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How would you prevent the errors when calling function biased_random defined below and what are the limits for arguments scale and bias to hold for preventing problems with big or small numbers?

def biased_random(scale, bias):
  return random.random() ** bias * scale

>>> sum(biased_random(1000, 10) for x in range(100)) / 100

>>> sum(biased_random(1000, 100000) for x in range(100)) / 100

>>> sum(biased_random(1000, 0.002) for x in range(100)) / 100
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This seems clearly defined here This defines the limits on floating-point numbers. 10**308 is pretty clearly defined as the upper limit. Is this what you're looking for? What more do you need to know? –  S.Lott Feb 22 '12 at 15:19

1 Answer 1

up vote 1 down vote accepted

I'd use sys.maxint to figure out what the overflow point is. Then divide or nth-root it and compare with the number that you have:

r = random.random()
if sys.maxint ** (1.0/bias) < r:
    print "overflow imminent"
elif sys.maxint/float(scale) < r ** bias:
    print "overflow imminent"
    print "overflow unlikely. To infinity, and beyond..."

Hope this helps

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Can I test somehow that these equations work? –  xralf Feb 22 '12 at 18:39
Figure out what the overflow on your machine is (should be sys.maxint). Then you can test away. What I've posted is an implementation of a theoretic discussion I had with someone, some time back –  inspectorG4dget Feb 22 '12 at 19:16
I'm testing it and seems that it works (in accordance to limit 10**308 as S.Lott commented), but wonder how you solved it in the theoretical discussion. –  xralf Feb 22 '12 at 20:09
It was algebra. What you want to do is test that x * c (where c is a constant) will not overflow. You know (or can easily find) the overflow value. Then you do overflow/c if x is bigger than this number, then you're headed for an overflow. –  inspectorG4dget Feb 22 '12 at 20:21

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