# R - list to data frame

I have a nested list of data. Its length is 132 and each item is a list of length 20. Is there a quick way to convert this structure into a data frame that has 132 rows and 20 columns of data?

Here is some sample data to work with:

``````l <- replicate(
132,
list(sample(letters, 20)),
simplify = FALSE
)
``````
• So you want each list element as a row of data in your data.frame? – Joshua Ulrich Nov 19 '10 at 16:44
• @RichieCotton It's not right example. "each item is a list of length 20" and you got each item is a one element list of vector of length 20. – Marek Jul 27 '15 at 20:45
• Late to the party, but I didn't see anyone mention this, which I thought was very handy (for what I was looking to do). – mfloren Mar 21 '17 at 16:51
• – Henrik Jun 9 at 20:03

Assuming your list of lists is called `l`:

``````df <- data.frame(matrix(unlist(l), nrow=132, byrow=T))
``````

The above will convert all character columns to factors, to avoid this you can add a parameter to the data.frame() call:

``````df <- data.frame(matrix(unlist(l), nrow=132, byrow=T),stringsAsFactors=FALSE)
``````
• unlist did the trick. After that, I could manipulate/change what I needed. Thx! – Btibert3 Nov 19 '10 at 21:30
• Careful here if your data is not all of the same type. Passing through a matrix means that all data will be coerced into a common type. I.e. if you have one column of character data and one column of numeric data the numeric data will be coerced to string by matrix() and then both to factor by data.frame(). – Ian Sudbery Mar 15 '13 at 10:15
• Also take care if you have character data type - data.frame will convert it to factors. – Alex Brown May 16 '14 at 18:12
• Does anyone know how to use lapply (or something similar) on a dataframe and retain the original data types - I use this method to get my dataframe back but I lose all the type information. A solution I have is reading off the types prior to lapply and setting them back on return, but is there a better way? – JStrahl Mar 17 '15 at 8:14
• @nico Is there a way to keep the list elements names as colnames or rownames in the df? – N.Varela Dec 18 '15 at 21:47

With `rbind`

``````do.call(rbind.data.frame, your_list)
``````

Edit: Previous version return `data.frame` of `list`'s instead of vectors (as @IanSudbery pointed out in comments).

• Why does this work but `rbind(your_list)` returns a 1x32 list matrix? – eykanal Dec 21 '11 at 17:03
• @eykanal `do.call` pass elements of `your_list` as arguments to `rbind`. It's equivalent of `rbind(your_list[[1]], your_list[[2]], your_list[[3]], ....., your_list[[length of your_list]])`. – Marek Dec 21 '11 at 22:30
• This method suffers from the null situation. – Frank Wang May 9 '12 at 9:38
• @FrankWANG But this method is not designed to null situation. It's required that `your_list` contain equally sized vectors. `NULL` has length 0 so it should failed. – Marek May 9 '12 at 20:42
• This method seems to return the correct object, but on inspecting the object, you'll find that the columns are lists rather than vectors, which can lead to problems down the line if you are not expecting it. – Ian Sudbery Mar 15 '13 at 10:18

You can use the `plyr` package. For example a nested list of the form

``````l <- list(a = list(var.1 = 1, var.2 = 2, var.3 = 3)
, b = list(var.1 = 4, var.2 = 5, var.3 = 6)
, c = list(var.1 = 7, var.2 = 8, var.3 = 9)
, d = list(var.1 = 10, var.2 = 11, var.3 = 12)
)
``````

has now a length of 4 and each list in `l` contains another list of the length 3. Now you can run

``````  library (plyr)
df <- ldply (l, data.frame)
``````

and should get the same result as in the answer @Marek and @nico.

