# Code Golf: Lasers

## The challenge

The shortest code by character count to input a 2D representation of a board, and output 'true' or 'false' according to the input.

The board is made out of 4 types of tiles:

`````` # - A solid wall
x - The target the laser has to hit
/ or \ - Mirrors pointing to a direction (depends on laser direction)
v, ^, > or < - The laser pointing to a direction (down, up, right and left respectively)
``````

There is only one laser and only one target. Walls must form a solid rectangle of any size, where the laser and target are placed inside. Walls inside the 'room' are possible.

Laser ray shots and travels from its origin to the direction it's pointing. If a laser ray hits the wall, it stops. If a laser ray hits a mirror, it bounces 90 degrees to the direction the mirror points to. Mirrors are two sided, meaning both sides are 'reflective' and may bounce a ray in two ways. If a laser ray hits the laser (`^v><`) itself, it is treated as a wall (laser beam destroys the beamer and so it'll never hit the target).

## Test cases

```Input:
##########
#   / \  #
#        #
#   \   x#
# >   /  #
##########
Output:
true

Input:
##########
#   v x  #
# /      #
#       /#
#   \    #
##########
Output:
false

Input:
#############
#     #     #
# >   #     #
#     #     #
#     #   x #
#     #     #
#############
Output:
false

Input:
##########
#/\/\/\  #
#\\//\\\ #
#//\/\/\\#
#\/\/\/x^#
##########
Output:
true
```

Code count includes input/output (i.e full program).

• IMMA CHARGIN' MAH LAZER! – Ólafur Waage Sep 26 '09 at 0:00
• This is awesome. – GManNickG Sep 26 '09 at 0:05
• DON'T CROSS THE BEAMS – GManNickG Sep 26 '09 at 0:08
• @GameFreak: That's getting really old. – Artelius Sep 26 '09 at 1:44
• Is that '^' actually a shark with a freakin' lazer on its head? – Nathan Feger Sep 26 '09 at 23:44

## Perl, 166 160 characters

Perl, 251 248 246 222 214 208 203 201 193 190 180 176 173 170 166 --> 160 chars.

Solution had 166 strokes when this contest ended, but A. Rex has found a couple ways to shave off 6 more characters:

``````s!.!\$t{\$s++}=\$&!ge,\$s=\$r+=99for<>;%d='>.^1<2v3'=~/./g;(\$r)=grep\$d|=\$d{\$t{\$_}},%t;
{\$_=\$t{\$r+=(1,-99,-1,99)[\$d^=3*/\\/+m</>]};/[\/\\ ]/&&redo}die/x/?true:false,\$/
``````

The first line loads the input into `%t`, a table of the board where `\$t{99*i+j}` holds the character at row i,column j. Then,

``````%d=split//,'>.^1<2v3' ; (\$r)=grep{\$d|=\$d{\$t{\$_}}}%t
``````

it searches the elements of `%t` for a character that matches `> ^ <` or `v`, and simultaneously sets `\$d` to a value between 0 and 3 that indicates the initial direction of the laser beam.

At the beginning of each iteration in the main loop, we update `\$d` if the beam is currently on a mirror. XOR'ing by 3 gives the correct behavior for a `\` mirror and XOR'ing by 1 gives the correct behavior for a `/` mirror.

``````\$d^=3*/\\/+m</>
``````

Next, the current position `\$r` is updated accoring to the current direction.

``````\$r+=(1,-99,-1,99)[\$d] ; \$_ = \$t{\$r}
``````

We assign the character at the current position to `\$_` to make convenient use of the match operators.

``````/[\/\\ ]/ && redo
``````

Continue if we are on a blank space or a mirror character. Otherwise we terminate `true` if we are on the target (`\$_ =~ /x/`) and `false` otherwise.

Limitation: may not work on problems with more than 99 columns. This limitation could be removed at the expense of 3 more characters,

• Okay, got to 323 characters. =D – strager Sep 26 '09 at 2:59
• I can change 99 to 1E5 to make it very robust at the expense of 3 chars. – mob Sep 26 '09 at 3:24
• Your best solution would be more noticeable at the top of the post. – strager Sep 26 '09 at 4:20
• But using regular expressions to rotate the board? That was sick. That's like an automatic 20 stroke bonus. – mob Sep 28 '09 at 21:23
• @mobrule: Save six strokes: reorder the first line as `s!.!\$t{\$s++}=\$&!ge,\$s=\$r+=99for<>;`, change `%d=split//,.." to `%d=..=~/./g`, and change `grep{..}%t` to `grep..,%t` – A. Rex Oct 21 '09 at 15:03

## Perl, 177 Characters

The first linebreak can be removed; the other two are mandatory.

``````\$/=%d=split//,' >/^\v';\$_=<>;\$s='#';{
y/v<^/>v</?do{my\$o;\$o.="
"while s/.\$/\$o.=\$&,""/meg;y'/\\'\/'for\$o,\$s;\$_=\$o}:/>x/?die"true
":/>#/?die"false
":s/>(.)/\$s\$d{\$1}/?\$s=\$1:1;redo}
``````

Explanation:

``````\$/ = %d = (' ' => '>', '/' => '^', '\\' => 'v');
``````

If a right-moving beam runs into an {empty space, up-angled mirror, down-angled mirror} it becomes a {right-moving beam, up-moving beam, down-moving beam}. Initialize `\$/` along the way -- fortunately "6" is not a valid input char.

``````\$_ = <>;
``````

Read the board into `\$_`.

``````\$s="#";
``````

`\$s` is the symbol of whatever the beam is sitting on top of now. Since the laser emitter is to be treated like a wall, set this to be a wall to begin with.

``````if (tr/v<^/>v</) {
my \$o;
\$o .= "\n" while s/.\$/\$o .= \$&, ""/meg;
tr,/\\,\\/, for \$o, \$s;
\$_ = \$o;
}
``````

If the laser beam is pointing any way except right, rotate its symbol, and then rotate the whole board in place (also rotating the symbols for the mirrors). It's a 90 degree left rotation, accomplished effectively by reversing the rows while transposing rows and columns, in a slightly fiendish `s///e` with side effects. In the golfed code, the tr is written in the form `y'''` which allows me to skip backslashing one backslash.

``````die "true\n" if />x/; die "false\n" if />#/;
``````

Terminate with the right message if we hit the target or a wall.

``````\$s = \$1 if s/>(.)/\$s\$d{\$1}/;
``````

If there's an empty space in front of the laser, move forward. If there's a mirror in front of the laser, move forward and rotate the beam. In either case, put the "saved symbol" back into the old beam location, and put the thing we just overwrote into the saved symbol.

``````redo;
``````

Repeat until termination. `{...;redo}` is two characters less than `for(;;){...}` and three less than `while(1){...}`.

• Rotate the board... Crazy. Regexp... Crazier. O_o – strager Sep 26 '09 at 6:08
• You... You monster! – LiraNuna Sep 26 '09 at 6:39
• LiraNuna: I choose to take that as a compliment. – hobbs Sep 26 '09 at 6:47
• The golf is over. How can you beat rotating a 2D board with regular expressions?! – Konrad Rudolph Sep 26 '09 at 7:56
• wtf? perl programmers are wizards. – Johannes Schaub - litb Sep 27 '09 at 21:04

## C89 (209 characters)

``````#define M(a,b)*p==*#a?m=b,*p=1,q=p:
*q,G,*p=G;w;main(m){for(;(*++p=getchar())>0;)M(<,-1)M
(>,1)M(^,-w)M(v,w)!w&*p<11?w=p-G:0;for(;q+=m,m=*q&4?(*q&1?
-1:1)*(m/w?m/w:m*w):*q&9?!puts(*q&1?"false":"true"):m;);}
``````

### Explanation

This monstrosity will probably be difficult to follow if you don't understand C. Just a forewarning.

``````#define M(a,b)*p==*#a?m=b,*p=1,q=p:
``````

This little macro checks if the current character (`*p`) is equal to whatever `a` is in character form (`*#a`). If they are equal, set the movement vector to `b` (`m=b`), mark this character as a wall (`*p=1`), and set the starting point to the current location (`q=p`). This macro includes the "else" portion.

``````*q,G,*p=G;
w;
``````

Declare some variables. * `q` is the light's current location. * `G` is the game board as a 1D array. * `p` is the current read location when populating `G`. * `w` is the board's width.

``````main(m){
``````

Obvious `main`. `m` is a variable storing the movement vector. (It's a parameter to `main` as an optimization.)

``````    for(;(*++p=getchar())>0;)
``````

Loop through all characters, populating `G` using `p`. Skip `G` as an optimization (no need to waste a character writing `p` again in the third part of the `for`).

``````        M(<,-1)
M(>,1)
M(^,-w)
M(v,w)
``````

Use the aforementioned macro to define the lazer, if possible. `-1` and `1` correspond to left and right, respectively, and `-w` and `w` up and down.

``````        !w&*p<11
?w=p-G
:0;
``````

If the current character is an end-of-line marker (ASCII 10), set the width if it hasn't already been set. The skipped `G` allows us to write `w=p-G` instead of `w=p-G+1`. Also, this finishes off the `?:` chain from the `M`'s.

``````    for(;
q+=m,
``````

Move the light by the movement vector.

``````        m=
*q&4
?(*q&1?-1:1)*(
m/w?m/w:m*w
)
``````

Reflect the movement vector.

``````            :*q&9
?!puts(*q&1?"false":"true")
:m
;
``````

If this is a wall or `x`, quit with the appropriate message (`m=0` terminates the loop). Otherwise, do nothing (noop; `m=m`)

``````    );
}
``````
• Ugh! I was working on a C solution when the fire alarm sounded in my apartment complex. Now I got beat. Nice solution though. – rlbond Sep 26 '09 at 1:56
• Methinks using a temp variable for your swap and swap/negation steps would save you a couple of characters. – Artelius Sep 26 '09 at 2:16
• @Artelius, Yeah, I realized that, and a few other things. Thanks. – strager Sep 26 '09 at 2:19
• TCC actually doesn't like the untyped declarations and errors out with `g.c:3: declaration expected` :( – Mark Rushakoff Sep 26 '09 at 22:37
• Removing `puts`'s declaration helped, but not enough to bring it under 170. 209 is pretty good, though, so I think I'll leave it at that. Thanks for your help, guys. I really appreciate it. =] (Anything to dethrone those Perl witches!) – strager Sep 28 '09 at 22:59

I would bet people have been waiting for this one for a LOOOOONG time. (What do you mean, the challenge is over and nobody cares any more?)

