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Are there any practical applications to recursion, because the only examples ive ever seen relating to recursion out factorials and can be easily written using a standard loop instead of calling the function over again inside itself. Also: If there is nothing that can be written using recursion that cant be written using a loop why do we have it?

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closed as too broad by Dukeling, Hunter McMillen, Ziyao Wei, templatetypedef, Matthew Strawbridge Jun 25 '13 at 21:12

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Study on. I'd say that recursion 1) simplify the code a lot; 2) is a state of mind. A not so appropriate analogy: there's nothing cannot be written with binary, why learn any languages? Also, in functional programming you cannot use normal loops, so recursion is a must - a "side effect" is that all state are stored in the runtime information of the program and will not be lost. –  Ziyao Wei Jun 25 '13 at 21:06
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How about for iterating over the logical file/folder structure of a disk? –  series0ne Jun 25 '13 at 21:09
    
Yeah, readibility is the main cause. It is pretty natural to use recursion when working with tree-like data structures. –  Jiri Kremser Jun 25 '13 at 21:09
    
Instead of factorial, consider Fibonacci. It's not as trivial to write it as a loop. –  Barmar Jun 25 '13 at 21:12
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One of the advantages of recursion is that it can make an algorithm "stateless" (the scare quotes are because the state is somewhere, it's just been abstracted away), which is extremely helpful for writing parallel algorithms. This is why functional languages such as Erlang have found a niche in parallel and distributed computing. Take a mergesort for example: you can write this algorithm using loops, but then you must rewrite the algorithm if you want to run it on multiple threads/cores/computers; OTOH the recursive algorithm is inherently parallelizable. –  Zim-Zam O'Pootertoot Jun 25 '13 at 21:13
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4 Answers 4

While most (all?) examples of recursion can be written without actually calling the function from itself, recursion could make the code cleaner. Typical examples are any graph and tree searches, expressions, etc.

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All recursion can be rewritten as iteration, if you accept that you'll sometimes have to explicitly maintain what you'd store in the stack otherwise. –  delnan Jun 25 '13 at 21:12
    
Agree. Some are harder than other but certainly possible. That is not the point, if the algorithm is recursive it will still be recursive even if you make your own stack and not call the function from itself. –  Zdravko Danev Jun 25 '13 at 21:14
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Yes, there are. Algorithms where you need to store state in a stack are often better to read when you use the function stack, instead of a separate stack data structure and an iterative algorithm.

Examples:

  • Walking tree structures.
  • recursive descent parsing

Another reason: With recursion, you can program without using mutable state (which is often tricky to track). See any functional programming language. Haskell, for example.

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I forgot where I heard this but the gist of the quote was

any program can be written with only loops, conditional branching,
and basic memory

You don't have to use recursion and I woudn't try to force it for a lot of problems but doing things such as backtracking (a very useful strategy) are easier to implement as recursion (IMHO)

Here's an example of a recursive solution to calculating the Fibonacci Sueqence

int fibonacci(int n){
    if(n<=2)
        return 1;
    else
        return fibonacci(n-1) + fibonacci(n-2);
}

and here's the non-recursive verision

int fibonacci(int n){
    if(n<=2)
        return 1;
    int i, last, nextToLast, result;
    last = 1;
    nextToLast = 1;
    result = 1;
    for(i=3; i<=n; i++){
        result = last + nextToLast;
        nextToLast = last;
        last = result;
    }
    return result;
}

Most people would rather see the first version than the second. However, its worth noting that using recursion does not guarantee that your program will be quicker (that's a different topic) and debugging a recursive program can be a pain

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Your non-recursive fibonacci is needlessly convoluted. result is pointless (if your language doesn't allow nextToLast, last = last, last + nextToLast, you need a temporary variable but it can be local to the loop), just return last. The type declarations are language-dependent, in half the languages out there you don't need them. And I'm swallowing my objections to Fibonacci as an example for recursion (and it's not the horrible performance I'm concerned about). –  delnan Jun 25 '13 at 21:18
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For the record, Fibonacci is one of the worst examples of the value of recursion, unless your language has some kind of built in memoization. The recursive version runs in exponential time without some help. –  cHao Jun 25 '13 at 21:18
    
@cHao yup just trying to give a concrete example of readability. It's inefficiency was mentioned in the comments. –  Daniel Jun 25 '13 at 21:23
    
@delnan true and if you want you can edit the answer, go for it. I'm not really trying to do a unbiased showing of x vs y . –  Daniel Jun 25 '13 at 21:23
    
I'm pretty sure most recursive algorithms will be easier to debug than their stack-based equivalent. And actually recursion is generally slower and uses more memory (though optimizations exist). –  Dukeling Jun 25 '13 at 21:33
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In a language without mutation recursion is the way to looping/iteration.

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