# Return value from column indicated in same row

I'm stuck with a simple loop that takes more than an hour to run, and need help to speed it up.

Basically, I have a matrix with 31 columns and 400 000 rows. The first 30 columns have values, and the 31st column has a column-number. I need to, per row, retrieve the value in the column indicated by the 31st column.

Example row: [26,354,72,5987..,461,3] (this means that the value in column 3 is sought after (72))

The too slow loop looks like this:

``````a <- rep(0,nrow(data)) #To pre-allocate memory
for (i in 1:nrow(data)) {
a[i] <- data[i,data[i,31]]
}
``````

I would think this would work:

``````a <- data[,data[,31]]
``````

... but it results in "Error: cannot allocate vector of size 2.8 Mb".

I fear that this is a really simple question, so I've spent hours trying to understand apply, lapply, reshape, and more, but somehow I can't get a grip on the vectorization concept in R.

The matrix actually has even more columns that also go into the a-parameter, which is why I don't want to rebuild the matrix, or split it.

Chris

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Are you sure that there is enough free RAM? –  mbq Jul 7 '10 at 7:41
apply and friends have nothing to do with vectorization. –  Shane Jul 7 '10 at 8:10
Your example would create another matrix, the same size as your original one. Sounds like you are running out of RAM in your workspace - a numeric vector of length 400000 takes 3.1 Mb, and the matrix should take 94.6 Mb. –  James Jul 7 '10 at 10:01

``````t(data[,1:30])[30*(0:399999)+data[,31]]
``````

This works because you can reference matricies both in array format, and vector format (a 400000*31 long vector in this case) counting column-wise first. To count row-wise, you use the transpose.

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Singe-index notation for the matrix may use less memory. This would involve doing something like:

``````i <- nrow(data)*(data[,31]-1) + 1:nrow(data)
a <- data[i]
``````

Below is an example of single-index notation for matrices in R. In this example, the index of the per-row maximum is appended as the last column of a random matrix. This last column is then used to select the per-row maxima via single-index notation.

``````## create a random (10 x 5) matrix
M <- matrix(rpois(50,50),10,5)
## use the last column to index the maximum value of the first 5
## columns
MM <- cbind(M,apply(M,1,which.max))
##             column ID          row ID
i <- nrow(MM)*(MM[,ncol(MM)]-1) + 1:nrow(MM)
all(MM[i] == apply(M,1,max))
``````

Using an index matrix is an alternative that will probably use more memory but is slightly clearer:

``````ii <- cbind(1:nrow(MM),MM[,ncol(MM)])
all(MM[ii] == apply(M,1,max))
``````
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Try to change the code to work a column at a time:

``````M <- matrix(rpois(30*400000,50),400000,30)
MM <- cbind(M,apply(M,1,which.max))
a <- rep(0,nrow(MM))
for (i in 1:(ncol(MM)-1)) {
a[MM[, ncol(MM)] == i] <- MM[MM[, ncol(MM)] == i, i]
}
``````

This sets all elements in a with the values from column i if the last column has value i. It took longer to build the matrix than to calculate vector a.

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