Behold... I here present a solution in

## Befunge-93!

It weighs in at a whopping 973 charaters (or 688 if you are charitable enough to ignore whitespace, which is only used for formatting and does nothing in actual code).

Caveat: I wrote my own Befunge-93 interpreter in Perl a short while ago, and unfortunately this is all I've really had time with which to test it. I'm reasonably confident in its correctness in general, but it might have an odd limitation with regard to EOF: Since Perl's `<>` operator returns undef at the end of file, this is processed as a 0 in the numeric context. For C-based implementations where EOF has a different value (-1 say), this code might not work.

``````003pv   >~v>  #v_"a"43g-!#v_23g03p33v>v
>39#<*v   ::   >:52*-!v   >"rorrE",vg2*
######1   >^vp31+1g31\$_03g13gp vv,,<15,
a#3     >0v       vp30+1g30<>,,#3^@
######p \$     0vg34"a"<   >       >vp
^<v>  > ^   p3<>-#v_:05g-!|>:15g-!| \$
>     v^     <   <   <   >^v-g52:< \$
v _  >52*"eslaf",,vv|-g53:_      v
: ^-"#">#:< #@,,,,<<>:43p0 v0 p34<
>">"-!vgv<  ^0p33g31p32-1g3<
^     <#g1|-g34_v#-g34_v#-g34"><v^"<<<<
v!<^<33>13g1v>03g1-v>03g1+03p\$v  \$\$
>^  _#-v 1>g1-1v>+13pv >03p       v  pp
^_:"^"^#|^g30 <3#   \$<           \$<>^33
^!-"<":<>"v"v^># p#\$<>            \$^44
^      >#^#_ :" "-#v_ ^   >         ^gg
v  g34\$<   ^!<v"/":< >\$3p\$^>05g43p\$ ^55
>,@   |!-"\"  :_\$43g:">"-!|>      ^\$32
*v"x":<      >-^    ^4g52<>:"^" -#v_^
5>-!#v_"ror"vv\$p34g51:<>#|  !-"<":<#|
^2,,, ,,"er"<>v      #^^#<>05g43p\$\$^>^
>52*"eurt",,,,,@>15g4 3p\$\$\$\$  ^#
>:"v"\:"<"\: "^"   -!#^_-!#^_-!      ^
>                       ^
``````

### Explanation

If you're not familiar with the Befunge syntax and operation, check here.

Befunge is a stack-based language, but there are commands that allow one to write characters to the Befunge code. I take advantage of that in two places. First, I copy the entire input onto the Befunge board, but located a couple of lines below the actual written code. (Of course, this is never actually visible when the code runs.)

The other place is near the the upper-left:

``````######
a#
######
``````

In this case, the area I've highlighted above is where I store a couple of coordinates. The first column in the middle row there is where I store the x-coordinate for the current "cursor position"; the second column is where I store the y-coordinate; the next two columns are for storing the x- and y-coordinate of the laser beam source when that is found; and the final column (with the 'a' character in it) is eventually overwritten to contain the current beam direction, which obviously changes as the beam's path is traced.

The program starts by placing (0,27) as the initial cursor position. Then input is read one character at a time and placed in the cursor position; newlines merely cause the y-coordinate to increase and the x-coordinate to go back to 0, just like a real carriage return. Eventually undef is read by the interpreter and that 0 character value is used to signal the end of input and move on to the laser iteration steps. When the laser character [<>^v] is read, that is also copied to the memory repository (over the 'a' character) and its coordinates are copied to the columns just to the left.

The end result of all of this is that the entire file is basically copied into the Befunge code, a little ways below the actual code traversed.

Afterwards, the beam location is copied back into the cursor locations, and the following iteration is performed:

• Check for the current beam direction and increment or decrement the cursor coordinates appropriately. (I do this first to avoid having to deal with the corner case of the laser beam right on the first move.)
• Read the character at that location.
• If the character is "#", put newline and "false" on the stack, print, and end.
• Compare it to all of the beam characters [<>^v]; if there's a match, also print "false\n" and end.
• If the character is a space, empty the stack and continue.
• If the character is a forward slash, get the beam direction onto the stack and compare it to each of the direction characters in turn. When one is found, the new direction is stored at that same spot in the code and the loop repeats.
• If the character is a backslash, do basically the same thing as the above (except with the proper mapping for backslash).
• If the character is 'x', we've hit the target. Print "true\n" and exit.
• If the character is none of these, print "error\n" and exit.

If there's enough demand for it, I'll try to point out exactly where in the code all this is accomplished.

• +1 - Only because it could be misinterpreted to be an EXE opened in notepad. – Kyle Rozendo Aug 18 '10 at 16:23
• Um... holy ****. I've messed with Befunge, and this is really, really impressive. – Almo Apr 26 '12 at 20:16
• Code golf in obfuscated languages ... like peanut butter and cayenne! – wberry Nov 19 '12 at 18:57

# F#, 36 lines, very readable

Ok, just to get an answer out there:

``````let ReadInput() =
let X = line.Length
let mutable lines = []
while line <> null do
lines <- Seq.to_list line :: lines
lines <- List.rev lines
X, lines.Length, lines

let mutable p = 0,0,'v'
for y in 0..Y-1 do
for x in 0..X-1 do
printf "%c" a.[y].[x]
match a.[y].[x] with
|'v'|'^'|'<'|'>' -> p <- x,y,a.[y].[x]
|_ -> ()
printfn ""

let NEXT = dict [ '>', (1,0,'^','v')
'v', (0,1,'<','>')
'<', (-1,0,'v','^')
'^', (0,-1,'>','<') ]
let next(x,y,d) =
let dx, dy, s, b = NEXT.[d]
x+dx,y+dy,(match a.[y+dy].[x+dx] with
| '/' -> s
| '\\'-> b
| '#'|'v'|'^'|'>'|'<' -> printfn "false"; exit 0
| 'x' -> printfn "true"; exit 0
| ' ' -> d)

while true do
p <- next p
``````

Samples:

``````##########
#   / \  #
#        #
#   \   x#
# >   /  #
##########
true

##########
#   v x  #
# /      #
#       /#
#   \    #
##########
false

#############
#     #     #
# >   #     #
#     #     #
#     #   x #
#     #     #
#############
false

##########
#/\/\/\  #
#\\//\\\ #
#//\/\/\\#
#\/\/\/x^#
##########
true

##########
#   / \  #
#        #
#/    \ x#
#\>   /  #
##########
false

##########
#  /    \#
# / \    #
#/    \ x#
#\^/\ /  #
##########
false
``````
• I CAN ACTUALLY READ THIS ONE! MIRACULOUS! – Jeff Atwood Sep 26 '09 at 6:44
• Java/C# code golf is counted by lines not characters. That's the handicap. – Nathan Feger Sep 26 '09 at 23:47
• @strager its not depressing in 3 years when you're hired in to maintain the code and the original developer has long since left. – Nathan Feger Sep 29 '09 at 19:44
• This fails using F# in Visual Studio 2010. Seq.to_list doesnt exist (ok, changed it to toList), and then Line 25, incomplete pattern matching. – Russell Mar 11 '10 at 5:35
• Yes, change to_list to toList now. The incomplete match warning is fine; it's code golf, so I didn't do code like: | _ -> failwith "impossible" – Brian Mar 11 '10 at 5:41

## Golfscript - 83 chars (mashup of mine and strager's)

The newline is just here for wrapping

``````:|'v^><'.{|?}%{)}?:\$@=?{.[10|?).~)1-1]=\$+
:\$|=' \/x'?\[.\2^.1^'true''false']=.4/!}do
``````

Golfscript - 107 chars

The newline is just there for clarity

``````10\:@?):&4:\$;{0'>^<v'\$(:\$=@?:*>}do;
{[1 0&--1&]\$=*+:*;[{\$}{3\$^}{1\$^}{"true "}{"false"}]@*=' \/x'?=~5\:\$>}do\$
``````

How it works.

First line works out the initial location and direction.
Second line steps through turning whenever the laser hits a mirror.

353 chars in Ruby:

314 277 chars now!

OK, 256 chars in Ruby and now I'm done. Nice round number to stop at. :)

247 chars. I can't stop.

