): ideone.com/63MzF
Kevin Brown

3

Delfos, 1855 1701

Esta versión tiene soporte para subprocesos a un costo bastante alto: la versión sin soporte para subprocesos tiene 1144 caracteres en este momento, por lo que el soporte para subprocesos agrega 557 caracteres (alrededor del 50%).

type R=^_;_=record n:R;d:R;s:String;i,m,b,p,v,w,x,y,A,l:Int16;procedure U(v:Int16);function O:Int16;procedure T(a,b:Int16);procedure E;end;var f:TextFile;c,g,k:String;h:R;procedure _.U;begin if p>0then g:=g+Chr(v)else s:=s+Chr(v)end;function _.O;begin if l=0then Exit(0);if p>0then O:=Ord(g[l])else O:=Ord(s[l]);if p>0then Delete(g,l,1)else Delete(s,l,1);Dec(l)end;procedure _.T;begin if(d<>nil)then begin d.n:=n;n:=d;d.v:=v;d.w:=w;d:=nil;n.T(a,b);Exit;end;x:=a;y:=b;end;procedure _.E;begin v:=(v+x+80)mod 80;w:=(w+y+25)mod 25;i:=Ord(c[1+v+80*w])end;var j:byte;begin h:=AllocMem(32);h.n:=h;h.x:=1;h.v:=-1;Assign(f,ParamStr(1));Reset(f);for j:=1to 25do begin ReadLn(f,k);c:=c+k+StringOfChar(' ',80-Length(k))end;repeat h:=h.n;h.E;with h^ do begin k:=s;if p>0then k:=g;l:=Length(k);A:=i;case i-32of 2,7:repeat E;U(i);Inc(l)until i=A;4,5,8,9,12,13,26,32,71,80,93:A:=O;6:b:=1-b;88:i:=Ord('<>^v'[1+Random(4)]);91:l:=1;73:Read(PChar(@A)^)end;case i-32of 4:l:=l+1;80:l:=O;91:A:=O;93:l:=2;26:U(A)end;case i-32of 0,88:;1:E;2,7,94:O;3:T(-x,-y);4,32,93:if p>0then Insert(Chr(A),g,l-1)else Insert(Chr(A),s,l-1);5:U(O mod A);6:if b=0then U(m)else m:=O;8:U(Ord(O>A));9:U(Ord(O<A));10:U(O*O);11:U(O+O);12:U(O div A);13:U(O-A);14:p:=1-p;15:T(-y,-x);16..25:U(i-48);26,73,91:U(A);28,30:T(i-61,0);29:U(Ord(O=O));31:if(l=0)or(k[l]=#0)then E;59:d:=AllocMem(32);60:T(y,x);61:begin if(h=n)then Exit;d:=n;while(d.n<>h)do d:=d.n;d.n:=h.n;d:=h;h:=n;d:=nil;end;62:T(0,-1);63:T(x,-y);65..70:U(i-87);71:U(Ord(c[1+O+80*A]));77:begin if p>0then s:=s+g else g:=g+s;if p>0then g:=''else s:=''end;78:Write(O);79:Write(Chr(O));80:c[1+O+80*l]:=Chr(A);82:for j:=1to(l)do s[j]:=k[l-j+1];86:T(0,1);92:T(-x,y)else Exit;end;end;until 0=1;end.

Tenga en cuenta que esta implementación contiene algunas ideas que reducirán mi otra presentación en unas pocas docenas de caracteres (los aplicaré más adelante).

Este código ejecuta sin problemas la muestra 'Hola multiproceso, mundo' y la mayoría de las otras muestras. (Mi intérprete me da una división por excepción cero cuando ejecuto la muestra 'e', ​​¿alguien puede confirmar esto con otro intérprete> <>?)

Aquí el código sangrado y comentado:

{debug}uses Windows;{}
// Note : Lowercase identifiers are variables, Uppercase identifiers are types and functions.
type R=^_;_=record
  // n is the next thread (self if round robin)
  n:R;
  // d is an extra thread (will start running at next turn)
  d:R;
  // s is the thread-local stack (kept as a string)
  s:String;
  // i is the current instruction read from the program
  i,
  // m is the registry memory value (read/written by the '&' instruction)
  m,
  // b indicates if the registry should be written (b=0) or read (b>0) by the '&' instruction
  b,
  // p is the stack selector (p=0 : Use thread local stack, p>0 : Use global stack)
  p,
  // v,w are x,y positions into the program
  v,w,
  // x,y are steps in the respective direction (values -1,0 or 1) :
  x,y,
  // A is a temporary variable (only uppercase var, to coincide with comments)
  A,
  // l is the length of the stack (may be abused as a temporary)
  l
  :Int16;
  procedure U(v:Int16);
  function O:Int16;
  procedure T(a,b:Int16);
  procedure E;
end;

var
  // f is the source file
  f:TextFile;
  // c is the entire codebox (a 2-dimensional program)
  c,
  // g is the global stack
  g,
  // k is a temporary stack copy, needed for reversal
  k:String;
  // h is the current thread
  h:R;

procedure _.U; // PUSH
begin
  // Push value onto the stack:
  if p>0then g:=g+Chr(v)else s:=s+Chr(v)
end;

function _.O; // POP
begin
  // Pop value from the stack :
  if l=0then Exit(0);
  if p>0then O:=Ord(g[l])else O:=Ord(s[l]);
  if p>0then Delete(g,l,1)else Delete(s,l,1);
  Dec(l)
end;

procedure _.T; // TURN
begin
  // Split off a new thread when requested :
  if(d<>nil)then
  begin
    // Insert the new thread in the chain :
    d.n:=n;
    n:=d;
    // Split off the thread :
    d.v:=v;
    d.w:=w;
    d:=nil;
    n.T(a,b);
    Exit;
  end;

