Since there are two ways of implementing an AP fractional number, one is to emulate the storage and behavior of the `double`

data type, only with more bytes, and the other is to use an existing integer APA implementation for representing a fractional number as a rational i.e. as a pair of integers, numerator and denominator, which of the two ways are more likely to deliver efficient arithmetic in terms of performance? (Memory usage is really of minor concern.)

I'm aware of the existing C/C++ libraries, some of which offer fractional APA with "floats" and other with rationals (none of them features fixed-point APA, however) and of course I could benchmark a library that relies on "float" implementation against one that makes use of rational implementation, but the results would largely depend on implementation details of those particular libraries I would have to choose randomly from the nearly ten available ones. So it's more *theoretical* pros and cons of the two approaches that I'm interested in (or three if take into consideration fixed-point APA).

floating-pointnumber? Floating-point generally refers to representations that provide non-uniform precision: more "concentrated" around`0`

, dropping as we get farther away from`0`

, and catastrophically "sparse" at the remote ends of the range. Do you really need this property? Or did you just usefloating-pointas a generic term for any fractional number? In other words, why isn't fixed-point arithmetic considered? – AndreyT Aug 3 '12 at 16:49integerarithmetic after all data has been multiplied by some constant factor (with some minor adjustments). In other word any big-integer library (again: key word beinginteger) serves at the same time as fixed-width fractional library. – AndreyT Aug 3 '12 at 17:03wrapperat least. Multiplication/division of fixed point isnotjust multiplying them. (Also IO and conversions and such) – Mooing Duck Aug 3 '12 at 17:05