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I want to (as ever) use code that performs better but functions equivalently to the following:

write.table(results.df[seq(1, ncol(results.df),2)],file="/path/file.txt", row.names=TRUE, sep="\t") 
write.table(results.df[seq(2, ncol(results.df),2)],file="/path/file2.txt",row.names=TRUE, sep="\t")

results.df is a dataframe that looks something thus:

row.names 171401    171401 111201     111201
    1      1     0.8320923  10     0.8320923
    2      2     0.8510621  11     0.8510621
    3      3     0.1009001  12     0.1009001
    4      4     0.9796110  13     0.9796110
    5      5     0.4178686  14     0.4178686
    6      6     0.6570377  15     0.6570377
    7      7     0.3689075  16     0.3689075

There is no consistent patterning in the column headers except that each one is repeated twice consecutively.

I want to create (1) one file with only odd-numbered columns of results.df and (2) another file with only even-numbered columns of results.df. I have one solution above, but was wondering whether there is a better-performing means of achieving the same thing.

IDEA UPDATE: I was thinking there may be some way of excising - deleting it from memory - each processed column rather than just copying it. This way the size of the dataframe progressively decreases and may result in a performance increase???

share|improve this question
    
Surely the generation of those sequences is not any sort of bottleneck. – 42- Jan 3 '12 at 21:28
    
@DWin Yes: there are about 1000 columns and 2 million rows. The above data is just indicative of the pattern. – Kaleb Jan 3 '12 at 21:33
    
I do not think that a single call to seq will be any sort of bottleneck in that process. – 42- Jan 3 '12 at 21:43
    
Possibly not the seq itself but each statement containing seq certainly is. I'm not necessarily looking to eliminate seq (although Dason's suggestion is probably better). I thought it necessary to mention how the data from the dataframe should be used. – Kaleb Jan 3 '12 at 21:48
up vote 4 down vote accepted

The code is only slightly shorter but...

# Instead of 
results.df[seq(1, ncol(results.df), 2]
results.df[seq(2, ncol(results.df), 2]
#you could use 
results.df[c(T,F)]
results.df[c(F,T)]
share|improve this answer
    
That works well and it does speed things up. How about write.table though... is there anything faster than that? – Kaleb Jan 3 '12 at 21:26
    
I don't think so - you want to write a table and using write.table is about the best way to do that that I know of... – Dason Jan 3 '12 at 21:54
1  
@Kaleb As clearly documented in ?write.table, if you have many columns write.table may be slow since it necessarily has to check what type each column is. If each column is numeric, it may be faster to write a matrix than a data frame. – joran Jan 3 '12 at 22:11
    
There's a mix of logical & numeric data that I want to include for future data sets. For this particular set of data, a numeric - hence a matrix - may be suitable. I suppose 0-1 instead of TRUE-FALSE is an option however. I was wondering though whether any package that provided an alternative to write.table. – Kaleb Jan 3 '12 at 22:22
    
@Kaleb Writing to disk will in general be limited more by your hard drive and OS. If you want faster write times, buy a faster HD. – joran Jan 3 '12 at 22:38

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