  // Turn in a new direction :
  x:=a;
  y:=b;
end;

procedure _.E; // STEP
begin
//{debug}Sleep(10);{}
  // Note : x-step needs to stay on same line, y-step needs to stay on same column
  v:=(v+x+80)mod 80;
  w:=(w+y+25)mod 25;
  i:=Ord(c[1+v+80*w])
end;

var
  j:byte;
begin
  {debug}Assert(SizeOf(_)=32);
  // Initialize first thread :
  h:=AllocMem(32);
  h.n:=h;
  h.x:=1;
  h.v:=-1;
  // Open file given at the command-line, and read & expand it's lines into our program buffer :
  Assign(f,ParamStr(1));
  Reset(f);
  for j:=1to 25do
  begin
    ReadLn(f,k);
    c:=c+k+StringOfChar(' ',80-Length(k))
    {debug};SetLength(c,j*80)
  end;
  // Cycle over all threads, executing one instruction per thread :
  repeat
    h:=h.n;
    // Take a step (which gives a new 'i'nstruction)
    h.E;
    with h^ do
    begin
      // Make a copy of the active stack, and determine it's length :
      k:=s;
      if p>0then
        k:=g;
      l:=Length(k);
      // Shorten '''' and '"' (case 2 and 7) string-collecting, by remembering the quote character in A :
      A:=i;
      // Prevent begin+end pair for instructions that need only 2 statements, by handling the 1st here :
      case i-32of // Note : The instruction is decreased by 32, resulting in less digits
        // Shorten string-collecting, by pushing the entire string here (the opening quote was remembered in A) :
        2,7:repeat E;U(i);Inc(l)until i=A; // Note :  We stop at the closing character, so the next block will still handle 'i'!
        // These instructions all need to Pop A, so write it just once here :
        4,5,8,9,12,13,26,32,71,80,93:A:=O;
        // Prevent begin+end for register access, by switching the read/write flag here :
        6:b:=1-b;
        // 'x' (case 120>88): Turn random direction; Choose a random direction instruction and let the 3rd case-block handle it :
        88:i:=Ord('<>^v'[1+Random(4)]);
        // Shorten '{' (case 123-32=91): Share 3rd case-block with ':' (>26) and 'i' (>73) by setting l to 1 here :
        91:l:=1;
        // Prevent begin+end for input retrieval, by reading the input into A here :
        73:Read(PChar(@A)^) // Note : This case is last, because it ends on ')', which avoids a closing ';'
      end;

      // Shorten a few more cases by preparing variables so they can be shared with eachother and the 3rd case-block below :
      case i-32of // Note : The instruction is decreased by 32, resulting in less digits in the cases below!
        // Shorten '$' (case 38-32=4): Set 'l' to l+1 so that the 3rd case-block can insert just like '@' and '}' :
        4:l:=l+1;
        // Shorten 'p' (case 112-32=80): Set 'l' to O() so that the 3rd case-block doesn't need a begin+end pair :
        80:l:=O;
        // Shorten '{' (case 123-32=91): Share 3rd case-block with ':' (>26) and 'i' (>73) by popping A from position 1, as tricked above!:
        91:A:=O; // Note : This is NOT the same as doing this in the 1st case-block, as 'l' needs to be 1 first!
        // Shorten '}' (case 125-32=93): Prepare 'l' so that the implementation can be shared with '@' (>32):
        93:l:=2;
        // Shorten ':' (case 58-32=26): Share implementation with 'i' (>73) by pushing first copy of A (read above) here
        26:U(A) // Note : This case is last, because it ends on ')', which avoids a closing ';'
      end;

