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I'm designing a mathematical software with algorithms that work for generic integer types such as machine ints, or GMP integers. For performance one usually wants to work with machine ints, but if there is an overflow, then one may want to try to switch to GMP; ideally at runtime. So far the entire program is written as a template over the integer type. As the library grows, the pain grows:

  • Compile time and memory consumption are getting out of hand.
  • Error messages at compile time are less useful.
  • Debugging is more painful.
  • The entire code is in header files.

I can think of the following solution. Refactor the code to depend on a fixed type that is typedef'ed via a compile time macro. Then make several copies of the library, one for each integer type and link them together in the executable. The drawback seems to be that I need an interface of the library to itself.

The short question would be: What are design patterns for situations in which almost the entire programm depends on a type?

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Don't optimise prematurely (Knuth) - the GMP (GNU Multiple Precision Arithmetic Library) is quite good at handling the small ints for performance and scaling up to larger ones when needed. Don't try to reinvent it! –  danodonovan Jan 31 '13 at 17:04
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2 Answers

The GNU Multiple Precision Arithmetic Library has been

carefully designed to be as fast as possible, both for small operands and for huge operands.

In other words, if you use GMP library then that will handle these difficulties for you, and save you a lot of effort!

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Well, it is not a different complexity class, but I'm measuring 3-4 times longer runs on the same problem when using gmp integers instead of integers. –  Thomas Jan 31 '13 at 17:26
    
@Thomas Does that code do the right thing when you're using standard integers? If the 'standard' code simply overflows all the time while the GMP code has to expand the internal representations of the numbers to keep the results correct, that would explain the difference. –  us2012 Jan 31 '13 at 18:25
    
No overflow. In a situation where machine integers suffice gmp slows us down by a factor of 3-4. –  Thomas Feb 1 '13 at 7:44
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In my own mathematical software, I use GMP by default but I want to provide a fallback if it is not available. I also didn't enjoy the huge gmpxx header file which slows down the compilation on my slow machine.

So I essentially wrote a wrapper class over an undefined integer (with pimpl using std::aligned_storage). The back end can be chosen during compilation time.

This gets rid of the templates and gives enough flexibility for me.

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If I understand you correctly this is basically the solution that I already mentioned in the question? Could you elaborate a bit more on your implementation? I would just do a bunch of 'typedef something IntegerType' one of which gets activated at compile time and then use IntegerType throughout. Why do I need pimpl or aligned_storage? –  Thomas Jan 31 '13 at 18:06
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