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A recursive program creates a stack internally, and causes the users to write less code.

Are there any cases where recursion is actually preferred over manual stacks for the reason other than mentioned above?

EDIT 1:

In what way is dynamic memory allocation more "expensive" than the allocations on the heap by a recursive program?

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2 Answers 2

up vote 4 down vote accepted

The main reason, which I think you're alluding to when you say "less code", is clarity and simplicity of design. In a language with features like local variables and automatic storage, it is infinitely more natural to use those features than to structure everything into home-rolled stacks. (After all, why use functions at all? Why not write your entire program using if/else and while as your only control structures?)

Another consideration is performance, especially in multithreaded environments. Recursion — depending on the language — is likely to use the stack (note: you say "creates a stack internally", but really, it uses the stack that programs in such languages always have), whereas a manual stack structure would require dynamic memory allocation, which frequently has a noticeable performance penalty — not to mention the added complexity of making sure that you release all that memory when you (say) encounter an exception.

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The tradeoff you make for the performance of using the system stack is that you're typically much more limited for the depth of recursion with the system stack than with a stack data structure on the heap, since the heap is so much bigger. –  Seth Carnegie Feb 2 '12 at 3:42
    
whereas a manual stack structure would require dynamic memory allocation, which frequently has a noticeable performance penalty That's a point. But the repeated function calls isn't a performance penalty? Isn't it greater than the manual memory allocations? –  abcd Feb 2 '12 at 10:29
    
@SethCarnegie: Yes, absolutely, good point. And running out of heap memory is, on many platforms, better handle-able than overflowing the stack. Since the question was strictly about reasons to use recursion, I didn't mention these things, but maybe I should have, anyway, just for completeness? –  ruakh Feb 2 '12 at 13:35
    
@AnishaKaul: As always, if performance matters to this extent, then you need to test it on the platforms you care about; but speaking generally -- if you use a linked-list as your stack, then I'd expect the dynamic memory allocations to be more expensive than repeated function calls, but if you use a dynamically resizeable array and add/remove elements from the end, then you can quite likely reduce the number of dynamic memory allocations to the point where it's quite cheap. The problem with that, however, is that if your goal is to eliminate repeated function calls, then, what, are you going –  ruakh Feb 2 '12 at 13:40
    
to inline the entirety of your array management code? –  ruakh Feb 2 '12 at 13:40

I mostly agree with @ruakh's answer. I would only add that using the system stack has a lot of overhead (you are actually pushing a lot more state than you need every time you recurse) and might cause stack overflows for very deep (but bounded) recursion, which you may be able to avoid by using an explicit stack and only pushing the state that you need.

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Mac, please see my comment of ruakh's answer. –  abcd Feb 2 '12 at 10:30
    
Yes, I absolutely agree. +1 :-) –  ruakh Feb 2 '12 at 13:41

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