Problem using rowwise() to count the number of NA's in each row of a dataframe

Question

I'm having trouble using rowwise() to count the number of NAs in each row. My minimal example:

df <- data.frame(Q1 = c(rep(1, 1), rep(NA, 9)),
                 Q2 = c(rep(2, 2), rep(NA, 8)),
                 Q3 = c(rep(3, 3), rep(NA, 7))
)
df
   Q1 Q2 Q3
1   1  2  3
2  NA  2  3
3  NA NA  3
4  NA NA NA
5  NA NA NA
6  NA NA NA
7  NA NA NA
8  NA NA NA
9  NA NA NA
10 NA NA NA

I would like to create a new column that counts the number of NAs in each row. I can do this very simply by writing

 df$Count_NA <- rowSums(is.na(df))
 df
   Q1 Q2 Q3 Count_NA
1   1  2  3        0
2  NA  2  3        1
3  NA NA  3        2
4  NA NA NA        3
5  NA NA NA        3
6  NA NA NA        3
7  NA NA NA        3
8  NA NA NA        3
9  NA NA NA        3
10 NA NA NA        3

But if I try and do this via dplyr using rowwise(), I get the wrong answer - the column Count_NA has the same number in each row:

df %>%
   rowwise() %>%
   mutate(Count_NA = sum(is.na(.)))
# A tibble: 10 x 4
# Rowwise: 
      Q1    Q2    Q3 Count_NA
   <dbl> <dbl> <dbl>    <int>
 1     1     2     3       24
 2    NA     2     3       24
 3    NA    NA     3       24
 4    NA    NA    NA       24
 5    NA    NA    NA       24
 6    NA    NA    NA       24
 7    NA    NA    NA       24
 8    NA    NA    NA       24
 9    NA    NA    NA       24
10    NA    NA    NA       24

what am I doing wrong, and how do i fix this?

Many thanks in advance

Thomas Philips

Does this answer your question? Count NAs per row in dataframe — TarJae, Apr 18, 2021 at 16:58

G. Grothendieck · Accepted Answer · 2021-04-18 17:08:56Z

Use cur_data() rather than dot. .[cur_group_id(), ], c(Q1, Q2, Q3), across() or c_across() (or c_across with the argument as per other answer) would also work.

Note that it is best to use ungroup afterwards or else it will retain the memory of the rowwise and you might get unexpected results later on.

df %>%
   rowwise() %>%
   mutate(Count_NA = sum(is.na(cur_data()))) %>%
   ungroup

giving:

# A tibble: 10 x 4
      Q1    Q2    Q3 Count_NA
   <dbl> <dbl> <dbl>    <int>
 1     1     2     3        0
 2    NA     2     3        1
 3    NA    NA     3        2
 4    NA    NA    NA        3
 5    NA    NA    NA        3
 6    NA    NA    NA        3
 7    NA    NA    NA        3
 8    NA    NA    NA        3
 9    NA    NA    NA        3
10    NA    NA    NA        3

Grothendiek, FYI, speed comparison
– Waldi
Apr 18, 2021 at 17:40 — Waldi, Apr 18, 2021 at 17:40

Waldi · Accepted Answer · 2021-04-18 17:33:30Z

rowSums works directly with mutate without rowwise:

df %>% mutate(count_NA = rowSums(is.na(.)))

   Q1 Q2 Q3 count_NA
1   1  2  3        0
2  NA  2  3        1
3  NA NA  3        2
4  NA NA NA        3
5  NA NA NA        3
6  NA NA NA        3
7  NA NA NA        3
8  NA NA NA        3
9  NA NA NA        3
10 NA NA NA        3

Note that your initial solution is by far the fastest one:

microbenchmark::microbenchmark(
  df$Count_NA <- rowSums(is.na(df)),
  df$Count_NA <- apply(df, 1, function(x) sum(is.na(x))),
  df %>% mutate(count_NA = rowSums(is.na(.))),
  df %>%
    mutate(Count_NA = purrr::pmap(., ~ sum(is.na(c(...))))),
  df %>%
    rowwise() %>%
    mutate(a=sum(is.na(c_across(everything())))),
  df %>%
  rowwise() %>%
  mutate(Count_NA = sum(is.na(cur_data()))) %>%
  ungroup
)