223 203 201 chars in Ruby

``````d=x=y=-1;b=readlines.each{|l|d<0&&(d="^>v<".index l[x]if x=l.index(/[>^v<]/)
y+=1)};loop{c=b[y+=[-1,0,1,0][d]][x+=[0,1,0,-1][d]]
c==47?d=[1,0,3,2][d]:c==92?d=3-d:c==35?(p !1;exit):c<?x?0:(p !!1;exit)}
``````

With whitespace:

``````d = x = y = -1
d < 0 && (d = "^>v<".index l[x] if x = l.index(/[>^v<]/); y += 1)
}

loop {
c = b[y += [-1, 0, 1, 0][d]][x += [0, 1, 0, -1][d]]

c == 47 ? d = [1, 0, 3, 2][d] :
c == 92 ? d = 3 - d :
c == 35 ? (p !1; exit) :
c < ?x ? 0 : (p !!1; exit)
}
``````

Slightly refactored:

``````board = readlines

direction = x = y = -1
board.each do |line|
if direction < 0
x = line.index(/[>^v<]/)
if x
direction = "^>v<".index line[x]
end
y += 1
end
end

loop do
x += [0, 1, 0, -1][direction]
y += [-1, 0, 1, 0][direction]

ch = board[y][x].chr
case ch
when "/"
direction = [1, 0, 3, 2][direction]
when "\\"
direction = 3 - direction
when "x"
puts "true"
exit
when "#"
puts "false"
exit
end
end
``````
• But... you can rename `ch` to `C` or any other 1 char letter to save 2 characters! – LiraNuna Sep 26 '09 at 3:37
• Ok ok, fine... I actually realized that that whole variable is unnecessary as I only use it once. This and a couple other improvements whittled it down to 247 chars. – Jeremy Ruten Sep 26 '09 at 4:34
• No `i++` (instead of `i+=1`) ? – LiraNuna Sep 26 '09 at 9:13
• Nope. You can do ++i, but it just makes it really really as positive as it used to be. – DigitalRoss Sep 26 '09 at 10:42
• I like the compressed version: #;p – SeanJA Sep 26 '09 at 22:53

## Python

294 277 253 240 232 characters including newlines:

(the first character in lines 4 and 5 is a tab, not spaces)

``````l='>v<^';x={'/':'^<v>','\\':'v>^<',' ':l};b=;r=p=0
while b[-1]:
b+=[raw_input()];r+=1
for g in l:
c=b[r].find(g)
if-1<c:p=c+1j*r;d=g
while' '<d:z=l.find(d);p+=1j**z;c=b[int(p.imag)][int(p.real)];d=x.get(c,' '*4)[z]
print'#'<c
``````

## How it works

The key idea behind this code is using complex numbers to represent positions and directions. The rows are the imaginary axis, increasing downward. The columns are the real axis, increasing to the right.

`l='>v<^';` a list of the laser symbols. The order is chosen so that the index of a laser direction character corresponds with a power of sqrt(-1)

`x={'/':'^<v>','\\':'v>^<',' ':l};` a transformation table determining how the direction changes when the beam leaves different tiles. The tile is the key, and new directions are the values.

`b=;` holds the board. The first element is 1 (evaluates as true) so that the while loop will run at least once.

`r=p=0` `r` is the current row number of the input, `p` is the current position of the laser beam.

`while b[-1]:` stop loading board data when raw_input returns an empty string

`b+=[raw_input()];r+=1` append the next line of input to the board and increment the row counter

`for g in l:` guess each laser direction in turn

`c=b[r].find(g)` set the column to the location of the laser or -1 if it's not in the line (or is pointing in a different direction)

`if-1<c:p=c+1j*r;d=g` if we found a laser, then set the current position `p` and direction `d`. `d` is one of the chars in `l`

After loading the board into `b`, the current position `p` and direction `d` have been set to those of the laser source.

`while' '<d:` space has a lower ASCII value than any of the direction symbols, so we use it as a stop flag.

`z=l.find(d);` index of the current direction char in the `l` string. `z` gets used later to both determine the new beam direction using the `x` table, and to increment the position.

`p+=1j**z;` increment the position using a power of i. For example, `l.find('<')==2` -> i^2 = -1, which would move to the left one column.

`c=b[int(p.imag)][int(p.real)];` read the char at the current position

`d=x.get(c,' '*4)[z]` look up the new direction for the beam in the transformation table. If the current char doesn't exist in the table, then set `d` to space.

`print'#'<c` print false if we stopped on anything other than the target.

This is was a direct port of Brian's solution to C#3, minus the console interactions. This isn't an entry in the challenge since it isn't a complete program, I was just wondering how some of the F# constructs he used could be represented in C#.

``````bool Run(string input) {
var a = input.Split(new[] {Environment.NewLine}, StringSplitOptions.None);
var p = a.SelectMany((line, y) => line.Select((d, x) => new {x, y, d}))
.First(x => new[] {'v', '^', '<', '>'}.Contains(x.d));
var NEXT = new[] {
new {d = '>', dx = 1, dy = 0, s = '^', b = 'v'},
new {d = 'v', dx = 0, dy = 1, s = '<', b = '>'},
new {d = '<', dx = -1, dy = 0, s = 'v', b = '^'},
new {d = '^', dx = 0, dy = -1, s = '>', b = '<'}
}.ToDictionary(x => x.d);
while (true) {
var n = NEXT[p.d];
int x = p.x + n.dx,
y = p.y + n.dy;
var d = a[y][x];
switch (d) {
case '/':  d = n.s; break;
case '\\': d = n.b; break;
case ' ':  d = p.d; break;
default: return d == 'x';
}
p = new {x, y, d};
}
}
``````

Edit: After some experimentation, the following rather verbose search code:

``````int X = a.Length, Y = a.Length;
var p = new {x = 0, y = 0, d = 'v'};
for (var y = 0; y < Y; y++) {
for (var x = 0; x < X; x++) {
var d = a[y][x];
switch (d) {
case 'v': case '^': case '<': case '>':
p = new {x, y, d}; break;
}
}
}
``````

has been replaced with some much more compact LINQ to Objects code:

``````var p = a.SelectMany((line, y) => line.Select((d, x) => new {x, y, d}))
.First(x => new[] {'v', '^', '<', '>'}.Contains(x.d));
``````
• omg. What a nice example to demonstrate how mighty linq and c# have become. 1+ for I am a huge c# fan. x) – Emiswelt Sep 26 '09 at 7:05

# F#, 255 chars (and still rather readable!):

Ok, after a night's rest, I improved this a lot:

``````let a=System.Console.In.ReadToEnd()
let w,c=a.IndexOf"\n"+1,a.IndexOfAny[|'^';'<';'>';'v'|]
let rec n(c,d)=
let e,s=[|-w,2;-1,3;1,0;w,1|].[d]
n(c+e,match a.[c+e]with|'/'->s|'\\'->3-s|' '->d|c->printfn"%A"(c='x');exit 0)
n(c,"^<>v".IndexOf a.[c])
``````

Let's talk through it line by line.

First, slurp all the input into a big one-dimensional array (2D arrays can be bad for code golf; just use a 1D array and add/subtract the width of one line to the index to move up/down a line).

Next we compute 'w', the width of an input line, and 'c', the starting position, by indexing into our array.

Now let's define the 'next' function 'n', which takes a current position 'c' and a direction 'd' which is 0,1,2,3 for up,left,right,down.

The index-epsilon 'e' and the what-new-direction-if-we-hit-a-slash 's' are computed by a table. For example, if the current direction 'd' is 0 (up), then the first element of the table says "-w,2" which means we decrement the index by w, and if we hit a slash the new direction is 2 (right).

Now we recurse into the next function 'n' with (1) the next index ("c+e" - current plus epsilon), and (2) the new direction, which we compute by looking ahead to see what's in the array in that next cell. If the lookahead char is a slash, the new direction is 's'. If it's a backslash, the new direction is 3-s (our choice of encoding 0123 makes this work). If it's a space, we just keep going in the same direction 'd'. And if it's any other character 'c', then the game ends, printing 'true' if the char was 'x' and false otherwise.

To kick things off, we call the recursive function 'n' with the initial position 'c' and the starting direction (which does the initial encoding of direction into 0123).

I think I can probably still shave a few more characters off it, but I am pretty pleased with it like this (and 255 is a nice number).

Weighing in at 18203 characters is a Python solution that can:

• cope with mirrors outside of the 'room'
• calculate the trajectory when there is no 'room' on the basis of 2D limitations (the spec says lots about what has to be in the 'room' but not if the room has to exist)
• report back on errors

