I know there are many questions here in SO about ways to convert a list of data.frames to a single data.frame using do.call or ldply, but this questions is about understanding the inner workings of both methods and trying to figure out why I can't get either to work for concatenating a list of almost 1 million df's of the same structure, same field names, etc. into a single data.frame. Each data.frame is of one row and 21 columns.

The data started out as a JSON file, which I converted to lists using fromJSON, then ran another lapply to extract part of the list and converted to data.frame and ended up with a list of data.frames.

I've tried:

df <- do.call("rbind", list)
df <- ldply(list)

but I've had to kill the process after letting it run up to 3 hours and not getting anything back.

Is there a more efficient method of doing this? How can I troubleshoot what is happening and why is it taking so long?

FYI - I'm using RStudio server on a 72GB quad-core server with RHEL, so I don't think memory is the problem. sessionInfo below:

> sessionInfo()
R version 2.14.1 (2011-12-22)
Platform: x86_64-redhat-linux-gnu (64-bit)

 [1] LC_CTYPE=en_US.UTF-8       LC_NUMERIC=C              
 [3] LC_TIME=en_US.UTF-8        LC_COLLATE=en_US.UTF-8    
 [7] LC_PAPER=C                 LC_NAME=C                 
 [9] LC_ADDRESS=C               LC_TELEPHONE=C            

attached base packages:
[1] stats     graphics  grDevices utils     datasets  methods   base     

other attached packages:
[1] multicore_0.1-7 plyr_1.7.1      rjson_0.2.6    

loaded via a namespace (and not attached):
[1] tools_2.14.1
  • 2
    I can't promise this will lead to a good solution, but it might be worthwhile to investigate how many of your df's you can rbind before running into trouble. 1k? 10k? 100k? – joran Mar 15 '12 at 21:34
  • @joran I profiled earlier but here are recent metrics for system.time for ldply(list). 1k: 0.994 0.001 0.995 , 10k: 19.896 2.126 22.025, 100k: still going... – wahalulu Mar 15 '12 at 21:47
  • You might want to check out Shane's answer and Hadley's comments here, if you haven't already - rbind.fill might be faster. – Matt Parker Mar 15 '12 at 21:51
  • 4
    data.table and rbindlist are the way to go here! – mnel Sep 5 '12 at 22:50
  • 1
    @wahalulu. When you get a chance to look at the new answer, using a new function in data.table, could you consider moving the accept to mnel's answer please? However, I don't know how S.O. etiquette works when a better answer comes along a long time later, especially when that new answer uses new features not available originally. rbindlist is a conclusive solution though, which is many times faster than do.call("bind",...), and this question and answers are all about speed for large data. – Matt Dowle Sep 6 '12 at 12:53
up vote 15 down vote accepted

Given that you are looking for performance, it appears that a data.table solution should be suggested.

There is a function rbindlist which is the same but much faster than do.call(rbind, list)

X <- replicate(50000, data.table(a=rnorm(5), b=1:5), simplify=FALSE)
system.time(rbindlist.data.table <- rbindlist(X))
##  user  system elapsed 
##  0.00    0.01    0.02

It is also very fast for a list of data.frame

Xdf <- replicate(50000, data.frame(a=rnorm(5), b=1:5), simplify=FALSE)

system.time(rbindlist.data.frame <- rbindlist(Xdf))
##  user  system elapsed 
##  0.03    0.00    0.03

For comparison

system.time(docall <- do.call(rbind, Xdf))
##  user  system elapsed 
## 50.72    9.89   60.88 

And some proper benchmarking

benchmark(rbindlist.data.table = rbindlist(X), 
           rbindlist.data.frame = rbindlist(Xdf),
           docall = do.call(rbind, Xdf),
           replications = 5)
##                   test replications elapsed    relative user.self sys.self 
## 3               docall            5  276.61 3073.444445    264.08     11.4 
## 2 rbindlist.data.frame            5    0.11    1.222222      0.11      0.0 
## 1 rbindlist.data.table            5    0.09    1.000000      0.09      0.0 

and against @JoshuaUlrich's solutions

benchmark(use.rbl.dt  = rbl.dt(X), 
          use.rbl.ju  = rbl.ju (Xdf),
          use.rbindlist =rbindlist(X) ,
          replications = 5)

##              test replications elapsed relative user.self 
## 3  use.rbindlist            5    0.10      1.0      0.09
## 1     use.rbl.dt            5    0.10      1.0      0.09
## 2     use.rbl.ju            5    0.33      3.3      0.31 

I'm not sure you really need to use as.data.frame, because a data.table inherits class data.frame

  • How did you get do.call(rbind,Xdf) to run in 60s? It takes 90s on my 3.33Ghz dual core CPU. Maybe your RAM is significantly faster than mine? – Joshua Ulrich Sep 6 '12 at 16:28
  • Perhaps -- my machine is 3.00 Gh Core 2 Duo running windows XP -- work computer. I've added benchmarking to get a more reliable estimate. – mnel Sep 6 '12 at 23:06
  • I am updating the accepted answer to @mnel use of rbindlist in data.table package. This is by far the fastest and most efficient answer, but I would like to say that all previous answers are also very creative! – wahalulu Nov 15 '12 at 19:21
  • 3
    Goodbye check-mark. I will always remember our time together... :'( – Joshua Ulrich Nov 15 '12 at 19:51
  • @JoshuaUlrich hey, I need to check out your updated answer... I wish I could give two checkmarks per question ;) – wahalulu Jan 22 '13 at 19:41

rbind.data.frame does a lot of checking you don't need. This should be a pretty quick transformation if you only do exactly what you want.

