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I want to find a specific sequence of digits in the decimals of PI and that involves first computing PI to (quite possibly) infinity. The problem is that I don't know how to make a variable store that many digits or how to just use the newly computed digit so I can compare it to my sequence.

So how can I calculate PI and keep only the last decimal as an integer?

Thanks in advance.

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5  
To infinity, heh? ) –  Victor Sorokin Oct 18 '12 at 19:50
    
How long is the sequence of digits? –  starblue Oct 18 '12 at 20:14
    
2  
If this is an exercise in arbitrary-precision arithmetic, carry on. If finding the digits is the actual task, the work has already been done: search in the first 2 * 10^9 digits here, or download the first 5 * 10^12 digits here. –  AakashM Oct 19 '12 at 9:42
    
I am trying to find a 29 digit long sequence, so that is highly unlikely to occur within the first few decimals, that's why I'm looking for a way to find a crapload of them to search through. @AahashM: Thanks, your comment is a very good start point, albeit not in a programming way. If you would submit it as an answer I would gladly choose it as an answer. –  FloIancu Oct 19 '12 at 19:47

2 Answers 2

This kind of problem can be solved very elegantly using lazy evaluation, like the one found in Haskell. Or using generators in Python, producing at most one number of Pi at a time, and checking against the corresponding position in target value that's being searched.

The advantage of either approach is that you don't have to generate a (potentially) infinite sequence of numbers, only generate as much as needed until you find what you're looking for. Of course, if the specific sequence really doesn't appear in the number Pi the algorithm will iterate forever, but at least the computer executing the program won't run out of memory.

Alternatively: you could use the BBP Formula, or a similar algorithm which allows the extraction of a specific digit in Pi.

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This only works if you have a method f(n) that returns the nth digit of PI. Do you? –  IVlad Oct 18 '12 at 19:59
    
@IVlad for the first option: no, you can lazily calculate "all digits" but only look at one in particular, before advancing to the next one. For the second option: yes, this implies calculating the nth digit, but as mentioned above, such an algorithm exists. –  Óscar López Oct 18 '12 at 20:04
    
Digit extraction algorithms like BBP are indeed the way to go I think, but I find your first two paragraphs confusing and not really relevant. The last sentence is all the OP needs I think, so +1 for that. –  IVlad Oct 18 '12 at 20:04

You can use an iterative algorithm for calculating Pi, for example, the Gauss–Legendre algorithm.

To implement it, you will need a library that does arbitrary-precision arithmetic; one such library is GMP.

Apparently, someone has done most of the work for you: http://gmplib.org/pi-with-gmp.html

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