It still needs tidied up somewhat and I do not know if 2D physics dictate that the beam cannot cross itself...

``````#!/usr/bin/env python
# -*- coding: utf-8 -*-

"""
The shortest code by character count to input a 2D representation of a board,
and output 'true' or 'false' according to the input.

The board is made out of 4 types of tiles:

# - A solid wall
x - The target the laser has to hit
/ or \ - Mirrors pointing to a direction (depends on laser direction)
v, ^, > or < - The laser pointing to a direction (down, up, right and left
respectively)

There is only one laser and only one target. Walls must form a solid rectangle
of any size, where the laser and target are placed inside. Walls inside the
'room' are possible.

Laser ray shots and travels from it's origin to the direction it's pointing. If
a laser ray hits the wall, it stops. If a laser ray hits a mirror, it is bounces
90 degrees to the direction the mirror points to. Mirrors are two sided, meaning
both sides are 'reflective' and may bounce a ray in two ways. If a laser ray
hits the laser (^v><) itself, it is treated as a wall (laser beam destroys the
beamer and so it'll never hit the target).
"""

SOLID_WALL, TARGET, MIRROR_NE_SW, MIRROR_NW_SE, LASER_DOWN, LASER_UP, \
LASER_RIGHT, LASER_LEFT = range(8)

MIRRORS = (MIRROR_NE_SW, MIRROR_NW_SE)

LASERS = (LASER_DOWN, LASER_UP, LASER_RIGHT, LASER_LEFT)

DOWN, UP, RIGHT, LEFT = range(4)

LASER_DIRECTIONS = {
LASER_DOWN : DOWN,
LASER_UP   : UP,
LASER_RIGHT: RIGHT,
LASER_LEFT : LEFT
}

ROW, COLUMN = range(2)

RELATIVE_POSITIONS = {
DOWN : (ROW,     1),
UP   : (ROW,    -1),
RIGHT: (COLUMN,  1),
LEFT : (COLUMN, -1)
}

TILES = {"#" : SOLID_WALL,
"x" : TARGET,
"/" : MIRROR_NE_SW,
"\\": MIRROR_NW_SE,
"v" : LASER_DOWN,
"^" : LASER_UP,
">" : LASER_RIGHT,
"<" : LASER_LEFT}

REFLECTIONS = {MIRROR_NE_SW: {DOWN : LEFT,
UP   : RIGHT,
RIGHT: UP,
LEFT : DOWN},
MIRROR_NW_SE: {DOWN : RIGHT,
UP   : LEFT,
RIGHT: DOWN,
LEFT : UP}}

def does_laser_hit_target(tiles):
"""
Follows a lasers trajectory around a grid of tiles determining if it
will reach the target.

Keyword arguments:
tiles --- row/column based version of a board containing symbolic
versions of the tiles (walls, laser, target, etc)
"""

#Obtain the position of the laser
laser_pos = get_laser_pos(tiles)

#Retrieve the laser's tile
laser = get_tile(tiles, laser_pos)

#Create an editable starting point for the beam
beam_pos = list(laser_pos)

#Create an editable direction for the beam
beam_dir = LASER_DIRECTIONS[laser]

#Cache the number of rows
number_of_rows = len(tiles)

#Keep on looping until an ultimate conclusion
while True:

#Discover the axis and offset the beam is travelling to
axis, offset = RELATIVE_POSITIONS[beam_dir]

#Modify the beam's position
beam_pos[axis] += offset

#Allow for a wrap around in this 2D scenario
try:

#Get the beam's new tile
tile = get_tile(tiles, beam_pos)

#Perform wrapping
except IndexError:

#Obtain the row position
row_pos = beam_pos[ROW]

#Handle vertical wrapping
if axis == ROW:

#Handle going off the top
if row_pos == -1:

#Move beam to the bottom
beam_pos[ROW] = number_of_rows - 1

#Handle going off the bottom
elif row_pos == number_of_rows:

#Move beam to the top
beam_pos[ROW] = 0

#Handle horizontal wrapping
elif axis == COLUMN:

#Obtain the row
row = tiles[row_pos]

#Calculate the number of columns
number_of_cols = len(row)

#Obtain the column position
col_pos = beam_pos[COLUMN]

#Handle going off the left hand side
if col_pos == -1:

#Move beam to the right hand side
beam_pos[COLUMN] = number_of_cols - 1

#Handle going off the right hand side
elif col_pos == number_of_cols:

#Move beam to the left hand side
beam_pos[COLUMN] = 0

#Get the beam's new tile
tile = get_tile(tiles, beam_pos)

#Handle hitting a wall or the laser
if tile in LASERS \
or tile == SOLID_WALL:
return False

#Handle hitting the target
if tile == TARGET:
return True

#Handle hitting a mirror
if tile in MIRRORS:
beam_dir = reflect(tile, beam_dir)

def get_laser_pos(tiles):
"""
Returns the current laser position or an exception.

Keyword arguments:
tiles --- row/column based version of a board containing symbolic
versions of the tiles (walls, laser, target, etc)
"""

#Calculate the number of rows
number_of_rows = len(tiles)

#Loop through each row by index
for row_pos in range(number_of_rows):

#Obtain the current row
row = tiles[row_pos]

#Calculate the number of columns
number_of_cols = len(row)

#Loop through each column by index
for col_pos in range(number_of_cols):

#Obtain the current column
tile = row[col_pos]

#Handle finding a laser
if tile in LASERS:

#Return the laser's position
return row_pos, col_pos

def get_tile(tiles, pos):
"""
Retrieves a tile at the position specified.

Keyword arguments:
pos --- a row/column position of the tile
tiles --- row/column based version of a board containing symbolic
versions of the tiles (walls, laser, target, etc)
"""

#Obtain the row position
row_pos = pos[ROW]

#Obtain the column position
col_pos = pos[COLUMN]

#Obtain the row
row = tiles[row_pos]

#Obtain the tile
tile = row[col_pos]

#Return the tile
return tile

def get_wall_pos(tiles, reverse=False):
"""
Keyword arguments:
tiles --- row/column based version of a board containing symbolic
versions of the tiles (walls, laser, target, etc)
reverse --- whether to search in reverse order or not (defaults to no)
"""

number_of_rows = len(tiles)

row_iter = range(number_of_rows)

if reverse:
row_iter = reversed(row_iter)

for row_pos in row_iter:
row = tiles[row_pos]

number_of_cols = len(row)

col_iter = range(number_of_cols)

if reverse:
col_iter = reversed(col_iter)

for col_pos in col_iter:
tile = row[col_pos]

if tile == SOLID_WALL:
pos = row_pos, col_pos

if reverse:
offset = -1
else:
offset = 1

for axis in ROW, COLUMN:
next_pos = list(pos)

next_pos[axis] += offset

try:
next_tile = get_tile(tiles, next_pos)
except IndexError:
next_tile = None

if next_tile != SOLID_WALL:
raise WallOutsideRoomError(row_pos, col_pos)

return pos

def identify_tile(tile):
"""
Returns a symbolic value for every identified tile or None.

Keyword arguments:
tile --- the tile to identify
"""

#Safely lookup the tile
try:

#Return known tiles
return TILES[tile]

#Handle unknown tiles
except KeyError:

#Return a default value
return

def main():
"""
Takes a board from STDIN and either returns a result to STDOUT or an
error to STDERR.

Called when this file is run on the command line.
"""

#As this function is the only one to use this module, and it can only be
#called once in this configuration, it makes sense to only import it here.
import sys

#Reads the board from standard input.

#Safely handles outside input
try:

#Calculates the result of shooting the laser
result = shoot_laser(board)

#Handles multiple item errors
except (MultipleLaserError, MultipleTargetError) as error:

#Display the error
sys.stderr.write("%s\n" % str(error))

#Loop through all the duplicated item symbols
for symbol in error.symbols:

#Highlight each symbol in green
board = board.replace(symbol, "\033[01;31m%s\033[m" % symbol)

#Display the board
sys.stderr.write("%s\n" % board)

#Exit with an error signal
sys.exit(1)

#Handles item missing errors
except (NoLaserError, NoTargetError) as error:

#Display the error
sys.stderr.write("%s\n" % str(error))

#Display the board
sys.stderr.write("%s\n" % board)

#Exit with an error signal
sys.exit(1)

#Handles errors caused by symbols
except (OutsideRoomError, WallNotRectangleError) as error:

#Displays the error
sys.stderr.write("%s\n" % str(error))

lines = board.split("\n")

line = lines[error.row_pos]

before = line[:error.col_pos]

after = line[error.col_pos + 1:]

symbol = line[error.col_pos]

line = "%s\033[01;31m%s\033[m%s" % (before, symbol, after)

lines[error.row_pos] = line

board = "\n".join(lines)

#Display the board
sys.stderr.write("%s\n" % board)

#Exit with an error signal
sys.exit(1)

#Handles errors caused by non-solid walls
except WallNotSolidError as error:

#Displays the error
sys.stderr.write("%s\n" % str(error))

lines = board.split("\n")

line = lines[error.row_pos]

before = line[:error.col_pos]

after = line[error.col_pos + 1:]

symbol = line[error.col_pos]

line = "%s\033[01;5;31m#\033[m%s" % (before, after)

lines[error.row_pos] = line

board = "\n".join(lines)

#Display the board
sys.stderr.write("%s\n" % board)

#Exit with an error signal
sys.exit(1)

#If a result was returned
else:

#Converts the result into a string
result_str = str(result)

#Makes the string lowercase
lower_result = result_str.lower()

#Returns the result
sys.stdout.write("%s\n" % lower_result)

def parse_board(board):
"""
Interprets the raw board syntax and returns a grid of tiles.

Keyword arguments:
board --- the board containing the tiles (walls, laser, target, etc)
"""

#Create a container for all the lines
tiles = list()

#Loop through all the lines of the board
for line in board.split("\n"):

#Identify all the tiles on the line
row = [identify_tile(tile) for tile in line]

#Add the row to the container
tiles.append(row)

#Return the container
return tiles

def reflect(mirror, direction):
"""
Returns an updated laser direction after it has been reflected on a
mirror.

Keyword arguments:
mirror --- the mirror to reflect the laser from
direction --- the direction the laser is travelling in
"""

try:
direction_lookup = REFLECTIONS[mirror]
except KeyError:
raise TypeError("%s is not a mirror.", mirror)

try:
return direction_lookup[direction]
except KeyError:
raise TypeError("%s is not a direction.", direction)

def shoot_laser(board):
"""
Shoots the boards laser and returns whether it will hit the target.

Keyword arguments:
board --- the board containing the tiles (walls, laser, target, etc)
"""

tiles = parse_board(board)

validate_board(tiles)

return does_laser_hit_target(tiles)

def validate_board(tiles):
"""
Checks an board to see if it is valid and raises an exception if not.

Keyword arguments:
tiles --- row/column based version of a board containing symbolic
versions of the tiles (walls, laser, target, etc)
"""

found_laser = False
found_target = False

try:
n_wall, w_wall = get_wall_pos(tiles)
s_wall, e_wall = get_wall_pos(tiles, reverse=True)
except TypeError:
n_wall = e_wall = s_wall = w_wall = None

number_of_rows = len(tiles)

for row_pos in range(number_of_rows):
row = tiles[row_pos]

number_of_cols = len(row)

for col_pos in range(number_of_cols):

tile = row[col_pos]

if ((row_pos in (n_wall, s_wall) and
col_pos in range(w_wall, e_wall))
or
(col_pos in (e_wall, w_wall) and
row_pos in range(n_wall, s_wall))):
if tile != SOLID_WALL:
raise WallNotSolidError(row_pos, col_pos)
elif (n_wall != None and
(row_pos < n_wall or
col_pos > e_wall or
row_pos > s_wall or
col_pos < w_wall)):

if tile in LASERS:
raise LaserOutsideRoomError(row_pos, col_pos)
elif tile == TARGET:
raise TargetOutsideRoomError(row_pos, col_pos)
elif tile == SOLID_WALL:
if not (row_pos >= n_wall and
col_pos <= e_wall and
row_pos <= s_wall and
col_pos >= w_wall):
raise WallOutsideRoomError(row_pos, col_pos)
else:
if tile in LASERS:
found_laser = True
else:
raise MultipleLaserError(row_pos, col_pos)
elif tile == TARGET:
found_target = True
else:
raise MultipleTargetError(row_pos, col_pos)

raise NoLaserError(tiles)

raise NoTargetError(tiles)

class LasersError(Exception):
"""Parent Error Class for all errors raised."""

pass

class NoLaserError(LasersError):
"""Indicates that there are no lasers on the board."""

symbols = "^v><"

def __str__ (self):
return "No laser (%s) to fire." % ", ".join(self.symbols)

class NoTargetError(LasersError):
"""Indicates that there are no targets on the board."""

symbols = "x"

def __str__ (self):
return "No target (%s) to hit." % ", ".join(self.symbols)

class MultipleLaserError(LasersError):
"""Indicates that there is more than one laser on the board."""

symbols = "^v><"

def __str__ (self):
return "Too many lasers (%s) to fire, only one is allowed." % \
", ".join(self.symbols)

class MultipleTargetError(LasersError):
"""Indicates that there is more than one target on the board."""

symbols = "x"

def __str__ (self):
return "Too many targets (%s) to hit, only one is allowed." % \
", ".join(self.symbols)

class WallNotSolidError(LasersError):
"""Indicates that the perimeter wall is not solid."""

__slots__ = ("__row_pos", "__col_pos", "n_wall", "s_wall", "e_wall",
"w_wall")

def __init__(self, row_pos, col_pos):
self.__row_pos = row_pos
self.__col_pos = col_pos

def __str__ (self):
return "Walls must form a solid rectangle."

def __get_row_pos(self):
return self.__row_pos

def __get_col_pos(self):
return self.__col_pos

row_pos = property(__get_row_pos)
col_pos = property(__get_col_pos)

class WallNotRectangleError(LasersError):
"""Indicates that the perimeter wall is not a rectangle."""

__slots__ = ("__row_pos", "__col_pos")

def __init__(self, row_pos, col_pos):
self.__row_pos = row_pos
self.__col_pos = col_pos

def __str__ (self):
return "Walls must form a rectangle."

def __get_row_pos(self):
return self.__row_pos

def __get_col_pos(self):
return self.__col_pos

row_pos = property(__get_row_pos)
col_pos = property(__get_col_pos)

class OutsideRoomError(LasersError):
"""Indicates an item is outside of the perimeter wall."""

__slots__ = ("__row_pos", "__col_pos", "__name")

def __init__(self, row_pos, col_pos, name):
self.__row_pos = row_pos
self.__col_pos = col_pos
self.__name = name

def __str__ (self):
return "A %s was found outside of a 'room'." % self.__name

def __get_row_pos(self):
return self.__row_pos

def __get_col_pos(self):
return self.__col_pos

row_pos = property(__get_row_pos)
col_pos = property(__get_col_pos)

class LaserOutsideRoomError(OutsideRoomError):
"""Indicates the laser is outside of the perimeter wall."""

def __init__ (self, row_pos, col_pos):
OutsideRoomError.__init__(self, row_pos, col_pos, "laser")

class TargetOutsideRoomError(OutsideRoomError):
"""Indicates the target is outside of the perimeter wall."""

def __init__ (self, row_pos, col_pos):
OutsideRoomError.__init__(self, row_pos, col_pos, "target")

class WallOutsideRoomError(OutsideRoomError):
"""Indicates that there is a wall outside of the perimeter wall."""

def __init__ (self, row_pos, col_pos):
OutsideRoomError.__init__(self, row_pos, col_pos, "wall")

if __name__ == "__main__":
main()
``````

