# How to compare Numpy.random's probability distribution functions [closed]

I'd like to compare all of the probability distributions provided by `numpy.random`. Ideally I'd like to see a set of graphs comparing them but I am open to other ideas.

I can imagine going through each function and plotting using matplotlib. Perhaps someone has done it before?

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## closed as too broad by PearsonArtPhoto, Steve Benett, Luc M, Ismail Badawi, alkoNov 26 '13 at 20:03

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.

"I am asking out of laziness/for everyone's future reference." kinda says it all? (hence -1) – usethedeathstar Nov 26 '13 at 14:38
Removed it... Didn't want to put anyone off! – atomh33ls Nov 26 '13 at 14:39
Yes, but on stackoverflow, you should show that you got some basic idea of how to do it, and that you have tried, but failed (and specifically where you failed, since that is where the community tries to help you, failure in motivation cant be cured by us) – usethedeathstar Nov 26 '13 at 14:43
I still think it is a worthwhile question which might come up for others when searching. Time will tell I suppose. – atomh33ls Nov 26 '13 at 16:15
remember to accept your own answer when it will let you. – tcaswell Nov 26 '13 at 17:43

I am not sure that all of the functions are all directly comparable. However, the functions that I could compare are shown below:

code:

``````    loc, scale = 0., 1
x=np.arange(-8., 8., .01)
laplace = np.exp(-abs(x-loc/scale))/(2.*scale)
gumbel = (1/scale)*np.exp(-(x - scale)/scale)* np.exp( -np.exp( -(x - scale) /scale) )
logistic = np.exp((loc-x)/scale)/(scale*(1+np.exp((loc-x)/scale))**2)
normal = 1/(scale * np.sqrt(2 * np.pi))*np.exp( - (x - loc)**2 / (2 * scale**2) )
lognormal = (np.exp(-(np.log(x) - loc)**2 / (2 * scale**2))/ (x * scale * np.sqrt(2 * np.pi)))
rayleigh = (x/(scale*scale))*(np.exp((-x*x)/(2*scale*scale)))
standard_cauchy = 1/(np.pi*(1+(x*x)))

plt.plot(x,gumbel,label='gumbel scale=1')
plt.plot(x,laplace,label='laplace scale=1, loc = 0')
plt.plot(x,normal,label='normal scale=1, loc = 0')
plt.plot(x,logistic,label='logistic scale=1, loc = 0')
plt.plot(x,lognormal,label='lognormal scale=1, loc = 0')
plt.plot(x,rayleigh,label='rayleigh scale=1')
plt.plot(x,standard_cauchy,label='standard_cauchy')
``````
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