I'd like to understand better how outer works and how to vectorize functions. Below is a minimal example for what I am trying to do:I have a set of numbers `2,3,4`

. for each combination `(a,b)`

of create a diagonal matrix with `a a b b b`

on the diagonal, and then do something with it, e.g. calculating its determinant (this is just for demonstration purposes). The results of the calculation should be written in a 3 by 3 matrix, one field for each combination.

The code below isn't working - apparently, `outer`

(or `my.func`

) doesn't understand that I don't want the whole `lambdas`

vector to be applied - you can see that this is the case when you uncomment the `print`

command included.

```
lambdas <- c(1:2)
my.func <- function(lambda1,lambda2){
# print(diag(c(rep(lambda1,2),rep(lambda2,2))))
det(diag(c(rep(lambda1,2),rep(lambda2,2))))
}
det.summary <- outer(lambdas,lambdas, FUN="my.func")
```

How do I need to modify my function or the call of outer so things behave like I'd like to?

I guess I need to vectorize my function somehow, but I don't know how, and in which way the outer call would be processed differently.

Edit:
I've changed size of the matrices to make it a bit less messy. I'd like to generate 4 diagonal 4 by 4 matrices, with the following diagonals; in are brackets the corresponding parameters `lambda1, lambda2`

:

`1 1 1 1 (1,1)`

, `1 1 2 2 (1,2)`

, `2 2 1 1 (2,1)`

, `2 2 2 2 (2,2)`

.

Then, I want to calculate their determinants (which is an arbitrary choice here) and put the results into a matrix, whose first column corresponds to `lambda1=1`

, the second to `lambda1=2`

, and the rows correspond to the choice of `lambda2`

. `det.summary`

should be a 2 by to matrix with the following values:

```
1 4
4 16
```

as these are the determinants of the diagonal matrices listed above.