      // All statements (1 statement, or 2nd statement, or begin+end pair with 2 or more statements) :
      case i-32of // Note : The instruction is decreased by 32, resulting in less digits in the cases below!
        //' ': Ignore spaces
        0,88:;
        //'!': Skips the following instruction.
        1:E;
        //'"','''': Enables string parsing. String parsing pushes every character found to the stack until it finds a closing quote.
        //'~': Removes the top value from the stack.
        2,7,94:O;
        //'#': Mirror both axes
        3:T(-x,-y);
        //'$': Rotates the top 2 values on the stack clockwise, respectively. (eg. if your stack is 1,2,3,4, would result in 1,2,4,3)
        //'@': Rotates the top 3 values on the stack clockwise, respectively. (eg. if your stack is 1,2,3,4, would result in 1,4,2,3)
        //'}': Shifts the stack to the right / rotates entire stack clockwise (e.g. 1,2,3,4 becomes 4,1,2,3)
        4,
        32,
        93:if p>0then Insert(Chr(A),g,l-1)else Insert(Chr(A),s,l-1); // Note : A was Popped in 1st case block
        //'%': Pops A and B off the stack, and pushes B mod A.
        5:U(O mod A);
        //'&': Pops the top value off the stack and puts it in the registry. Calling & again will take the value in the registry and put it back on the stack.
        6:if b=0then U(m)else m:=O;
        //'(': Less than. Pops A and B off the stack, and pushes 1 if B > A
        8:U(Ord(O>A));
        //')': Greater than. Pops A and B off the stack, and pushes 1 if B < A
        9:U(Ord(O<A));
        //'*': Pops A and B off the stack, and pushes B * A.
        10:U(O*O); // Note : A and B are inverted, but order is irrelevant here
        //'+': Pops A and B off the stack, and pushes B + A.
        11:U(O+O); // Note : A and B are inverted, but order is irrelevant here
        //',': Pops A and B off the stack, and pushes B / A. Division by 0 raises an error.
        12:U(O div A);
        //'-': Pops A and B off the stack, and pushes B - A.
        13:U(O-A);
        //'.': Switch between thread-local and global stack
        14:p:=1-p;
        //'/': Mirror
        15:T(-y,-x);
        //'0'..'9': Push value 0-9 onto the stack.
        16..25:U(i-48);
        //':': Duplicates the top value on the stack.
        //'i': Takes one character as user input and pushes it's ASCII value to the stack
        //'{': Shifts the stack to the left / rotates entire stack counter-clockwise (e.g. 1,2,3,4 becomes 2,3,4,1)
        26,      // Note for ':' : First A was already pushed once above
        73,      // Note for 'i' : Read() into A was done in 1st case block
        91:U(A); // Note for '{' : l=1 was done in 1st case block, A:=O was done in 2nd block
        //'<': Turn west
        //'>': Turn east
        28,30:T(i-61,0);
        //'=': Pops A and B off the stack, and pushes 1 if B = A, and 0 otherwise.
        29:U(Ord(O=O)); // Note : A and B are inverted, but order is irrelevant here
        //'?': Skips the following instruction if top of stack is zero, or stack is empty. (note: this does not pop anything off the stack!)
        31:if(l=0)or(k[l]=#0)then E;
        //'[': Creates a new thread at the next direction-changing instruction.
        59:d:=AllocMem(32); // Note : Double execution gives memleaks, could be fixed with prefix 'if(d=nil)then '
        //'\': Mirror
        60:T(y,x);
        //']': Ends the current thread.
        61:begin if(h=n)then Exit;d:=n;while(d.n<>h)do d:=d.n;d.n:=h.n;d:=h;h:=n;d:=nil;end; // Note : Memleak on d could be fixed with FreeMem(d)
        //'^': Turn north
        62:T(0,-1);
        //'_': Mirror y
        63:T(x,-y);
        //'a'..'f': Push value 10-15 onto the stack.
        65..70:U(i-87);
        //'g': Pops A and B off the stack, and pushes the value at B,A in the codebox.
        71:U(Ord(c[1+O+80*A])); // Note : A was Popped in 1st case block
        //'m': Takes all data from the current stack and moves it to the end of the other stack.
        77:begin if p>0then s:=s+g else g:=g+s;if p>0then g:=''else s:=''end;
        //'n': Pops and outputs the value
        78:Write(O);
        //'o': Pops and outputs as a character
        79:Write(Chr(O));
        //'p': Pops A, B, and C off the stack, and changes the value at C,B to A.
        80:c[1+O+80*l]:=Chr(A); // Note : A was Popped in 1st case block, l was set to 1 in 2nd case block
        //'r': Reverses the stack.
        82:for j:=1to(l)do s[j]:=k[l-j+1]; // Note: This reads from the stack-copy
        //'v': Turn south
        86:T(0,1);
        //'|': Mirror x
        92:T(-x,y) // Note : This case is last, because it ends on ')', which avoids a closing ';'
      else // ';' (27) and unrecognized instructions end execution.
        Exit;
      end;
    end;
  until 0=1;
end.

Editar historial:

(1855-154 = 1701): aplicó todas las ideas de la versión sin subprocesos


Puede omitir los argumentos del método en la implementación, por lo que puede cambiar procedure _.U(v: Int16);-> procedure _.U;y procedure _.T(A, b: Int16);->procedure _.T;
Wouter van Nifterick

Y TextFilese puede escribir como Text, y AssignFile()comoAssign()
Wouter van Nifterick

@Wouter van Nifterick: Gracias por la sugerencia sobre los argumentos y AssignFile; Pero 'TextFile' debe permanecer, porque ReadLn mágicamente no se compilará en un 'File' regular (y necesito ReadLn para admitir longitudes de línea irregulares en la entrada).
PatrickvL

3

PHP, 2493 bytes

<?php if($argc<=1||$argv[1]=='-h'){echo 'e.g.: fish.php program.fish';}else{$f=$argv[1];if(file_exists($f)){$x=file_get_contents($f);$x=str_replace(a("\r\n","\r"),"\n",$x);f($x);}}function f($f){$g=explode("\n",$f);foreach($g as &$u){$a=a();$i=0;while($i++<=strlen($u)){$a[]=substr($u,$i,1);}$u=$a;}$p=a(0,0);$d=a(1,0);$s=a();$q=false;$r=null;while(1){$c=g($g,$p);if($c!==null){if($q&&$c!='"'&&$c!='\''){$s[]=ord($c);}else if(h($c)){$s[]=hexdec($c);}else {if($c=='x'){$a=a('<','>','^','v');$c=$a[mt_rand(0,3)];}switch($c){case '>':$d=a(1,0);break;case '<':$d=a(-1,0);break;case '^':$d=a(0,-1);break;case 'v':$d=a(0,1);break;case '/':$d=a(-$d[1],-$d[0]);break;case '\\':$d=a($d[1],$d[0]);break;case '|':$d[0]=-$d[0];break;case '_':$d[1]=-$d[1];break;case '#':$d=a(-$d[0],-$d[1]);break;case 'o':case 'n':case '~':$a=p($s);if($c=='o'){echo chr($a);}else if($c=='n'){echo (int)$a;}break;case ')':case '(':case '=':$a=p($s);$b=p($s);$s[]=($b<$a&&$c=='(')||($b>$a&&$c==')')||($a==$b&$c=='=')?1:0;break;case ',':case '*':case '%':case '-':case '+':$a=p($s);$b=p($s);switch($c){case '+':$s[]=$b+$a;break;case '-':$s[]=$b-$a;break;case '*':$s[]=$b*$a;break;case ',':$s[]=$b/$a;break;case '%':$s[]=$a%$b;break;}break;case ':':$a=p($s);array_push($s,$a,$a);break;case '!':case '?':if((c($s)==0)||$c=='!'){m($g,$d,$p);}break;case 'g':$a=p($s);$b=p($s);$o=ord(gc($g,a($b,$a)));$s[]=$o;break;case 'p':$j=p($s);$k=p($s);$h=p($s);$g[$k][$h]=chr($j);break;case '$':$a=p($s);$b=p($s);array_push($s,$a,$b);break;case '@':$a=p($s);$b=p($s);$j=p($s);array_push($s,$a,$j,$b);break;case 'r':$s=array_reverse($s);break;case '}':$a=p($s);array_unshift($s,$a);break;case '{':$a=array_shift($s);$s[]=$a;break;case '&':if($r==null){$r=p($s);}else {array_push($s,$r);$r=null;}break;case '\'':case '"':$q=!$q;break;case ';':return;break;case ' ':case "\n":break;default:echo 'E: Unknown syntax "'.$c.'" at ('.$p[0].', '.$p[1].')';return;break;}}}m($g,$d,$p);}}function p(&$s){return array_pop($s);}function h($c){$d=-1;if(is_numeric($c)){$d=(int)$c;}return ($d>=0&&$d<=9)||($c>='a'&&$c<='f');}function m($g,&$d,&$p){$p[1]+=$d[1];$p[0]+=$d[0];if($d[1]!=0){if($p[1]<0){$p[1]=c($g)-1;}if($p[1]>=c($g)){$p[1]=0;}}else{if($p[0]>=c($g[$p[1]])){$p[0]=0;}if($p[0]<0){$p[0]=c($g[$p[1]])-1;}}}function g($g,$p){if(kc($p[1],$g)){if(is_array($g[$p[1]])&&kc($p[0],$g[$p[1]])){return $g[$p[1]][$p[0]];}}return null;}function kc($k,$a){return array_key_exists($k,$a);}function a(){return func_get_args();}function c($a){return count($a);}

