125

I have a large data.table, with many missing values scattered throughout its ~200k rows and 200 columns. I would like to re code those NA values to zeros as efficiently as possible.

I see two options:
1: Convert to a data.frame, and use something like this
2: Some kind of cool data.table sub setting command

I'll be happy with a fairly efficient solution of type 1. Converting to a data.frame and then back to a data.table won't take too long.

  • 5
    Why do you want to convert the data.table to a data.frame? A data.table is a data.frame. Any data.frame operation will just work. – Andrie Aug 29 '11 at 20:38
  • 5
    @Andrie. a key difference is that you cant access a column in a data.table by specifying column number. so DT[,3] will not give the third column. i think this makes the solution proposed in the link unviable here. i am sure there is an elegant approach using some data.table wizardry! – Ramnath Aug 29 '11 at 20:57
  • 6
    @Ramnath, AFAIK, DT[, 3, with=FALSE] returns the third column. – Andrie Aug 29 '11 at 21:07
  • 2
    @Andrie. but there is still a problem mydf[is.na(mydf) == TRUE] does the job on data frames, while mydt[is.na(mydt) == TRUE] gives me something strange even if i use with=FALSE – Ramnath Aug 29 '11 at 21:14
  • 2
    @Ramnath, point taken. My earlier statement was too broad, i.e. I was wrong. Sorry. Data.tables only behave like data.frames when there isn't a data.table method. – Andrie Aug 29 '11 at 21:32
159

Here's a solution using data.table's := operator, building on Andrie and Ramnath's answers.

require(data.table)  # v1.6.6
require(gdata)       # v2.8.2

set.seed(1)
dt1 = create_dt(2e5, 200, 0.1)
dim(dt1)
[1] 200000    200    # more columns than Ramnath's answer which had 5 not 200

f_andrie = function(dt) remove_na(dt)

f_gdata = function(dt, un = 0) gdata::NAToUnknown(dt, un)

f_dowle = function(dt) {     # see EDIT later for more elegant solution
  na.replace = function(v,value=0) { v[is.na(v)] = value; v }
  for (i in names(dt))
    eval(parse(text=paste("dt[,",i,":=na.replace(",i,")]")))
}

system.time(a_gdata = f_gdata(dt1)) 
   user  system elapsed 
 18.805  12.301 134.985 

system.time(a_andrie = f_andrie(dt1))
Error: cannot allocate vector of size 305.2 Mb
Timing stopped at: 14.541 7.764 68.285 

system.time(f_dowle(dt1))
  user  system elapsed 
 7.452   4.144  19.590     # EDIT has faster than this

identical(a_gdata, dt1)   
[1] TRUE

Note that f_dowle updated dt1 by reference. If a local copy is required then an explicit call to the copy function is needed to make a local copy of the whole dataset. data.table's setkey, key<- and := do not copy-on-write.

Next, let's see where f_dowle is spending its time.

Rprof()
f_dowle(dt1)
Rprof(NULL)
summaryRprof()
$by.self
                  self.time self.pct total.time total.pct
"na.replace"           5.10    49.71       6.62     64.52
"[.data.table"         2.48    24.17       9.86     96.10
"is.na"                1.52    14.81       1.52     14.81
"gc"                   0.22     2.14       0.22      2.14
"unique"               0.14     1.36       0.16      1.56
... snip ...

There, I would focus on na.replace and is.na, where there are a few vector copies and vector scans. Those can fairly easily be eliminated by writing a small na.replace C function that updates NA by reference in the vector. That would at least halve the 20 seconds I think. Does such a function exist in any R package?

The reason f_andrie fails may be because it copies the whole of dt1, or creates a logical matrix as big as the whole of dt1, a few times. The other 2 methods work on one column at a time (although I only briefly looked at NAToUnknown).

EDIT (more elegant solution as requested by Ramnath in comments) :

f_dowle2 = function(DT) {
  for (i in names(DT))
    DT[is.na(get(i)), (i):=0]
}

system.time(f_dowle2(dt1))
  user  system elapsed 
 6.468   0.760   7.250   # faster, too

identical(a_gdata, dt1)   
[1] TRUE

I wish I did it that way to start with!

EDIT2 (over 1 year later, now)

There is also set(). This can be faster if there are a lot of column being looped through, as it avoids the (small) overhead of calling [,:=,] in a loop. set is a loopable :=. See ?set.

