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I have some doubts about the leap years, how can I be sure that by using a formula like this

add.years= function(x,y){    
if(!isTRUE(all.equal(y,round(y)))) stop("Argument \"y\" must be an integer.\n")
x <- as.POSIXlt(x)
x$year <- x$year+y

it will take into account leap years, when adding for example 100 years to my observation dataset? How can I control this?

I have a time series dataset with 50 years of observations:

   date    obs
1995-01-01 1.0
1995-01-02 2.0
1995-01-03 2.5
2045-12-30 0.2
2045-12-31 0.1

dataset+100 years

   date    obs
2095-01-01 1.0
2095-01-02 2.0
2095-01-03 2.5
2145-12-30 0.2
2145-12-31 0.1

After a basic check, I've noticed that the number of rows is the same for both original and 100 years after dataset. I am not sure if what was before the 29th Februray in a leap year will be now the obs value for the 1st of March in a non-leap year, etc.

I can check leap years using from the chron library the function leap.year, however I would like to know if there is a simpler way to do this, to be sure that rows with pass days of 29th february that do not exist 100 years after will be deleted, and new days of 29th February are added with NA values.

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Mixing POSIXlt and Date formats is only going to end in obscure bugs and tears. –  Richie Cotton Dec 13 '11 at 17:05
I confirm! Better spend some time to clean up my code. Thanks! –  A.R Dec 14 '11 at 2:00

3 Answers 3

up vote 7 down vote accepted

You can check if a year is a leap year with leap_year from lubridate.

years <- 1895:2005

This package will also handle not generating impossible 29ths of February.

ymd("2000-2-29") + years(1) #"2001-03-01 UTC"

If you prefer the behaviour of giving NA rather than 1st March when the new date isn't valid, then change your add.years function to something like this.

add.years <- function(dates, years_to_add)
  if(!require(lubridate)) stop("plz install lubridate")
  if(years_to_add > floor(years_to_add)) stop("yada yada")

  new_dates <- dates + years(years_to_add)
      leap_year(year(dates)) & 
      !leap_year(year(dates) + years_to_add) & 
      month(dates) == 2 & 
      day(dates) == 29
    ] <- NA

dates <- ymd(c("2004-2-28", "2004-2-29"))
add.years(dates, 1)
add.years(dates, 4)
share|improve this answer

A year is a leap year if:

  • Is divisible by 4.
  • Not if it is divisible by 100.
  • But is if it is divisible by 400.

That is why 2000 was a leap year (although it's divisible by 100, it's also divisible by 400).

But generally, if you have a library that can take of date/time calculations then use it. It's very complicated to do these calculations and easy to do wrong, especially with ancient dates (calendar reforms) and timezones involved.

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I still dind't find any function that will allow me to do this type of modifications to a dataset, I guess I have to create one by myself. –  A.R Dec 13 '11 at 14:40
No you don't. There is existing functionality in base R, as well as in CRAN packages. –  Dirk Eddelbuettel Dec 13 '11 at 17:11
Toby Marthews-3 provides a neat ifelse statement for handling leap years here: r.789695.n4.nabble.com/… –  Mark Miller Aug 27 '13 at 16:17

Your suspicions are indeed correct:

> x <- as.POSIXlt("2000-02-29")
> y <- x
> y$year <- y$year+100
> y
[1] "2100-03-01"

The strange thing is that other parts of y remain unchanged so you can't use these for comparison:

> y$mday
[1] 29
> y$mon
[1] 1

But you can use strftime:

> strftime(x,"%d")
[1] "29"
> strftime(y,"%d")
[1] "01"

So how about:

add.years <- function(x,y){
   if(!isTRUE(all.equal(y,round(y)))) stop("Argument \"y\" must be an integer.\n")
   x.out <- as.POSIXlt(x)
   x.out$year <- x.out$year+y

You can then subset your data using [ and is.na to get rid of the otherwise duplicate 1st March dates. Though as these dates seem to be consequtive, you might want to consider a solution that uses seq.Date and avoid dropping data.

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2100 is not a leap year, so the calculation in your first example seems correct to me. –  Dirk Eddelbuettel Dec 13 '11 at 17:14

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