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Is there any compile-time library (template metaprogramming) for arbitrary-precision arithmetic in C++?

I need this to help with fixed-point arithmetic and binary scaling in my program for AVR microcontrollers. For example, when two numbers each with their own bounds are multiplied, the bignums would be used to compute the bounds of the result, and move the fraction point in the inputs and/or outputs as appropriate. But the bounds of the result may not be representable in the standard integer types.

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What do you mean by "template metaprogramming"? "BigInteger" type libraries practically always use dynamic memory allocation. Otherwise, you can just utilize a larger type (i.e. signed int64 for multiplying two signed int32's) – DarkWanderer May 25 '13 at 18:07
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@DarkWanderer I mean, well, template metaprogramming. This link should give you some idea how bignums could be implemented at compile time: alpmestan.wordpress.com/2009/12/03/… . In essence, a compile-time bignum would be a (recursive) type, and the compiler would deal with memory allocation. – Ambroz Bizjak May 25 '13 at 18:18
    
@DarkWanderer A large integer type is not sufficient - my problem is about dealing with the bounds of types at compile time, and I need to have compile-time checks something along the lines of "A + B < INT64_MAX && A + B > INT64_MIN". Compile-time bignums would allow these to be written "directly" without having to worry about integer overflows. – Ambroz Bizjak May 25 '13 at 18:30

Possibly Boost.Multiprecision is what you're looking for.

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