A bash script to show off the colour error reporting:

``````#!/bin/bash

declare -a TESTS

test() {
echo -e "\033[1m\$1\033[0m"
tput sgr0
echo "\$2" | ./lasers.py
echo
}

test \
"no laser" \
"    ##########
#     x  #
# /      #
#       /#
#   \\    #
##########"

test \
"multiple lasers" \
"    ##########
#   v x  #
# /      #
#       /#
#   \\  ^ #
##########"

test \
"no target" \
"    ##########
#   v    #
# /      #
#       /#
#   \\    #
##########"

test \
"multiple targets" \
"    ##########
#   v x  #
# /      #
#       /#
#   \\  x #
##########"

test \
"wall not solid" \
"    ##### ####
#   v x  #
# /      #
#       /#
#   \\    #
##########"

test \
"laser_outside_room" \
"    ##########
>  #     x  #
# /      #
#       /#
#   \\    #
##########"

test \
"laser before room" \
" >  ##########
#     x  #
# /      #
#       /#
#   \\    #
##########"

test \
"laser row before room" \
"   >
##########
#     x  #
# /      #
#       /#
#   \\    #
##########"

test \
"laser after room" \
"    ##########
#     x  #
# /      #
#       /#
#   \\    #
##########  >"

test \
"laser row after room" \
"    ##########
#     x  #
# /      #
#       /#
#   \\    #
##########
> "

test \
"target outside room" \
"    ##########
x  #   v    #
# /      #
#       /#
#   \\    #
##########"

test \
"target before room" \
" x  ##########
#   v    #
# /      #
#       /#
#   \\    #
##########"

test \
"target row before room" \
"   x
##########
#   v    #
# /      #
#       /#
#   \\    #
##########"

test \
"target after room" \
"    ##########
#   v    #
# /      #
#       /#
#   \\    #
##########   x"

test \
"target row after room" \
"    ##########
#   v    #
# /      #
#       /#
#   \\    #
##########
x "

test \
"wall outside room" \
"    ##########
#  #   v    #
# /      #
#       /#
#   \\  x #
##########"

test \
"wall before room" \
" #  ##########
#   v    #
# /      #
#       /#
#   \\  x #
##########"

test \
"wall row before room" \
"    #
##########
#   v    #
# /      #
#       /#
#   \\  x #
##########"

test \
"wall after room" \
"    ##########
#   v    #
# /      #
#       /#
#   \\  x #
########## #"

test \
"wall row after room" \
"    ##########
#   v    #
# /      #
#       /#
#   \\  x #
##########
#"

test \
"mirror outside room positive" \
"    ##########
/  #   / \\  #
#        #
#   \\   x#
# >   /  #
########## "

test \
"mirrors outside room negative" \
"    ##########
\\  #   v x  #
# /      #
#       /#
#   \\    #
##########"

test \
"mirror before room positive" \
" \\  ##########
#   / \\  #
#        #
#   \\   x#
# >   /  #
########## "

test \
"mirrors before room negative" \
" /  ##########
#   v x  #
# /      #
#       /#
#   \\    #
##########"

test \
"mirror row before room positive" \
"     \\
##########
#   / \\  #
#        #
#   \\   x#
# >   /  #
########## "

test \
"mirrors row before room negative" \
"     \\
##########
#   v x  #
# /      #
#       /#
#   \\    #
##########"

test \
"mirror after row positive" \
"    ##########
#   / \\  #
#        #
#   \\   x#
# >   /  #
########## /  "

test \
"mirrors after row negative" \
"    ##########
#   v x  #
# /      #
#       /#
#   \\    #
##########   /  "

test \
"mirror row after row positive" \
"    ##########
#   / \\  #
#        #
#   \\   x#
# >   /  #
##########
/  "

test \
"mirrors row after row negative" \
"    ##########
#   v x  #
# /      #
#       /#
#   \\    #
##########
/  "

test \
"laser hitting laser" \
"    ##########
#   v   \\#
#        #
#        #
#x  \\   /#
##########"

test \
"mirrors positive" \
"    ##########
#   / \\  #
#        #
#   \\   x#
# >   /  #
########## "

test \
"mirrors negative" \
"    ##########
#   v x  #
# /      #
#       /#
#   \\    #
##########"

test \
"wall collision" \
"    #############
#     #     #
# >   #     #
#     #     #
#     #   x #
#     #     #
#############"

test \
"extreme example" \
"    ##########
#/\\/\\/\\  #
#\\\\//\\\\\\ #
#//\\/\\/\\\\#
#\\/\\/\\/x^#
##########"

test \
"brian example 1" \
"##########
#   / \\  #
#        #
#/    \\ x#
#\\>   /  #
##########"

test \
"brian example 2" \
"##########
#  /    \\#
# / \\    #
#/    \\ x#
#\\^/\\ /  #
##########"
``````

