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About random.uniform, docstring says:

Get a random number in the range [a, b) or [a, b] depending on rounding.

But I do not know what does 'depending on rounding' exactly mean.

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Well underneath random.uniform in the docs it says The end-point value b may or may not be included in the range depending on floating-point rounding in the equation a + (b-a) * random(). – Jon Clements Nov 3 '12 at 21:09
up vote 7 down vote accepted

The current documentation for random.uniform() reads:

Return a random floating point number N such that a <= N <= b for a <= b and b <= N <= a for b < a.

The end-point value b may or may not be included in the range depending on floating-point rounding in the equation a + (b-a) * random().

Floating point arithmetic on computers is limited in precision and rounding errors caused by this imprecision may lead to b not being included in the full range of values used for the random value that uniform() returns.

random.random() returns a value between 0.0 (inclusive) and 1.0 (exclusive). There are values for a and b where a floating point calculation of the sum a + (b-a) * (1.0 - epsilon/2) does not equal b, but will be a minute amount lower than b, while for other combinations the sum does equal to b. epsilon is the minimum precision of a floating point number on your platform (see sys.float_info), and 1.0 - epsilon/2 the maximum value random.random() can return.

If you are interested in the details of why floating point arithmetic on computers is imprecise, I can recommend the following two articles:

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Example: random.uniform(0, 5e-324) includes the upper bound. – DSM Nov 3 '12 at 21:20
@SvenMarnach: ah, missed the ), read it as ]. So the maximum value is 1.0 - epsilon then? – Martijn Pieters Nov 3 '12 at 21:24
@MartijnPieters: The maximum value depends on the random generator. It's usually not 1.0 - epsilon with epsilon being the "epsilon" of the floating-point representation, but rather with an epsilon depending on how many bits the random number generator delivers. This used to 48 bits some time ago, and the mantissa of double-precision numbers has 52 bits, so there's a factor of 16. I'm investigating if this is still true. – Sven Marnach Nov 3 '12 at 21:29
@SvenMarnach: right, so not 1.0 - epsilon exactly, but something close to that that depends on the resolution of the random number algorithm (Wichman-Hill, see the source). – Martijn Pieters Nov 3 '12 at 21:31
@MartijnPieters: Oh, that's a very different algorithm than the one I had in mind. Yes, of course it depends on this algorithm, and I can't tell what the maximum value is at first glance. :) – Sven Marnach Nov 3 '12 at 21:34

rounding is: if i round 3.45 upwards, i will get 4. but if i round it downwards, i will get 3. so in this case, the values of ranges coming from [ or ] will change depending on round

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why is downvote? – doniyor Nov 4 '12 at 11:59

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