• Great answer. I could you explain a little how that works? It simply returns a data frame for each list entry? – Michael Barton Oct 16 '12 at 18:59
• Imho the BEST answer. It returns a honest data.frame. All the data types (character, numeric, etc) are correctly transformed. If the list has different data types their will be all transformed to character with `matrix` approach. – Roah Aug 24 '13 at 14:00
• the sample provided here isn't the one provided by the question. the result of this answer on the original dataset is incorrect. – MySchizoBuddy Jul 25 '15 at 19:21
• Works great for me! And the names of the columns in the resulting Data Frame are set! Tx – bAN Jul 31 '16 at 11:57

`data.frame(t(sapply(mylistlist,c)))`

`sapply` converts it to a matrix. `data.frame` converts the matrix to a data frame.

• updated to take inner lists as rows. – Alex Brown Nov 19 '10 at 17:20
• best answer by far! None of the other solutions get the types/column names correct. THANK YOU! – d_a_c321 Jan 11 '14 at 2:42
• What role are you intending `c` to play here, one instance of the list's data? Oh wait, c for the concatenate function right? Getting confused with @mnel's usage of c. I also concur with @dchandler, getting the column names right was a valuable need in my use case. Brilliant solution. – jxramos Oct 23 '14 at 19:42
• that right - standard c function; from `?c` : `Combine Values into a Vector or List` – Alex Brown Oct 23 '14 at 21:35
• Doesn't this generate a data.frame of lists? – Carl May 26 '16 at 21:40

assume your list is called `L`,

``````data.frame(Reduce(rbind, L))
``````
• Nice one! There is one difference with @Alex Brown's solution compared to yours, going your route yielded the following warning message for some reason: `Warning message: In data.row.names(row.names, rowsi, i) : some row.names duplicated: 3,4 --> row.names NOT used' – jxramos Oct 23 '14 at 19:47
• Very good!! Worked for me here: stackoverflow.com/questions/32996321/… – Anastasia Pupynina Oct 9 '15 at 10:36
• Works well unless the list has only one element in it: `data.frame(Reduce(rbind, list(c('col1','col2'))))` produces a data frame with 2 rows, 1 column (I expected 1 row 2 columns) – The Red Pea Oct 26 '15 at 20:17

The package `data.table` has the function `rbindlist` which is a superfast implementation of `do.call(rbind, list(...))`.

It can take a list of `lists`, `data.frames` or `data.tables` as input.

``````library(data.table)
ll <- list(a = list(var.1 = 1, var.2 = 2, var.3 = 3)
, b = list(var.1 = 4, var.2 = 5, var.3 = 6)
, c = list(var.1 = 7, var.2 = 8, var.3 = 9)
, d = list(var.1 = 10, var.2 = 11, var.3 = 12)
)

DT <- rbindlist(ll)
``````

This returns a `data.table` inherits from `data.frame`.

If you really want to convert back to a data.frame use `as.data.frame(DT)`

• Regarding the last line, `setDF` now allows for returning to data.frame by reference. – Frank Apr 20 '16 at 20:25
• For my list with 30k items, rbindlist worked way faster than ldply – tallharish Jun 7 at 21:02

The `tibble` package has a function `enframe()` that solves this problem by coercing nested `list` objects to nested `tibble` ("tidy" data frame) objects. Here's a brief example from R for Data Science:

``````x <- list(
a = 1:5,
b = 3:4,
c = 5:6
)

df <- enframe(x)
df
#> # A tibble: 3 × 2
#>    name     value
#>   <chr>    <list>
#>    1     a <int [5]>
#>    2     b <int [2]>
#>    3     c <int [2]>
``````

