(I´d ask in chat first, however my karma is not sufficient.)

I have lists that contain matrices, say:

```
List1 <- list(ch1 = matrix(1:4, ncol = 2), ch2 = matrix(5:8, ncol = 2))
List2 <- list(ch1 = matrix(2:5, ncol = 2), ch2 = matrix(6:9, ncol = 2))
```

I now want to perform calculations for all the lists in my environment and append the results as another matrix in the corresponding list. Let´s say ch3 should be ch1 + ch2, so List1 would look like:

```
$ch1
[,1] [,2]
[1,] 1 3
[2,] 2 4
$ch2
[,1] [,2]
[1,] 5 7
[2,] 6 8
$ch3
[,1] [,2]
[1,] 6 10
[2,] 8 12
```

As length of lists vary, I have to address the matrices by name, ch1 and so forth.

My approach gets the result right, however not appended as a matrix, but as integers. Fixing this is cumbersome, so there surely is a better approach.

```
LST <- objects(pattern = "List+(\\d+)", envir = globalenv())
for (i in 1:length(LST)){
pointer1 <- which(names(get(LST[[i]])) == "ch1")
pointer2 <- which(names(get(LST[[i]])) == "ch2")
matrix1 <- get(LST[[i]])[pointer1][[1]]
matrix2 <- get(LST[[i]])[pointer2][[1]]
result <- matrix1 + matrix2
# print(dim(result))# results in 2 2, as expected
assign(LST[[i]], c(get(LST[[i]]), matrix(result, ncol = ncol(matrix1))))
# rm(pointer1, pointer2, matrix1, matrix2, result)
}
```

As each of my approx. 100 lists consist of more than 15 matrices of up to 300MB each, I cannot merge them into an array due to memory restrictions. Ideally, I would end up having a function or something neat as lapply, however, I can get neither one to work properly.