f_dowle3 = function(DT) {
  # either of the following for loops

  # by name :
  for (j in names(DT))
    set(DT,which(is.na(DT[[j]])),j,0)

  # or by number (slightly faster than by name) :
  for (j in seq_len(ncol(DT)))
    set(DT,which(is.na(DT[[j]])),j,0)
}
  • 5
    +! great answer! is it possible to have a more intuitive equivalent of the eval(parse)... stuff. on a broader note, i think it would be useful to have operations that work on all elements of the data.table. – Ramnath Aug 30 '11 at 20:53
  • 1
    Your 2nd block of code seems to be the most data.table appropriate way to do this. Thanks! – Zach Aug 31 '11 at 2:08
  • 3
    @Statwonk I guess your DT has columns of type logical, unlike the create_dt() example for this test. Change the 4th argument of the set() call (which is 0 in your example and type double in R) to FALSE and it should work without warning. – Matt Dowle Jan 5 '15 at 10:06
  • 2
    @Statwonk And I've filed a feature request to relax this case and drop that warning when coercing length-1 vectors 0 and 1 to logical: #996. Might not do it since, for speed, you do want to be warned about unnecessary repetitive coercing. – Matt Dowle Jan 5 '15 at 10:33
  • 1
    @StefanF True and I prefer seq_along(DT) too. But then the reader has to know that seq_along would be along the columns and not down the rows. seq_len(col(DT)) a tiny bit more explicit for that reason. – Matt Dowle Jan 11 '17 at 22:47
19

Here's the simplest one I could come up with:

dt[is.na(dt)] <- 0

It's efficient and no need to write functions and other glue code.

  • doesn't work on big datasets and normal workstation computers (memory allocation error) – Jake May 11 '17 at 19:48
  • 2
    @Jake on a machine with 16GB of RAM I was able to run this on 31M rows, ~20 columns. YMMV of course. – Bar Jul 24 '17 at 18:34
  • I defer to your empirical evidence. Thanks. – Jake Jul 25 '17 at 2:54
  • 7
    Unfortunatelly in the latest versions of data.table it doesn't work. It says Error in [.data.table(dt, is.na(dt)) : i is invalid type (matrix). Perhaps in future a 2 column matrix could return a list of elements of DT (in the spirit of A[B] in FAQ 2.14). Please let datatable-help know if you'd like this, or add your comments to FR #657. > – skan Oct 15 '17 at 10:34
11

Here is a solution using NAToUnknown in the gdata package. I have used Andrie's solution to create a huge data table and also included time comparisons with Andrie's solution.

# CREATE DATA TABLE
dt1 = create_dt(2e5, 200, 0.1)

# FUNCTIONS TO SET NA TO ZERO   
f_gdata  = function(dt, un = 0) gdata::NAToUnknown(dt, un)
f_Andrie = function(dt) remove_na(dt)

# COMPARE SOLUTIONS AND TIMES
system.time(a_gdata  <- f_gdata(dt1))

user  system elapsed 
4.224   2.962   7.388 

system.time(a_andrie <- f_Andrie(dt1))

 user  system elapsed 
4.635   4.730  20.060 

identical(a_gdata, g_andrie)  

TRUE
  • +1 Good find. Interesting - it's the first time I see timings with similar user time but really big difference in elapsed time. – Andrie Aug 30 '11 at 19:14
  • @Andrie I tried using rbenchmark to benchmark solutions using more replications, but got an out of memory error possibly due to the size of the data frame. if you can run benchmark on both these solutions with multiple replications, those results would be interesting as i am not really sure why i am getting a 3x speedup – Ramnath Aug 30 '11 at 19:16
  • @Ramnath To get things correct, the timings in this answer are for ncol=5 I think (should take much longer) due to the bug in create_dt. – Matt Dowle Aug 30 '11 at 23:00
8
library(data.table)

DT = data.table(a=c(1,"A",NA),b=c(4,NA,"B"))

DT
    a  b
1:  1  4
2:  A NA
3: NA  B

DT[,lapply(.SD,function(x){ifelse(is.na(x),0,x)})]
   a b
1: 1 4
2: A 0
3: 0 B

Just for reference, slower compared to gdata or data.matrix, but uses only the data.table package and can deal with non numerical entries.

  • 4
    You could probably both avoid ifelse and update by reference by doing DT[, names(DT) := lapply(.SD, function(x) {x[is.na(x)] <- "0" ; x})]. And I doubt it will be slower that than answers you've mentioned. – David Arenburg May 8 '16 at 9:56
5

For the sake of completeness, another way to replace NAs with 0 is to use

f_rep <- function(dt) {
dt[is.na(dt)] <- 0
return(dt)
}

To compare results and times I have incorporated all approaches mentioned so far.

set.seed(1)
dt1 <- create_dt(2e5, 200, 0.1)
dt2 <- dt1
dt3 <- dt1

system.time(res1 <- f_gdata(dt1))
   User      System verstrichen 
   3.62        0.22        3.84 
system.time(res2 <- f_andrie(dt1))
   User      System verstrichen 
   2.95        0.33        3.28 
system.time(f_dowle2(dt2))
   User      System verstrichen 
   0.78        0.00        0.78 
system.time(f_dowle3(dt3))
   User      System verstrichen 
   0.17        0.00        0.17 
system.time(res3 <- f_unknown(dt1))
   User      System verstrichen 
   6.71        0.84        7.55 
system.time(res4 <- f_rep(dt1))
   User      System verstrichen 
   0.32        0.00        0.32 

identical(res1, res2) & identical(res2, res3) & identical(res3, res4) & identical(res4, dt2) & identical(dt2, dt3)
[1] TRUE

So the new approach is slightly slower than f_dowle3 but faster than all the other approaches. But to be honest, this is against my Intuition of the data.table Syntax and I have no idea why this works. Can anybody enlighten me?

