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I found a code that determines if a number is a Fibonacci number or not. I was hoping someone might be able to break it down a bit easier.

def is_fibonacci?(i, current = 1, before = 0)  
  return true if current == i || i == 0
  return false if current > i
  is_fibonacci?(i, current + before, current)

is_fibonacci?(3) # => true
is_fibonacci?(4) # => false

I understand that a method calls itself in recursion and that there needs to be a base case, but again, I am having a difficult time visualizing what is going on. Any help would be much appreciated.

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Thanks all for the help! Every explanation helped and now it finally makes sense! Thanks again – user3007294 Dec 29 '13 at 18:10
Then you should accept an answer and upvote all the other helpful ones as well. – Michael Kohl Dec 29 '13 at 18:31
@user3007294 has the answer been helpful? – Малъ Скрылевъ Jan 23 '14 at 8:51

The easiest way to visualize it is to step through the computation one method call at a time, suppose we wanted to evalute is_fibonacci?(8), then ruby would set current = 1, before = 0 since I didn't override the defaults.

Then, since i is not 0 or 8, it has to recurse, so the following method calls happen:

is_fibonacci?(8, 1, 1)
is_fibonacci?(8, 2, 1)
is_fibonacci?(8, 3, 2)
is_fibonacci?(8, 5, 3)
is_fibonacci?(8, 8, 5)

Finally, is_fibonacci?(8, 8, 5) can terminate since i == current (8 == 8), so it returns true.

EDIT: Another way to think about this recursion is that your current and before parameters are 'rebuilding' the fibonacci sequence, if they hit i, then the answer is true, but if they go past i, it's false.

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  1. At first it checks whether the i (requested number) is equal to a Fibonaccy calculated number, which is passed to current variable, or to zero. If it is equal return true:

    return true if current == i || i == 0
  2. At second it checks whether i is below to current variable. If yes the i var will never become a Fibonaccy number, so return false:

    return false if current > i
  3. And at least we calls to calculate the next Fibonaccy number passing next number as a sum of the current and previous numbers to the second argument, and current number as previous to the third argument for the next step.

    is_fibonacci?(i, current + before, current)

Note, that the best way is to expand the tail recursion, as it was shewn in your example, into a loop.

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Basically, it is a function that takes 3 arguments.

i - The number you are testing to see if it is part of the sequence.

current - the current Fibonacci number that you are testing against, defaults to 1 so that you don't need to supply the second argument.

before - the Fibonacci number that comes before the current number in the sequence, defaults to 0 so that you don't need to supply the third argument.


if current is 5, before is 3

if current is 8, before is 5

The function compares the value of i, the first argument, and sees if it is equal to either 0, or the current Fibonacci value. If it is equal to current or 0, it is a Fibonacci number (because 0 is the first number in the sequence).

It then looks to see if current is larger than i. If it is larger, it is not in the sequence. This is because there is no point continuing to check if 4 is in the sequence if 5 is the current value.

If neither of those scenarios match, we just call the function again, passing in the value of i, finding the next number in the sequence current + before, and the value of before will be the current number in the sequence.


i is 15, current is 5, before is 3. When calling the function again, it will call

is_fibonacci?(i, current + before, current)

which will evaluate to

is_fibonacci?(15, 5 + 3, 5


Ruby has a nice syntax where the if can come after the thing you want to happen.

if a < b
    puts "#{a} is greater than #{b}"

is the exact same as

puts "#{a} is greater than #{b}" if a < b

It just cuts down on the line count, and reads a little more like english.

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You can check the call trace if is_fibonacci? for two values 10 and 144. It clearly is calculating the fibonacci number less or equal to the given value, and then comparing it in recursion.

  is_fibonacci?(10, current = 1, before = 0)
   is_fibonacci?(10, current = 1, before = 1)
    is_fibonacci?(10, current = 2, before = 1)
     is_fibonacci?(10, current = 3, before = 2)
      is_fibonacci?(10, current = 5, before = 3)
       is_fibonacci?(10, current = 8, before = 5)
        is_fibonacci?(10, current = 13, before = 8)
  is_fibonacci?(144, current = 1, before = 0)
   is_fibonacci?(144, current = 1, before = 1)
    is_fibonacci?(144, current = 2, before = 1)
     is_fibonacci?(144, current = 3, before = 2)
      is_fibonacci?(144, current = 5, before = 3)
       is_fibonacci?(144, current = 8, before = 5)
        is_fibonacci?(144, current = 13, before = 8)
         is_fibonacci?(144, current = 21, before = 13)
          is_fibonacci?(144, current = 34, before = 21)
           is_fibonacci?(144, current = 55, before = 34)
            is_fibonacci?(144, current = 89, before = 55)
             is_fibonacci?(144, current = 144, before = 89)
10 : false ,  144 : true

Here is the code that gives this output for first 10 fibonacci numbers:

def fib(n)
  if n <= 0 then 1
    fib(n-1) + fib(n - 2)

def is_fibonacci?(i, current = 1, before = 0, level=0)  
  puts (" " * level) + "  is_fibonacci?(#{i}, current = #{current}, before = #{before})"
  if current == i || i == 0 then
    return true 
  elsif current > i then
    return false 
    is_fibonacci?(i, current + before, current, level+1)

(0..10).each do |i|
  n = fib(i)
  ifib =is_fibonacci?(i)
  nfib = is_fibonacci?(n)
  puts "#{i} : #{ifib} ,  #{n} : #{nfib}"
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