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I have a date in P

 date = as.Date("2011-02-23", "%Y-%m-%d")

Is it possible to find out the number of days of the month of that particular date? (With respect to leapyears). In PHP it would look similar to this (http://www.php.net/manual/en/function.date.php):

days = format(date, "%t")

but "%t" seems to have a different meaning in R. Is there a solution for this problem?



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A solution to this may soon appear in the lubridate package. github.com/hadley/lubridate/issues/118 –  Richie Cotton Aug 2 '12 at 20:49
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8 Answers

up vote 3 down vote accepted

You can write simple function to do that:

numberOfDays <- function(date) {
    m <- format(date, format="%m")

    while (format(date, format="%m") == m) {
        date <- date + 1

    return(as.integer(format(date - 1, format="%d")))

Invoke as:

> date = as.Date("2011-02-23", "%Y-%m-%d")
> numberOfDays(date)
[1] 28
> date # date is unchanged
[1] "2011-02-23"
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I'm not sure this works if the date passed is the first of the month. –  joran Jun 5 '11 at 14:09
@joran: Right point, changed function body. Thanks for pointing. –  Grzegorz Szpetkowski Jun 5 '11 at 14:21
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That is as easy as taking a difference between two dates -- so make it the first of the month and the following month:

R> difftime( as.Date("2011-06-01"), as.Date("2011-05-01") )
Time difference of 31 days
R> as.numeric(difftime( as.Date("2011-06-01"), as.Date("2011-05-01") ))
[1] 31

The as.numeric() casts this to a number you can use.

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Here is a simple way: for n in 28:31, find the biggest number that results in a valid date. In my tests this is at least 4 times faster than any of the time-difference-based methods:

ndays <- function(d) {
  last_days <- 28:31
                             as.Date( paste( substr(d, 1, 8), 
                                             last_days, sep = ''), 

> ndays('1999-03-10')
[1] 31
> ndays('1999-04-10')
[1] 30
> ndays('2000-02-10')
[1] 29

Timing comparisons with some of the other methods suggested here:

> system.time( replicate( 5000, 
                          nd <- { 
   ym <- as.yearmon('2011-06-01'); 
   as.numeric( as.Date(ym, frac = 1) - as.Date(ym) + 1)

   user  system elapsed 
 16.634   1.807  18.238 

> system.time( replicate( 5000, 
               nd <- as.numeric( difftime( as.Date("2011-06-01"), 
                                           as.Date("2011-05-01") ))))
   user  system elapsed 
  3.137   0.341   3.470 

> system.time( replicate( 5000, nd <- ndays('2011-06-01')))
   user  system elapsed 
  0.729   0.044   0.771 
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If one only does this on a single date as in the example above it would not matter what the speed is whereas if one is doing it on many dates then the yearmon approach is faster since its already vectorized. Try timing d <- Sys.Date() + 1:100; sapply(d, ndays) vs. d <- Sys.Date() + 1:100; ym <- as.yearmon(d); as.numeric(as.Date(ym, frac = 1) - as.Date(ym) + 1) On my system the latter is 5x faster. That said, the speed is typically unimportant in any case. The simplicity of the yearmon solution seems the more important advantage. –  G. Grothendieck Jun 5 '11 at 21:17
@G.Grothendieck Very good point, I compared the times, and I agree with you. –  Prasad Chalasani Jun 5 '11 at 23:12
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Try this. It converts the input date, x, into a "yearmon" object and then converts it back to the last of the month and first of the month and subtracts the two adding 1. It only requires a single date as input and works even if x is a vector of dates.

> x <- Sys.Date() # use today as the test date
> library(zoo)
> ym <- as.yearmon(x)
> as.Date(ym, frac = 1) - as.Date(ym) + 1
Time difference of 30 days

or for a numeric result replace last line with:

> as.numeric(as.Date(ym, frac = 1) - as.Date(ym) + 1)
[1] 30
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+1 I did not know about the frac arg of as.Date() -- where is this documented? It doesn't show up when I do ?as.Date. –  Prasad Chalasani Jun 5 '11 at 23:14
@Prasad, Try this: library(zoo); ?as.Date.yearmon . –  G. Grothendieck Jun 6 '11 at 0:51
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The Hmisc library has a couple of helpful functions for doing this:

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This is basically Dirk's approach but actually placed in a function, in order to check when the next month is also in the next year; and simply subtracting the dates is the same as using difftime():

numberOfDays <- function(d){
    temp <- unlist(strsplit(as.character(d),"-"))
    begin <- as.Date(paste(temp[1],temp[2],"01",sep="-"))
    if (temp[2] != "12"){
        nextMonth <- as.character(as.integer(temp[2])+1)
        end <- as.Date(paste(temp[1],nextMonth,"01",sep="-"))
        return(as.integer(as.Date(end) - as.Date(begin)))
        nextYear <- as.character(as.integer(temp[1])+1)
        end <- as.Date(paste(nextYear,"01","01",sep="-"))
        return(as.integer(as.Date(end) - as.Date(begin)))
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Or if you know the month and year you can work out how many days it has directly...

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You can pass the year, or take the current year by default:

days.in.month = function(month, year = NULL){

  month = as.integer(month)

  if (is.null(year))
    year = as.numeric(format(Sys.Date(), '%Y'))

  dt = as.Date(paste(year, month, '01', sep = '-'))
  dates = seq(dt, by = 'month', length = 2)
  as.numeric(difftime(dates[2], dates[1], units = 'days'))
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