Since you have several nests in your list, `l`, you can use the `unlist(recursive = FALSE)` to remove unnecessary nesting to get just a single hierarchical list and then pass to `enframe()`. I use `tidyr::unnest()` to unnest the output into a single level "tidy" data frame, which has your two columns (one for the group `name` and one for the observations with the groups `value`). If you want columns that make wide, you can add a column using `add_column()` that just repeats the order of the values 132 times. Then just `spread()` the values.

``````library(tidyverse)

l <- replicate(
132,
list(sample(letters, 20)),
simplify = FALSE
)

l_tib <- l %>%
unlist(recursive = FALSE) %>%
enframe() %>%
unnest()
l_tib
#> # A tibble: 2,640 x 2
#>     name value
#>    <int> <chr>
#> 1      1     d
#> 2      1     z
#> 3      1     l
#> 4      1     b
#> 5      1     i
#> 6      1     j
#> 7      1     g
#> 8      1     w
#> 9      1     r
#> 10     1     p
#> # ... with 2,630 more rows

spread(key = index, value = value)
#> # A tibble: 132 x 21
#>     name   `1`   `2`   `3`   `4`   `5`   `6`   `7`   `8`   `9`  `10`  `11`
#> *  <int> <chr> <chr> <chr> <chr> <chr> <chr> <chr> <chr> <chr> <chr> <chr>
#> 1      1     d     z     l     b     i     j     g     w     r     p     y
#> 2      2     w     s     h     r     i     k     d     u     a     f     j
#> 3      3     r     v     q     s     m     u     j     p     f     a     i
#> 4      4     o     y     x     n     p     i     f     m     h     l     t
#> 5      5     p     w     v     d     k     a     l     r     j     q     n
#> 6      6     i     k     w     o     c     n     m     b     v     e     q
#> 7      7     c     d     m     i     u     o     e     z     v     g     p
#> 8      8     f     s     e     o     p     n     k     x     c     z     h
#> 9      9     d     g     o     h     x     i     c     y     t     f     j
#> 10    10     y     r     f     k     d     o     b     u     i     x     s
#> # ... with 122 more rows, and 9 more variables: `12` <chr>, `13` <chr>,
#> #   `14` <chr>, `15` <chr>, `16` <chr>, `17` <chr>, `18` <chr>,
#> #   `19` <chr>, `20` <chr>
``````
• Quoting the OP: "Is there a quick way to convert this structure into a data frame that has 132 rows and 20 columns of data?" So maybe you need a spread step or something. – Frank Apr 9 '17 at 19:37
• Ah yes, there just needs to be an index column that can be spread. I will update shortly. – Matt Dancho Apr 10 '17 at 20:03

Reshape2 yields the same output as the plyr example above:

``````library(reshape2)
l <- list(a = list(var.1 = 1, var.2 = 2, var.3 = 3)
, b = list(var.1 = 4, var.2 = 5, var.3 = 6)
, c = list(var.1 = 7, var.2 = 8, var.3 = 9)
, d = list(var.1 = 10, var.2 = 11, var.3 = 12)
)
l <- melt(l)
dcast(l, L1 ~ L2)
``````

yields:

``````  L1 var.1 var.2 var.3
1  a     1     2     3
2  b     4     5     6
3  c     7     8     9
4  d    10    11    12
``````

If you were almost out of pixels you could do this all in 1 line w/ recast().

More answers, along with timings in the answer to this question: What is the most efficient way to cast a list as a data frame?

The quickest way, that doesn't produce a dataframe with lists rather than vectors for columns appears to be (from Martin Morgan's answer):

``````l <- list(list(col1="a",col2=1),list(col1="b",col2=2))
f = function(x) function(i) unlist(lapply(x, `[[`, i), use.names=FALSE)
as.data.frame(Map(f(l), names(l[[1]])))
``````

For the general case of deeply nested lists with 3 or more levels like the ones obtained from a nested JSON:

``````{
"2015": {
"spain": {"population": 43, "GNP": 9},
"sweden": {"population": 7, "GNP": 6}},
"2016": {
"spain": {"population": 45, "GNP": 10},
"sweden": {"population": 9, "GNP": 8}}
}
``````

