How can I make processing of matrices and vectors regular (as, e.g., in Matlab)

Suppose I have a function that takes an argument x of dimension 1 or 2. I'd like to do something like

``````x[1, i]
``````

regardless of whether I got a vector or a matrix (or a table of one variable, or two).

For example:

``````x = 1:5
x[1,2] # this won't work...
``````

Of course I can check to see which class was given as an argument, or force the argument to be a matrix, but I'd rather not do that. In Matlab, for example, vectors are matrices with all but one dimension of size 1 (and can be treated as either row or column, etc.). This makes code nice and regular.

Also, does anyone have an idea why in R vectors (or in general one dimensional objects) aren't special cases of matrices (or multidimensional objects)?

Thanks

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I don't think I understand. If `x <- 1:5` what exactly do you think `x[1,2]` should return? – joran Dec 11 '12 at 17:00
I think you will just need to use matrix types instead of vector types. I'd be surprised if there was any other way. – frankc Dec 11 '12 at 17:00
Also, to answer your last question, it's because R is just as consistent, but in the other direction: matrices are special cases of vectors. It's just as convenient and consistent, just reversed, that's all. – joran Dec 11 '12 at 17:06
Even if you do `x <- 1:5; x <- as.matrix(x)`, you will get a 5-by-1 matrix. As @joran noted, `x[1,2]` refers to a non-existent element. Were you maybe getting the row/column indices reversed? – Josh O'Brien Dec 11 '12 at 17:11
I see. So, am I the only one who thinks it is a little awkward that matrices are vectors? (rather than that vectors are matrices) – skauf Dec 11 '12 at 19:39

In R, it is the other way round; matrices are vectors. The matrix-like behaviour comes from some extra attributes on top of the atomic vector part of the object.

To get the behaviour you want, you'd need to make the vector be a matrix, by setting dimensions on the vector using `dim()` or explicit coercion.

``````> vm <- 1:5
> dim(vm) <- c(1,5)
> vm
[,1] [,2] [,3] [,4] [,5]
[1,]    1    2    3    4    5
> class(vm)
[1] "matrix"
``````

Next you'll need to maintain the dimensions when subsetting; by default R will drop empty dimensions, which in the case of `vm` above is the row dimension. You do that using `drop = FALSE` in the call to `'['()`. The behaviour by default is `drop = TRUE`:

``````> vm[, 2:4]
[1] 2 3 4
> vm[, 2:4, drop = FALSE]
[,1] [,2] [,3]
[1,]    2    3    4
``````

You could add a class to your matrices and write methods for `[` for that class where the argument `drop` is set to `FALSE` by default

``````class(vm) <- c("foo", class(vm))
`[.foo` <- function(x, i, j, ..., drop = FALSE) {
clx <- class(x)
class(x) <- clx[clx != "foo"]
x[i, j, ..., drop = drop]
}
``````

which in use gives:

``````> vm[, 2:4]
[,1] [,2] [,3]
[1,]    2    3    4
``````

i.e. maintains the empty dimension.

Making this fool-proof and pervasive will require a lot more effort but the above will get you started.

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@GavinSmpson . Thanks for this explanation. But can you show me please where the `[.vector` or `[.matrice` are defined in R. I can't find them in R sources. – agstudy Dec 11 '12 at 17:26
In the C code. Read `?Extract` for the details. `'['()` is a Primitive in R parlance and hence dispatch for atomic vectors (note the vector in the OP's example is not of class `"vector"`, it will be a numeric or possibly integer vector) and matrices are handled internally via compiled C code. – Gavin Simpson Dec 11 '12 at 17:44