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How can I get a get a list of the available numpy.random distributions as described in the docs?

I'm writing a command-line utility which creates noise. I'd like to grab each available distribution, and get their required parameters to generate command-line options.

I could almost do something like this:

import numpy as np
distributions = filter( lambda elt: not elt.startswith("__"),  dir(np.random) )

... but this list contains extra stuff (e.g. shuffle, get_state) which aren't distributions.

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As the answers have said, the problem is that numpy really doesn't provide this information in a machine-readable way. Even if it did, it'd be a tough guessing game trying to figure out what parameters to pass to each function in an automated way. Just use the documentation to create your own table of what functions to call with which arguments. –  BrenBarn Jul 9 '13 at 2:18
    
@BrenBarn Good advice. I disagree about the parameter passing though. Since the idea was to generate command line arguments for my script, required parameters would be positional arguments to a main option, and optional parameters would be optional additional options. –  ajwood Jul 9 '13 at 11:39
    
The problem is, how do you know what values are appropriate to pass for those parameters? –  BrenBarn Jul 9 '13 at 18:55
    
The goal here is writing a command-line interface. For example, the --normal option would take two arguments. That puts the user in change of deciding what's meaningful. –  ajwood Jul 9 '13 at 19:15

2 Answers 2

up vote 1 down vote accepted

Just as they did in the documentation, you must list them manually. It is the only way to be sure you won't get undesirable functions that will be added in future versions of numpy. If you don't care about future additions, you could filter out function names that aren't distributions.

They were kind enough to provide the list in the module documentation (import numpy as np; print(np.random.__doc__)), but iterating through the module functions as you showed is way safer than parsing the docstring. They have defined the list (np.random.__all__) which may be another interesting iterating possibility.

Your question shows that numpy's naming conventions should be reviewed to include a prefix to functions of similar nature or to group them within sub-modules.

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I think I should get more distributions as they're added in future versions of numpy. That'd be the biggest benefit of dynamically grabbing a list of distributions somehow, rather than relying on a static list. –  ajwood Jul 8 '13 at 20:43
    
The problem with getting new distributions automatically is guessing their interface: What will you be providing to these new functions? How many parameters? You would guess their return range too? –  Soravux Jul 8 '13 at 20:51
    
I'm going to go with a static list like you suggested. But see my comment on the main question - I think I should be able to get at the function prototype (.. or whatever it's called in Python) and pull out enough info to generate command-line options, assuming the user knows what to do with them. –  ajwood Jul 9 '13 at 11:43

probably a prettier way, but:

import numpy as np
doc_string = np.random.__doc__
doc_string = doc_string.split("\n")
distribs = []
for line in doc_string:
    if 'distribution' in line:
        word = line.split()[0]
        if word[0].islower():
            distribs.append(word)

gives

>>> distribs
['beta', 'binomial', 'chisquare', 'exponential', 'f', 'gamma', 'geometric', 'gumbel', 'hypergeometric', 'laplace', 'logistic', 'lognormal', 'logseries', 'negative_binomial', 'noncentral_chisquare', 'noncentral_f', 'normal', 'pareto', 'poisson', 'power', 'rayleigh', 'triangular', 'uniform', 'vonmises', 'wald', 'weibull', 'zipf', 'dirichlet', 'multinomial', 'multivariate_normal', 'standard_cauchy', 'standard_exponential', 'standard_gamma', 'standard_normal', 'standard_t']

edit: included headers by accident.

edit2: Soravux is right that this is bad and unlikely to work forever.

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