I have a list which contains list entries, and I need to transpose the structure. The original structure is rectangular, but the names in the sub-lists do not match.

Here is an example:

ax <- data.frame(a=1,x=2)
ay <- data.frame(a=3,y=4)
bw <- data.frame(b=5,w=6)
bz <- data.frame(b=7,z=8)
before <- list(  a=list(x=ax, y=ay),   b=list(w=bw, z=bz))

What I want:

after  <- list(w.x=list(a=ax, b=bw), y.z=list(a=ay, b=bz))

I do not care about the names of the resultant list (at any level).

Clearly this can be done explicitly:

after <- list(x.w=list(a=before$a$x, b=before$b$w), y.z=list(a=before$a$y, b=before$b$z))

but this is ugly and only works for a 2x2 structure. What's the idiomatic way of doing this?

  • You can transpose a data frame d by collecting the rows, say, with apply(d, 1L, identity). So try coercing before into a data frame; one way to do that would be with tibble::as_tibble(), from the tibble package. That said, using purrr::transpose(), as @alistaire suggested, is faster than using base R's apply(). (It's implemented in C.) – egnha Apr 29 '17 at 11:44
  • @egnha Not possible here. The list entries themselves are data frames. – Matthew Lundberg Apr 29 '17 at 15:45
  • Try it with d <- tibble::as_tibble(before). – egnha Apr 30 '17 at 16:46

The following piece of code will create a list with i-th element of every list in before:

lapply(before, "[[", i)

Now you just have to do

n <- length(before[[1]]) # assuming all lists in before have the same length
lapply(1:n, function(i) lapply(before, "[[", i))

and it should give you what you want. It's not very efficient (travels every list many times), and you can probably make it more efficient by keeping pointers to current list elements, so please decide whether this is good enough for you.

  • 1
    I'd replace 1:n with seq_along(before[[1]]) but otherwise, this will work fine. The lists may not always be 2x2, but they won't be big (the data frame are large, however). – Matthew Lundberg Apr 23 '13 at 21:38
  • Just out of curiosity - why do you like the seq_along version better? Is it just the expressiveness? (I understand that performance-wise, it's the same). – Victor K. Apr 23 '13 at 21:41
  • 2
    That, and it doesn't return wrong results if the length is 0. – Matthew Lundberg Apr 23 '13 at 21:44
  • Length 0 is a great point, haven't thought about that before. – Victor K. Apr 23 '13 at 21:46

The purrr package now makes this process really easy:


before %>% transpose()

## $x
## $x$a
##   a x
## 1 1 2
## $x$b
##   b w
## 1 5 6
## $y
## $y$a
##   a y
## 1 3 4
## $y$b
##   b z
## 1 7 8

Here's a different idea - use the fact that data.table can store data.frame's (in fact, given your question, maybe you don't even need to work with lists of lists and could just work with data.table's):


dt = as.data.table(before)
after = as.list(data.table(t(dt)))
  • This is an interesting approach. I've done some investigating on data.table, but haven't used it nearly enough. – Matthew Lundberg Apr 23 '13 at 22:30
  • 5
    This doesn't actually require data.table as.list(data.frame(do.call(rbind, before))) will work as well. – mnel Apr 24 '13 at 1:18

While this is an old question, i found it while searching for the same problem, and the second hit on google had a much more elegant solution in my opinion:

list_of_lists <- list(a=list(x="ax", y="ay"), b=list(w="bw", z="bz"))
new <- do.call(rbind, list_of_lists) 

new is now a rectangular structure, a strange object: A list with a dimension attribute. It works with as many elements as you wish, as long as every sublist has the same length. To change it into a more common R-Object, one could for example create a matrix like this:

new.dims <- dim(new)
matrix(new,nrow = new.dims[1])

new.dims needed to be saved, as the matrix() function deletes the attribute of the list. Another way:

new <- do.call(c, new) 
dim(new) <- new.dims

You can now for example convert it into a data.frame with as.data.frame() and split it into columns or do column wise operations. Before you do that, you could also change the dim attribute of the matrix, if it fits your needs better.

  • 1
    Except it gives deceiving results. All matrix elements are lists – Rich Scriven Oct 5 '15 at 22:11
  • Hmm, not quite but similar. The result is a list of 4 single character elements (True matrices can only contain atomic types) with a dimension attribute. But depending on the use case, this is not that bad, it just needs to be converted to a "true" matrix. I will edit my solution to reflect that. – zerweck Oct 6 '15 at 16:47
  • rbind on the list of lists is a solid idea. – Neal Fultz Oct 28 '17 at 20:08

I found myself with this problem but I needed a solution that kept the names of each element. The solution I came up with should also work when the sub lists are not all the same length.

invertList = function(l){
  elemnames = NULL
  for (i in seq_along(l)){
    elemnames = c(elemnames, names(l[[i]]))

  elemnames = unique(elemnames)

  res = list()
  for (i in seq_along(elemnames)){
    res[[elemnames[i]]] = list()
    for (j in seq_along(l)){
      if(exists(elemnames[i], l[[j]], inherits = F)){
        res[[i]][[names(l)[j]]] = l[[names(l)[j]]][[elemnames[i]]]

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