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Consider the following code:

  b <- list(u=5,v=12)
  c <- list(w=13)
  a <- list(b,c)

So a is really a list of lists. When I call a$b, or a$c, why is NULL returned? Likewise if I call a$u, a$v, or a$w, NULL is returned.

Also is there a difference between the following:



c(list(a=1,b=2,c=list(d=5,e=9)), recursive=T)
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You could try a <- list(b = b, c = c). You can do a$b and a$c. –  Roman Luštrik Jan 2 '13 at 15:23
You should avoid creating a list object "c" for obvious reasons. –  Carl Witthoft Jan 2 '13 at 16:02
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2 Answers 2

The $ indexing operator indexes the lists by name. If you want to get the first element from the unnamed list a, you need a[[1]].

You can make a function that automatically adds names if they are not specified, similar to the way data.frame works (this version is all-or-nothing -- if some arguments are named, it won't name the remaining, unnamed ones).

nlist <- function(...) {
    L <- list(...)
    if (!is.null(names(L))) return(L)
    n <- lapply(match.call(),deparse)[-1]

b <- c <- d <- 1


For your second question, the answer is "yes"; did you try it ???

L <- list(a=1,b=2,c=list(d=5,e=9))
## List of 3
##  $ a: num 1
##  $ b: num 2
##  $ c:List of 2
##   ..$ d: num 5
##   ..$ e: num 9
##  Named num [1:4] 1 2 5 9
##  - attr(*, "names")= chr [1:4] "a" "b" "c.d" "c.e"

The first is a list including two numeric values and a list, the second has been flattened into a named numeric vector.

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But it seems that they are basically the same thing except that the names are different. –  Damien Jan 2 '13 at 14:36
no, the second one has been flattened: try str to look at the structure (it's always dangerous to rely on the printed representation ...) –  Ben Bolker Jan 2 '13 at 14:37
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For the first part of the question , we have in The R language definition document

The form using $ applies to recursive objects such as lists and pairlists. It allows only a literal character string or a symbol as the index. That is, the index is not computable: for cases where you need to evaluate an expression to find the index, use x[[expr]].

So you can change your a from a <- list(b,c) to a <- list(b=b,c=c)

 a$b =  a[['b']]   ## expression 
[1] 5

[1] 12

For the second part of the question , you can try for example to apply the $ operator, to see the difference.

> kk <- c(list(a=1,b=2,c=list(d=5,e=9)))              ## recursive objects
> hh <- c(list(a=1,b=2,c=list(d=5,e=9)), recursive=T) ## atomic objects
> kk$a
[1] 1
> hh$a
Error in hh$a : $ operator is invalid for atomic vectors

In reason we get a vector the from ?c for hh

If recursive = TRUE, the function recursively descends through lists (and pairlists) combining all their elements into a vector.

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