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I have to create an adjacency list of users and TV shows where therows are the users and the TV shows are the columns. If a user follows that TV show then there will be a 1 in the matrix else a zero. This information I have already collected from twitter. In total there are 140 TV shows and approximately 530000 unique users. I am using the following code to generate the matrix, using python:

  • NoTvShows: Total number of TV shows(IDs)
  • unique_user: All the unique users
  • collected_users: This is a list of lists. The sublists correspond to TV shows and list the IDs of the followers.
for i in range(0,NoTvShows):
    for every_user in unique_users:
        if every_user in collected_users[i]:
    matrix = []

the_matrix = zip(*main_matrix)

When I try executing my program on the server, it crashes as it is taking a lot of time and memory. I know I can use numpy to reduce the size of my matrix and then use it to compute similarities between the users. However, I am not sure as to how to code the numpy in this code and generate the reduced matrix.

I hope someone can guide me in this regard

Thank you


share|improve this question

Sparse matrices (as suggested by @phg) are good, since most of the entries in your matrix are probably 0 (assuming most users follow only a few TV shows).

Probably more importantly, though, you're building the matrix in a very inefficient way (making lots of lists of python lists and copying them around), rather than just putting them in a nice compact numpy array in the first place. Also, you're spending a ton of time searching through lists (with the in statement), when that's just not at all necessary for your loops.

This code loops over the follower list and looks up the user # for each id in a user_ids dictionary. You can adapt it to a sparse matrix class pretty trivially (just switch np.zeros to scipy.sparse.coo_matrix, I think).

user_ids = dict((user, i) for i, user in enumerate(unique_users))

follower_matrix = np.zeros(NoTvShows, len(unique_users), dtype=bool)
for show_idx, followers in enumerate(collected_users):
    for user in followers:
        follower_matrix[show_idx, user_ids[user]] = 1

Once you have the matrix, you really, really don't want to save it as JSON unless you have to: it's a really wasteful format for numeric matrices. is best if you're only using the data matrix again in numpy. numpy.savetxt also works and at least eliminates the brackets and commas, and will probably have less memory overhead while writing. But when you have a 0-1 matrix and it's in the boolean datatype, only needs one bit per matrix element, while numpy.savetxt needs two bytes = 16 bits (an ascii '0' or '1' plus a space or newline), and json uses at least three bytes, I think (comma, space, plus some brackets on each line).

You may also be talking about dimensionality reduction techniques. That's also very possible; there are lots of techniques out there to reduce your vector of 140 dimensions (which TV shows are followed) to lower dimensionality, either by some kind of PCA-type technique, a topic model, maybe something based on clustering.... If your only concern is that it's taking a long time to build the matrix, though, that's not going to help at all (since those techniques generally require the full original matrix and then give you a lower-dimensional version). Try my suggestions here, if it's not good enough try a sparse matrix, and then worry about fancy ways to reduce the data (probably by learning a dimensionality reduction on a subset of the data and then constructing the rest).

share|improve this answer
Hey thanks a lot! Will try implementing your suggestion. – Richa Sachdev Apr 27 '12 at 6:54

You might want to use a sparse matrix for reducing space. I found this for scipy:

I hope that's what you meant.

share|improve this answer

Here is another approach in case you're interested. It assumes your users are in stored order, but they can be numeric or string ids:

# The setup
users = ['bob', 'dave', 'steve']
users = np.array(users)
collected_users = [['bob'], ['dave'], ['steve', 'dave'], ['bob', 'steve', 'dave']]
NoTvShows = len(collected_users)

# The meat
matrix = np.zeros((NoTvShows, len(users)), 'bool')
for i, watches in enumerate(collected_users):
    index = users.searchsorted(watches)
    matrix[i, index] = 1
share|improve this answer
This is exactly how I have data stored. Thanks! – Richa Sachdev Apr 27 '12 at 18:56
I didn't know searchsorted worked with multiple values at once - pretty handy. With 530k users, though, I think a dictionary will still probably win. (I was curious, so I dug into the source, and it's just doing independent binary search for each one, nothing fancy. This way does put those loops into C, but 530,000 is still pretty big.) – Dougal Apr 27 '12 at 20:42
Ya, I didn't time it to see which would be faster. Dictionaries are amazing, I just wanted to give a more numpy-ie approach. I guess the question becomes is the python for-loop overhead more than log(530,000). – Bi Rico Apr 27 '12 at 21:31
I was curious, so I tested this out. Using a 530,000-long array of random length strings, searchsorted beats a python loop looking things up in a dictionary for every case I tried -- though both approaches take on the order of 3 to 50 microseconds, depending on the length of the strings involved and how many things you're searching for. Of course, log_2(530,000) is only 20. – Dougal Apr 30 '12 at 1:41

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