# Cannot dynamically modify external variables in a subroutine in R while use apply on a matix?

This problem has already confused me for a couple of days. Let us say that I have two matrices:

``````matrix_a <- matrix(0, nrow = 3, ncol = 3,
dimnames = list(c("r1", "r2", "r3"), c("c1", "c2", "c3")))
matrix_b <- matrix(c("r1", "r2", "c1", "c2"), nrow = 2, ncol = 2)
``````

I want to dynamically modify `matrix_a` in a function:

``````change_var <- function(x, matrix_a) {
if(any(rownames(matrix_a) == x[1])  && any(colnames(matrix_a) == x[2])) {
matrix_a[x[1], x[2]] <- 1
return (matrix_a)
}
}
apply(matrix_b, 1, change_var, matrix_a)
``````

however, it seems like that this code cannot change the `matrix_a` at all. But my intended result of `matrix_a` should be

``````   c1 c2 c3
r1  1  0  0
r2  0  2  0
r3  0  0  0
``````

How could we achieve the goal of dynamically modification of the `matrix_a`? Please provide me a not-for-loop solution. Thanks in advance.

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Function arguments are passed-by-value, which is why the original `matrix_a` is not being changed. Also, `apply` probably won't be faster than a well-written for loop. –  Joshua Ulrich Apr 11 '11 at 19:09
I think I have found the right answer right now. –  Caesar Apr 12 '11 at 1:09
@Joshua Use the <<- operation –  Caesar Apr 12 '11 at 1:10
`<<-` performs a search for the object you're assigning to and assigns to the global environment if the object cannot be found. You may want to be more explicit and use `assign(..., envir=.GlobalEnv)`. –  Joshua Ulrich Apr 12 '11 at 14:18
How did the result get a `2` in it? Your `change_var` function only assigns `1` to cells? Did you mean to increase the cell value? –  Tommy Jul 25 '11 at 23:39

As you already know, `<<-` or `assign` can be used to modify a "global" variable. `<<-` is very similar to calling `assign` with `inherits=TRUE`.

...but it seems you're trying to create a matrix which counts the number of occurrences of cell coordinates given by matrix_b? That is more efficiently done (without for loops!) with the `table` function. I added a duplicate row in `matrix_b` to show that it works:

``````matrix_a <- matrix(0, nrow = 3, ncol = 3,
dimnames = list(c("r1", "r2", "r3"), c("c1", "c2", "c3")))
matrix_b <- matrix(c("r1", "r2", "r2", "c1", "c2", "c2"), nrow = 3, ncol = 2)
# Convert matrix_b from 2-d to 1-d indices
row <- match(matrix_b[,1], rownames(matrix_a))
col <- match(matrix_b[,2], colnames(matrix_a))
idx <- row+(col-1)*nrow(matrix_a)
# Then count the number of identical indices using table
matrix_a[sort(unique(idx))] <- table(idx)
``````

Which updates `matrix_a` to:

``````   c1 c2 c3
r1  1  0  0
r2  0  2  0
r3  0  0  0
``````

...of course, if you only need to put a `1` in there, you don't need to call `table`:

``````row <- match(matrix_b[,1], rownames(matrix_a))
col <- match(matrix_b[,2], colnames(matrix_a))
idx <- row+(col-1)*nrow(matrix_a)
matrix_a[idx] <- 1
``````
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