Can anyone help me out in fitting a gamma distribution in python? Well, I've got some data : X and Y coordinates, and I want to find the gamma parameters that fit this distribution... In the Scipy doc, it turns out that a fit method actually exists but I don't know how to use it :s.. First, in which format the argument "data" must be, and how can I provide the second argument (the parameters) since that's what I'm looking for?
Generate some gamma data:
Here we fit the data to the gamma distribution:



If you want a long example including a discussion about estimating or fixing the support of the distribution, then you can find it in http://projects.scipy.org/scipy/ticket/832 and the linked mailing list message. Preliminary support to fix parameters, such as location, during fit has been added to the trunk version of scipy. 


I was unsatisfied with the ss.gamma.rvsfunction as it can generate negative numbers, something the gammadistribution is supposed not to have. So I fitted the sample through expected value = mean(data) and variance = var(data) (see wikipedia for details) and wrote a function that can yield random samples of a gamma distribution without scipy (which I found hard to install properly, on a sidenote):



1): the "data" variable could be in the format of a python list or tuple, or a numpy.ndarray, which could be obtained by using:
where the 2nd data in the above line should be a list or a tuple, containing your data. 2: the "parameter" variable is a first guess you could optionally provide to the fitting function as a starting point for the fitting process, so it could be omitted. 3: a note on @mondano's answer. The usage of moments (mean and variances) to work out the gamma parameters are reasonably good for large shape parameters (alpha>10), but could yield poor results for small values of alpha (See Statistical methods in the atmospheric scineces by Wilks, and THOM, H. C. S., 1958: A note on the gamma distribution. Mon. Wea. Rev., 86, 117–122. Using Maximum Likelihood Estimators, as that implemented in the scipy module, is regarded a better choice in such cases. 

