I want to generate what I'm choosing to call "arbitrary" positive floating-point numbers; that is, random numbers which are independent of scale (in other words, numbers whose logarithms are uniformly distributed). I'm not much of a mathematician, so for all I know there may be another name for what I'm after.
Here's my initial, naïve solution:
import sys import random def arbitrary(min=sys.float_info.min_10_exp, max=sys.float_info.max_10_exp): return 10 ** random.uniform(min, max)
It strikes me that this is probably not ideal: for one thing, I imagine that there might be some interaction between the limited precision of
random.uniform() and the floating point representation itself that would cause bunching and gaps in the expected output at higher orders of magnitude.
Is there a better approach?
Would it make more sense to just produce a string of random bits and then turn that into the floating point number they represent?
EDIT: As pointed out by Oli Charlesworth in the comments, the "convert random bits to a float" idea doesn't do what I want (which is a uniform distribution of log(n)).