You can do this using the `Reduce`

function:

```
> x <- c(1,2,NA,NA,3,NA,4)
> locf <- function(x,y) if(is.na(y)) x else y
> Reduce( locf, x, accumulate=TRUE )
[1] 1 2 2 2 3 3 4
```

This way you do not need to load an extra package (and it could be customized to different types of objects if needed).

The `Reduce`

option is quicker than `zoo::na.locf`

for the sample vector on my computer:

```
> library(zoo)
> library(microbenchmark)
>
> microbenchmark(
+ Reduce( locf, x, accumulate=TRUE ),
+ na.locf(x)
+ )
Unit: microseconds
expr min lq median uq max
Reduce(locf, x, accumulate = TRUE) 22.169 24.0160 27.506 29.3530 112.073
na.locf(x) 149.841 151.8945 154.357 169.5465 377.271
neval
100
100
```

Though there may be other situations where `na.locf`

will be faster. I was actually surprised at the amount of difference.

Benchmarking on bigger data shows the difference clearly between `na.locf`

from `zoo`

package and using `Reduce`

:

```
x <- sample(c(1:5, NA), 1e6, TRUE)
require(zoo)
require(microbenchmark)
locf <- function(x,y) if(is.na(y)) x else y
microbenchmark(Reduce( locf, x, accumulate=TRUE ), na.locf(x), times=10)
Unit: milliseconds
expr min lq median uq max neval
Reduce(locf, x, accumulate = TRUE) 5480.4796 5958.0905 6605.3547 7458.404 7915.046 10
na.locf(x) 661.2886 911.1734 950.2542 1026.348 1095.642 10
```