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This is probably simple to solve. I have a 2D matrix mat with 500 rows × 335 columns, and a data.frame dat with 120425 rows. The data.frame dat has two columns I and J, which are integers to index the row, column from mat. I would like to add the values from mat to the rows of dat.

Here is my conceptual fail:

> dat$matval <- mat[dat$I, dat$J]
Error: cannot allocate vector of length 1617278737

(I am using R 2.13.1 on Win32). Digging a bit deeper, I see that I'm misusing matrix indexing, as it appears that I'm only getting a sub-matrix of mat, and not a single-dimension array of values as I expected, i.e.:

> str(mat[dat$I[1:100], dat$J[1:100]])
 int [1:100, 1:100] 20 1 1 1 20 1 1 1 1 1 ...

I was expecting something like int [1:100] 20 1 1 1 20 1 1 1 1 1 .... What is the correct way to index a 2D matrix using indices of row, column to get the values?

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+1 for an interesting question (which begs another question: why isn't there an option to change the behavior to something a little more like this when passing the [ operator N vectors for an N-dimensional matrix?) – gsk3 Aug 3 '11 at 1:11
Nice question - I edited it very slightly to fix what I think is a typo (datI to dat$I). If this isn't what you meant feel free to undo... – joran Aug 3 '11 at 1:16
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3 Answers

up vote 7 down vote accepted

Almost. Needs to be offered to "[" as a two column matrix:

dat$matval <- mat[ cbind(dat$I, dat$J) ] # should do it.
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+1 for finding the way that R clearly intended to do things ;-) – gsk3 Aug 3 '11 at 1:18
So if I and J are the only columns, is just mat[dat] sufficient? Or do you need to coerce to a matrix? – joran Aug 3 '11 at 1:19
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Seems coercion is necessary since the data frame is really a list. So you could also do as.matrix(dat). – joran Aug 3 '11 at 1:21
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@gsk3: Look at the Arguments section for ?"[" under "..." . When an array or matrix is being addressed, the matrix must have the same number of columns as the addressed object has dimensions. There are also some examples on that help page. – DWin Aug 3 '11 at 2:42
@DWin I see it now. Thanks. – gsk3 Aug 3 '11 at 9:31
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up vote 2 down vote

Using a matrix to index as DWin suggests is of course much cleaner, but for some strange reason doing it manually using 1-D indices is actually slightly faster:

# Huge sample data
mat <- matrix(sin(1:1e7), ncol=1000)
dat <- data.frame(I=sample.int(nrow(mat), 1e7, rep=T), 
                  J=sample.int(ncol(mat), 1e7, rep=T))

system.time( x <- mat[cbind(dat$I, dat$J)] )     # 0.51 seconds
system.time( mat[dat$I + (dat$J-1L)*nrow(mat)] ) # 0.44 seconds

The dat$I + (dat$J-1L)*nrow(m) part turns the 2-D indices into 1-D ones. The 1L is the way to specify an integer instead of a double value. This avoids some coercions.

...I also tried gsk3's apply-based solution. It's almost 500x slower though:

system.time( apply( dat, 1, function(x,mat) mat[ x[1], x[2] ], mat=mat ) ) # 212
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Agreed the apply solution is a bit kludgy. +1 for the benchmarking. – gsk3 Aug 3 '11 at 9:32
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up vote 0 down vote

Here's a one-liner using apply's row-based operations

> dat <- as.data.frame(matrix(rep(seq(4),4),ncol=2))
> colnames(dat) <- c('I','J')
> dat
   I  J
1  1  1
2  2  2
3  3  3
4  4  4
5  1  1
6  2  2
7  3  3
8  4  4
> mat <- matrix(seq(16),ncol=4)
> mat
     [,1] [,2] [,3] [,4]
[1,]    1    5    9   13
[2,]    2    6   10   14
[3,]    3    7   11   15
[4,]    4    8   12   16

> dat$K <- apply( dat, 1, function(x,mat) mat[ x[1], x[2] ], mat=mat )
> dat
  I J  K
1 1 1  1
2 2 2  6
3 3 3 11
4 4 4 16
5 1 1  1
6 2 2  6
7 3 3 11
8 4 4 16
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