# Why use recursion? [duplicate]

I am wondering, why do people use recursion? In most of my learning experience, I've found it to be much more inefficient that iterative methods, so why do people use it? Is it because you can simply write a shorter method? Is it used in real-world programming outside the classroom setting (or learning purposes)? If it is, please provide a good example if you can, I'm very curious.

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## marked as duplicate by Frazell Thomas, mbeckish, iCodez, Chris Haas, Prashant KumarDec 2 '13 at 16:30

– reto Dec 2 '13 at 15:47

If you have a tree data structure and you want to walk over it in depth-first order, recursion is the only way to do it.

If you want to write a parser for a typical language having context-free rules, like every programming language in existence, a recursive-descent parser is a simple and natural way to do it. There is no iterative way to do it with limited storage.

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Recursion isn't the only way - it is just the simplest, most natural way of solving the problem. However, an iterative approach using a stack will also work. – Trenin Dec 2 '13 at 15:49
@Trenin: An iterative way using a stack is recursion. – Mike Dunlavey Dec 2 '13 at 15:49
@MikeDunlavey - If it is using just a regular stack data structure, and not the call stack, then I would not call that recursion. – mbeckish Dec 2 '13 at 15:55
@MikeDunlavey: True recursion implicitly uses the call stack. Data-recursion explicitly uses its own stack. There's a difference, particularly in languages that don't do real recursion well -- most of them could do data-recursion all day. – cHao Dec 2 '13 at 16:01
You don't even need a stack, though. It's the most natural solution, but not the only one. Imagine a doubly-linked list, where each node has an `expanded` flag. Start out with the list just containing the root. As you run through the list, if you see a node that hasn't been expanded yet, and it has any children, insert the children before the current node, set the current node's `expanded` flag, and move the iterator back so that the children will be the next nodes processed. Otherwise, process that node and move the iterator forward. – cHao Dec 2 '13 at 16:28

Well, for one thing, it's used in functional programming languages (like Haskell), which don't really have iteration, and they are optimized for recursion. Also, for some problems (like working with binary trees), recursions is a very natural and clean solution.

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