344

I have code that at one place ends up with a list of data frames which I really want to convert to a single big data frame.

I got some pointers from an earlier question which was trying to do something similar but more complex.

Here's an example of what I am starting with (this is grossly simplified for illustration):

listOfDataFrames <- vector(mode = "list", length = 100)

for (i in 1:100) {
    listOfDataFrames[[i]] <- data.frame(a=sample(letters, 500, rep=T),
                             b=rnorm(500), c=rnorm(500))
}

I am currently using this:

  df <- do.call("rbind", listOfDataFrames)
135
0

Use bind_rows() from the dplyr package:

bind_rows(list_of_dataframes, .id = "column_label")
| improve this answer | |
  • 5
    Nice solution. .id = "column_label" adds the unique row names based on the list element names. – Sibo Jiang Apr 29 '18 at 20:49
  • 10
    since it's 2018 and dplyr is both fast and a solid tool to use, I've changed this to the accepted answer. The years, they fly by! – JD Long Jan 12 '19 at 12:03
186
0

One other option is to use a plyr function:

df <- ldply(listOfDataFrames, data.frame)

This is a little slower than the original:

> system.time({ df <- do.call("rbind", listOfDataFrames) })
   user  system elapsed 
   0.25    0.00    0.25 
> system.time({ df2 <- ldply(listOfDataFrames, data.frame) })
   user  system elapsed 
   0.30    0.00    0.29
> identical(df, df2)
[1] TRUE

My guess is that using do.call("rbind", ...) is going to be the fastest approach that you will find unless you can do something like (a) use a matrices instead of a data.frames and (b) preallocate the final matrix and assign to it rather than growing it.

Edit 1:

Based on Hadley's comment, here's the latest version of rbind.fill from CRAN:

> system.time({ df3 <- rbind.fill(listOfDataFrames) })
   user  system elapsed 
   0.24    0.00    0.23 
> identical(df, df3)
[1] TRUE

This is easier than rbind, and marginally faster (these timings hold up over multiple runs). And as far as I understand it, the version of plyr on github is even faster than this.

| improve this answer | |
  • 28
    rbind.fill in the latest version of plyr is considerably faster than do.call and rbind – hadley May 18 '10 at 0:34
  • 1
    interesting. for me rbind.fill was the fastest. Weird enough, do.call / rbind did not return identical TRUE, even if i could ne find a difference. The other two were equal but plyr was slower. – Matt Bannert Nov 29 '10 at 15:32
  • I() could replace data.frame in your ldply call – baptiste Aug 28 '13 at 15:13
  • 4
    there's also melt.list in reshape(2) – baptiste Aug 28 '13 at 15:14
  • do.call(function(...) rbind(..., make.row.names=F), df) is useful if you don't want the automatically-generated unique rownames. – smci Mar 16 '18 at 2:47
112
0

For the purpose of completeness, I thought the answers to this question required an update. "My guess is that using do.call("rbind", ...) is going to be the fastest approach that you will find..." It was probably true for May 2010 and some time after, but in about Sep 2011 a new function rbindlist was introduced in the data.table package version 1.8.2, with a remark that "This does the same as do.call("rbind",l), but much faster". How much faster?

library(rbenchmark)
benchmark(
  do.call = do.call("rbind", listOfDataFrames),
  plyr_rbind.fill = plyr::rbind.fill(listOfDataFrames), 
  plyr_ldply = plyr::ldply(listOfDataFrames, data.frame),
  data.table_rbindlist = as.data.frame(data.table::rbindlist(listOfDataFrames)),
  replications = 100, order = "relative", 
  columns=c('test','replications', 'elapsed','relative')
  ) 

