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I'm a long time programmer but new to Ruby. I'm trying to port an algorithm called CheckRevision used for checking integrity of game files before loggin into Battle.net's online gaming service.

The algorithm makes a "hash" of the files with a given formula. Without boring details, it's constantly modifying the values a, b and c which are 64-bit integers, or in the reference implementation I'm porting from, a Java long. My implementation is correct for the first few iterations but when the int64 should wrap around it becomes a BigNum instead.

What's the proper way to restrict a FixNum to 64bit, or should I be using a different type?

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2 Answers 2

up vote 2 down vote accepted

64-bit integers are represented in Ruby MRI as Bignums internally even on 64-bit platforms in some cases (due to implementation details, Fixnums are only 63 bit long on 64-bit platform sand 31 bit long on 32-bit platforms). Hence, it will be much more faster to use binary "and" operator &:

ruby-1.9.2-p290 :001 > a = 2**128 + 1256231
 => 340282366920938463463374607431769467687 
ruby-1.9.2-p290 :002 > a & (2 ** 64 - 1)
 => 1256231 
ruby-1.9.2-p290 :003 > a & 0xffffffffffffffff
 => 1256231 

The last variant is a bit uglier, but also faster, too, as Ruby MRI lacks constant folders. If you'd do the 002 clause in a loop, it would compute 2**64 - 1 each time).

Ruby MRI is an official ("Matz Ruby Implementation") variant of Ruby, i.e. "plain" Ruby which most of us use. The details I've listed here may or may not apply this way to other implementations, but binary "and" is generally faster or as fast as modulo operator on any platform or language.

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I like it. Also bit pushing should make it easier to deal with signed ints if necessary. –  Mchl Aug 30 '11 at 22:13

As long as we're talking unsigned integers, then overflow can be calulated with modulo operator.

irb(main):001:0> a = 2**128 + 1256231
=> 340282366920938463463374607431769467687
irb(main):002:0> a % 2**64
=> 1256231
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