I have a list of the following format:

[1] 1

[1] 3

[1] 5

[1] 2

[1] 3

There is a predefined list of possible "keys" (a, b, and c, in this case) and each element in the list ("row") will have values defined for one or more of these keys. I'm looking for a fast way to get from the list structure above to a data.frame which would look like the following, in this case:

  a  b c
1 1  3 5
2 3 NA 2

Any help would be appreciated!


I'm dealing with a table that will have up to 50,000 rows and 3-6 columns, with most of the values specified. I'll be taking the table in from JSON and trying to quickly get it into data.frame structure.

Here's some code to create a sample list of the scale with which I'll be working:

ids <- c("a", "b", "c")
createList <- function(approxSize=100){     

    fifth <- round(approxSize/5)

    list <- list()
    list[1:(fifth*5)] <- rep(
        list(list(a=1, b=2, c=3), 
                 list(a=3, b=4, c=5),
                 list(a=7, c=9),
                 list(c=6, a=8, b=3),


Just create a list with approxSize of 50,000 to test the performance on a list of this size.


6 Answers 6


Here's my initial thought. It doesn't speed up your approach, but it does simplify the code considerably:

# makeDF <- function(List, Names) {
#     m <- t(sapply(List, function(X) unlist(X)[Names], 
#     as.data.frame(m)
# }    

## vapply() is a bit faster than sapply()
makeDF <- function(List, Names) {
    m <- t(vapply(List, 
                  FUN = function(X) unlist(X)[Names], 
                  FUN.VALUE = numeric(length(Names))))

## Test timing with a 50k-item list
ll <- createList(50000)
nms <- c("a", "b", "c")

system.time(makeDF(ll, nms))
# user  system elapsed 
# 0.47    0.00    0.47 
  • 1
    You can squeeze in a bit by replacing sapply(...) with vapply(..., numeric(length(Names)). Will be hard to beat.
    – flodel
    Apr 1, 2013 at 23:33
  • @flodel -- Right you are! That cut the time by ~20%. Thanks for the tip Apr 1, 2013 at 23:48
  • Neat! For benchmark's sake: it runs in 0.31 seconds on my machine. I think the extra 5% CPU time will be worth it down the road when it comes time to make adjustments to the function -- I'll actually be able to remember what this code is doing...
    – Jeff Allen
    Apr 2, 2013 at 2:17
  • 2
    You can shave off another ~30% by manually turning the list into a data frame with out making a copy: class(m) <- "data.frame"; attr(m, "row.names") <- c(NA_integer_, -length(m[[1]]))
    – hadley
    Apr 2, 2013 at 11:40
  • 1
    @hadley -- Interesting thought, but my m is a matrix, so the manual conversion produces a 1-by-150000 data.frame. If I create a list by using lapply() instead of vapply(), your code saves ~5% time-wise but ends up with a 3-by-50000 (rather than 50000-by-3) data.frame. Very nice, though, to see how to convert a list to a data.frame without a copy. Apr 2, 2013 at 15:52

Here is a short answer, I doubt it will be very fast though.

> library(plyr)
> rbind.fill(lapply(x, as.data.frame))
  a  b c
 1 1  3 5
 2 3 NA 2
  • 2
    Yeah. Just the part that calls as.data.frame 50k times takes 27 seconds on my machine, and then rbind.fill() completely chokes when passed the 50k data.frames. This is nicely succinct for small problems, but doesn't look like it scales up very well. Apr 1, 2013 at 23:32

If you know the possible values beforehand, and you are dealing with large data, perhaps using data.table and set will be fast

cc <- createList(50000)

nas <- rep.int(NA_real_, length(cc))
DT <-  setnames(as.data.table(replicate(length(ids),nas, simplify = FALSE)), ids)

for(xx in seq_along(cc)){

  .n <- names(cc[[xx]])
  for(j in .n){
    set(DT, i = xx, j = j, value = cc[[xx]][[j]])



# user  system elapsed 
# 0.68    0.01    0.70 

Old (slow solution) for posterity

full <- c('a','b', 'c')

for(xx in seq_along(cc)) {
  mm <- setdiff(full, names(cc[[xx]]))
  if(length(mm) || all(names(cc[[xx]]) == full)){
  cc[[xx]] <- as.data.table(cc[[xx]])
  # any missing columns

  # if required add additional columns
    cc[[xx]][, (mm) := as.list(rep(NA_real_, length(mm)))]
  # put columns in correct order
  setcolorder(cc[[xx]], full) 

 cdt <- rbindlist(cc)

#   user  system elapsed 
# 21.83    0.06   22.00 

This second solution has been left here to show how data.table can be used poorly.

  • Cool, thanks. I'll have to keep an eye on that package. For posterity's sake: the code currently takes ~25sec on the "benchmarking laptop" mentioned previously.
    – Jeff Allen
    Apr 2, 2013 at 2:13
  • @JeffAllen -- I've updated with a data.table solution that is ~ 31 times faster (on my machine) (0.7 seconds compared to 22)
    – mnel
    Apr 2, 2013 at 2:52

I know this is an old question, but I just came across it and it's excruciating not to see the simplest solution I'm aware of. So here it is (simply specify 'fill=TRUE' in rbindlist):

list = list(list(a=1,b=3,c=5),list(c=2,a=3))

#    a  b c
# 1: 1  3 5
# 2: 3 NA 2

I don't know if this is the fastest way, but I'd be willing to bet that it competes, given data.table's thoughtful design and extremely good performance on a lot of other tasks.


Well, I gave my first thought a try and the performance wasn't as bad as I was afraid of, but I'm sure there's still room for improvement (especially in the waster matrix -> data.frame conversion).

convertList <- function(myList, ids){
    #this computes a list of the numerical index for each value to handle the missing/
    # improperly ordered list elements. So it will have a list in which each element 
    # associated with A has a value of 1, B ->2, and C -> 3. So a row containing
    # A=_, C=_, B=_ would have a value of `1,3,2`
    idInd <- lapply(myList, function(x){match(names(x), ids)})

    # Calculate the row indices if I were to unlist myList. So if there were two elements
    # in the first row, 3 in the third, and 1 in the fourth, you'd see: 1, 1, 2, 2, 2, 3
    rowInd <- inverse.rle(list(values=1:length(myList), lengths=sapply(myList, length)))

    #Unlist the first list created to just be a numerical matrix
    idInd <- unlist(idInd)

    #create a grid of addresses. The first column is the row address, the second is the col
    address <- cbind(rowInd, idInd)

    #have to use a matrix because you can't assign a data.frame 
    # using an addressing table like we have above
    mat <- matrix(ncol=length(ids), nrow=length(myList))

    # assign the values to the addresses in the matrix
    mat[address] <- unlist(myList)

    # convert to data.frame
    df <- as.data.frame(mat)
    colnames(df) <- ids

myList <- createList(50000)
ids <- letters[1:3]

system.time(df <- convertList(myList, ids))

It's taking about 0.29 seconds to convert the 50,000 rows on my laptop (Windows 7, Intel i7 M620 @ 2.67 GHz, 4GB RAM).

Still very much interested in other answers!

  • 1
    For future users of the Interweb: This solution ended up being the fastest by about 5%, but certainly the most bloated and least maintainable.
    – Jeff Allen
    Apr 2, 2013 at 2:15

In dplyr:

bind_rows(lapply(x, as_data_frame))

# A tibble: 2 x 3
      a     b     c
  <dbl> <dbl> <dbl>
1     1     3     5
2     3    NA     2

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