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I have computed a probability density function that depends on two variables. I want to use this multivariate distribution to generate some random numbers that occur with a probability proportional to the PDF.

As it seems, SciPy currently only supports univariate distributions. Are there any simple methods or easy-to-use packages that allow 2d-distributions?

As a workaround, I might try creating random numbers on the domain of interest and throwing them away or keeping them with a chance related to my PDF, but still there might be other options. The random number generation does not have to be fast.

Thanks for your help!

Here's a possible solution

Based on the answers (thanks a lot!), I hacked in some code the you may find in this gist. If you run this example with a sin^2*Gauss PDF, 2000 random random variates that fulfil a given condition (be inside a circle) will be plotted over the PDF. Maybe that's helpful for others, too.

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possibly i don't understand correctly. Why can't you pass two random variables into your distribution: F(random(),random()) – fraxel Jun 18 '12 at 13:43
1 – orokusaki Jun 18 '12 at 14:02
@fraxel, this would give me the probability density at a random position in my domain, not a random number that has a a probability of occurrence given by the probability density function. Furthermore, my PDF is available on a discrete grid only (I might use interp2d()). – AlexE Jun 18 '12 at 14:03
up vote 1 down vote accepted

So you have a PDF F(x,y) and you want to generate the pairs of x and y distributed according to this PDF?

I'd say unless you can use the multivariate version of the inversion technique (wiki), the rejection sampling is the way to go.

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For variables X and Y, couldn't you separate it into sampling two univariate distributions by just generating an x with the independent distribution of X, and a y with the distribution of Y given x?

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I don't know the OP's specific use case, but f(y|x) may not be known nor straightforward to compute. If f(x,y) has a familiar closed form, then yes, your answer should be feasible. – Steve Tjoa Jun 18 '12 at 14:31
@Steve: He already has f(x,y) in a discrete grid (see 3rd comment to the question). Shouldn't f(y|x) simply correspond to row x in that matrix then? – Junuxx Jun 18 '12 at 14:34
From the use of "density", along with the link in the post which discusses rv_continuous, I assumed X and Y were continuous random variables. From the third comment above, I interpret that as having discrete points of the continuous PDF. Yes, I suppose you could use those discrete points to approximate the true PDF, in which case, yes, just compute sums to get the marginals/conditionals. – Steve Tjoa Jun 18 '12 at 16:23

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