Sé que se ha implementado con un tamaño de compilador más pequeño con otros idiomas, pero sin embargo, con el espíritu de un programador que nunca se muere, se me ocurrió un intérprete CLI de PHP ><> Fish. El código fuente completo está debajo.

2 característica principal del lenguaje de programación Fish no se implementó, a saber:

  1. Multihilo. Los scripts PHP son solo de arriba a abajo de ejecución de un solo subproceso.
  2. Entrada ide un personaje. PHP CLI requiere que el usuario presione la <Enter>tecla para ingresar la entrada en el búfer de entrada.

Tenga en cuenta que he escrito y optimizado muchas de las funciones nativas, incluida la creación de una matriz mediante:

function a(){
    return func_get_args();
}
$a = a(1,3,4,5);

en lugar de

$a = array(1,3,4,5);

Se puede acceder al programa a través de la interfaz de línea de comandos (CLI) utilizando el siguiente comando:

php fish.php program.fish

Pasé un total de 6 horas para completar esto con referencia al intérprete original de Python.

Fuente original:

<?php

if($argc <= 1  || $argv[1] == '-h'){
    echo 'e.g.: fish.php program.fish';
}else{
    $f = $argv[1];
    if(file_exists($f)){
        $x = file_get_contents($f);
        $x = str_replace(a("\r\n", "\r"), "\n", $x);
        f($x);
    }
}

function f($f) {
    $g = explode("\n", $f);
    foreach($g as &$u){
        $a = a();
        $i = 0;
        while($i++ <= strlen($u)){
            $a[] = substr($u, $i, 1);
        }
        $u = $a;
    }
    $p = a(0, 0); // position
    $d = a(1, 0); // direction
    $s = a(); // stack
    $q = false; // string lateral
    $r = null; // registry
    while (1) {
        $c = g($g, $p);
        if ($c !== null) {
            if ($q && $c != '"' && $c != '\'') {
                $s[] = ord($c);
            } else if (h($c)) {
                $s[] = hexdec($c);
            } else {
                if($c == 'x'){
                    $a = a('<', '>', '^', 'v');
                    $c = $a[mt_rand(0, 3)];
                }
                switch ($c) {
                    case '>':
                        $d = a(1, 0);
                        break;
                    case '<':
                        $d = a(-1, 0);
                        break;
                    case '^':
                        $d = a(0, -1);
                        break;
                    case 'v':
                        $d = a(0, 1);
                        break;
                    case '/':
                        $d = a(-$d[1], -$d[0]);
                        break;
                    case '\\':
                        $d = a($d[1], $d[0]);
                        break;
                    case '|':
                        $d[0] = -$d[0];
                        break;
                    case '_':
                        $d[1] = -$d[1];
                        break;
                    case '#':
                        $d = a(-$d[0], -$d[1]);
                        break;
                    case 'o':
                    case 'n':
                    case '~':
                        $a = p($s);
                        if ($c == 'o') {
                            echo chr($a);
                        } else if ($c == 'n') {
                            echo (int)$a;
                        }
                        break;
                    case ')':
                    case '(':
                    case '=':
                        $a = p($s);
                        $b = p($s);
                        $s[] = ($b < $a && $c == '(') || ($b > $a && $c == ')') || ($a == $b & $c == '=') ? 1 : 0;
                        break;
                    case ',':
                    case '*':
                    case '%':
                    case '-':
                    case '+':
                        $a = p($s);
                        $b = p($s);
                        switch ($c) {
                            case '+':
                                $s[] = $b + $a;
                                break;
                            case '-':
                                $s[] = $b - $a;
                                break;
                            case '*':
                                $s[] = $b * $a;
                                break;
                            case ',':
                                $s[] = $b / $a;
                                break;
                            case '%':
                                $s[] = $a % $b;
                                break;
                        }
                        break;
                    case ':':
                        $a = p($s);
                        array_push($s, $a, $a);
                        break;
                    case '!':
                    case '?':
                        if ((c($s) == 0) || $c == '!') {
                            m($g, $d, $p);
                        }
                        break;
                    case 'g':
                        $a = p($s);
                        $b = p($s);
                        $o = ord(gc($g, a($b, $a)));
                        $s[] = $o;
                        break;
                    case 'p':
                        $j = p($s);
                        $k = p($s);
                        $h = p($s);
                        $g[$k][$h] = chr($j);
                        break;
                    case '$':
                        $a = p($s);
                        $b = p($s);
                        array_push($s, $a, $b);
                        break;
                    case '@':
                        $a = p($s);
                        $b = p($s);
                        $j = p($s);
                        array_push($s, $a, $j, $b);
                        break;
                    case 'r':
                        $s = array_reverse($s);
                        break;
                    case '}':
                        $a = p($s);
                        array_unshift($s, $a);
                        break;
                    case '{':
                        $a = array_shift($s);
                        $s[] = $a;
                        break;
                    case '&':
                        if ($r == null) {
                            $r = p($s);
                        } else {
                            array_push($s, $r);
                            $r = null;
                        }
                        break;
                    case '\'':
                    case '"':
                        $q = !$q;
                        break;
                    case ';':
                        return;
                        break;
                    case ' ':
                    case "\n":
                        break;
                    default:
                        echo 'E: Unknown syntax "' . $c . '" at (' . $p[0] . ', ' . $p[1] . ')';
                        return;
                        break;
                }
            }
        }
        m($g, $d, $p);
    }
}

