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I've created a python script that is supposed to check whether a subset of 1 billion 378bit bit strings is present in the other 1 billion minus 1.

Because of the formalization, each 378bit bit string has a unique head that is 28bits and a 350bit tail that may be unique.

Thus, rather than check the entire string, I take all heads in sequence and check all of the subsets (since the tail cannot be a subset of another tail if the head is unique). For example:

1 0 1 0 1

would have subsets

1 0 1 and 1

(trailing zeros on the front end are removed for simplicity)

I then join each subset to the tail and see if that bit string has already been checked. If it has, I store the base set (10101) and the relevant subset.

The problem is, in the code I will outline below, I keep getting false matches after a sequence of accurate matches (e.g., 3 good 1 bad no matches for a bit 6 good 1 bad no matches for a bit etc.). It always follows this pattern as far as I have got in the overall process and it always makes the same mistakes when re-run.

If anyone has either a better way to do this or can see where the flaw is, it would be a great help.

Code for basic logic:

#converts to bit string from numpy array
tback = ''.join([str(int(num1)) for num1 in back[j]])
#converts to list for quick indexing
ls = list(ind[j])
#finds all indices that have a 1 bit then
#takes the corresponding bit list from that index onwards
subs = [ls[i:] for i, z in enumerate(ls) if z == 1.]
#converts all subs bit lists to bit strings 
subs = [''.join([str(int(num2)) for num2 in m]) for m in subs]
base = subs[0]
subs = subs[1:]
for s in subs:
  #converts to ints
  val = int(''.join(['0b', s, tback]), 2)
  ln = len(sets)
  #assigns to set to see if unique
  sets[val] = None
  #if not unique then there should be no change in size of the underlying dict
  if len(sets) == ln:
    #so note that the base and the subset are a match/problem
    probs.append((base, s))
    print 'probs: ', len(probs)
    #otherwise we don't want to keep a reference of the subset
    del sets[val]
#store reference of base bit string as int for future checking
sets[int(''.join(['0b', base, tback]), 2)] = None

For a class that instantiates all the code and the corresponding hdf5 files go: http://www.mediafire.com/download/pim9hgm5yy3jmar/compress-objs-test.hdf5 http://www.mediafire.com/view/stt112fgg66biat/new_compress.py

Two quick notes: The hdf5 file is only a subset of the whole hdf5 file, but it is still approx. 500mb. So, it's not for the faint of heart, let's say. Second, I now realize that the way I'm determining subsets is incorrect (it only gives some of the subsets). I've left it as is since the problem should still exist in both cases. The correct subset calculator simply adds more possible options (e.g., 1 0 0 and 1 0 0 0 1 and 1 0 0 0 0 for the original example).

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