The unittests used in development:

``````#!/usr/bin/env python
# -*- coding: utf-8 -*-

import unittest

from lasers import *

class TestTileRecognition(unittest.TestCase):
def test_solid_wall(self):
self.assertEqual(SOLID_WALL, identify_tile("#"))

def test_target(self):
self.assertEqual(TARGET, identify_tile("x"))

def test_mirror_ne_sw(self):
self.assertEqual(MIRROR_NE_SW, identify_tile("/"))

def test_mirror_nw_se(self):
self.assertEqual(MIRROR_NW_SE, identify_tile("\\"))

def test_laser_down(self):
self.assertEqual(LASER_DOWN, identify_tile("v"))

def test_laser_up(self):
self.assertEqual(LASER_UP, identify_tile("^"))

def test_laser_right(self):
self.assertEqual(LASER_RIGHT, identify_tile(">"))

def test_laser_left(self):
self.assertEqual(LASER_LEFT, identify_tile("<"))

def test_other(self):
self.assertEqual(None, identify_tile(" "))

class TestReflection(unittest.TestCase):
def setUp(self):
self.DIRECTION = LEFT
self.NOT_DIRECTIO
``````
• Laser physics dictate that the beam can cross itself. The comment above is an important cultural reference. – dmckee --- ex-moderator kitten Sep 27 '09 at 21:49
• Tortoise and the Hare approach to code golf. Deliver something with obviously too many characters (91x more than the current winner) but pay attention to every letter of the spec. Slow and steady generally gets me less contract work though. – Metalshark Sep 28 '09 at 6:06
• Your unittest seems to be missing some part. It is cut off at "self.NOT_DIRECTIO" – BioGeek Mar 8 '10 at 11:28
• @BioGeek - hit the limit for how post length ;). Besides the BASH style tests show off the colour highlighting. – Metalshark Aug 3 '11 at 11:08

# Ruby, 176 characters

``````x=!0;y=0;e="^v<>#x";b=readlines;b.map{|l|(x||=l=~/[v^<>]/)||y+=1};c=e.index(b[y][x])
loop{c<2&&y+=c*2-1;c>1&&x+=2*c-5;e.index(n=b[y][x])&&(p n==?x;exit);c^='  \/'.index(n)||0}
``````

I used a simple state machine (like most posters), nothing fancy. I just kept whittling it down using every trick I could think of. The bitwise XOR used to change direction (stored as an integer in the variable `c`) was a big improvement over the conditionals I had in earlier versions.

I have a suspicion that the code that increments `x` and `y` could be made shorter. Here is the section of the code that does the incrementing:

``````c<2&&y+=c*2-1;c>1&&x+=(c-2)*2-1
``````

Edit: I was able to shorten the above slightly:

``````c<2&&y+=c*2-1;c>1&&x+=2*c-5
``````

The current direction of the laser `c` is stored as follows:

```0 => up
1 => down
2 => left
3 => right
```

The code relies on this fact to increment `x` and `y` by the correct amount (0, 1, or -1). I tried rearranging which numbers map to each direction, looking for an arrangement that would let me do some bitwise manipulation to increment the values, because I have a nagging feeling that it would be shorter than the arithmetic version.

## C# 3.0

259 chars

``````bool S(char[]m){var w=Array.FindIndex(m,x=>x<11)+1;var s=Array.FindIndex(m,x=>x>50&x!=92&x<119);var t=m[s];var d=t<61?-1:t<63?1:t<95?-w:w;var u=0;while(0<1){s+=d;u=m[s];if(u>119)return 0<1;if(u==47|u==92)d+=d>0?-w-1:w+1;else if(u!=32)return 0>1;d=u>47?-d:d;}}
``````

``````bool Simulate(char[] m)
{
var w = Array.FindIndex(m, x => x < 11) + 1;
var s = Array.FindIndex(m, x => x > 50 & x != 92 & x < 119);
var t = m[s];
var d = t < 61 ? -1 : t < 63 ? 1 : t < 95 ? -w : w;
var u = 0;
while (0 < 1)
{
s += d;
u = m[s];
if (u > 119)
return 0 < 1;
if (u == 47 | u == 92)
d += d > 0 ? -w - 1 : w + 1;
else if (u != 32)
return 0 > 1;
d = u > 47 ? -d : d;
}
}
``````

The main waste of chars seems to be in finding the width of the map and the position of the laser source. Any ideas how to shorten this?

• I'm not sure if this shorter but it's my shot at finding the laser and finding width: using L=List<string>;using P=System.Drawing.Point;using L=List<string>;L r=new L(){"v","<",">","^"};P p=new P();r.ForEach(a =>{int c = 0;v.ForEach(s =>{c++;if(s.IndexOf(a)!=-1){p.X=s.IndexOf(a);p.Y= c;}});});int l=v.Length; v is a List<string> containing the table, and it outputs a Point representing laser position + an int representing width – RCIX Sep 26 '09 at 19:46
• better: using L=List<string>;L l=new L(4){"v", "<", ">", "^" };var point=new{x=0,y=0};int c=0;l.ForEach(a=>{m.ForEach(s=>{if(s.IndexOf(a)!=-1){point=new{x=s.IndexOf(a),y=c};}});c++;});int w=m.Length; – RCIX Sep 26 '09 at 20:03
• Problems asks for a full program, not a function. – strager Sep 27 '09 at 5:42
• how about `while(1)` – SSpoke Jul 22 '13 at 0:29

C + ASCII, 197 characters:

``````G,*p=G,w,z,t,*b;main(){for(;(*p++=t=getchar()^32)>=0;w=w|t-42?w:p-G)z=t^86?t^126?t^28?t^30?z:55:68:56:75,b=z?b:p;for(;t=z^55?z^68?z^56?z^75?0:w:-w:-1:1;z^=*b)b+=t;puts(*b^88?"false":"true");}
``````

This C solution assumes an ASCII character set, allowing us to use the XOR mirror trick. It's also incredibly fragile - all the input lines must be the same length, for example.

It breaks under the 200 character mark - but dang it, still haven't beaten those Perl solutions!

• =O! +1! Grats on beating me. =] – strager Sep 29 '09 at 21:04
• Most good solutions here make the "all lines are the same length" assumption. All's fair in golf and war. – hobbs Sep 30 '09 at 4:53
• If it was required the lines weren't the same length, I'd add a test case for it. but I clearly said it was intentional :) – LiraNuna Oct 1 '09 at 20:18

## Golfscript (83 characters)

Hello, gnibbler!

``````:\'><v^'.{\?}%{)}?:P@=?{:O[1-1\10?).~)]=P+
:P\=' \/x'?[O.2^.1^'true''false']=.4/!}do
``````
• golfscript:perl ~= 1:1.7 – John La Rooy Nov 9 '09 at 3:45

# Python - 152

Reads input from a file called "L"

``````A=open("L").read()
W=A.find('\n')+1
D=P=-1
while P<0:D+=1;P=A.find(">^<v"[D])
while D<4:P+=[1,-W,-1,W][D];D=[D,D^3,D^1,4,5][' \/x'.find(A[P])]
print D<5
``````

To read from stdin replace the first line with this

``````import os;A=os.read(0,1e9)
``````

If you need lowercase true/false change the last line to

``````print`D<5`.lower()
``````
• How many chars does it take to change `True` to `true` and `False` to `false`? ;-) – mob Nov 10 '09 at 5:40
• Couldn't you remove 1 character by changing "print`D<5`" to "print D<5"? Or is there something I'm missing? – Ponkadoodle Feb 12 '10 at 2:32
• @wallacoloo, sure can. It's only needed for the lowercase true/false – John La Rooy Feb 12 '10 at 2:54

JavaScript - 265 Characters

Update IV - Odds are this will be the last round of updates, managed to save a couple more characters by switching to a do-while loop and rewriting the movement equation.

Update III - Thanks to the suggestion by strager in regards to removing Math.abs() and putting the variables in the global name space, that coupled with some rearranging of the variable assignments got the code down to 282 characters.

Update II - Some more updates to the code to remove the use of != -1 as well as some better use of variables for longer operations.

Update - When through and made some changes by creating a reference to the indexOf function (thanks LiraNuna!) and removing parenthesis that were not needed.

This is my first time doing a code golf so I'm not sure how much better this could be, any feed back is appreciated.

Fully minimized version:

``````a;b;c;d;e;function f(g){a=function(a){return g.indexOf(a)};b=a("\n")+1;a=g[c=e=a("v")>0?e:e=a("^")>0?e:e=a("<")>0?e:a(">")];d=a=="<"?-1:a==">"?1:a=="^"?-b:b;do{e=d==-1|d==1;a=g[c+=d=a=="\\"?e?b*d:d>0?1:-1:a=="/"?e?-b*d:d>0?1:-1:d];e=a=="x"}while(a!="#"^e);return e}
``````

``````character; length; loc; movement; temp;
function checkMaze(maze) {
// Use a shorter indexOf function
character = function(string) { return maze.indexOf(string); }
// Get the length of the maze
length = character("\n") + 1;
// Get the location of the laser in the string
character = maze[loc = temp = character("v") > 0 ? temp :
temp = character("^") > 0 ? temp :
temp = character("<") > 0 ? temp : character(">")];
// Get the intial direction that we should travel
movement = character == "<" ? -1 :
character == ">" ? 1 :
character == "^" ? -length : length;
// Move along until we reach the end
do {
// Get the current character
temp = movement == -1 | movement == 1;
character = maze[loc += movement = character == "\\" ? temp ? length * movement : movement > 0 ? 1 : -1 :
character == "/" ? temp ? -length * movement : movement > 0 ? 1 : -1 : movement];
// Have we hit a target?
temp = character == "x";
// Have we hit a wall?
} while (character != "#" ^ temp);
// temp will be false if we hit the target
return temp;
}
``````

