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# Last Observation Carried Forward In a data frame?

I wish to implement a "Last Observation Carried Forward" for a data set I am working on which has missing values at the end of it.

Here is a simple code to do it (question after it):

``````LOCF <- function(x)
{
# Last Observation Carried Forward (for a left to right series)
LOCF <- max(which(!is.na(x))) # the location of the Last Observation to Carry Forward
x[LOCF:length(x)] <- x[LOCF]
return(x)
}

# example:
LOCF(c(1,2,3,4,NA,NA))
LOCF(c(1,NA,3,4,NA,NA))
``````

Now this works great for simple vectors. But if I where to try and use it on a data frame:

``````a <- data.frame(rep("a",4), 1:4,1:4, c(1,NA,NA,NA))
a
t(apply(a, 1, LOCF)) # will make a mess
``````

It will turn my data frame into a character matrix.

Can you think of a way to do LOCF on a data.frame, without turning it into a matrix? (I could use loops and such to correct the mess, but would love for a more elegant solution)

Cheers,

Tal

-

``````library(zoo)
na.locf(data.frame(rep("a",4), 1:4,1:4, c(1,NA,NA,NA)))
``````
-
+1 and rseek.org of course immediately hits this as first results. – Dirk Eddelbuettel May 5 '10 at 19:34
My bid for not rseeking it - thanks Shane. But I am afraid it doesn't do the job. (it fills column 3, instead of each row) – Tal Galili May 5 '10 at 19:45
You could have also found this if you searched stackoverflow.com for `[r] locf`. – Shane May 5 '10 at 19:47
Hi Shane, I also wasn't able to find solution in that search (Although this thread is nice: stackoverflow.com/questions/1782704/… ) – Tal Galili May 5 '10 at 19:53
If the first value is missing, then you can make a judgement about what to do to handle it. No function will solve that problem for you. You will need to either leave the whole thing as missing, or set a default first value (like zero, for instance). – Shane May 5 '10 at 21:01

This question is old but for posterity... the best solution is to use data.table package with the roll=T.

-
fill out with an example – mnel Apr 11 '13 at 5:18

I ended up solving this using a loop:

``````fillInTheBlanks <- function(S) {
L <- !is.na(S)
c(S[L][1], S[L])[cumsum(L)+1]
}

LOCF.DF <- function(xx)
{
# won't work well if the first observation is NA

orig.class <- lapply(xx, class)

new.xx <- data.frame(t( apply(xx,1, fillInTheBlanks) ))

for(i in seq_along(orig.class))
{
if(orig.class[[i]] == "factor") new.xx[,i] <- as.factor(new.xx[,i])
if(orig.class[[i]] == "numeric") new.xx[,i] <- as.numeric(new.xx[,i])
if(orig.class[[i]] == "integer") new.xx[,i] <- as.integer(new.xx[,i])
}

#t(na.locf(t(a)))

return(new.xx)
}

a <- data.frame(rep("a",4), 1:4,1:4, c(1,NA,NA,NA))
LOCF.DF(a)
``````
-

Instead of `apply()` you can use `lapply()` and then transform the resulting list to `data.frame`.

``````LOCF <- function(x) {
# Last Observation Carried Forward (for a left to right series)
LOCF <- max(which(!is.na(x))) # the location of the Last Observation to Carry Forward
x[LOCF:length(x)] <- x[LOCF]
return(x)
}

a <- data.frame(rep("a",4), 1:4, 1:4, c(1, NA, NA, NA))
a
data.frame(lapply(a, LOCF))
``````
-