I have an R routine that works with a for loop, and it seems an obvious candidate to convert to "apply", but I can't figure out how to write the appropriate function because it requires rows/columns from two matrices, working with the same index in parallel.

The function takes two matrices of the same size. The second is a rounded and truncated version of the first. It returns a custom version of the minimum and maximum difference between the rounded and unrounded matrices, by row or by column depending on the value of "margin". Cells where the rounded value is truncated are ignored in computing the min/max, so I compute selectors for each function that give me the appropriate values.

```
diff.minmax <- function(unrounded, rounded, margin, min.threshold=0, max.threshold=100, rounding=0) {
diff <- rounded - unrounded
min.sel <- rounded < max.threshold | (unrounded >= max.threshold & round(unrounded,rounding) < max.threshold)
max.sel <- rounded > min.threshold | (unrounded <= min.threshold & round(unrounded,rounding) > min.threshold)
len <- dim(diff)[margin]
mm <- matrix(0, nrow=len, ncol=2)
for (i in 1:len) {
if (margin == 1) {
# min/max values by row
mm[i,1] <- min(diff[i,min.sel[i,]])
mm[i,2] <- max(diff[i,max.sel[i,]])
}
else {
# min/max values by column
mm[i,1] <- min(diff[min.sel[,i],i])
mm[i,2] <- max(diff[max.sel[,i],i])
}
}
return(mm)
}
```

Although this routine works, and it executes in a reasonable amount of time for the size of matrices I'm using, I'd like to know if it could be made more efficient with "apply". I'd especially like to avoid having to code explicitly for the row/column in the indexed variables. It would be nice to be able to extend this function to an arbitrary number of dimensions, as one can with "apply".

Some test data:

```
U <- matrix(c(-0.825, -0.031, 1.398, 3.148, 4.604,
0.662, 1.457, 2.886, 4.636, 6.091,
2.487, 3.281, 4.710, 6.460, 7.916,
4.513, 5.308, 6.737, 8.487, 9.942,
6.758, 7.553, 8.982, 10.732, 12.187), nrow=5)
R <- matrix(c(0, 0, 1, 3, 5, 1, 1, 3, 5, 6, 2, 3, 5, 6, 8,
5, 5, 7, 8, 10, 7, 8, 9, 11, 12), nrow=5)
diff.minmax(U, R, 1)
[,1] [,2]
[1,] -0.487 0.487
[2,] -0.457 0.447
[3,] -0.398 0.290
[4,] -0.487 0.364
[5,] -0.187 0.396
diff.minmax(U, R, 2)
[,1] [,2]
[1,] -0.398 0.396
[2,] -0.457 0.364
[3,] -0.487 0.290
[4,] -0.487 0.487
[5,] -0.187 0.447
```