Is there a faster equivalent of the
fractions module, something like a
cFractions module, just as there is a
cDecimal module, which is a faster equivalent of the
Decimal module ? The
fractions module is too slow.
It uses the GMP mutliple-precision library for fast integer and rational arithmetic.
Note: I'm also the maintainer.
The only thing we need is to install it
/path/to/python3 -m pip install cfractions
and after that replace
cfractions in your modules, as easy as that.
Main features include
>>> from cfractions import Fraction >>> import sys >>> sys.getsizeof(Fraction()) 32
>>> from fractions import Fraction >>> import sys >>> sys.getsizeof(Fraction()) 48
so it's basically a plain Python
2pointers for numerator & denominator.
- construction from pair of
- construction from single
- construction from
- sum of
- product of
ninstances or if we take a look at relative performance we can see
Note: I'm using
perfplotpackage, all benchmarks run on
- construction from pair of
plain Python C API, no additional dependencies,
constructing from numerator/denominator pair, single
full spectre of arithmetic & comparison operations,
string representation (both
immmutability & hashability,
float(with conversion of
floatfor the latter, as it is for
PyPysupport (by falling back to
property-based tests of all operations using
What it doesn't include
- operating with
I couldn't find anything. You could make one.http://docs.python.org/extending/extending.html
A quick search on fractions in c gave me http://www.spiration.co.uk/post/1400/fractions-in-c---a-rational-arithmetic-library. Use the 2nd post, it also handles negative numbers.
But that may not be what you need and you can find something else. If you don't want to extend python you have to stick to Fractions if you can't find anyone who has a cFractions module. I'm sorry.
Unfortunately, there's no c equivalent available without needing a compiled external dependency. Depending on your needs, the gist I've made: https://gist.github.com/mscuthbert/f22942537ebbba2c31d4 may help.
It exposes a function
opFrac(num) that optionally converts an int, float, or Fraction into a float or Fraction with a denominator limit (I use 65535 because I'm working with small fractions); if the float can be exactly represented in binary (i.e., it's a multiple of some power of two denominator), it leaves it alone. Otherwise it converts it to a Fraction. Similarly, if the Fraction is exactly representable in binary we convert it to a float; otherwise we leave it alone.
Fraction(float).limit_denominator(x) call is extracted out into a helper function,
_preFracLimitDenominator, that only creates one
Fraction object rather than the three normally created with the call.
The use cases for this gist are pretty few, but where they exist, the results are spectacular. For my project, music21, we work mostly with notes that are generally placed on a beat (integer) or on a half, quarter, eighth, etc. beat (exactly representable in binary), but on the rarer occasions when notes have placement (offset) or duration that is, say, 1/3 or 1/5 of a beat, we were running into big floating point conversion problems that led to obscure bugs. Our test suite was running in 350 seconds using floating point offsets and durations. Switching everything to Fractions ballooned the time to 1100 seconds -- totally unacceptable. Switching to optional Fractions with fast Fraction creation brought the time back to 360 seconds, or only a 3% performance hit.
If you can deal with sometimes working with floats and sometimes Fractions, this may be the way to go.