In considering a (C++ library) project, I've been looking at my options to represent signed/unsigned numbers where, while I expect the vast majority will be under 64-bits, I can't accept any fixed limitation on size (save that imposed by available memory). I am looking to expose this library in various languages, so need to consider translation of these numbers. I hope to target, at least, Windows and Linux platforms.
With Java, the java.lang.Bignum class looks neatest; with CLR (C#, VBNet etc.) System.Numerics.BigInteger seems the way to go. Both these use byte-arrays to interoperate with other representations - Little-endian for CLR; Big-endian for Java. With Python, of course, the native int/long values are not constrained to a range - and uses yet another (word-oriented) internal format.
I've looked at GMP and MPIR - which seem capable, but low-level. I felt similarly about SSL BIGNUM. I thought TTMath and Boost Multiprecision libraries looked promising - though both appear to require me to specify a range by giving an (admittedly arbitrarily large) number of bits as a template parameter - while I will not know the size of values until run-time.
I am looking for a C++ library that represents both signed and unsigned numbers of arbitrary scale. I will need the 'usual' basic operations (+,-,*,/,%,<<,>> etc.) but I expect most runtime to be dedicated to translating values between different representations... and not doing intensive calculation with these values.
It seemed improbable that there wouldn't be a wealth of such implementations widely available - but I've not managed to find anything suitable... i.e. with strong support to convert to external big integer representations - with a single type capable of representing any (unsigned) integer value - with as high a level interface as possible.
Are there any suitable libraries (with a liberal licence) that I've overlooked?