Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I know its possible in Java and C++ etc, but is this possible in Matlab? I've recently discovered Matlab doesnt have short cuts like value++ instead they have to use value = value+1 so i'm wondering whether its possible to convert this function to an iterative one. I'm not sure where to start. If so, is it less beneficial than a recursive function?

    function [lines] = recurse(R,C, lines, T_l, count, directions)
    [rows, columns] = size(lines);
    if((R < 2 || C < 2) || (R > rows-1 || C > columns - 1) || count>500)
        count= count+1;
    count= count+1;
    direction = directions(R,C);
            if(direction >= 68 || direction <=-68)                                          
                if(lines(R-1,C) > T_l)
                    lines(R-1,C) = 0;
                    lines = recurse(R-1,C, lines, T_l, count, directions);
                if(lines(R+1,C) > T_l)
                    lines(R+1,C) = 0;
                    lines = recurse(R+1,C, lines, T_l, count, directions);
            elseif (direction <= -23 && direction >-68)                                     
                if(lines(R+1,C+1) > T_l)
                    lines(R+1,C+1) = 0;
                    lines = recurse(R+1,C+1, lines, T_l, count, directions);
                if(lines(R-1,C-1) > T_l)
                    lines(R-1,C-1) = 0;
                    lines = recurse(R-1,C-1, lines, T_l, count, directions);
            elseif (direction >= 23 && direction < 68)                                      
                if(lines(R+1,C-1) > T_l)
                    lines(R+1,C-1) = 0;
                    lines = recurse(R+1,C-1, lines, T_l, count, directions);
                if(lines(R-1,C+1) > T_l)
                    lines(R-1,C+1) = 0;                                                     
                    lines = recurse(R-1,C+1, lines, T_l, count, directions);
                if(lines(R,C+1) > T_l)
                    lines(R,C+1) = 0;                                                           
                    lines = recurse(R,C+1, lines, T_l, count, directions);
                if(lines(R,C-1) > T_l)
                    lines(R,C-1) = 0;
                    lines = recurse(R,C-1, lines, T_l, count, directions);
    lines(R,C) = 255;

Basically, i currently have a function that calls this second function recursively. I was hoping to consolidate this recursive function into the function calling it as a iterative set of commands. I'm pretty sure it will be slower but speed isn't an issue for me and i'm interested to see how the loops will work. Thanks.

share|improve this question
1. is this possible in Matlab? yes, it is. 2. If so, is it less beneficial than a recursive function? no it is not. it's a trade-off. iterative vs recursive is pretty much algorithmic and almost language agnostic. iterative usually is a little more complicated and more difficult to understand but incurs less overhead in stuff like stack frame set up, and it can even potentially require less memory (although this is not always true). –  thang Feb 14 '13 at 23:52
one way to convert your recursive function to an iterative one is to recognize what is being stored on the stack. see how much of it is absolutely necessary. for whatever is necessary, create a stack-like structure to store it, and then operate on that structure. –  thang Feb 14 '13 at 23:54

1 Answer 1

up vote 1 down vote accepted

You can accomplish value++ using operator (you will need the symbolic toolbox though).

operator(symb, f, T, prio) defines a new operator symbol symb of type T (Prefix | Postfix | Binary | Nary) with priority prio. The function f evaluates expressions using the new operator.

Given the operator symbol "++", say, with evaluating function f, the following expressions are built by the parser, depending on the type of the operator, where :

Prefix: The input ++x results in f(x).

Postfix: The input x++ results in f(x).

Binary: The input x ++ y ++ z results in f(f(x, y), z).

Nary: The input x ++ y ++ z results in f(x, y, z)).

see more at matlab's documentation.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.