Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a data.table with a column that has NAs. I want to drop rows where that column takes a particular value (which happens to be ""). However, my first attempt lead me to lose rows with NAs as well:

> a = c(1,"",NA)
> x <- data.table(a);x
1:  1
3: NA
> y <- x[a!=""];y
1: 1

After looking at ?`!=`, I found a one liner that works, but it's a pain:

> z <- x[!sapply(a,function(x)identical(x,""))]; z
1:  1
2: NA

I'm wondering if there's a better way to do this? Also, I see no good way of extending this to excluding multiple non-NA values. Here's a bad way:

>     drop_these <- function(these,where){
+         argh <- !sapply(where,
+             function(x)unlist(lapply(as.list(these),function(this)identical(x,this)))
+         )
+         if (is.matrix(argh)){argh <- apply(argh,2,all)}
+         return(argh)
+     }
>     x[drop_these("",a)]
1:  1
2: NA
>     x[drop_these(c(1,""),a)]
1: NA

I looked at ?J and tried things out with a data.frame, which seems to work differently, keeping NAs when subsetting:

> w <- data.frame(a,stringsAsFactors=F); w
1    1
3 <NA>
> d <- w[a!="",,drop=F]; d
1     1
share|improve this question
Ok, I just found a better way, x[is.na(a)|a!=""], but that's also pretty cumbersome, and I suspect that I'm approaching this wrong. –  Frank Apr 25 '13 at 18:15
My substantive question has been resolved by the first two answers. I still wonder if there is a reason for different behavior here than with standard data.frames. It seems that Matthew has designed it to only show rows that evaluate to True, while data.frames show rows that evaluate to True or (logical) NA...? –  Frank Apr 25 '13 at 18:42
btw, noticed you wrote x <- data.table(a);x. nice little thing, you can just write (x <- data.table(a)) and r will print out x when the command os over. –  haki Apr 25 '13 at 18:48
@Frank you prefer the data.frame way of printing NA rows?? I've always thought that output was terrible! –  eddi Apr 25 '13 at 18:50
@haki: Oh, right; forgot about that. Thanks. –  Frank Apr 25 '13 at 18:57

3 Answers 3

up vote 8 down vote accepted

To provide a solution to your question:

You should use %in%. It gives you back a logical vector.

a %in% ""

x[!a %in% ""]
#     a
# 1:  1
# 2: NA

To find out why this is happening in data.table:

(as opposted to data.frame)

If you look at the data.table source code on the file data.table.R under the function "[.data.table", there's a set of if-statements that check for i argument. One of them is:

if (!missing(i)) {
    # Part (1)
    isub = substitute(i)

    # Part (2)
    if (is.call(isub) && isub[[1L]] == as.name("!")) {
        notjoin = TRUE
        if (!missingnomatch) stop("not-join '!' prefix is present on i but nomatch is provided. Please remove nomatch.");
        nomatch = 0L
        isub = isub[[2L]]

    # "isub" is being evaluated using "eval" to result in a logical vector

    # Part 3
    if (is.logical(i)) {
        # see DT[NA] thread re recycling of NA logical
        if (identical(i,NA)) i = NA_integer_  
        # avoids DT[!is.na(ColA) & !is.na(ColB) & ColA==ColB], just DT[ColA==ColB]
        else i[is.na(i)] = FALSE  

To explain the discrepancy, I've pasted the important piece of code here. And I've also marked them into 3 parts.

First, why dt[a != ""] doesn't work as expected (by the OP)?

First, part 1 evaluates to an object of class call. The second part of the if statement in part 2 returns FALSE. Following that, the call is "evaluated" to give c(TRUE, FALSE, NA) . Then part 3 is executed. So, NA is replaced to FALSE (the last line of the logical loop).

why does x[!(a== "")] work as expected (by the OP)?

part 1 returns a call once again. But, part 2 evaluates to TRUE and therefore sets:

1) `notjoin = TRUE`
2) isub <- isub[[2L]] # which is equal to (a == "") without the ! (exclamation)

That is where the magic happened. The negation has been removed for now. And remember, this is still an object of class call. So this gets evaluated (using eval) to logical again. So, (a=="") evaluates to c(FALSE, TRUE, NA).

Now, this is checked for is.logical in part 3. So, here, NA gets replaced to FALSE. It therefore becomes, c(FALSE, TRUE, FALSE). At some point later, a which(c(F,T,F)) is executed, which results in 2 here. Because notjoin = TRUE (from part 2) seq_len(nrow(x))[-2] = c(1,3) is returned. so, x[!(a=="")] basically returns x[c(1,3)] which is the desired result. Here's the relevant code snippet:

if (notjoin) {
    if (bywithoutby || !is.integer(irows) || is.na(nomatch)) stop("Internal error: notjoin but bywithoutby or !integer or nomatch==NA")
    irows = irows[irows!=0L]
    # WHERE MAGIC HAPPENS (returns c(1,3))
    i = irows = if (length(irows)) seq_len(nrow(x))[-irows] else NULL  # NULL meaning all rows i.e. seq_len(nrow(x))
    # Doing this once here, helps speed later when repeatedly subsetting each column. R's [irows] would do this for each
    # column when irows contains negatives.

