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Is it possible to determine if some integer is a fibonacci number in less than N time, where N is the Nth fibonacci number? I'm trying to optimize a solution and this would help tremendously.

I'm trying to exclude all external libraries as well (so things like Math.sqrt() in the answer below will not work for my purposes). Any other suggestions would be great.

Thank you.

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The simple iterative approach should be fast enough for any fibonacci number that can be represented with a 32 bit integer (probably even a 64bit integer). On the other hand, the naïve recursive approach is very innefficient... which implementation do you have that you want to optimize? – David Rodríguez - dribeas Feb 5 '13 at 22:35
What is your solution ? – Alexandre C. Feb 5 '13 at 22:35
This question might be better off on the Mathematics site. Have you tried googling for Fibonacci sequence etc.? – occulus Feb 5 '13 at 22:37
When you consider that the sqrt from math.h usually translates down to an FPU square root instruction, why don't you want to rely on it? You could also implement a simple algorithm to test if a number is square. int issquare(unsigned int in){ unsigned long long i=in/2; while(i*2>i||ii>in){i/=2;} while(ii!=in){ if(i*i>in)return 0; ++i;} return i;} – Kaslai Feb 5 '13 at 22:59
If you want to run a few hundred thousand tests for if a number belongs to the fibbonacci sequence though, look for an O(1) solution to checking if a number is a square number. – Kaslai Feb 5 '13 at 23:05

Perhaps you can use this property:

N is a Fibonacci number if and only if 5 N^2 + 4 or 5N^2 – 4 is a square number.

And look at this post for an efficient solution for the square problem.

Hope this helps

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I'm trying to exclude external libraries, so things like math.sqrt won't really work for my purposes. Are there any other resources you have in mind? – Bob John Feb 5 '13 at 22:37
If you have constraints you should state them in the question to save time. – occulus Feb 5 '13 at 22:39
Updated. Thank you. – Bob John Feb 5 '13 at 22:41
Well that seems like a neat and quick way of checking. You could either write your own sqrt, or since sqrt(N) < N/2 (for x>2) you could just iterate over those numbers? – T. Kiley Feb 5 '13 at 22:44
@BobJohn: Note that in C++, the standard library isn't generally considered "external". Moreover, it's not math.sqrt(), it's std::sqrt(), found in the <cmath> header. – Robert Mason Feb 5 '13 at 22:45

Pre-compute the Fibonacci numbers up to some bound, and then you might be able to search the list for your number more efficiently than by using linear search.

The Fibonacci numbers grow so quickly that I doubt storing them will constitute a problem. I mean, if you're willing to save the first 100 or so, that will cover all numbers up to 3.5e+20.

Say you store the first M Fibonacci numbers. Then the worst-case using binary search is log(M). There are formulae for calculating the Mth Fibonacci number given M; you could use this to approximate M given the Mth Fibonacci number both to get the bound in terms of the number (N, rather than the list size M). I think this makes it end up being something like log(log(N)), but you should check me on that.

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with constexpr you could even precompute everything without having to hardcode the values... – Robert Mason Feb 5 '13 at 22:56
This is actually a great and very usable solution. I don't know why you say it's whimsical in your comment on another answer in this thread. – Nik Bougalis Feb 5 '13 at 23:21

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