Web page to test with:

``````<html>
<title>Code Golf - Lasers</title>
<script type="text/javascript">
a;b;c;d;e;function f(g){a=function(a){return g.indexOf(a)};b=a("\n")+1;a=g[c=e=a("v")>0?e:e=a("^")>0?e:e=a("<")>0?e:a(">")];d=a=="<"?-1:a==">"?1:a=="^"?-b:b;do{e=d==-1|d==1;a=g[c+=d=a=="\\"?e?b*d:d>0?1:-1:a=="/"?e?-b*d:d>0?1:-1:d];e=a=="x"}while(a!="#"^e);return e}
</script>
<body>
<textarea id="maze" rows="10" cols="10"></textarea>
</body>
</html>
``````
• how does it take input? I want to test and verify this. Also, you can save a lot of characters if you save a ref to a.indexOf – LiraNuna Sep 28 '09 at 21:29
• Replace `index != -1` with `index > 0` please! (Hopefully no one puts the lazer in the top-left corner so `0` wouldn't be returned. =]) You can chain the `var` statements or get rid of them altogether (putting the variables in the global namespace). I think `Math.abs(m)==1` can be replaced with `m==-1|m==1`. Can `movement = ...; location += movement` be optimized to `location += movement =` ? – strager Sep 28 '09 at 23:24
• @strager- Just saw your comment, looks like you posted it up while I was updating the code, down to 300 characters. I'll see what I can do with the elimination of Math.abs(). – rjzii Sep 28 '09 at 23:31
• `function(a){return g.indexOf(a)}` can be replaced with `function(a)g.indexOf(a)` in recent JavaScript versions. – user1686 Jun 10 '10 at 15:16

House of Mirrors

Not an actual entry to the challenge, but I wrote a game based on this concept (not too long back).

It's written in Scala, open-source and available here:

It does a little bit more; deals with colors and various types of mirrors and devices, but version 0.00001 did exactly what this challenge asks. I have lost that version though and it was never optimised for character count anyway.

• Would it be possible for you to upload a compiled version that works under Windows without having to install scala? – Milan Sep 27 '09 at 20:46
• There is a version with Scala libraries included. Look at the list of downloads. But anyway, if you have installed Scala by now, I am glad I got you to do that :) – HRJ Sep 28 '09 at 6:43

## c (K&R) 339 necessary characters after more suggestions from strager.

The physicist in me noted that the propagation and reflection operations are time-reversal invariant, so this version, throws rays from the target and checks to see if the arrive at the laser emitter.

The rest of the implementation is very straight forward and is taken more or less exactly from my earlier, forward going effort.

Compressed:

``````#define R return
#define C case
#define Z x,y
int c,i,j,m,Z;s(d,e,Z){for(;;)switch(m[x+=d][y+=e]){C'^':R 1==e;
C'>':R-1==d;C'v':R-1==e;C'<':R 1==d;C'#':C'x':R 0;C 92:e=-e;d=-d;C'/':c=d;
d=-e;e=-c;}}main(){while((c=getchar())>0)c==10?i=0,j++:(c==120?x=i,y=j:
i,m[i++][j]=c);puts(s(1,0,Z)|s(0,1,Z)|s(-1,0,Z)|s(0,-1,Z)?"true":"false");}
``````

Uncompressed(ish):

``````#define R return
#define C case
#define Z x,y
int c,i,j,m,Z;
s(d,e,Z)
{
for(;;)
switch(m[x+=d][y+=e]){
C'^':
R 1==e;
C'>':
R-1==d;
C'v':
R-1==e;
C'<':
R 1==d;
C'#':
C'x':
R 0;
C 92:
e=-e;
d=-d;
C'/':
c=d;
d=-e;
e=-c;
}
}
main(){
while((c=getchar())>0)
c==10?i=0,j++:
(c==120?x=i,y=j:i,m[i++][j]=c);
puts(s(1,0,Z)|s(0,1,Z)|s(-1,0,Z)|s(0,-1,Z)?"true":"false");
}
``````

There is no input validation, and bad input can send it into an infinite loop. Works properly with input no larger than 99 by 99. Requires a compiler that will link the standard library without including any of the headers. And I think I'm done, strager has me beat by a considerable stretch, even with his help.

I'm rather hoping someone will demonstrate a more subtle way to accomplish the task. There s nothing wrong with this, but it is not deep magic.

• No need for `=0` on the globals as they are initialized to 0 by default. Replace character constants with their equivalent in decimal. Use `>0` instead of `!=EOF` to check against EOF (and `\0`). You can probably `#define` away some of the code in the `case` like I did with `if`'s. No need for the extra `\n` in the `puts` as `puts` must print a newline anyway. `for(;;)` is shorter than `while(1)`. Hope this helps. =] – strager Sep 26 '09 at 2:01
• @strager: Thanks. I always come at these iteratively, because I don't think that way... – dmckee --- ex-moderator kitten Sep 26 '09 at 2:03
• `"There is no input validation"` - There shouldn't be any. To make it easy on golfers, input is assumed to always be 'clean' unless otherwise specified. – LiraNuna Sep 26 '09 at 2:07
• @dmckee, Don't worry, us Code Golf pros work iteratively as well. However, we generally use some tricks right from the start (like half the ones I mentioned), but that comes with experience. =] – strager Sep 26 '09 at 2:12
• Unless I'm counting wrong, the program is 390 characters, not 380. – strager Sep 26 '09 at 3:02

## Ruby - 146 Chars

``````A=\$<.read
W=A.index('
')+1
until
q=A.index(">^<v"[d=d ?d+1:0])
end
while d<4
d=[d,d^3,d^1,4,5][(' \/x'.index(A[q+=[1,-W,-1,W][d]])or 4)]
end
p 5>d
``````

# PostScript, 359 bytes

First attempt, lots of room for improvement...

``````/a[{(%stdin)(r)file 99 string readline not{exit}if}loop]def a{{[(^)(>)(<)(v)]{2
copy search{stop}if pop pop}forall}forall}stopped/r count 7 sub def pop
length/c exch def[(>)0(^)1(<)2(v)3>>exch get/d exch def{/r r[0 -1 0 1]d get
add def/c c[1 0 -1 0]d get add def[32 0 47 1 92 3>>a r get c get .knownget
not{exit}if/d exch d xor def}loop a r get c get 120 eq =
``````

Haskell, 395 391 383 361 339 characters (optimized)

Still uses a generic state machine, rather than anything clever:

``````k="<>^v"
o(Just x)=x
s y(h:t)=case b of{[]->s(y+1)t;(c:_)->(c,length a,y)}where(a,b)=break(flip elem k)h
r a = f\$s 0 a where f(c,x,y)=case i(a!!v!!u)"x /\\"["true",g k,g"v^><",g"^v<>"]of{Just r->r;_->"false"}where{i x y=lookup x.zip y;j=o.i c k;u=j[x-1,x+1,x,x];v=j[y,y,y-1,y+1];g t=f(j t,u,v)}
main=do{z<-getContents;putStrLn\$r\$lines z}
``````

``````k="<>^v"    -- "key" for direction
o(Just x)=x -- "only" handle successful search
s y(h:t)=case b of  -- find "start" state
[]->s(y+1)t
(c:_)->(c,length a,y)
where (a,b)=break(flip elem k)h
r a = f\$s 0 a where -- "run" the state machine (iterate with f)
f(c,x,y)=case i(a!!v!!u)"x /\\"["true",g k,g"v^><",g"^v<>"] of
Just r->r
_->"false"
where
i x y=lookup x.zip y -- "index" with x using y as key
j=o.i c k -- use c as index k as key; assume success
u=j[x-1,x+1,x,x] -- new x coord
v=j[y,y,y-1,y+1] -- new y coord
g t=f(j t,u,v) -- recurse; use t for new direction
main=do
z<-getContents
putStrLn\$r\$lines z
``````

I believe in Code Reuse, I'd use one of your code as an API :).

```  puts Board.new.validate(input)
```

32 characters \o/... wohoooo

• that's a double bogey! – Jeff Atwood Sep 26 '09 at 10:00
• Beat you to it: p Board.new.validate input 26 characters \o/ – Alessandra Pereyra Sep 26 '09 at 17:06

C++: 388 characters

``````#include<iostream>
#include<string>
#include<deque>
#include<cstring>
#define w v[y][x]
using namespace std;size_t y,x,*z[]={&y,&x};int main(){string p="^v<>",s;deque<string>v;
while(getline(cin,s))v.push_back(s);while(x=v[++y].find_first_of(p),!(x+1));int
i=p.find(w),d=i%2*2-1,r=i/2;do while(*z[r]+=d,w=='/'?d=-d,0:w==' ');while(r=!r,
!strchr("#x<^v>",w));cout<<(w=='x'?"true":"false");}
``````

How it works:

First, all lines are read in, then, the laser is found. The following will evaluate to `0` as long as no laser arrow was found yet, and the same time assign to `x` the horizontal position.

``````x=v[++y].find_first_of(p),!(x+1)
``````

Then we look what direction we found and store it in `i`. Even values of `i` are top/left ("decreasing") and odd values are bottom/right ("increasing"). According to that notion, `d` ("direction") and `r` ("orientation") are set. We index pointer array `z` with orientation and add the direction to the integer we get. The direction changes only if we hit a slash, while it remains the same when we hit a back-slash. Of course, when we hit a mirror, then we always change orientation (`r = !r`).

