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Possible Duplicate:
Can all iterative algorithms be expressed recursively?

Is it always possible to convert a iterative function in a recursive function?

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marked as duplicate by Lucero, Steve Townsend, Hans Passant, balpha Sep 26 '10 at 18:14

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Algorithm and implementation of an algorithm are two different things. The term recursion also means different things, depending on whether it is applied to the algorithm itself or to its specific implementation. It is not clear from your question which one you are talking about.

It is always possible to convert recursive implementation into iterative implementation, where "recursive" and "iterative" are just syntactic properties of a program written in a procedural language, like C or C++.

It is generally impossible to turn recursive algorithm into an iterative algorithm, where "recursive" and "iterative" describe the fundamental structure of the algorithm itself.

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All iterative functions can be made recursive and vice versa. In functional languages it is common practice to rewrite iterative loops as tail-recursion. As long as the functional language is Turing-complete, and they all are, then it can compute any computable function. Therefore, any loop can be expressed iteratively.

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Depends on what the function do.

Of course you can, though, add this to your function:

void f(...) {
    if(false) f(...)
    else { processing }

In this case the second function is recursive, but recursion never happens.

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A recursive function is a function that calls itself. If the call never happens, is it really recursive? I would say no. – IVlad Sep 26 '10 at 18:09
Good point. But how do you design recursively a function that returns its argument plus one? – Benoit Sep 26 '10 at 18:12
good question. Depending on the restrictions, it might be impossible. If you add another argument to the function however, or use a helper function, then it's possible. If you're assuming infinite precision arithmetic, then you can also do it with a single argument (because you have room to encode certain extra information in it). – IVlad Sep 26 '10 at 18:18

As far as I know yes, this is possible. The other way around is also possible, but in that case you may need to use appropriate data structures such as a stack.

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The reverse is only possible if the function is primitive recursive. Not all recursive functions are, for example, the Ackermann function: [en.wikipedia.org/wiki/Ackermann_function] is impossible to express iteratively – SingleNegationElimination Sep 26 '10 at 18:10
If the function can be computed by a touring machine, you can convert any recursive function to an iterative one with a stack, which basically replicates what you would have on the call stack. – Lucero Sep 26 '10 at 18:19

The usual way an iterative function works looks something like this:

   function iterative(args)
     while not done_with(args)
       args = transform(args)
     end while
     return args
   end function

once you have transformed an iterative function into this form, it can then be trivially transformed into a recursive function like so:

   function recursive(args)
     if done_with(args)
       return args 
       return transform(args)
     end if
   end function
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