# What is Ruby recursion and how does it work?

So, I was loking for a way of getting the parent `Hash` of a `Hash` (doesn't really matter). So while browsing the big, wide internet, I stumbled upon a solution which used Ruby recursion. So, I looked at the code snippet (it's a bit lengthy and not really relevant to the question, so I won't include it) and it looked bizzare and I was sure it wouldn't work, but it did, and I didn't understand one bit of what the person did there. So, could someone please exlplain what Ruby recursion is (and how it works, if that's not too much to ask for)?

Thanks! <3

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how is the code not relevant if that's what had you confused? And recursion is a general principal in computing that can be performed in most languages, it is not a concept specific to Ruby –  Matt Jun 20 '11 at 21:56
Oh, I know it's not just in Ruby. Well, I don't have the snippet, but I'll try and find it again. Gimme a min. –  destiel starship Jun 20 '11 at 22:01
Bleh, couldn't find it. –  destiel starship Jun 20 '11 at 22:28

A recursive function/method calls itself. For a recursive algorithm to terminate you need a base case (e.g. a condition where the function does not call itself recursively) and you also need to make sure that you get closer to that base case in each recursive call. Let's look at a very simple example:

``````def countdown(n)
return if n.zero? # base case
puts n
countdown(n-1)    # getting closer to base case
end

countdown(5)
5
4
3
2
1
``````

Some problems can be very elegantly expressed with recursion, e.g a lot of mathematical functions are described in a recursive way.

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Well explained! –  Lior Sep 15 '13 at 18:37

To understand recursion, you first need to understand recursion.

Now, on a serious note, a recursive function is one that calls itself. One classic example of this construct is the fibonacci sequence:

``````def fib(n)
return n if (0..1).include? n
fib(n-1) + fib(n-2) if n > 1
end
``````

Using recursive functions gives you great power, but also comes with a lot of responsability (pun intended) and it presents some risk. For instance, you could end up with stack overflows (I'm on a roll) if your recursiveness is too big :-)

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You are right @changeloge. Long time ago, while playing with irb I didn't get result for more than 5 minutes while using the above code with big Fibonacci sequence "55". I found Hash is more faster like so: fibonacci = Hash.new{ |h,k| h[k] = k < 2 ? k : h[k-1] + h[k-2] } –  egyamado Mar 3 '14 at 18:50

Ruby on Rails example:

Recursion will generate array of parents parents

a/m/document.rb

``````class Document < ActiveRecord::Base

belongs_to :parent, class_name: 'Document'

def self.get_ancestors(who)
@tree ||= []
# @tree is instance variable of Document class object not document instance object
# so: Document.get_instance_variable('@tree')

if who.parent.nil?
return @tree
else
@tree << who.parent
get_ancestors(who.parent)
end
end

def ancestors
@ancestors ||= Document.get_ancestors(self)
end

end
``````

console:

``````d = Document.last
d.ancestors.collect(&:id)
# => [570, 569, 568]
``````

https://gist.github.com/equivalent/5063770

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Typically recursion is about method calling themselves, but maybe what you encountered were recursive structures, i.e. objects referring to themselves. Ruby 1.9 handles these really well:

``````h = {foo: 42, bar: 666}
parent = {child: {foo: 42, bar: 666}}
h[:parent] = parent
h.inspect # => {:foo=>42, :bar=>666, :parent=>{:child=>{...}}}

x = []
y = [x]
x << y
x.inspect # => [[[...]]]
x == [x]  # => true
``````

I find that last line is quite wicked; I blogged about this kind of issues with comparison of recursive structures a couple of years ago.

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