  • did you check the values in the data.table returned by your function f_rep ??? – Aakash Gupta Nov 20 '15 at 19:27
  • 1
    Yes I checked them, this is why I have included the pairwise identicals. – bratwoorst711 Feb 26 '16 at 8:55
  • 1
    Here's a reason why it's not the idiomatic way - stackoverflow.com/a/20545629 – Naumz Jan 24 '17 at 18:30
4

My understanding is that the secret to fast operations in R is to utilise vector (or arrays, which are vectors under the hood.)

In this solution I make use of a data.matrix which is an array but behave a bit like a data.frame. Because it is an array, you can use a very simple vector substitution to replace the NAs:

A little helper function to remove the NAs. The essence is a single line of code. I only do this to measure execution time.

remove_na <- function(x){
  dm <- data.matrix(x)
  dm[is.na(dm)] <- 0
  data.table(dm)
}

A little helper function to create a data.table of a given size.

create_dt <- function(nrow=5, ncol=5, propNA = 0.5){
  v <- runif(nrow * ncol)
  v[sample(seq_len(nrow*ncol), propNA * nrow*ncol)] <- NA
  data.table(matrix(v, ncol=ncol))
}

Demonstration on a tiny sample:

library(data.table)
set.seed(1)
dt <- create_dt(5, 5, 0.5)

dt
            V1        V2        V3        V4        V5
[1,]        NA 0.8983897        NA 0.4976992 0.9347052
[2,] 0.3721239 0.9446753        NA 0.7176185 0.2121425
[3,] 0.5728534        NA 0.6870228 0.9919061        NA
[4,]        NA        NA        NA        NA 0.1255551
[5,] 0.2016819        NA 0.7698414        NA        NA

remove_na(dt)
            V1        V2        V3        V4        V5
[1,] 0.0000000 0.8983897 0.0000000 0.4976992 0.9347052
[2,] 0.3721239 0.9446753 0.0000000 0.7176185 0.2121425
[3,] 0.5728534 0.0000000 0.6870228 0.9919061 0.0000000
[4,] 0.0000000 0.0000000 0.0000000 0.0000000 0.1255551
[5,] 0.2016819 0.0000000 0.7698414 0.0000000 0.0000000
  • That's a very nice example dataset. I'll try and improve on remove_na. That timing of 21.57s includes the create_dt (including runif and sample) together with the remove_na. Any chance you could edit to split out the 2 times? – Matt Dowle Aug 30 '11 at 11:44
  • Is there a small bug in create_dt? It seems to always create a 5 column data.table regardless of ncol passed in. – Matt Dowle Aug 30 '11 at 18:17
  • @MatthewDowle Well spotted. Error removed (as well as the timings) – Andrie Aug 30 '11 at 19:11
  • Converting to matrix will only work properly if all columns are the same type. – skan Jun 8 '17 at 13:58
4

Dedicated function (nafill / setnafill) for that purpose is in recent data.table package

install.packages("data.table", repos="https://Rdatatable.gitlab.io/data.table")

It process columns in parallel so well address previously posted benchmarks, below its timings vs fastest approach till now, and also scaled up, using 40 cores machine.

library(data.table)
create_dt <- function(nrow=5, ncol=5, propNA = 0.5){
  v <- runif(nrow * ncol)
  v[sample(seq_len(nrow*ncol), propNA * nrow*ncol)] <- NA
  data.table(matrix(v, ncol=ncol))
}
f_dowle3 = function(DT) {
  for (j in seq_len(ncol(DT)))
    set(DT,which(is.na(DT[[j]])),j,0)
}

set.seed(1)
dt1 = create_dt(2e5, 200, 0.1)
dim(dt1)
#[1] 200000    200
dt2 = copy(dt1)
system.time(f_dowle3(dt1))
#   user  system elapsed 
#  0.193   0.062   0.254 
system.time(setnafill(dt2, fill=0))
#   user  system elapsed 
#  0.633   0.000   0.020   ## setDTthreads(1) elapsed: 0.149
all.equal(dt1, dt2)
#[1] TRUE

set.seed(1)
dt1 = create_dt(2e7, 200, 0.1)
dim(dt1)
#[1] 20000000    200
dt2 = copy(dt1)
system.time(f_dowle3(dt1))
#   user  system elapsed 
# 22.997  18.179  41.496
system.time(setnafill(dt2, fill=0))
#   user  system elapsed 
# 39.604  36.805   3.798 
all.equal(dt1, dt2)
#[1] TRUE
0
> DT = data.table(a=LETTERS[c(1,1:3,4:7)],b=sample(c(15,51,NA,12,21),8,T),key="a")
> DT
   a  b
1: A 12
2: A NA
3: B 15
4: C NA
5: D 51
6: E NA
7: F 15
8: G 51
> DT[is.na(b),b:=0]
> DT
   a  b
1: A 12
2: A  0
3: B 15
4: C  0
5: D 51
6: E  0
7: F 15
8: G 51
> 
  • 2
    And how would you generalize this to more than one columns though? – David Arenburg May 8 '16 at 9:57

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