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Maybe I misunderstand my assignment last time.The actually problem description should be like the following:

I have an array: A B AB BAB ABBAB BABABBAB

The number of each term of the array is base on the Fibonacci number.

Put the n-th string and the n+1-th string together, then producing the n+2-th string:


Then is the x-th (eg.10^16-th) letter of the n-th term which count from the last letter is A or B? Eg. the 6th letter was B, not only in the 6th term BABABBAB but also in the later terms ABBABBABABBAB

The 7th letter is A in the the 6th term BABABBAB and also in the later terms - ABBABBABABBAB

The most inspiring news is that someone has a Θ(1) solution.

if [x / g] * g >= x - 1 then it's B else it's A. g is the golden mean.

but he or she didn't explain why it works.

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What have you tried, where are you stuck? –  Brian Roach Mar 20 '11 at 6:24
I just thought that: if x > f(n) and x < f(n+1), that means x is among the f(n+1) and it's the x - f(n-1) in the f(n-2) then just going on until to the 1st or 2nd term.But the complexity will be Θ(n). The solution I added was so simple and perfect to solve the problem, but I can't figure out. –  Neomatrix Mar 20 '11 at 6:59
possible duplicate of Fibonacci string array –  Paul R Mar 20 '11 at 8:45
You should update your original question with the new information, rather than starting a new question on the same topic. –  Paul R Mar 20 '11 at 8:46
@Paul R: It's a different problem from the previous one,though they have same assumptions. –  Neomatrix Mar 20 '11 at 9:20
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1 Answer

Have a look at the Wikipedia article on Fibonacci Word. A formula for the n'th digit is given there along with references.

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+1: The problem gives the reverse of Fibonacci words. Can prove using induction... –  Aryabhatta Mar 26 '11 at 5:10
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