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I have a logical sparse matrix, say m, (which can be any of Matrix, slam, or SparseM matrices if that makes things faster) that I want to do the following on:

for (col in 1:ncol(m)) {
  print(table(m[ , col], logicalV)
}

where logicalV is a fixed logical vector of the same length as rows in m. Think of this as creating a confusion matrix per feature in the sparse m.

The dimensions I am dealing with for m are: (15 ~ 40K) x (75 ~ 125K). This makes just the step of accessing the columns m[ , col] really slow.

What I am looking for is a fast solution here. Any ideas?

Edit:

Based on the comments, here is an outline of what I am really trying to achieve. I have a bunch of feature selection metrics like information gain, binormal separation, etc. which are all functions of the confusion matrix (i.e. table(m[ , col], logicalV)) as they are functions of the counts of true positives / negatives and false positives / negatives. So for each column and logicalV, I need to know counts of both TRUE, both FALSE, and either TRUE. Does that help?

share|improve this question
    
Do you really want to print 125k tables, or do you want to do something else with them ? –  juba Oct 17 '13 at 13:39
    
Not printing. :D That's just to identify the meat of the problem. –  asb Oct 17 '13 at 13:39
1  
Maybe you should describe what you want to do exactly, if it is possible, because it could change the way we look at your question. –  juba Oct 17 '13 at 13:44
1  
I was about to suggest the same thing as @juba. There might be more efficient ways of accomplishing the task than creating multiple tables. What's the end goal? –  Ricardo Saporta Oct 17 '13 at 13:46

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