function p(&$s) {
    return array_pop($s);
}

function h($c) {
    $d = -1;
    if (is_numeric($c)) {
        $d = (int) $c;
    }
    return ($d >= 0 && $d <= 9) || ($c >= 'a' && $c <= 'f');
}

function m($g, &$d, &$p) {
    $p[1] += $d[1];
    $p[0] += $d[0];
    if($d[1] != 0){
        if($p[1] < 0){
            $p[1] = c($g) - 1;
        }
        if($p[1] >= c($g)){
            $p[1] = 0;
        }
    }else{
        if($p[0] >= c($g[$p[1]])){
            $p[0] = 0;
        }
        if($p[0] < 0){
            $p[0] = c($g[$p[1]]) - 1;
        }
    }
}

function g($g, $p){
    if(kc($p[1], $g)){
        if(is_array($g[$p[1]]) && kc($p[0], $g[$p[1]])){
            return $g[$p[1]][$p[0]];
        }
    }
    return null;
}

function kc($k, $a){
    return array_key_exists($k, $a);
}

function a(){
    return func_get_args();
}

function c($a){
    return count($a);
}

Editar historial

  1. Cambió la xsintaxis para seleccionar una de las direcciones en lugar de seleccionarla por sí sola.
  2. Se corrigió el pcomando donde se chr()debe usar antes de insertar el valor en el cuadro de código.

3

Caracteres Lua 1640 (1558 sin hilos)

Versión de enhebrado, golfizada (1640 caracteres):

L=loadstring L(([[z=table p=z.insert P=z.remove W=io.write t="><^v/\\|_#x+-*,%=)(!?:~$@&r}{gponi;[].m"C=t.char B=t.byte F=t.match M=setmetatable Q=getfenv R=setfenv I=io.read w="@h1,0@h-1,0@h0,-1@h0,1@h-Y,-X@hY,X|X=-X|Y=-Y@h-X,-Y|z=math.random(1,4)R(f[('><^v'):sub(z,z)],Q())()|@c@a+@a)|@c-@a+@a)|@c@a*@a)|z=@a@pz~=0 @b@c@a/z)@rerror'Div by 0'@d|y=@az=@a@cz%y)|@c@a==@a@n1@g0)|@c@a>@a@n1@g0)|@c@a<@a@n1@g0)|@i|@p#s==0@gs[#s]==0 @b@i@d|@cs[#s])|@a|z=#s s[z@k-1]=s[z-1@k]|z=#s s[z@k-1@k-2]=s[z-1@k-2@k]|@pr @b@cr)r=N @rr=@a@d|z={}@o=1,#s@qz[#s-k+1]=s[k]@ds=z|@c1,@a)|@cP(s,1))|z=@a@cc[@a][z])|z,w=@a,@ac[@a][w]=z|W(C(@a))|W(@a)|z=I(1)while F(z,'%s')@qz=I(1)@d@cB(z))|os.exit()|T.N=1|P(T,I)@o=I,#T@qT[k].I=k@d|s=s==S@nl@gS|z=s==S@nl@gS @o=#s,1,-1@qp(z,P(s,1))@d|"z=1 f={}@o in t:gmatch"."@q_,z,s=w:find("|(.-)|",z)f[k]=L(s)@dT={m@j)@i @py>#c @by=0 @fy<0 @by=#c@d@px>#c[y]@nX==1 @bx=0 @fx<0 @bx=#c[y]@d@d,n@jx,y,X,Y)z=M({I=#T+1,l={},X=X@g1,Y=Y@g0,x=x@g0,y=y@g0},{__index=_G})z.s=z.l T[z.I]=z@d}c={}S={}T.n(-1)fh=arg[1]@nio.open(arg[1])@gio.stdin y=0 for l in fh:lines()@qc[y]=M({},{__index@j)return 32@d})@o=1,#l@qz=l:sub(k,k) @pnot i @b@pF(z@l@bi=z@d@pF(z,"[^\n\r]")@b@m@d@r@pz==i @bi=N@d@m@d@dy=y+1@dwhile #T>0@qfor I=1,#T@qt=T[I]R(1,t)R(T.m,t)()n,o=X,Y q=C(c[y][x])@pi @b@pF(q@l@bi=N @r@cc[y][x])@d@fF(q@l @bi=q @fF(q,"%x")@b@ctonumber(q,16))@fF(q,"[^ ]")@bsetfenv(f[q],t)()@d@d@pT.N@n(n~=X@go~=Y)@bT.n(x,y,X,Y)T.N=N X,Y=n,o@d@d]]):gsub("@(.)",{a="P(s)",b="then ",c="p(s,",d=" end ",f="elseif ",g=" or ",h="|X,Y=",i="x,y=x+X,y+Y",j="=function(",k="],s[z",l=[[,"['\"]")]],m="c[y][k-1]=B(z)",n=" and ",o="for k",p="if ",q=" do ",r="else "}))()

La versión de subprocesos hace algunos trucos desagradables con setfenv y getfenv para eliminar la necesidad de indexar los diferentes subprocesos.

