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I am looking to traverse a NxN area, given the starting points X,Y and the size of the square to traverse. E.g. given X=10,Y=12,Size=2 - i want to generate 10,10 ; 10,11 ; 11,10 and 11,11.

I came up with this, but it seems to go on and on infinitely:

traverse({X,Y,Xend,Yend}) ->

    % print X,Y values here....     

    case (X == Xend-1) andalso (Y == Yend-1)  of
    	true -> 
    	   ok;
    	_->			
    	   case (Y < Yend-1) of
    	      true ->
    		traverse({X,Y+1,Xend,Yend});
    	      _->
    		traverse({X+1,Y,Xend,Yend})
    	   end
    end.

I called the above function from another function using:

Size = 3,
traverse({10,20,10+Size,20+Size}).

What am I doing wrong? I am actually new to the functional paradigm, and I tried implementing this on C, using "return" in the place of "ok" above, and it worked, but I am guessing, i'm not thinking "functionally" enough!

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I don't see why your code should go on indefinitely. There is a mistake though: in your inner case statement the false case should revert the value of Y to Ystart. –  Zed Dec 9 '09 at 18:24
    
... unless you allow X=Xend or Y=Yend. In that case you need case (X >= Xend-1) andalso (Y >= Yend-1) of. –  Zed Dec 9 '09 at 18:32

3 Answers 3

up vote 3 down vote accepted
traverse(X0, Y0, S) ->
    [
     io:format("coords: ~p~n", [{X,Y}])
    || X <- lists:seq(X0, X0 + S - 1),
       Y <- lists:seq(Y0, Y0 + S - 1)
    ],
    ok

in shell:

1> traverse(10, 12, 2).
coords: {10,12}
coords: {10,13}
coords: {11,12}
coords: {11,13}
ok
share|improve this answer
    
Using map() you can do it in-place : lists:map(fun({X,Y}) -> io:format("Traversing ~p,~p~n", [X,Y]) end, [ {X, Y} || X <- lists:seq(StartX,StartX+Side), Y <- lists:seq(StartY,StartY+Side) ]) The X and Y in the function being mapped are different from those in the list comprehension. I did that to illustrate name space. It might be easier to follow, and possibly a better coding style anyway, if we use different names : lists:map(fun({T1,T2}) -> io:format("Traversing ~p,~p~n", [T1,T2]) end, [ {X, Y} || X <- lists:seq(StartX,StartX+Side), Y <- lists:seq(StartY,StartY+Side) ]) –  Tim Dec 9 '09 at 18:16
    
@Tim, a disadvantage of this way is that you build the whole list of {X,Y} coordinates. But I don't see any advantage over using a list comprehension. –  Zed Dec 9 '09 at 18:20
    
... then question was: "Why doesn't my method work"... so technically, you didn't answer the queston ;-) –  jldupont Dec 9 '09 at 18:23
    
Did it in the comments :) –  Zed Dec 9 '09 at 18:25
    
Although you can interpret my answer as "Your method doesn't work because you did not do it this way" :-) –  Zed Dec 9 '09 at 18:26

Try this:

traverse({X,Y,Xend,Yend}) ->
 dotraverse(X, Y, Xend, Yend, _StartX=X).

dotraverse({Xend,Yend,Xend,Yend}, SX) ->
 ok;

dotraverse({X,Y,Xend,Yend}, SX) when X<Xend ->
  %print
  dotraverse({X+1, Y, Xend, Yend}, SX);

dotraverse({Xend,Y,Xend,Yend}) ->
 dotraverse(SX,Y+1, Xend, Yend}, SX).

Note: untested but you get the gist of it.

share|improve this answer
1  
dotraverse({X,Y,Xend,Yend}, SX) when X==Xend, Y==Yend is more pattern-matchy written as dotraverse({Xend,Yend,Xend,Yend}, SX) –  Zed Dec 9 '09 at 17:54
    
@jldupont: same stands for last clause ;) –  Zed Dec 9 '09 at 18:26
    
Thanks, I had fun implementing in both yours and Zed's methods, but in the end, I went for Zed's method, thanks a lot nevertheless. –  jeffreyveon Dec 10 '09 at 6:29

This is a good question coming from someone new to the functional paradigm. The larger mistake here is the way the code is thought out, not the fact that it doesn't work.

Since you are coming from C, it's natural that you're writing the code in an imperative style, because that's how you're thinking.

In the functional style you have to tell the compiler "what" you want to do, not "how to do it" like you do in imperative languages such as C. The example Zed gives using the list comprehension is the right way.

Writing code is the best way to learn, but make sure you also focus on thinking in a functional manner. It takes a while to make the leap, but keep writing code and you'll get there eventually.

If you're serious about Erlang, read either Joe Armstrong's book or that of Cesarini and Thompson, or read the "OTP Design Principles User's Guide" from erlang.org. These will help you start to think differently, and the time spent will be well worth it.

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