• You're making me do my own C++ solution. =] – strager Sep 28 '09 at 3:30
• @strager, this is getting boring though. Let's do a solution that displays "true" or "false" at compile time xD – Johannes Schaub - litb Sep 28 '09 at 4:04
• added explanation since i think i will keep it at this :) – Johannes Schaub - litb Sep 28 '09 at 4:23

Groovy @ 279 characers

``````m=/[<>^v]/
i={'><v^'.indexOf(it)}
n=['<':{y--},'>':{y++},'^':{x--},'v':{x++}]
a=['x':{1},'\\':{'v^><'[i(d)]},'/':{'^v<>'[i(d)]},'#':{},' ':{d}]
b=[]
System.in.eachLine {b<<it.inject([]) {r,c->if(c==~m){x=b.size;y=r.size;d=c};r<<c}}
while(d==~m){n[d]();d=a[b[x][y]]()}
println !!d
``````

C#

1020 characters.
1088 characters (added input from console).
925 characters (refactored variables).
875 characters (removed redundant Dictionary initializer; changed to Binary & operators)

Made a Point not to look at anyone else's before posting. I'm sure it could be LINQ'd up a bit. And the whole FindLaser method in the readable version seems awfully fishy to me. But, it works and it's late :)

Note the readable class includes an additional method that prints out the current Arena as the laser moves around.

``````class L{static void Main(){
A=new Dictionary<Point,string>();
while(l!=""){var a=l.ToCharArray();
for(int x=0;x<a.Count();x++)
static Dictionary<Point,string>A;Point P,O,N,S,W,E;
public L(){N=S=W=E=new Point(0,-1);S.Offset(0,2);
W.Offset(-1,1);E.Offset(1,1);D();
Console.WriteLine(F());}bool F(){
var l=A[P];int m=O.X,n=O.Y,o=P.X,p=P.Y;
bool x=o==m,y=p==n,a=x&p<n,b=x&p>n,c=y&o>m,d=y&o<m;
if(l=="\\"){if(a)T(W);if(b)T(E);if(c)T(S);
if(d)T(N);if(F())return true;}
if(l=="/"){if(a)T(E);if(b)T(W);if(c)T(N);
if(d)T(S);if(F())return true;}return l=="x";}
void T(Point p){O=P;do P.Offset(p);
while(!("\\,/,#,x".Split(',')).Contains(A[P]));}
void D(){P=A.Where(x=>("^,v,>,<".Split(',')).
Contains(x.Value)).First().Key;var c=A[P];
if(c=="^")T(N);if(c=="v")T(S);if(c=="<")T(W);
if(c==">")T(E);}}
``````

Readable Version (not quite the final golf version, but same premise):

``````class Laser
{
private Dictionary<Point, string> Arena;

private Point Position;
private Point OldPosition;

public Laser( List<string> arena )
{
SplitArena( arena );
LaserChars = new List<string> { "^", "v", ">", "<" };
OtherChars = new List<string> { "\\", "/", "#", "x" };
North = new Point( 0, -1 );
South = new Point( 0, 1 );
West = new Point( -1, 0 );
East = new Point( 1, 0 );
FindLaser();
Console.WriteLine( FindTarget() );
}

private void SplitArena( List<string> arena )
{
Arena = new Dictionary<Point, string>();
int y = 0;
foreach( string str in arena )
{
var line = str.ToCharArray();
for( int x = 0; x < line.Count(); x++ )
{
Arena.Add( new Point( x, y ), line[x].ToString() );
}
y++;
}
}

private void DrawArena()
{
Console.Clear();
var d = new Dictionary<Point, string>( Arena );

d[Position] = "*";
foreach( KeyValuePair<Point, string> p in d )
{
if( p.Key.X == 0 )
Console.WriteLine();

Console.Write( p.Value );
}
}

private bool FindTarget()
{
DrawArena();

string chr = Arena[Position];

switch( chr )
{
case "\\":
if( ( Position.X == Position.X ) && ( Position.Y < OldPosition.Y ) )
{
OffSet( West );
}
else if( ( Position.X == Position.X ) && ( Position.Y > OldPosition.Y ) )
{
OffSet( East );
}
else if( ( Position.Y == Position.Y ) && ( Position.X > OldPosition.X ) )
{
OffSet( South );
}
else
{
OffSet( North );
}
if( FindTarget() )
{
return true;
}
break;
case "/":
if( ( Position.X == Position.X ) && ( Position.Y < OldPosition.Y ) )
{
OffSet( East );
}
else if( ( Position.X == Position.X ) && ( Position.Y > OldPosition.Y ) )
{
OffSet( West );
}
else if( ( Position.Y == Position.Y ) && ( Position.X > OldPosition.X ) )
{
OffSet( North );
}
else
{
OffSet( South );
}
if( FindTarget() )
{
return true;
}
break;
case "x":
return true;
case "#":
return false;
}
return false;
}

private void OffSet( Point p )
{
OldPosition = Position;
do
{
Position.Offset( p );
} while( !OtherChars.Contains( Arena[Position] ) );
}

private void FindLaser()
{
Position = Arena.Where( x => LaserChars.Contains( x.Value ) ).First().Key;

switch( Arena[Position] )
{
case "^":
OffSet( North );
break;
case "v":
OffSet( South );
break;
case "<":
OffSet( West );
break;
case ">":
OffSet( East );
break;
}
}
}
``````
• The program should take input. Most commonly from stdin. – LiraNuna Sep 26 '09 at 9:09

Perl 219
My perl version is 392 342 characters long (I had to handle the case of the beam hitting the laser):
Update, thanks Hobbs for reminding me of `tr//`, it's now 250 characters:
Update, removing the `m` in `m//`, changing the two `while` loops brought a few savings; there's now only one space required.
(`L:it;goto L` is the same length as `do{it;redo}`):

``````@b=map{(\$y,\$x,\$s)=(\$a,\$-,\$&)if/[<>^v]/;\$a++;[split//]}<>;L:\$_=\$s;\$x++if/>/;
\$x--if/</;\$y++if/v/;\$y--if/\^/;\$_=\$b[\$y][\$x];die"true\n"if/x/;die"false\n"if
/[<>^v#]/;\$s=~tr/<>^v/^v<>/if/\\/;\$s=~tr/<>^v/v^></if/\//;goto L
``````

I shaved some, but it barelyjust competes with some of these, albeit late.
It looks a little better as:

``````#!/usr/bin/perl
@b = map {
(\$y, \$x, \$s) = (\$a, \$-, \$&) if /[<>^v]/;
\$a++;
[split//]
} <>;
L:
\$_ = \$s;
\$x++ if />/;
\$x-- if /</;
\$y++ if /v/;
\$y-- if /\^/;
\$_ = \$b[\$y][\$x];
die "true\n"  if /x/;
die "false\n" if /[<>^v#]/;
\$s =~ tr/<>^v/^v<>/ if /\\/;
\$s =~ tr/<>^v/v^></ if /\//;
goto L
``````

Well... Honestly this should be self explanatory if you understand that the `@b` is an array arrays of characters in each line, and can read the simple regexp and `tr` statements.

• Tip: you can shorten your mirror code way up. `\$_=\$s;tr/^v<>/<>^v/` and `\$_=\$s;tr/v^<>/<>^v/` respectively. Also, you don't need the `m` in `m//`. – hobbs Sep 26 '09 at 4:51
• Sorry, make that second one `\$_=\$s;tr/v^></<>^v/;` – hobbs Sep 26 '09 at 4:52
• You still have several `if m/.../` that could be `if/.../` saving two characters a pop. – hobbs Sep 28 '09 at 3:08
• You can use `y///` instead of `tr///` to save two characters. – Platinum Azure Jul 23 '10 at 22:36

## F# - 454 (or thereabouts)

Bit late to the game, but can't resist posting my 2d attempt.

Update modified slightly. Now stops correctly if transmitter is hit. Pinched Brian's idea for IndexOfAny (shame that line is so verbose). I haven't actually managed to work out how to get ReadToEnd to return from the Console, so I'm taking that bit on trust...

``````let s=System.Console.In.ReadToEnd()       //(Not sure how to get this to work!)
let w=s.IndexOf('\n')+1                   //width
let h=(s.Length+1)/w                      //height
//wodge into a 2d array
let a=Microsoft.FSharp.Collections.Array2D.init h (w-1)(fun y x -> s.[y*w+x])
let p=s.IndexOfAny[|'^';'<';'>';'v'|]     //get start pos
let (dx,dy)=                              //get initial direction
match "^<>v".IndexOf(s.[p]) with
|0->(0,-1)
|1->(-1,0)
|2->(1,0)
|_->(0,1)
let mutable(x,y)=(p%w,p/w)                //translate into x,y coords
let rec f(dx,dy)=
x<-x+dx;y<-y+dy                          //mutate coords on each call
match a.[y,x] with
|' '->f(dx,dy)                           //keep going same direction
|'/'->f(-dy,-dx)                         //switch dx/dy and change sign
|'\\'->f(dy,dx)                          //switch dx/dy and keep sign
|'x'->"true"
|_->"false"
System.Console.Write(f(dx,dy))
``````
• They are decoration. Check my other challenges, it's just a formatting thing. – LiraNuna Jan 25 '10 at 21:02
• @LiraNuna, ok as it turns out, this iteration just eats them anyway :) – Benjol Jan 26 '10 at 8:45
• Would be nice to compare with a 1-d implementation. Just add/subtract 1 for left and right and add/subtract w for up and down. I'd expect you'd save quite a few chars – John La Rooy Feb 9 '10 at 23:05
• @gnibbler, Brian already did that, I'm not sure I could beat him, but I might give it a try. – Benjol Feb 10 '10 at 5:38