Unit: microseconds
                                                                            expr     min       lq
                                               df$Count_NA <- rowSums(is.na(df))    39.8    64.30
                          df$Count_NA <- apply(df, 1, function(x) sum(is.na(x)))  1661.6  1868.40
                                     df %>% mutate(count_NA = rowSums(is.na(.)))  1181.7  1572.80
                   df %>% mutate(Count_NA = purrr::pmap(., ~sum(is.na(c(...)))))  4749.9  5190.35
             df %>% rowwise() %>% mutate(a = sum(is.na(c_across(everything())))) 29124.1 31148.50
 df %>% rowwise() %>% mutate(Count_NA = sum(is.na(cur_data()))) %>%      ungroup 70473.0 73659.70
      mean   median       uq     max neval   cld
    79.033    76.25    88.75   174.0   100 a    
  2082.960  1966.50  2075.75  8777.3   100  b   
  1722.178  1676.20  1791.60  3112.9   100  b   
  5726.549  5396.40  5745.25 28592.1   100   c  
 33567.825 31983.05 33637.00 54676.9   100    d 
 77902.342 76492.85 81199.15 98942.1   100     e
Unit: microseconds
                                                                            expr     min       lq
                                               df$Count_NA <- rowSums(is.na(df))    38.2    44.95
                          df$Count_NA <- apply(df, 1, function(x) sum(is.na(x)))  1584.8  1765.30
                                     df %>% mutate(count_NA = rowSums(is.na(.)))  1247.9  1496.95
                   df %>% mutate(Count_NA = purrr::pmap(., ~sum(is.na(c(...)))))  4614.0  5110.50
 df %>% rowwise() %>% mutate(Count_NA = sum(is.na(cur_data()))) %>%      ungroup 67413.5 70865.45
      mean   median       uq      max neval cld
    71.159    65.85    84.40    162.2   100 a  
  1967.629  1894.45  2093.30   3436.6   100 ab 
  1814.193  1666.25  1895.35   9031.0   100 a  
  5796.483  5380.70  5665.10  15309.7   100  b 
 78309.807 75275.30 79776.40 286964.3   100   c

I think I'm most surprised by how inefficient cur_data() is. — Ian Campbell, Apr 18, 2021 at 19:49
I started out asking this question because I had the rowSums and the apply() solutions working well, and was trying to move my solution from base R to dplyr. Now that I see your speed comparisons, i'm sticking with base R! That said, I have learned a lot from this discussion. Thank you everyone. — Thomas Philips, Apr 19, 2021 at 1:36

r2evans · Accepted Answer · 2021-04-18 16:36:03Z

5

One issue is that . here resolves to the whole frame, not just the whole row. Another dplyr method, using c_across:

df %>%
    rowwise() %>%
    mutate(a=sum(is.na(c_across(everything()))))
# # A tibble: 10 x 4
# # Rowwise: 
#       Q1    Q2    Q3     a
#    <dbl> <dbl> <dbl> <int>
#  1     1     2     3     0
#  2    NA     2     3     1
#  3    NA    NA     3     2
#  4    NA    NA    NA     3
#  5    NA    NA    NA     3
#  6    NA    NA    NA     3
#  7    NA    NA    NA     3
#  8    NA    NA    NA     3
#  9    NA    NA    NA     3
# 10    NA    NA    NA     3

The biggest difference I can see between using this and cur_data() is that c_across allows for variable-selection a little more directly, as in c_across(starts_with("Q")). Granted, one could always select(cur_data(),...), so this is a weak argument.

answered Apr 18, 2021 at 16:36

r2evans

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Thanks - how does one determine what the . resolves to?
– Thomas Philips
Apr 18, 2021 at 16:40
Frankly, I did func <- function(z, ...) {browser();0;} and then df %>% rowwise() %>% mutate(Count_NA = func(.)), then looked at z to see. It doesn't help resolve the issue, just to identify it.
– r2evans
Apr 18, 2021 at 16:41
@G.Grothendieck's answer is canonical in the sense that that answer uses cur_data(). This answer is canonical in that it uses c_across. Pick and choose. I tend to believe c_across was meant for this type of thing, but I'm sure there are counter-examples as well.
– r2evans
Apr 18, 2021 at 16:42
@r2evans, FYI, speed comparison
– Waldi
Apr 18, 2021 at 17:39
1

