I have a variable with the same name as a column in a dataframe:

df <- data.frame(a=c(1,2,3), b=c(4,5,6))
b <- 5

I want to get the rows where df$b == b, but dplyr interprets this as df$b == df$b:

df %>% filter(b == b) # interpreted as df$b == df$b
#   a b
# 1 1 4
# 2 2 5
# 3 3 6

If I change the variable name, it works:

B <- 5
df %>% filter(b == B) # interpreted as df$b == B
#   a b
# 1 2 5

I'm wondering if there is a better way to tell filter that b refers to an outside variable.

  • this might help you file:///Library/Frameworks/R.framework/Versions/3.2/Resources/library/dplyr/doc/nse.html
    – MLavoie
    Dec 11, 2015 at 9:21
  • 1
    @MLavoie what is this? Better to provide this link.
    – user3710546
    Dec 11, 2015 at 9:30
  • @Pascal. There was similar question a few days ago and I don't remember where it is. But it looks like the environment is important here and this link explain how dplyr's verbs can be used in a similar context. but I might not have understood the question, so if it's the case disregard my comment :)
    – MLavoie
    Dec 11, 2015 at 9:36
  • @MLavoie You misunderstand my comment. You provided a path to a local file, which only works for OSX users, not for Linux and Windows users. I simply provided the Internet version to the same file.
    – user3710546
    Dec 11, 2015 at 9:38
  • 3
    Typing vignette("nse") in the console is another option
    – talat
    Dec 11, 2015 at 9:40

4 Answers 4


Recently I have found this to be an elegant solution to this problem, although I'm just starting to wrap my head around how it works.

df %>% filter(b == !!b)

which is syntactic sugar for

df %>% filter(b == UQ(b))

A high-level sense of this is that the UQ (un-quote) operation causes its contents to be evaluated before the filter operation, so that it's not evaluated within the data.frame.

This is described in this chapter of Advanced R, on 'quasi-quotation'. This chapter also includes a few solutions to similar problems related to non-standard evaluation (NSE).

  • I am confused by your caveat: I get now same result with b == !!b as !!b == b, while the latter is different from !!(b == b). Maybe different versions ( I have dplyr 1 and rlang 0.4.7)? Can you confirm? Thanks!
    – Matifou
    Aug 13, 2020 at 17:06
  • This is a good point, thank you. This behavior changed in later versions of rlang. I will edit my answer accordingly.
    – jackinovik
    Sep 17, 2020 at 20:29

You could use the get function to fetch the value of the variable from the environment.

df %>% filter(b == get("b")) # Note the "" around b
  • 7
    This no longer works with dplyr 0.7.8. It returns all the rows.
    – Spacedman
    Jun 30, 2019 at 12:40
  • 3
    Specifying the environment with df %>% filter(b == get("b", envir = .env)) does still work (dplyr 0.8.3)
    – Joris C.
    Dec 16, 2019 at 14:11

rlang, which is imported with dplyr, has the .env and .data pronouns for exactly this situation when you need to be explicit because of data-masking. To explicitly reference columns in your data frame use .data and to explicitly reference your environment use .env:

df %>% 
  filter(.data$b == .env$b) # b == .env$b works the same here

  a b
1 2 5

From the documentation:

Note that .data is only a pronoun, it is not a real data frame. This means that you can't take its names or map a function over the contents of .data. Similarly, .env is not an actual R environment.

You do not necessarily need to use .data$b here because the evaluation searches the data frame for a column with that name first (as you found out).


As a general solution, you can use the SE (standard evaluation) version of filter, which is filter_. In this case, things get a bit confusing because your are mixing a variable and an 'external' constant in a single expression. Here is how you do that with the interp function:

df %>% filter_(interp(~ b == x, x = b))

If you would like to use more values in b you can write:

df %>% filter_(interp(~ b == x, .values = list(x = b)))
  • 7
    filter_ is now deprecated.
    – Spacedman
    Jun 30, 2019 at 12:36

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