Given that, I think there are some inconsistencies with the syntax.. And if I manage to get time to formulate the problem, then I'll write a post soon.

share|improve this answer
Wow, I never tried that. I just figured == and %in% worked the same way. I guess this has something to do with a redefinition of == in the i argument of a data.table? –  Frank Apr 25 '13 at 18:35
Thanks! Very interesting. The one step I still don't follow is when "NA gets replaced by FALSE", but I may just need to read your answer and the code more carefully. Am I right to read this as follows: "when i=!(arg) where arg evaluates to logical, it finds rows satisfying arg and returns only the complementary rows"? Also, is there any other type of i argument (besides a negated logical) for which I should know/consider whether or not it transforms into a call after substitute is applied? I'm not all that familiar with substitute. Thanks again! –  Frank Apr 25 '13 at 21:20
In case you've already read my last comment, I now understand why/when NA gets replaced by False. Got it. –  Frank Apr 25 '13 at 21:26
@eddi, thanks. shouldn't x[a != ""] give back 1 and NA? –  Arun Apr 25 '13 at 22:22
@eddi, the only problem is that it isn't bad behaviour if you understand the role of NA logical. So, why don't you go ahead and write this "bad behaviour" on R-devel? –  Arun Apr 26 '13 at 13:04

As you have already figured out, this is the reason:

a != ""
#[1]  TRUE    NA FALSE

You can do what you figured out already, i.e. x[is.na(a) | a != ""] or you could setkey on a and do the following:

setkey(x, a)
share|improve this answer
Ah, the setkey approach is appealing, too, but I prefer to use %in%, as Arun suggested. Thanks. Along the same lines, I just realized that x[!(a=="")] also works. –  Frank Apr 25 '13 at 18:36

Background answer from Matthew :

The behaviour with != on NA as highlighted by this question wasn't intended, thinking about it. The original intention was indeed to be different than [.data.frame w.r.t. == and NA and I believe everyone is happy with that. For example, FAQ 2.17 has :

DT[ColA==ColB] is simpler than DF[!is.na(ColA) & !is.na(ColB) & ColA==ColB,]

That convenience is achieved by dint of :

DT[c(TRUE,NA,FALSE)] treats the NA as FALSE, but DF[c(TRUE,NA,FALSE)] returns NA rows for each NA

The motivation is not just convenience but speed, since each and every !, is.na, & and == are themselves vector scans with associated memory allocation of each of their results (explained in intro vignette). So although x[is.na(a) | a!=""] is a working solution, it's exactly the type of logic I was trying to avoid needing in data.table. x[!a %in% ""] is slightly better; i.e, 2 scans (%in% and !) rather than 3 (is.na, | and !=). But really x[a != ""] should do what Frank expected (include NA) in a single scan.

New feature request filed which links back to this question :

DT[col!=""] should include NA

Thanks to Frank, Eddi and Arun. If I haven't understood correctly feel free to correct, otherwise the change will get made eventually. It will need to be done in a way that considers compound expressions; e.g., DT[colA=="foo" & colB!="bar"] should exclude rows with NA in colA but include rows where colA is non-NA but colB is NA. Similarly, DT[colA!=colB] should include rows where either colA or colB is NA but not both. And perhaps DT[colA==colB] should include rows where both colA and colB are NA (which it doesn't currently, I believe).

share|improve this answer
Matthew, DF[!is.na(ColA) & !is.na(ColB) & ColA==ColB,] is not really necessary/the only way. One could write DF[which(DF$ColA == DF$ColB), ]. NA's interpretation of FALSE goes against much of R's "statistical aspects" to data analysis (unknown/missing data), wouldn't you say? Although, probably this is more appropriate on the mailing list. –  Arun Jun 9 '13 at 19:54
I just tested system.time(DF[which(DF$V1 == DF$V2), ]) and system.time(DT[V1 == V2]) on set.seed(45); DF <- as.data.frame(matrix(sample(c(1,2,3,NA), 2e6, replace=TRUE), ncol=2)); DT <- data.table(DF) and which seems to be faster... Any ideas? –  Arun Jun 9 '13 at 20:09
Even DT[which(V1 == V2)] is faster than DT[V1 == V2]. –  Arun Jun 9 '13 at 20:13
@Arun Interesting thanks, FR#4652 is now filed to address that speed issue. Have replied on mailing list about the first point here : r.789695.n4.nabble.com/… –  Matt Dowle Jun 9 '13 at 22:19
thanks. I just read the last paragraph. I honestly think this is more confusing. I'll continue this on the mailing list. –  Arun Jun 10 '13 at 6:38

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.