@r2evans, I actually like your answer, but I was surprised by the speed comparison. I also work with >100k tables, and left dplyr for data.table.
– Waldi
Apr 18, 2021 at 17:49

| Show 1 more comment

AnilGoyal · Accepted Answer · 2021-04-18 16:52:28Z

5

baseR answer

df$Count_NA <- apply(df, 1, function(x) sum(is.na(x)))                 

df
   Q1 Q2 Q3 Count_NA
1   1  2  3        0
2  NA  2  3        1
3  NA NA  3        2
4  NA NA NA        3
5  NA NA NA        3
6  NA NA NA        3
7  NA NA NA        3
8  NA NA NA        3
9  NA NA NA        3
10 NA NA NA        3

So can be integrated into dplyr pipe

df %>% mutate(count_NA = apply(., 1, function(x) sum(is.na(x))))

   Q1 Q2 Q3 count_NA
1   1  2  3        0
2  NA  2  3        1
3  NA NA  3        2
4  NA NA NA        3
5  NA NA NA        3
6  NA NA NA        3
7  NA NA NA        3
8  NA NA NA        3
9  NA NA NA        3
10 NA NA NA        3

answered Apr 18, 2021 at 16:52

AnilGoyal

26k4 gold badges30 silver badges48 bronze badges

1

FYI, speed comparison
– Waldi
Apr 18, 2021 at 17:38
Thanks for tagging me in. Great info. TFS
– AnilGoyal
Apr 18, 2021 at 17:42

Add a comment |

Anoushiravan R · Accepted Answer · 2021-04-18 16:46:42Z

4

In case future you were interested in a row-wise solution with purrr package functions:

library(purrr)

df %>%
  mutate(Count_NA = pmap(., ~ sum(is.na(c(...)))))


   Q1 Q2 Q3 Count_NA
1   1  2  3        0
2  NA  2  3        1
3  NA NA  3        2
4  NA NA NA        3
5  NA NA NA        3
6  NA NA NA        3
7  NA NA NA        3
8  NA NA NA        3
9  NA NA NA        3
10 NA NA NA        3

answered Apr 18, 2021 at 16:46

Anoushiravan R

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You can use pmap for much more complex row-wise operations with multiple variables: in case you were interested you can check this: stackoverflow.com/questions/66935005/…
– Anoushiravan R
Apr 18, 2021 at 16:54
1

FYI, speed comparison
– Waldi
Apr 18, 2021 at 17:39
@Waldi oh it's an interesting comparison. But I normally prefer to use pmap for more complex row-wise operations. It's no denying that rowSums is more simple and by far the fastest.
– Anoushiravan R
Apr 18, 2021 at 18:01
1

I like your solution and I'm also a fond user of purrr, but microbenchmark is always useful to find the most efficient way.
– Waldi
Apr 18, 2021 at 18:03
@Waldi Thank you very much. You are right. Since it's barely a year I started learning R, I put more emphasis on first getting the desired output & then trying alternative solutions. However in this case I was trying to propose a solution different than those already posted. It's also interesting there is a package called bench that does the same as microbenchmark & I don't yet know how it differs from the latter one.
– Anoushiravan R
Apr 18, 2021 at 18:11

Add a comment |

akrun · Accepted Answer · 2021-04-18 18:19:40Z

3

Using dapply

library(collapse)
dapply(df, function(x) sum(is.na(x)), MARGIN = 1)
#[1] 0 1 2 3 3 3 3 3 3 3

answered Apr 18, 2021 at 18:19

akrun

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Add a comment |

Sandy · Accepted Answer · 2021-09-06 23:21:01Z

This might be late, however, an alternate way to address your problem where, for example, you needed to calculate NAs over different sets of columns would be like this:

# You can specify different column sets
cols_to_check1 <- c("Q1", "Q2", "Q3")
cols_to_check2 <- c("Q1", "Q2")

Then, you apply the rowSums function with mutate()

df %>%
 mutate(count_NA1 = rowSums(across(cols_to_check1, ~ is.na(.))),
        count_NA2 = rowSums(across(cols_to_check2, ~ is.na(.))))

The solution for this would be as below:

   Q1 Q2 Q3 count_NA1  count_NA2
1   1  2  3        0           0
2  NA  2  3        1           1
3  NA NA  3        2           2
4  NA NA NA        3           2
5  NA NA NA        3           2
6  NA NA NA        3           2
7  NA NA NA        3           2
8  NA NA NA        3           2
9  NA NA NA        3           2
10 NA NA NA        3           2

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