# Determine whether N is fibonacci or not, if not find the largest fibonacci number smaller than N

How can I determine whether a given number `N` is a fibonacci number or not, if that number is not a fibonacci number how can I*determine the largest fibonacci number smaller than `N`?

I found the solution via generating the series of fibonacci number with limit `N`.

Is there any better way to do this in Python?

guys consider while DOWN VOTES, I've accepted the solution provided here. I do not think it as worthwhile since I have posted what I need and got the solution from you guys.

Thank You.

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Is this homework? –  user647772 Aug 9 '12 at 7:49
This is not question about how to do this in Python (or any other programming language) but about the proper algorithm. –  user647772 Aug 9 '12 at 7:51
nop, I thought of the problem and tried to get the solution. I did it in conventional way i.e. generating the series of fibonacci number with limit N. I need some optimized or better way of doing the same in PYTHON. –  sam Aug 9 '12 at 7:52
I still can't see why this is a Python question. Please add your Python code to your question if you want Python advice. If you want to talk about the proper algorithm, add it in pseudo code. –  user647772 Aug 9 '12 at 7:53

A simple test for whether some integer `N` is a Fibonacci number is as follows:

``````N is a Fibonacci number iff either (5 * n^2 + 4) or (5 * n^2 - 4) is a square number.
``````

See here for the ingenious proof (page 417): http://www.fq.math.ca/Scanned/10-4/advanced10-4.pdf

If it turns out that `N` is not a Fibonacci number, then the simplest method is just to keep trying with smaller numbers until you find one, although this could take a very long time for large `N`.

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Here's a general algorithm: The naive way is to solve it with recursion - but in terms of run time complexity it's not useful at all. Create a new array, let's call it FibArr . Insert 1,1, to the the array. Then , the value of the i'th index in the array is fibArr[i-1]+fibArr[i-2] (i>=3) In every iteration check whether the new value inserted into fibArr==N. If true , return. Else, check whether the inserted value is bigger then N. If true , assuming now fibArr has k values, return the (k-1) value. Else , keep iterating :)

*With python it's even easier to do - but notice that in python there are no arrays , but lists. It's easier with python becuase you don't have to set the list length, like in java.

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