Versión de subprocesos legible:

-- http://codegolf.stackexchange.com/questions/1595/interpret-fish
z=table
p=z.insert  -- push
P=z.remove  -- pop
W=io.write
t="><^v/\\|_#x+-*,%=)(!?:~$@&r}{gponi;[].m"     -- all tokens
C=t.char
B=t.byte
F=t.match
M=setmetatable
Q=getfenv
R=setfenv
I=io.read
--w=("@d1,0@d-1,0@d0,-1@d0,1@d-Y,-X@dY,X|X=-X|Y=-Y@d-X,-Y|z=math.random(1,4)R(f[('><^v'):sub(z,z)],Q())()|@b@a+@a)|@b-@a+@a)|@b@a*@a)|z=@aif z~=0@i@b@a/z)else error'Div by 0'end|y=@az=@a@bz%y)|@b@a==@a @c@b@a>@a@c@b@a<@a@c@h|if #s==0 or s[#s]==0@i@h end|@bs[#s])|@a@gs[z-1]=@e]@g@e-2]=@e-2],s[z]|if r@i@br)r=N else r=@aend|z={}for k=1,#s do z[#s-k+1]=s[k]end s=z|@b1,@a)|@bP(s,1))|z=@a@bc[@a][z])|z,w=@a,@ac[@a][w]=z|W(C(@a))|W(@a)|z=I(1)while F(z,'%s')do z=I(1)end @bB(z))|os.exit()|T.N=1|P(T,I)for k=I,#T do T[k].I=k end|s@f|z@f for k=#s,1,-1 do p(z,P(s,1))end|"):gsub("@(.)",{a="P(s)",b="p(s,",c="and 1 or 0)|",d="|X,Y=",e="s[z-1],s[z",f="=s==S and l or S",g="|z=#s s[z],",h="x,y=x+X,y+Y",i=" then "})
w="|X,Y=1,0|X,Y=-1,0|X,Y=0,-1|X,Y=0,1|X,Y=-Y,-X|X,Y=Y,X|X=-X|Y=-Y|X,Y=-X,-Y|z=math.random(1,4)R(f[('><^v'):sub(z,z)],Q())()|p(s,P(s)+P(s))|p(s,-P(s)+P(s))|p(s,P(s)*P(s))|z=P(s)if z~=0 then p(s,P(s)/z)else error'Div by 0'end|y=P(s)z=P(s)p(s,z%y)|p(s,P(s)==P(s) and 1 or 0)|p(s,P(s)>P(s)and 1 or 0)|p(s,P(s)<P(s)and 1 or 0)|x,y=x+X,y+Y|if #s==0 or s[#s]==0 then x,y=x+X,y+Y end|p(s,s[#s])|P(s)|z=#s s[z],s[z-1]=s[z-1],s[z]|z=#s s[z],s[z-1],s[z-2]=s[z-1],s[z-2],s[z]|if r then p(s,r)r=N else r=P(s)end|z={}for k=1,#s do z[#s-k+1]=s[k]end s=z|p(s,1,P(s))|p(s,P(s,1))|z=P(s)p(s,c[P(s)][z])|z,w=P(s),P(s)c[P(s)][w]=z|W(C(P(s)))|W(P(s))|z=I(1)while F(z,'%s')do z=I(1)end p(s,B(z))|os.exit()|T.N=1|P(T,I)for k=I,#T do T[k].I=k end|s=s==S and l or S|z=s==S and l or S for k=#s,1,-1 do p(z,P(s,1))end|"
z=1
f={}
for k in t:gmatch"." do -- will contain the tokens
    _,z,s=w:find("|(.-)|",z)
    f[k]=loadstring(s)
end
T={     -- table of threads
    --N = new thread to be created.
    m=function()
        x,y=x+X,y+Y
        if y > #c then
            y=0
        elseif y<0 then
            y=#c
        end
        if x>#c[y] and X==1 then
            x=0
        elseif x<0 then
            x=#c[y]
        end
    end,
    n=function(x,y,X,Y)
        z=M({
        I=#T+1,                 -- keep number id
        l={},                   -- local stack
        X=X or 1,                   -- 1 for +x, -1 for -x, 0 for y/-y
        Y=Y or 0,                   -- 1 for +y, -1 for -y, 0 for x/-x 
        x=x or 0,                   -- X of IP
        y=y or 0,                   -- Y of IP
        -- i,                   -- will contain type of quote when reading in a string --TODO keep local
        -- r,                   -- registry --TODO make global
        },{__index=_G})         -- Enable lookup of functions in global table.
        z.s=z.l -- current stack is local stack
        T[z.I]=z    -- add at next index
    end
    }
c={}    -- codebox IP wraps around -- TODO make codebox global in code
S={}    -- global stack
-- codebox layout
--     -----> +x
--  @  |line of text            -- wrap around to second line
--     |second line of text.    -- negative indices can be used for variables
--     |
--     V +Y

-- y first coord, x second
-- wrap around rows if nil row
-- wrap around cols if nil char.
T.n(-1)