consider the approach of `melt()` to convert the nested list to a tall format first:

``````myjson <- jsonlite:fromJSON(file("test.json"))
tall <- reshape2::melt(myjson)[, c("L1", "L2", "L3", "value")]
L1     L2         L3 value
1 2015  spain population    43
2 2015  spain        GNP     9
3 2015 sweden population     7
4 2015 sweden        GNP     6
5 2016  spain population    45
6 2016  spain        GNP    10
7 2016 sweden population     9
8 2016 sweden        GNP     8
``````

followed by `dcast()` then to wide again into a tidy dataset where each variable forms a a column and each observation forms a row:

``````wide <- reshape2::dcast(tall, L1+L2~L3)
# left side of the formula defines the rows/observations and the
# right side defines the variables/measurements
L1     L2 GNP population
1 2015  spain   9         43
2 2015 sweden   6          7
3 2016  spain  10         45
4 2016 sweden   8          9
``````

Extending on @Marek's answer: if you want to avoid strings to be turned into factors and efficiency is not a concern try

``````do.call(rbind, lapply(your_list, data.frame, stringsAsFactors=FALSE))
``````

Sometimes your data may be a list of lists of vectors of the same length.

``````lolov = list(list(c(1,2,3),c(4,5,6)), list(c(7,8,9),c(10,11,12),c(13,14,15)) )
``````

(The inner vectors could also be lists, but I'm simplifying to make this easier to read).

Then you can make the following modification. Remember that you can unlist one level at a time:

``````lov = unlist(lolov, recursive = FALSE )
> lov
[[1]]
[1] 1 2 3

[[2]]
[1] 4 5 6

[[3]]
[1] 7 8 9

[[4]]
[1] 10 11 12

[[5]]
[1] 13 14 15
``````

``````library(plyr)
>ldply(lov)
V1 V2 V3
1  1  2  3
2  4  5  6
3  7  8  9
4 10 11 12
5 13 14 15
``````

This is what finally worked for me:

`do.call("rbind", lapply(S1, as.data.frame))`

``````l <- replicate(10,list(sample(letters, 20)))
a <-lapply(l[1:10],data.frame)
do.call("cbind", a)
``````

This method uses a `tidyverse` package (purrr).

The list:

``````x <- as.list(mtcars)
``````

Converting it into a data frame (a `tibble` more specifically):

``````library(purrr)
map_df(x, ~.x)
``````

Depending on the structure of your lists there are some `tidyverse` options that work nicely with unequal length lists:

``````l <- list(a = list(var.1 = 1, var.2 = 2, var.3 = 3)
, b = list(var.1 = 4, var.2 = 5)
, c = list(var.1 = 7, var.3 = 9)
, d = list(var.1 = 10, var.2 = 11, var.3 = NA))

df <- dplyr::bind_rows(l)
df <- purrr::map_df(l, dplyr::bind_rows)
df <- purrr::map_df(l, ~.x)

# all create the same data frame:
# A tibble: 4 x 3
var.1 var.2 var.3
<dbl> <dbl> <dbl>
1     1     2     3
2     4     5    NA
3     7    NA     9
4    10    11    NA
``````

You can also mix vectors and data frames:

``````library(dplyr)
bind_rows(
list(a = 1, b = 2),
data_frame(a = 3:4, b = 5:6),
c(a = 7)
)

# A tibble: 4 x 2
a     b
<dbl> <dbl>
1     1     2
2     3     5
3     4     6
4     7    NA
``````

test1 <- list( c(a='a',b='b',c='c'), c(a='d',b='e',c='f')) as.data.frame(test1) a b c 1 a b c 2 d e f

test2 <- list( c('a','b','c'), c(a='d',b='e',c='f'))

as.data.frame(test2) a b c 1 a b c 2 d e f

test3 <- list('Row1'=c(a='a',b='b',c='c'), 'Row2'=c(a='d',var2='e',var3='f'))

as.data.frame(test3) a b c var2 var3 Row1 a b c
Row2 d e f

• The output you're showing in each case is different from what I see (in R 3.3.3). – Frank Sep 29 '17 at 18:44

## protected by FrankSep 29 '17 at 18:44

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