# Use data from Josh O'Brien's post.
X <- replicate(50000, data.frame(a=rnorm(5), b=1:5), simplify=FALSE)
Names <- names(X[[1]])  # Get data.frame names from first list element.
# For each name, extract its values from each data.frame in the list.
# This provides a list with an element for each name.
Xb <- lapply(Names, function(x) unlist(lapply(X, `[[`, x)))
names(Xb) <- Names          # Give Xb the correct names.
Xb.df <- as.data.frame(Xb)  # Convert Xb to a data.frame.
#    user  system elapsed 
#   3.356   0.024   3.388 
system.time(X1 <- do.call(rbind, X))
#    user  system elapsed 
# 169.627   6.680 179.675
# [1] TRUE

Inspired by the data.table answer, I decided to try and make this even faster. Here's my updated solution, to try and keep the check mark. ;-)

# My "rbind list" function
rbl.ju <- function(x) {
  u <- unlist(x, recursive=FALSE)
  n <- names(u)
  un <- unique(n)
  l <- lapply(un, function(N) unlist(u[N==n], FALSE, FALSE))
  names(l) <- un
  d <- as.data.frame(l)
# simple wrapper to rbindlist that returns a data.frame
rbl.dt <- function(x) {

if(packageVersion("data.table") >= '1.8.2') {
  system.time(dt <- rbl.dt(X))  # rbindlist only exists in recent versions
#    user  system elapsed 
#    0.02    0.00    0.02
system.time(ju <- rbl.ju(X))
#    user  system elapsed 
#    0.05    0.00    0.05 
# [1] TRUE
  • +1 -- This is a great idea. My suggestion is close enough in its speed that I wonder whether it could beat this approach, if more carefully tuned. But realistically, this is the way I'd go. – Josh O'Brien Mar 16 '12 at 2:06
  • 1
    +1 -- Should all the columns have the same class, I would also consider as.data.frame(matrix(unlist(X), nrow = length(X), byrow=TRUE)). – flodel Mar 16 '12 at 2:21
  • Thanks guys, this looks great. I'll implement this tomorrow morning and let you know the results. – wahalulu Mar 16 '12 at 2:32
  • Beautiful! ~1m dfs into a single df an about 600 sec. I can live with that performance, and this will become the method to merge df's in lists from now on, as long as they have the same structure which is usually my case. – wahalulu Mar 16 '12 at 14:33
  • Accepted answer for best performance. Thanks! – wahalulu Mar 16 '12 at 15:01

Your observation that the time taken increases exponentially with the number of data.frames suggests that breaking the rbinding into two stages could speed things up.

This simple experiment seems to confirm that that's a very fruitful path to take:

## Make a list of 50,000 data.frames
X <- replicate(50000, data.frame(a=rnorm(5), b=1:5), simplify=FALSE)

## First, rbind together all 50,000 data.frames in a single step
    X1 <- do.call(rbind, X)
#    user  system elapsed 
# 137.08   57.98  200.08 

## Doing it in two stages cuts the processing time by >95%
##   - In Stage 1, 100 groups of 500 data.frames are rbind'ed together
##   - In Stage 2, the resultant 100 data.frames are rbind'ed
    X2 <- lapply(1:100, function(i) do.call(rbind, X[((i*500)-499):(i*500)]))
    X3 <- do.call(rbind, X2)
#    user  system elapsed 
#    6.14    0.05    6.21 

## Checking that the results are the same
identical(X1, X3)
# [1] TRUE
  • rbind.fill gives me almos the same timing (less than 10% difference) from your X2/X3 solution. – Eduardo Leoni Mar 16 '12 at 2:54

You have a list of data.frames that each have a single row. If it is possible to convert each of those to a vector, I think that would speed things up a lot.

However, assuming that they need to be data.frames, I'll create a function with code borrowed from Dominik's answer at Can rbind be parallelized in R?

do.call.rbind <- function (lst) {
  while (length(lst) > 1) {
    idxlst <- seq(from = 1, to = length(lst), by = 2)
    lst <- lapply(idxlst, function(i) {
      if (i == length(lst)) {
      return(rbind(lst[[i]], lst[[i + 1]]))

I have been using this function for several months, and have found it to be faster and use less memory than do.call(rbind, ...) [the disclaimer is that I've pretty much only used it on xts objects]

The more rows that each data.frame has, and the more elements that the list has, the more beneficial this function will be.

If you have a list of 100,000 numeric vectors, do.call(rbind, ...) will be better. If you have list of length one billion, this will be better.

> df <- lapply(1:10000, function(x) data.frame(x = sample(21, 21)))
> library(rbenchmark)
> benchmark(a=do.call(rbind, df), b=do.call.rbind(df))
test replications elapsed relative user.self sys.self user.child sys.child
1    a          100 327.728 1.755965   248.620   79.099          0         0
2    b          100 186.637 1.000000   181.874    4.751          0         0

The relative speed up will be exponentially better as you increase the length of the list.

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