-- compile to codebox
fh= arg[1] and io.open(arg[1]) or io.stdin  -- use file or stdin

y=0
for l in fh:lines() do
    c[y]=M({},{__index=function()return 32 end})--default to space
    for k=1,#l do
        z=l:sub(k,k)
        if not i then       -- normal mode
            if F(z,"['\"]") then i=z end
            if F(z,"[^\n\r]")then --filter out only newlines
                c[y][k-1]=B(z)
            end -- any spacing allowed.
        else                
            if z==i then i=N end-- verbatim string mode
            c[y][k-1]=B(z)
        end
    end
    y=y+1
end

io.stdout:setvbuf("no") -- direct output
while #T>0 do
    for I=1,#T do
        t=T[I]
        R(1,t)
        R(T.m,t)()
        n,o=X,Y -- keep old directions for new thread detection
        q=C(c[y][x])
        if i then                       -- stringparsing mode       
            if F(q,"['\"]") then        -- end-quote
                i=N
            else
                p(s,c[y][x])    -- push contents of box, then advance
            end
        elseif F(q,"['\"]") then        -- start-quote
            i=q
        elseif F(q,"%x") then       -- parsing a number
            p(s,tonumber(q,16))
        elseif F(q,"[^ ]") then
            assert(setfenv(f[q],t))
            f[q]()  -- call, feed with state/thread
        end
    end
    if T.N and (n~=X or o~=Y) then
        -- create new thread
        T.n(x,y,X,Y)
        T.N=N
        X,Y=n,o     -- restore directions of parent
    end
end 

Versión sin subprocesos, golfizada (1558 caracteres, pero puede reducirse un poco más si la versión sin subprocesos va a ser el criterio):

T=table p=T.insert P=T.remove I=io.read W=io.write A=assert t="><^v/\\|_#x+-*,%=)(!?:~$@&r}{gponi;"M=t.match B=t.byte C=t.char f={"X,Y=1,0","X,Y=-1,0","X,Y=0,-1","X,Y=0,1","X,Y=-Y,-X","X,Y=Y,X","X=-X","Y=-Y","X,Y=-X,-Y","z=math.random(1,4)f[('><^v'):sub(z,z)]()","p(s,P(s)+P(s))","p(s,-P(s)+P(s))","p(s,P(s)*P(s))","p(s,(1/P(s) or error'Div by 0')*P(s))","y=P(s)z=P(s)p(s,z%y)","p(s,P(s)==P(s) and 1 or 0)","p(s,P(s)>P(s) and 1 or 0)","p(s,P(s)<P(s) and 1 or 0)","x,y=x+X,y+Y","if #s==0 or s[#s]==0 then f['!']()end","p(s,s[#s])","P(s)","z=#s s[z],s[z-1]=s[z-1],s[z]","z=#s s[z],s[z-1],s[z-2]=s[z-1],s[z-2],s[z]","if r then p(s,r)r=N else r=P(s)end","z={}for k=1,#s do z[#s-k+1]=s[k]end s=z","p(s,1,P(s))","p(s,P(s,1))","z=P(s) p(c[P(s)][z])","z,w=P(s),P(s) c[P(s)][w]=z","W(C(P(s)))","W(P(s))","z=I(1) while M(z,'%s')do z=I(1)end p(s,B(z))","os.exit()"}z=1 for k in t:gmatch"."do f[k]=A(loadstring(f[z]))z=z+1 end c={}s={}X=1 Y=0 x=0 y=0 m=function(s)x,y=x+X,y+Y if y>#c then y=0 elseif y<0 then y=#c end if x>#c[y]and X==1 then x=0 elseif x<0 then x=#c[y]end end F=arg[1]and io.open(arg[1])or io.stdin l=0 for line in F:lines()do c[l]=setmetatable({},{__index=function()return 0 end})for k=1,#line do z=line:sub(k,k)if not i then if M(z,"['\"]")then i=z end if M(z,"[^\n\r]")then c[l][k-1]=B(z)end else if z==i then i=N end c[l][k-1]=B(z)end end l=l+1 end while 1 do q=C(c[y][x])if i then if M(q,"['\"]")then i=N else p(s,c[y][x])end else if M(q,"['\"]")then i=q elseif M(q,"%x")then p(s,tonumber(q,16)) elseif M(q,"[^ %z]")then A(f[q])f[q]()end end m()end

Versión legible:

