8

I am trying to get reproducible results with the genetic programming code in chapter 11 of "Programming Collective Intelligence" by Toby Segaran. However, simply setting seed "random.seed(55)" does not appear to work, changing the original code "from random import ...." to "import random" doesn't help, nor does changing Random(). These all seem to do approximately the same thing, the trees start out building the same, then diverge.

In reading various entries about the behavior of random, I can find no reason, given his GP code, why this divergence should happen. There doesn't appear to be anything in the code except calls to random, that has any variability that would account for this behavior. My understanding is that calling random.seed() should set all the calls correctly and since the code isn't threaded at all, I'm not sure how or why the divergence is happening.

Has anyone modified this code to behave reproducibly? Is there some form of calling random.seed() that may work better?

I apologize for not posting an example, but the code is obviously not mine (I'm adding only the call to seed and changing how random is called in the code) and this doesn't appear to be a simple issue with random (I've read all the entries on Python random here and many on the web in general).

Thanks. Mark L.

7
  • "... the trees start out building the same, then diverge." Is it possible that the code reseeds random elsewhere? Jul 7, 2011 at 17:25
  • I suppose, but I cannot find where. The original code doesn't use seed, I added it myself (three different ways, no less). I am at a loss as to how it is reseeding and where I might change the code to fix that. All of the modifications I find in the code seem to come from random calls (random, choice, randint and randrange) within the various defs. Hopefully there is a way to make seed override whatever is causing this to happen. Jul 7, 2011 at 17:34
  • Could any library you're using be calling random for any reason?
    – Thomas K
    Jul 7, 2011 at 17:37
  • I think we'll need to see the code. Jul 7, 2011 at 17:42
  • What kind of floating point issue would it be? The floats should all be the same based on the random seed, I would think. I've gone so far as to try the latest python 2.6 version as well, to no avail. Jul 7, 2011 at 18:15

3 Answers 3

5

I had the same problem just now with some completely unrelated code. I believe my solution was similar to that in eryksun's answer, though I didn't have any trees. What I did have were some sets, and I was doing random.choice(list(set)) to pick values from them. Sometimes my results (the items picked) were diverging even with the same seed each time and I was close to pulling my hair out. After seeing eryksun's answer here I tried random.choice(sorted(set)) instead, and the problem appears to have disappeared. I don't know enough about the inner workings of Python to explain it.

9
  • 1
    You're issue would arise from the use of the set, not the random module. Sets are unordered, just like python dictionaries
    – Zizouz212
    Aug 29, 2016 at 21:11
  • 1
    I would have thought the order given that the elements are added in the same order would still be deterministic? If not, why not? Where is the random element introduced?
    – tremby
    Aug 29, 2016 at 22:08
  • 1
    Think of the set as a list. Items in the set don't have a specific, constant position, and they can move around. This is because the items are hashed, which is also the mechanism Python uses to make all set items unique. This behaviour is seen in dictionaries also: the keys are not ordered because they are hashed. The reason why sorting the set works, is because now each item has a position, and it doesn't move. This position is the same at all times in the sorted container. The random function just generates a random number to index the container, and has no knowledge of the item's type.
    – Zizouz212
    Aug 29, 2016 at 22:17
  • 3
    Ah, I missed a crucial point. The internal hash function isn't a true "hash" of the data (like you'd expect from sha256 or md5). Instead, it's derived from the id function, which is basically the memory address of the object. So it will be different every time. You can see it. Create two string objects, and pass them through the id and hash functions, and they will be similar. This may also be of interest as to why they are different: stackoverflow.com/a/17192858/4293417
    – Zizouz212
    Aug 29, 2016 at 22:42
  • 1
    That explains it. Thanks! This is potentially off-topic now, but do you know of any way to make that id predictable (seeded?) between runs of the program?
    – tremby
    Aug 29, 2016 at 23:01
3

This may help, to create a random object that won't be interfered with from elsewhere:

from random import Random
random = Random(55)
# random can be used like the plain module

If other libraries are calling random.seed for any reason, they won't affect the random object you've created for your program.

1
  • This does not appear to work either (I had tried something similar before), suffering the same basic problem. I am at a loss to explain this behavior. I happens on at least two versions of Python on Windows 7 and Linux. Seed appears to work for at least a little while. Jul 7, 2011 at 18:53
3

I added the following function to gp.py, changing nothing else:

def set_seed(n):
  import random
  random.seed(n)

I'm using the module based on the example on page 267 (Google books). I can confirm that I get divergent results for the following trial:

>>> import gp
>>> gp.set_seed(55)
>>> rf = gp.getrankfunction(gp.buildhiddenset())
>>> gp.evolve(2, 500, rf, mutationrate=0.2, breedingrate=0.1, pexp=0.7, pnew=0.1)

It starts to diverge as early as the 4th value printed. I'm restarting the interpreter between trials, so it's not any prior state that's causing the problem.

Edit:

I found the random element. It's the memory address of the trees. The rank function sorts the list of results, for which each item is a tuple of the score and tree. Between runs the addresses change, and so the relative sort order of trees with equal score isn't a constant. Fortunately Python has a stable sort, so the fix is simple enough. Just use a sort key to sort based on only the score:

def getrankfunction(dataset):
  def rankfunction(population):
    scores=[(scorefunction(t, dataset), t) for t in population]
    scores.sort(key=lambda x: x[0])
    return scores
  return rankfunction
3
  • I have tried running it as outlined in the book on page 267 from within the interpreter. I can see where the stuff on page 260 might work, it seems to be either mutation or crossover (both?) that is being inconsistent (despite using only calls to random), that is added on page 265 and 266 (all code available at the O'Reilly website). Jul 7, 2011 at 19:58
  • Thank goodness it is not just me! Any theories? It is bothering me that something this simple should be so obviously broken. I apologize for not posting the exact code above, I got sidetracked in the middle of typing and was then interrupted. Glad you were able to find it from the text. Jul 7, 2011 at 20:30
  • This explains why I could not find it. Thank you for your help and that wonderful fix! Jul 8, 2011 at 5:58

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.