                  test replications elapsed relative
4 data.table_rbindlist          100    0.11    1.000
1              do.call          100    9.39   85.364
2      plyr_rbind.fill          100   12.08  109.818
3           plyr_ldply          100   15.14  137.636
| improve this answer | |
  • 3
    Thank you so much for this -- I was pulling my hair out because my data sets were getting too big for ldplying a bunch of long, molten data frames. Anyways, I got an incredible speedup by using your rbindlist suggestion. – KarateSnowMachine Sep 18 '13 at 5:52
  • 11
    And one more for completeness: dplyr::rbind_all(listOfDataFrames) will do the trick as well. – andyteucher Jul 15 '14 at 22:56
  • 2
    is there an equivalent to rbindlist but that append the data frames by column ? something like a cbindlist ? – rafa.pereira Sep 14 '15 at 15:37
  • 2
    @rafa.pereira There is a recent feature request: add function cbindlist – Henrik Feb 26 '18 at 13:26
  • I was also pulling my hair out because do.call() had been running on a list of data frames for 18 hours, and still hadn't finished, thank you!!! – Graeme Frost Apr 2 '19 at 14:52
75
0

bind-plot

Code:

library(microbenchmark)

dflist <- vector(length=10,mode="list")
for(i in 1:100)
{
  dflist[[i]] <- data.frame(a=runif(n=260),b=runif(n=260),
                            c=rep(LETTERS,10),d=rep(LETTERS,10))
}


mb <- microbenchmark(
plyr::rbind.fill(dflist),
dplyr::bind_rows(dflist),
data.table::rbindlist(dflist),
plyr::ldply(dflist,data.frame),
do.call("rbind",dflist),
times=1000)

ggplot2::autoplot(mb)

Session:

R version 3.3.0 (2016-05-03)
Platform: x86_64-w64-mingw32/x64 (64-bit)
Running under: Windows 7 x64 (build 7601) Service Pack 1

> packageVersion("plyr")
[1] ‘1.8.4’
> packageVersion("dplyr")
[1] ‘0.5.0’
> packageVersion("data.table")
[1] ‘1.9.6’

UPDATE: Rerun 31-Jan-2018. Ran on the same computer. New versions of packages. Added seed for seed lovers.

enter image description here

set.seed(21)
library(microbenchmark)

dflist <- vector(length=10,mode="list")
for(i in 1:100)
{
  dflist[[i]] <- data.frame(a=runif(n=260),b=runif(n=260),
                            c=rep(LETTERS,10),d=rep(LETTERS,10))
}


mb <- microbenchmark(
  plyr::rbind.fill(dflist),
  dplyr::bind_rows(dflist),
  data.table::rbindlist(dflist),
  plyr::ldply(dflist,data.frame),
  do.call("rbind",dflist),
  times=1000)

ggplot2::autoplot(mb)+theme_bw()


R version 3.4.0 (2017-04-21)
Platform: x86_64-w64-mingw32/x64 (64-bit)
Running under: Windows 7 x64 (build 7601) Service Pack 1

> packageVersion("plyr")
[1] ‘1.8.4’
> packageVersion("dplyr")
[1] ‘0.7.2’
> packageVersion("data.table")
[1] ‘1.10.4’

UPDATE: Rerun 06-Aug-2019.

enter image description here

set.seed(21)
library(microbenchmark)

dflist <- vector(length=10,mode="list")
for(i in 1:100)
{
  dflist[[i]] <- data.frame(a=runif(n=260),b=runif(n=260),
                            c=rep(LETTERS,10),d=rep(LETTERS,10))
}


mb <- microbenchmark(
  plyr::rbind.fill(dflist),
  dplyr::bind_rows(dflist),
  data.table::rbindlist(dflist),
  plyr::ldply(dflist,data.frame),
  do.call("rbind",dflist),
  purrr::map_df(dflist,dplyr::bind_rows),
  times=1000)

ggplot2::autoplot(mb)+theme_bw()

R version 3.6.0 (2019-04-26)
Platform: x86_64-pc-linux-gnu (64-bit)
Running under: Ubuntu 18.04.2 LTS

