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I'm doing a task in a subject were fib(0) is defined to = 1. But that can't be right? fib(0) is 0?

Program with fib(0) = 1; spits out fib(4) = 5
Program with fib(0) = 0; spits out fib(3) = 3

What is the correct definition?

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ever heard of wikipedia: en.wikipedia.org/wiki/Fibonacci_number – Christoph Sep 20 '09 at 14:41
Fib 0 = 0 is correct. But for some people, the earth is flat and Fib 0 = 1. – Daniel Fischer May 22 '12 at 15:32
Is this related to project euler? – oɔɯǝɹ Jan 23 '13 at 22:06
up vote 6 down vote accepted

You're correct. The Fibonacci sequence is defined with seed values fib(0) = 0 and fib(1) = 1. This is a requirement for the rest of the sequence to be correct.

The only condition under which fib(0) = 1 could work is if you defined a "-1 based counting system" (as opposed to the usual conventions of 0-based and 1-based). This would be pretty wacky however, I'm sure you agree.

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In other words, his sequence is offset by one index. – Markus Sep 20 '09 at 14:56
@Markus: Yes, offset in a very strange way. It could just be that whoever assigned the task got it wrong, however (more likely?). – Noldorin Sep 20 '09 at 15:00
It's not a requirement, see the answer of Dale Gerdemann. – Sjoerd May 8 '11 at 11:57
@Sjoerd: I've done enough mathematics to know it's simply non-standard. – Noldorin May 8 '11 at 13:13
The funny thing is that the project euler fibonacci puzzles work on the premise of fib(0) = 1. – oɔɯǝɹ Jan 23 '13 at 22:04

The definition with Fib(0) = 1 is known as the combinatorial definition, and Fib(0) = 0 is the classical definition. Both are used in the Fibonacci Quarterly, though authors that use the combinatorial definition need to add a sentence of explanation. Benjamin and Quinn in Proofs that Really Count use f_n for the nth combinatorial Fibonacci number and F_n for the nth classical Fibonacci number. The combinatorial definition is good, not surprisingly for counting questions like "How many ways are there to walk up a flight of n steps, taking either one or two steps at a time?" When n is 0, there's one way to do it, not zero ways.

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The Fibonacci Quarterly? i must get a subscription! :-) – oɔɯǝɹ Jan 23 '13 at 22:09

From the Fibonacci number entry on Wikipedia:

In mathematics, the Fibonacci numbers are the following sequence of numbers:

alt text

By definition, the first two Fibonacci numbers are 0 and 1, and each remaining number is the sum of the previous two. Some sources omit the initial 0, instead beginning the sequence with two 1s.

In mathematical terms, the sequence Fn of Fibonacci numbers is defined by the recurrence relation

alt text

with seed values

alt text

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With a nice little emphasis on: "Some sources omit the initial 0, instead beginning the sequence with two 1s" – NomeN Sep 20 '09 at 15:41

Based on the definition of the Fibonacci sequence, you can generate a closed form for defining the nth element:

F(n) = ( f^n - (1-f)^n ) / sqrt(5),
where f = (1 + sqrt(5)) / 2 [the golden ratio]

For n = 0 it is clearly 0:

F(0) = (1 - 1) / sqrt(5) = 0.
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That's an explanation, albeit a roundabout one. It's really the seed that defines it in the first place. – Noldorin Sep 20 '09 at 15:01
True, this is inside-out... – Zed Sep 20 '09 at 15:09
Anyway, there's certainly no debate on the closed form, so this gives an unquestionable answer to the question =) – Zed Sep 20 '09 at 15:12
@Noldorin Of course you could define the seed differently, but then a lot of nice theorems would become false, like this one. BTW, my favorite is gcd(F_m, F_n) = F_gcd(m,n). – starblue Sep 20 '09 at 16:05

They are both correct. If you specify a sequence G{n} by the recursion G{1} = 3, G{2} = 5, G{n} = G{ n - 1} + G{ n - 2} then most people would agree that is "a Fibonacci sequence". The only difference being a few terms at the front, but the leading terms are mostly irrelevant for any interesting questions about the sequence. The heart of a Fibonacci sequence is the addition rule, and any sequence that uses that rule is a Fibonacci sequence. It is only necessary to specify whether 0 is in the sequence if you want to ask specific questions about a particular index... every thing else is just a translation on the index and is pretty much irrelevant. That is, if the problem is 'find a closed form solution for the Nth value in the sequence', then solving it for G will solve the problem for F with just a trivial shift of the solution. The hard part of the problem is the same for both sequences.

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No. This would not be called a Fibonacci sequence, at least not without an additional adjective. Some identities that hold for classical or combinatorial Fibonacci numbers do not hold for the general case. And some starting conditions (2 1 3 4 7.... Lucas Seqkem for example) are independently interesting – Dale Gerdemann Mar 12 '12 at 16:55


Fibonacci himself started the sequence with 1 and not 0.

But if you guys wanna pretend your opinion is unalterable fact and that you know better than the guy who created the sequence, go right ahead.

I think it's fine to start the sequence with 0, just as long as you don't act like that is the one and only absolutely correct way of doing things.

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Can you provide evidence of Fibonacci using terms like F(1)? – Kyle Delaney Jun 12 '15 at 15:14
My point is that if you can accept 1 as possibly the first number in the sequence, and you use 0 as the first index of a sequence, then it makes sense to say F(0) = 1. My point is also that there are multiple ways to do it, so it's better to be clear about which version you're using rather than insisting that there's only one way. – Kyle Delaney Jun 17 '15 at 22:06
fib 0 = 0
fib 1 = 1

That is the seed value definition.

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source? Or any other backup for your claim? Just stating that something is so, doesn't make it so. – Sjoerd May 8 '11 at 11:58

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