-- http://codegolf.stackexchange.com/questions/1595/interpret-fish
--
-- TODO's
-- threading instructions:
-- * [ start thread at next change in direction.
-- * ] end thread
-- * . switch between global and local stack
-- * m copy global to local stack
--
p=table.insert  -- push
P=table.remove  -- pop
t=table.concat{ 
    "><^v",     -- Direction    DONE
    "/\\|_#",   -- Mirror       DONE
    "x",        -- random direction DONE
    "+-*,%",    -- arithm.  DONE
    "=)(",      -- pops A and B of the stack if A==B then push 1 else push 0,same for greater than, lesser than. (result on stack) -- DONE
    "!",        -- skip next    DONE
    "?",        -- if s[#s]==0 then skip next, else continue    DONE
    ":",        -- duplicate top    DONE
    "~",        -- remove top   DONE
    "$",        -- rotate top 2 values DONE
    "@",        -- rotate top 3 values DONE
    "&",        -- poptop to registry or read from registry DONE
    "r",        -- reverse stack DONE
    "}{",       -- shift stack right, (or up)/ shift stack left (or down) DONE
    "g",        -- pops A,B push values at B,A in the codebox on the stack DONE
    "p",        -- pops A,B,C from stack, and change value at C,B to A DONE
    "o",        -- pops from stack and output character DONE
    "n",        -- pops from stack, outputs number DONE
    "i",        -- take 1 char of input, and push the ASCII value on stack DONE
    ";",        -- os.exit() DONE
    --[["[",        -- start new thread at next direction change
    "]",        -- end thread
    ".",        -- switch between global and local stack
    "m",        -- Copy global stack to local one --]]
}
f={
"s.dx,s.dy=1,0","s.dx,s.dy=-1,0","s.dx,s.dy=0,-1","s.dx,s.dy=0,1",
"s.dx,s.dy=-s.dy,-s.dx","s.dx,s.dy=s.dy,s.dx","s.dx=-s.dx","s.dy=-s.dy","s.dx,s.dy=-s.dx,-s.dy",
"z=math.random(1,4)f[('><^v'):sub(z,z)]()",
"p(s.s,P(s.s)+P(s.s))","p(s.s,-P(s.s)+P(s.s))","p(s.s,P(s.s)*P(s.s))","p(s.s,(1/P(s.s) or error'Div by 0')*P(s.s))","y=P(s.s)z=P(s.s)p(s.s,z%y)",
"p(s.s,P(s.s)==P(s.s) and 1 or 0)",
"p(s.s,P(s.s)>P(s.s) and 1 or 0)",
"p(s.s,P(s.s)<P(s.s) and 1 or 0)",
"s.x,s.y=s.x+s.dx,s.y+s.dy",
"if #s.s==0 or s.s[#s.s]==0 then f['!']()end",
"p(s.s,s.s[#s.s])",
"P(s.s)",
"z=#s.s s.s[z],s.s[z-1]=s.s[z-1],s.s[z]",
"z=#s.s s.s[z],s.s[z-1],s.s[z-2]=s.s[z-1],s.s[z-2],s.s[z]",
"if s.r then p(s.s,s.r)s.r=nil else s.r=P(s.s)end",
"z={}for k=1,#s.s do z[#s.s-k+1]=s.s[k]end s.s=z",
"p(s.s,1,P(s.s))",
"p(s.s,P(s.s,1))",
"z=P(s.s) p(s.s,s.c[P(s.s)][z])",
"z,w=P(s.s),P(s.s) s.c[P()][w]=z",
"io.write(string.char(P(s.s)))",
"io.write(P(s.s))",
"z=io.read(1) while z:match'%s'do z=io.read(1)end p(s.s,z:byte())",
"os.exit()"
}
z=1
for k in t:gmatch"." do -- will contain the tokens
    f[k]=assert(loadstring(f[z]))
    z=z+1
end

s={             -- state
    c={},                   -- codebox IP wraps around
    s={},                   -- stack
    dx=1,                   -- 1 for +x, -1 for -x, 0 for y/-y
    dy=0,                   -- 1 for +y, -1 for -y, 0 for x/-x 
    x=0,                    -- X of IP
    y=0,                    -- Y of IP
    -- i,                   -- will contain type of quote when reading in a string
    -- r,                   -- registry
    -- codebox implementation
-- codebox layout
--
--
--     -----> +x
--  @  |line of text            -- wrap around to second line
--     |second line of text.    -- negative indices can be used for variables
--     |
--     V +Y

    -- y first coord, x second
    -- wrap around rows if nil row
    -- wrap around cols if nil char.
    move=function(s)
        s.x,s.y=s.x+s.dx,s.y+s.dy
        if s.y > #s.c then
            s.y=0
        elseif s.y<0 then
            s.y=#s.c
        end
        if s.x>#s.c[s.y] and s.dx==1 then
            s.x=0
        elseif s.x<0 then
            s.x=#s.c[s.y]
        end
    end

    }
-- compile to codebox
fh= arg[1] and io.open(arg[1]) or io.stdin  -- use file or stdin

y=0
for line in fh:lines() do
    s.c[y]=setmetatable({},{__index=function() return 0 end})
    for k=1,#line do
        z=line:sub(k,k)
        --print(y,k,"|"..z.."|")
        if not s.i then     -- normal mode
            if z:match"['\"]" then s.i=z end
            if z:match"[^\n\r]"then --filter out only newlines
                s.c[y][k-1]=string.byte(z)
            end -- any spacing allowed.
        else                -- verbatim string mode
            if z==s.i then s.i=nil end
            s.c[y][k-1]=string.byte(z)
        end
    end
    y=y+1
end

io.stdout:setvbuf("no") -- direct output
function dbg()
    print("\nIP",s.y,s.x)
    print("command",string.char(s.c[s.y][s.x]))
    print("codebox:",#s.c)
    for y=0,#s.c do
        print("\tline",y)
        io.write"\t"
        for x=0,#s.c[y] do
            --io.write(string.char(s.c[y][x]),",\t")
            io.write(tostring(s.c[y][x]),",\t")
        end
        io.write"\n"
    end
    print("stack:")
    for k,v in pairs(s.s) do print("",k,v) end
end
function run()
while 1 do
    r,e = pcall(string.char,s.c[s.y][s.x])  -- look up command in codebox
    if not r then print("Error happened reading command",s.c[s.y][s.x])
        dbg()
    end
    q=string.char(s.c[s.y][s.x])
    --print(s.y,s.x,q)
    if s.i then                     -- stringparsing mode       
        if q:match"['\"]" then      -- end-quote
            s.i=nil
        else
            p(s.s,s.c[s.y][s.x])    -- push contents of box, then advance
        end
    else                            -- not in string parsing mode
        if q:match"['\"]" then      -- start-quote
            s.i=q
        elseif q:match"%x" then     -- parsing a number
            p(s.s,tonumber(q,16))
        elseif q:match"[^ %z]" then
            assert(f[q])
            r,e= pcall(f[q])    -- call
            if not r then print("Error calling function for "..q..": \n",e) -- error happened, clarify
            end
        end
    end
    s:move()                                        -- move the IP
end
end
r,e=pcall(run)
if not r then print("Error occured:",e)
dbg()
end

No pongo el siguiente como resultado, ya que usar la compresión directamente no es el objetivo, supongo;). Usando murgaLua (o cualquier versión de Lua con lzlib y luaSocket (para decodificación base64)), en el recuento mágico de 1333:

L=loadstring L(zlib.decompress(mime.unb64("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")))()
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