Matrix products: default
BLAS:   /usr/lib/x86_64-linux-gnu/openblas/libblas.so.3
LAPACK: /usr/lib/x86_64-linux-gnu/libopenblasp-r0.2.20.so

packageVersion("plyr")
packageVersion("dplyr")
packageVersion("data.table")
packageVersion("purrr")

>> packageVersion("plyr")
[1] ‘1.8.4’
>> packageVersion("dplyr")
[1] ‘0.8.3’
>> packageVersion("data.table")
[1] ‘1.12.2’
>> packageVersion("purrr")
[1] ‘0.3.2’
| improve this answer | |
  • 2
    This is a great answer. I ran the same thing (same OS, same packages, different randomization because you don't set.seed) but saw some differences in worst-case performance. rbindlist actually had the best worst-case as well as best typical-case in my results – C8H10N4O2 Oct 19 '16 at 13:46
48
0

There is also bind_rows(x, ...) in dplyr.

> system.time({ df.Base <- do.call("rbind", listOfDataFrames) })
   user  system elapsed 
   0.08    0.00    0.07 
> 
> system.time({ df.dplyr <- as.data.frame(bind_rows(listOfDataFrames)) })
   user  system elapsed 
   0.01    0.00    0.02 
> 
> identical(df.Base, df.dplyr)
[1] TRUE
| improve this answer | |
  • technically speaking you do not need the as.data.frame - all that does it makes it exclusively a data.frame, as opposed to also a table_df (from deplyr) – user1617979 Jun 1 '15 at 18:06
14
0

Here's another way this can be done (just adding it to the answers because reduce is a very effective functional tool that is often overlooked as a replacement for loops. In this particular case, neither of these are significantly faster than do.call)

using base R:

df <- Reduce(rbind, listOfDataFrames)

or, using the tidyverse:

library(tidyverse) # or, library(dplyr); library(purrr)
df <- listOfDataFrames %>% reduce(bind_rows)
| improve this answer | |
11
0

How it should be done in the tidyverse:

df.dplyr.purrr <- listOfDataFrames %>% map_df(bind_rows)
| improve this answer | |
  • 3
    Why would you use map if bind_rows can take a list of dataframes? – see24 Jul 24 '18 at 14:51
9
0

An updated visual for those wanting to compare some of the recent answers (I wanted to compare the purrr to dplyr solution). Basically I combined answers from @TheVTM and @rmf.

enter image description here

Code:

library(microbenchmark)
library(data.table)
library(tidyverse)

dflist <- vector(length=10,mode="list")
for(i in 1:100)
{
  dflist[[i]] <- data.frame(a=runif(n=260),b=runif(n=260),
                            c=rep(LETTERS,10),d=rep(LETTERS,10))
}


mb <- microbenchmark(
  dplyr::bind_rows(dflist),
  data.table::rbindlist(dflist),
  purrr::map_df(dflist, bind_rows),
  do.call("rbind",dflist),
  times=500)

ggplot2::autoplot(mb)

Session Info:

sessionInfo()
R version 3.4.1 (2017-06-30)
Platform: x86_64-w64-mingw32/x64 (64-bit)
Running under: Windows 7 x64 (build 7601) Service Pack 1

Package Versions:

> packageVersion("tidyverse")
[1] ‘1.1.1’
> packageVersion("data.table")
[1] ‘1.10.0’
| improve this answer | |
7
0

The only thing that the solutions with data.table are missing is the identifier column to know from which dataframe in the list the data is coming from.

Something like this:

df_id <- data.table::rbindlist(listOfDataFrames, idcol = TRUE)

The idcol parameter adds a column (.id) identifying the origin of the dataframe contained in the list. The result would look to something like this:

.id a         b           c
1   u   -0.05315128 -1.31975849 
1   b   -1.00404849 1.15257952  
1   y   1.17478229  -0.91043925 
1   q   -1.65488899 0.05846295  
1   c   -1.43730524 0.95245909  
1   b   0.56434313  0.93813197  
| improve this answer | |

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