convert date to year month representation in R

I have a `Date`, and am interested in representing it as an integer of `yyyymm` form. Currently, I do:

``````get_year_month <- function(d) { return(as.integer(format(d, "%Y%m")))}
mydate = seq.Date(from=as.Date("2012-01-01"), to=as.Date("5012-01-01"), by=1)
system.time(ym <- get_year_month(mydate))
#    user  system elapsed
#    5.972   0.974   6.951
``````

This is very slow for large datasets. Is there a faster way? Please provide timings for your answers so they can be easily compared. Use the above example.

-

Using functions from the `lubridate` package can be almost twice as fast as your function :

``````mydate = as.Date(rep("2012-01-01",1000))
library(lubridate)
library(microbenchmark)
microbenchmark(get_year_month(mydate),
year(mydate)*100+month(mydate))
``````

gives :

``````R> Unit: milliseconds
expr      min       lq   median       uq
get_year_month(mydate) 2.150296 2.188370 2.218176 2.285973
year(mydate) * 100 + month(mydate) 1.220016 1.228129 1.239704 1.284568
``````
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great! looks like `lubridate` `month` and `year` functions are much faster than `base`. using `base` functions increases the time substantially. –  Alex Mar 10 '13 at 0:16

It would be best to keep your Dates in `POSIXlt` format if you want to manipulate them like that:

``````> system.time(ym <- get_year_month(mydate))
user  system elapsed
4.039   0.025   4.079
> system.time(mydatep <- as.POSIXlt(mydate))
user  system elapsed
3.576   0.016   3.603
> system.time(ym <- (1900 + mydatep\$year)*100 + (mydatep\$mon + 1))
user  system elapsed
0.010   0.005   0.015
``````

It's still a little faster, and you get subsequent similar operations for free, in terms of time.

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a bit unfamiliar with `POSIXlt` but it doesn't look like it provides the same answer... –  Alex Mar 9 '13 at 23:18
Whoops, my bad. Corrected my answer. `\$year` gives the number of years after 1900, and `\$mon` the number of months after January. For details `?POSIXlt`. –  Theodore Lytras Mar 9 '13 at 23:56

You can try using `yearmon` class from `zoo` package. In general if you are doing timeseries manipulation and analysis, I would suggest using `xts` or atleast `zoo` class. `xts` has lot of functionality for analysis of very huge timeseries data.

Here is quick benchmark against other suggested solutions.

``````get_year_month <- function(d) {
return(as.integer(format(d, "%Y%m")))
}
mydate = as.Date(rep("2012-01-01", 1e+06))

microbenchmark(get_year_month(mydate), year(mydate) * 100 + month(mydate), as.yearmon(mydate, format = "%Y-%m-%d"), times = 1)
## Unit: milliseconds
##                                     expr       min        lq    median        uq       max neval
##                   get_year_month(mydate) 1049.8813 1049.8813 1049.8813 1049.8813 1049.8813     1
##       year(mydate) * 100 + month(mydate)  434.1765  434.1765  434.1765  434.1765  434.1765     1
##  as.yearmon(mydate, format = "%Y-%m-%d")  249.6704  249.6704  249.6704  249.6704  249.6704     1
``````
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(+1) as promised :) –  Arun Mar 11 '13 at 9:00

There may not be a faster way for a single item. However you can make a version of the function that operates on collections run much faster than linearly by using builtin replicate e.g.

``````function mydate(D) {
x <- replicate(dim(D)[0], get_year_month(..)
return(x)
}
``````
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thanks for your answer. i'm not sure what it means unfortunately. could you please provide an example as the other two. –  Alex Mar 10 '13 at 0:16
Hi Alex, Please look up the use of the builtin "replicate", which will avoid the penalty of looping N times (N being the number of entries in your array) . –  javadba Mar 10 '13 at 1:30
`replicate` is just `lapply`.. still no idea what you mean. post an example as the others have with timings. this might clear up some confusion. –  Alex Mar 10 '13 at 1:33