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One of the topics that seems to come up regularly on mailing lists and online discussions is the merits (or lack thereof) of doing a Computer Science Degree. An argument that seems to come up time and again for the negative party is that they have been coding for some number of years and they have never used recursion.

So the question is:

  1. What is recursion?
  2. When would I use recursion?
  3. Why don't people use recursion?
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And maybe this helps: stackoverflow.com/questions/126756/… –  KennyTM May 4 '10 at 11:28

39 Answers 39

Recursion is when you have an operation that uses itself. It probably will have a stopping point, otherwise it would go on forever.

Let's say you want to look up a word in the dictionary. You have an operation called "look-up" at your disposal.

Your friend says "I could really spoon up some pudding right now!" You don't know what he means, so you look up "spoon" in the dictionary, and it reads something like this:

Spoon: noun - a utensil with a round scoop at the end. Spoon: verb - to use a spoon on something Spoon: verb - to cuddle closely from behind

Now, being that you're really not good with English, this points you in the right direction, but you need more info. So you select "utensil" and "cuddle" to look up for some more information.

Cuddle: verb - to snuggle Utensil: noun - a tool, often an eating utensil

Hey! You know what snuggling is, and it has nothing to do with pudding. You also know that pudding is something you eat, so it makes sense now. Your friend must want to eat pudding with a spoon.

Okay, okay, this was a very lame example, but it illustrates (perhaps poorly) the two main parts of recursion. 1) It uses itself. In this example, you haven't really looked up a word meaningfully until you understand it, and that might mean looking up more words. This brings us to point two, 2) It stops somewhere. It has to have some kind of base-case. Otherwise, you'd just end up looking up every word in the dictionary, which probably isn't too useful. Our base-case was that you got enough information to make a connection between what you previously did and did not understand.

The traditional example that's given is factorial, where 5 factorial is 1*2*3*4*5 (which is 120). The base case would be 0 (or 1, depending). So, for any whole number n, you do the following

is n equal to 0? return 1 otherwise, return n * (factorial of n-1)

let's do this with the example of 4 (which we know ahead of time is 1*2*3*4 = 24).

factorial of 4 ... is it 0? no, so it must be 4 * factorial of 3 but what's factorial of 3? it's 3 * factorial of 2 factorial of 2 is 2 * factorial of 1 factorial of 1 is 1 * factorial of 0 and we KNOW factorial of 0! :-D it's 1, that's the definition factorial of 1 is 1 * factorial of 0, which was 1... so 1*1 = 1 factorial of 2 is 2 * factorial of 1, which was 1... so 2*1 = 2 factorial of 3 is 3 * factorial of 2, which was 2... so 3*2 = 6 factorial of 4 (finally!!) is 4 * factorial of 3, which was 6... 4*6 is 24

Factorial is a simple case of "base case, and uses itself".

Now, notice we were still working on factorial of 4 the entire way down... If we wanted factorial of 100, we'd have to go all the way down to 0... which might have a lot of overhead to it. In the same manner, if we find an obscure word to look up in the dictionary, it might take looking up other words and scanning for context clues until we find a connection we're familiar with. Recursive methods can take a long time to work their way through. However, when they're used correctly, and understood, they can make complicated work surprisingly simple.

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The simplest definition of recursion is "self-reference". A function that refers to itself, i. e. calls itself is recursive. The most important thing to keep in mind, is that a recursive function must have a "base case", i. e. a condition that if true causes it not to call itself, and thus terminate the recursion. Otherwise you will have infinite recursion:


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Let's not forget the concept of mutual recursion, where one function calls another which, in turn, calls the first. (But that, of course, is going beyond the scope of the original question.) –  RobH May 4 '10 at 19:25

A recursive function is a function that contains a call to itself. A recursive struct is a struct that contains an instance of itself. You can combine the two as a recursive class. The key part of a recursive item is that it contains an instance/call of itself.

Consider two mirrors facing each other. We've seen the neat infinity effect they make. Each reflection is an instance of a mirror, which is contained within another instance of a mirror, etc. The mirror containing a reflection of itself is recursion.

A binary search tree is a good programming example of recursion. The structure is recursive with each Node containing 2 instances of a Node. Functions to work on a binary search tree are also recursive.

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Recursion is technique of defining a function, a set or an algorithm in terms of itself.

For example

n! = n(n-1)(n-2)(n-3)...........*3*2*1

Now it can be defined recursively as:-

n! = n(n-1)!   for n>=1

In programming terms, when a function or method calls itself repeatedly, until some specific condition gets satisfied, this process is called Recursion. But there must be a terminating condition and function or method must no enter into an infinite loop.

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I have created a recursive function to concatenate a list of strings with a separator between them. I use it mostly to create SQL expressions, by passing a list of fields as the 'items' and a 'comma+space' as the separator. Here's the function (It uses some Borland Builder native data types, but can be adapted to fit any other environment):

String ArrangeString(TStringList* items, int position, String separator)
String result;

result = items->Strings[position];

if (position <= items->Count)
result += separator + ArrangeString(items, position + 1, separator);

return result;

I call it this way:

String columnsList;
columnsList = ArrangeString(columns, 0, ", ");

Imagine you have an array named 'fields' with this data inside it: 'albumName', 'releaseDate', 'labelId'. Then you call the function:

ArrangeString(fields, 0, ", ");

As the function starts to work, the variable 'result' receives the value of the position 0 of the array, which is 'albumName'.

Then it checks if the position it's dealing with is the last one. As it isn't, then it concatenates the result with the separator and the result of a function, which, oh God, is this same function. But this time, check it out, it call itself adding 1 to the position.

ArrangeString(fields, 1, ", ");

It keeps repeating, creating a LIFO pile, until it reaches a point where the position being dealt with IS the last one, so the function returns only the item on that position on the list, not concatenating anymore. Then the pile is concatenated backwards.

Got it? If you don't, I have another way to explain it. :o)

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You want to use it anytime you have a tree structure. It is very useful in reading XML.

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Actually the better recursive solution for factorial should be:

int factorial_accumulate( int n, int accum ) {
    return ( n < 2 ? accum : factorial_accumulate( n - 1, n * accum ) );
int factorial( int n ) {
    return factorial_accumulate( n, 1 );

Because this version is Tail Recursive

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I use recursion. What does that have to do with having a CS degree... (which I don't, by the way)

Common uses I have found:

  1. sitemaps - recurse through filesystem starting at document root
  2. spiders - crawling through a website to find email address, links, etc.
  3. ?
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1.) A method is recursive if it can call itself; either directly: void f() { ... f() ... } or indirectly: void f() { ... g() ... }

void g() { ... f() ... }

2.) When to use recursion

Q: Does using recursion usually make your code faster? A: No. Q: Does using recursion usually use less memory? A: No.

Q: Then why use recursion? A: It sometimes makes your code much simpler!

3.) People use recursion only when it is very complex to write iterative code. For example, tree traversal techniques like preorder, postorder can be made both iterative and recursive. But usually we use recursive because of its simplicity.

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