48

I need to remove the last number in a groups of vectors, i.e.:

v <- 1:3
v1 <- 4:8

should become:

v <- 1:2
v1 <- 4:7
1
95

You can use negative offsets in head (or tail), so head(x, -1) removes the last element:

R> head( 1:4, -1)
[1] 1 2 3
R> 

This also saves an additional call to length().

Edit: As pointed out by Jason, this approach is actually not faster. Can't argue with empirics. On my machine:

R> x <- rnorm(1000)
R> microbenchmark( y <- head(x, -1), y <- x[-length(x)], times=10000)
Unit: microseconds
                expr    min      lq median     uq     max
1   y <- head(x, -1) 29.412 31.0385 31.713 32.578 872.168
2 y <- x[-length(x)] 14.703 15.1150 15.565 15.955 706.880
R> 
4
  • 4
    According to the source, head calls length twice, once for error checking and once for a call to max or min. Does [ call it a total of three times? For some reason, I am having trouble finding the code that implements [. – Jason Morgan Aug 28 '12 at 2:48
  • 1
    +1 For the edit :) and, more importantly, reminding me that I can use head and tail this way. – Jason Morgan Aug 28 '12 at 3:04
  • 1
    @Dirk: I ran your code on my machine and using -length() is indeed faster. But if I increase the size of x to 10000, then head is actually about 2~3 times faster. There seems to be some dependency on the vector length but I don't have any explanation. – user1642513 Aug 28 '13 at 14:29
  • 1
    by symmetry, tail(my_vector,-1) can be used to remove the first element – Antoine Jan 15 '18 at 12:35
42

Use length to get the length of the object and - to remove the last one.

v[-length(v)]

A negative index in R extracts everything but the given indices.

10

Dirk and Iselzer have already provided the answers. Dirk's is certainly the most straightforward, but on my system at least it is marginally slower, probably because vector subsetting with [ and length checking is cheap (and according to the source, head does use length, twice actually):

> x <- rnorm(1000)
> system.time(replicate(50000, y <- head(x, -1)))
   user  system elapsed 
   3.69    0.56    4.25 
> system.time(replicate(50000, y <- x[-length(x)]))
   user  system elapsed 
  3.504   0.552   4.058

This pattern held up for larger vector lengths and more replications. YMMV. The legibility of head certainly out-weights the marginal performance improvement of [ in most cases.

1
  • 2
    Yes, although legibility is a bit in the eye of the beholder. I always have to spend an extra few milliseconds thinking about what head and tail really do with negative arguments ... whereas x[-length(x)], while clunky, is idiomatic to my R-soaked brain. – Ben Bolker Aug 28 '12 at 3:08
4

This is another option, which has not been suggested before. NROW treats your vector as a 1-column matrix.

v[-max(NROW(v))]#1 2
v1[-max(NROW(v1))]#4 5 6 7

Based on the discussion above, this is (slightly) faster then all the other methods suggested:

x <- rnorm(1000)
system.time(replicate(50000, y <- head(x, -1)))
user  system elapsed 
3.446   0.292   3.762
system.time(replicate(50000, y <- x[-length(x)]))
user  system elapsed 
2.131   0.326   2.472
system.time(replicate(50000, y <- x[-max(NROW(x))]))
user  system elapsed 
2.076   0.262   2.342
1

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