28

What if one wants to apply a functon i.e. to each row of a matrix, but also wants to use as an argument for this function the number of that row. As an example, suppose you wanted to get the n-th root of the numbers in each row of a matrix, where n is the row number. Is there another way (using apply only) than column-binding the row numbers to the initial matrix, like this?

test <- data.frame(x=c(26,21,20),y=c(34,29,28))

t(apply(cbind(as.numeric(rownames(test)),test),1,function(x) x[2:3]^(1/x[1])))

P.S. Actually if test was really a matrix : test <- matrix(c(26,21,20,34,29,28),nrow=3) , rownames(test) doesn't help :( Thank you.

  • Note that in your example you don't need the apply! – Jonathan Chang Mar 30 '10 at 16:43
  • Yes, I can see that :) Actually I wanted to draw some lines on a plot at positions associated with the line number. – Brani Mar 30 '10 at 17:37
31

What I usually do is to run sapply on the row numbers 1:nrow(test) instead of test, and use test[i,] inside the function:

t(sapply(1:nrow(test), function(i) test[i,]^(1/i)))

I am not sure this is really efficient, though.

  • The only downside of this is that if the function is complicated, you can't easily reuse it with different dataframes. But I agree passing a vector of the positions and then using that to index is the way to go. – Scott C Wilson Jan 23 '15 at 2:17
  • Careful -- if nrow(test) == 0 then this will loop from 1 to 0 and the test[i,] will fail – PeterVermont Apr 5 '17 at 18:48
3

If you give the function a name rather than making it anonymous, you can pass arguments more easily. We can use nrow to get the number of rows and pass a vector of the row numbers in as a parameter, along with the frame to be indexed this way.

For clarity I used a different example function; this example multiplies column x by column y for a 2 column matrix:

test <- data.frame(x=c(26,21,20),y=c(34,29,28))
myfun <- function(position, df) {
    print(df[position,1] * df[position,2])
}

positions <- 1:nrow(test)
lapply(positions, myfun, test)
2

cbind()ing the row numbers seems a pretty straightforward approach. For a matrix (or a data frame) the following should work:

apply( cbind(1:(dim(test)[1]), test), 1, function(x) plot(x[-1], main=x[1]) )

or whatever you want to plot.

2

Actually, in the case of a matrix, you don't even need apply. Just:

test^(1/row(test))

does what you want, I think. I think the row() function is the thing you are looking for.

  • I agree, but look at the comments below the question. – Brani Mar 31 '10 at 17:49
  • 1
    Yes, but I still think the "row()" function is exactly what you need. – Darren Wilkinson Mar 31 '10 at 20:07
  • Still I can't see how can I give a lines command like this lines(test[i,],c(i,i)) without an apply or a for loop. lines(CI,row(CI)) doesn't work – Brani Apr 1 '10 at 8:39
  • If you give me an example command which does what you want, I'll see if I can re-write it. I'm still not clear what you are trying to do. – Darren Wilkinson Apr 1 '10 at 15:29
  • This is a great answer! It even works on data frames! – aaiezza May 24 '16 at 17:17
0

I'm a little confuse so excuse me if I get this wrong but you want work out n-th root of the numbers in each row of a matrix where n = the row number. If this this the case then its really simple create a new array with the same dimensions as the original with each column having the same values as the corresponding row number:

test_row_order = array(seq(1:length(test[,1]), dim = dim(test))

Then simply apply a function (the n-th root in this case):

n_root = test^(1/test_row_order)

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