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I have wrote a code in Python for CRP problem. The problem itself can be found here: http://cog.brown.edu/~mj/classes/cg168/slides/ChineseRestaurants.pdf

And to give a short description of it: Suppose we want to assign people entering to a restaurants to potentially infinite number of tables. If $z_i$ represents the random variable assigned for the $i$'th person entering the restaurant the following should hold:

With probability $p(z_i=a|z_1,...,z_{i-1})=\frac{n_a}{i-1+\alpha} for $n_a>0$, $i$'th person will sit in table $a$ and with probability $p(z_i=a|z_1,...,z_{i-1})=\frac{\alpha}{i-1+\alpha} $i$'th person will sit around a new table.

I am not quite sure if my code is correct cause I am surprised how small the final number of tables are.

I would be happy if somebody could say if the implementation is correct and if so are there any possible improvements.

import numpy as np
def CRP(alpha,N):
    """Chinese Restaurant Process with alpha as concentration parameter and N 
    the number of sample"""
    #Array which will save for each i, the number of people people sitting
    #until table i
    summed=np.ones(1) #first person assigned to the first table
    for i in range(1,N):
        #A loop that assigns the people to tables

        #randind represent the random number from the interval [1,i-1+alpha]
        randind=(float(i)+alpha)*np.random.uniform(low=0.0, high=1.0, size=1)
        #update is the index for the table that the person should be placed which
        #if greater than the total number, will be placed in a new table
        if randind>i:
    #This part converts summed array to tables array which indicates the number
    #of persons assigned to that table
    for i in range(1,summed.size):
    return tables
print a
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This should be on codereview.stackexchange.com but no option to migrate it. –  Inbar Rose Oct 16 '13 at 14:23
@InbarRose, the number of branches of stackexchange increases by day, and it is really funny to get minus vote because of being unaware of a new branch! –  Cupitor Oct 16 '13 at 14:27
You might have gotten a down vote because this "question" serves no use to anyone else except for you. Any answers to this question will only affect this particular instance at this particular time. It does not fit with the way questions should be asked on this site, but is perfect for the codereview site. –  Inbar Rose Oct 16 '13 at 14:29
@InbarRose, Seriously?? Well for your information, "Chinese Restaurant Process" is considered to be one of the new useful sampling methods in modern statistics and if you Google it up, you'll figure out that there is no useful python implementation of it! I am pretty sure people would be very happy to get a correct(reviewed by people here) implementation of it! –  Cupitor Oct 16 '13 at 14:32
@Naji: don't worry about the down-votes - they just reflect the fact that your question has been posted on an inappropriate board - your reputation will be restored once the question has been migrated to somewhere more appropriate. –  Paul R Oct 16 '13 at 16:11

1 Answer 1

Suggestion. Forget about the code you have written. Construct declarative tests of the code. By taking that approach, you start with examples for which you know the correct answer. That would have answered Brainiac's question, for example.

Then write your program. You will likely find that if you start approaching problems this way, you may create sub-problems first, for which you can also write tests. Until they all pass, there is no need to rush on to the full problem.

share|improve this answer
I am not quite sure if I understood what you are implying but I am not familiar with writing test samples for a stochastic program? –  Cupitor Oct 16 '13 at 15:08
For starters, what do you expect if N = -1, 0, 1? How about alpha < 0, = 0, etc. You assert something about the state of the system using CRP (alpha, N) under combinations of those conditions. If there are cases with analytically determinable results, test them. Might as well find the bugs before you start using it. –  Fred Mitchell Oct 17 '13 at 21:29
I actually got the answer here: stats.stackexchange.com/questions/72961/… I asked for the cumulants. –  Cupitor Oct 17 '13 at 21:56
As to testing a stochastic algorithm, you can use an interface for which you supply a stochastic result as here when using it in production, but during testing you supply pre-determined values for which you can calculate your results in advance. If your system has asymptotic behavior then you can also test that it approaches that behavior. –  Fred Mitchell Oct 19 '13 at 19:11

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