I tried to use the following formula


to find the index of a fibonacci number(text) in a programming question and all the smaller test cases passed but some cases in which F was close to 10^18 failed. I did some dry-run and found out that if F = 99194853094755497 (82nd Fibonacci number) the value of n according to the above formula is 81. I coded this in Python and C++ which can be found here and here respectively. I want to know whether the formula works for every value of F or has some limitations?

Note: After doing some more tests, I found out that the code is giving correct answers till 52nd fibonacci number.

Update: The question has t test cases that's why I used a for loop. The given number F might not necessarily be a Fibonacci number. For ex- If F = 6, then it lies between two fibonacci numbers 5 and 8. Now the index of '5' in the fibonacci sequence is 4 so the answer is 4.

  • 1
    Unless there's a problem with floating point arithmetic, (which could be the case), this looks like a better question for our sister site, math.stackexchange.com because it's more about math than programming. – Everyone_Else Aug 20 '15 at 19:25
  • It works for every value of F mathematically, but floating point errors can cause problems practically. Any reason against using the O(n) dp fibonacci solution? – yizzlez Aug 20 '15 at 19:28
  • @Someone_Else I posted this here because the problem can be both due to floating point limitations in computer programming(due to which I posted it here) or in the formula(then, I should post it at math.stackexchange.com). – Shubham Aug 20 '15 at 19:29
  • @awesomeyi No problem with O(n) dp solution. In fact my final correct submission of the question was using O(n) method but I wanted to know what might be wrong in this. – Shubham Aug 20 '15 at 19:31
  • So your question is, why your implementation yields 81 instead of 82? That wasn't really clear to me. – Falko Aug 20 '15 at 19:58
up vote 1 down vote accepted

The formula works just fine:

import math
n = 99194853094755497
print math.log(n * math.sqrt(5) + 0.5) / math.log(1.61803398875) - 1



A remark on your code:

  • Using int(...) for rounding off to an integer might cause trouble if the floating point result is very close to 82.0. Numerical issues might cause it to be slightly larger, even though mathematically it would be smaller.
  • The answer should be 82 – Shubham Aug 20 '15 at 19:54
  • You're right. I mixed something up, but updated my answer. – Falko Aug 20 '15 at 19:55
  • The question actually demands to calculate the index of t fibonacci numbers taken as input. That's why I used loop to input 't' numbers. – Shubham Aug 20 '15 at 20:03
  • Oh, I see! My bad. – Falko Aug 20 '15 at 20:12
  • Sorry for the inconvenience caused. I have updated my question now. – Shubham Aug 20 '15 at 20:14

I think your formula is causing a stack overflow because the number is too large to hold in int.

  • The greatest value of F is 10^18(question constraints) and because of this I declared it long long integer in C++. I don't think that is the case here but again I am not sure. – Shubham Aug 20 '15 at 19:36
  • If C++ has a double equivilant, could you try using that? – Everyone_Else Aug 20 '15 at 19:37
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    @rottenbanana, stack overflows occur when there are too many function calls on the stack. For example, calling a function on each iteration in an infinite loop would cause a stack overflow. Although a number being too large to hold in it's type is a valid possibility for why the problem could occur, it wouldn't be called a stack overflow. (Sorry, but semantics matter and calling that problem a stack overflow is incorrect.) – Everyone_Else Aug 20 '15 at 19:41
  • @Someone_Else What do you mean by "If C++ has a double equivalent"? – Shubham Aug 20 '15 at 19:45
  • @Shubham Sorry, that was poorly phrased on my part. If you defined F as an int or float, have you tried defining it as a double? – Everyone_Else Aug 20 '15 at 19:52

F = 99194853094755497 is 84 Fibonacci number and hence the index for it is 83. Use the below script to get the correct index (integer instead of float).

eps = 10**-10
phi = (1+math.sqrt(5))/2  # golden search ratio
fibonacci_index = int(round(math.log(n * math.sqrt(5)+eps)/math.log(phi)))

Additional Info, code See this https://github.com/gvavvari/Python/tree/master/Fibonacci_index for more detailed documentation on the implementation

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