I'm running into a bit of trouble with some code. Please bear in mind that I'm a terrible programmer, so my solution probably isn't very eloquent (and likely the reason why I'm running out of memory - I have 4 gigabytes and the script slowly fills it).
Here's the problem. I've got about 3,500 files in a directory. Each file consists of a single line that could have relatively few or many characters with no spaces (the smallest file is 200 bytes vs. the largest at 1.3 megabytes). What I am trying to do is find a common substring between these files two at a time of set length (in the code below it's 13 characters). I do two at a time because I'm not looking for a common substring among all of them, but rather combinations of two until all the files have been compared. I.e., any common substring of set length between the files, not a substring common to all of them.
I use a suffix tree module that wraps a C implementation (over here). First I make a list of all the files in the directory, then I look for combinations of two so that all combinations are covered, I pass two files at a time to the suffix tree and then look for sequences that are common substrings.
However, I don't really know why it's slowly running out of memory. I hope there's an amendment we can make to the code so that it clears out memory of unused stuff somehow? Obviously 3,500 files will take a long time to process, but I hope that it's possible to do without incrementally filling 4 gigabytes of memory. Any help would be greatly appreciated! Here is the code I've got so far:
from suffix_tree import GeneralisedSuffixTree from itertools import combinations import glob, hashlib, os alist = open('tmp.adjlist', 'w') def read_f(f): f = open(f, "r") s = str(f.readlines()) f.close() return s def read_gs(a,b): s1 = read_f(a) s2 = read_f(b) print str(a) + ":" + str(hashlib.md5(s1).hexdigest()) + " --- " + str(b) + ":" + str(hashlib.md5(s2).hexdigest()) return [s1,s2] def build_tree(s): hlist =  stree = GeneralisedSuffixTree(s) for shared in stree.sharedSubstrings(13): for seq,start,stop in shared: hlist.append(hashlib.md5(stree.sequences[seq]).hexdigest()) hlist = list(set(hlist)) for h in hlist: alist.write(str(h) + " ") alist.write('\n') glist =  for g in glob.glob("*.g"): glist.append(g) for a,b in list(combinations(glist, 2)): s = read_gs(a,b) build_tree(s) alist.close() os.system("uniq tmp.adjlist network.adjlist && rm tmp.adjlist")
Here's the updated code. I added the suggestions Pyrce made. However, after jogojapan identified the memory leak in the C code, and given that it's way outside of my expertise, I ended up going with a much slower approach. If anyone is knowledgeable in this area, I'd be really curious to see how to modify the C code to fix the memory leak or the deallocation function, as I think a C suffix tree binding for Python is very valuable. It will probably take a few days to run the data through this script without a suffix tree, so I'm definitely open to seeing if anyone has a creative fix!
from itertools import combinations import glob, hashlib, os def read_f(f): with open(f, "r") as openf: s = str(openf.readlines()) return s def read_gs(a,b): s1 = read_f(a) s2 = read_f(b) print str(a) + ":" + str(hashlib.md5(s1).hexdigest()) + " --- " + str(b) + ":" + str(hashlib.md5(s2).hexdigest()) return [s1,s2] def lcs(S1, S2): M = [*(1+len(S2)) for i in xrange(1+len(S1))] longest, x_longest = 0, 0 for x in xrange(1,1+len(S1)): for y in xrange(1,1+len(S2)): if S1[x-1] == S2[y-1]: M[x][y] = M[x-1][y-1] + 1 if M[x][y]>longest: longest = M[x][y] x_longest = x else: M[x][y] = 0 return S1[x_longest-longest: x_longest] glist = glob.glob("*.g") for a,b in combinations(glist, 2): s = read_gs(a,b) p = lcs(s,s) if p != "" and len(p) >= 13: with open("tmp.adjlist", "a") as openf: openf.write(hashlib.md5(s).hexdigest() + " " + hashlib.md5(s).hexdigest() + "\n") os.system("uniq tmp.adjlist network.adjlist && rm tmp.adjlist")