The output of a time-series looks like a data frame:

ts(rnorm(12*5, 17, 8), start=c(1981,1), frequency = 12)

       Jan       Feb       Mar       Apr       May       Jun       Jul     ...
1981 14.064085 21.664250 14.800249 -5.773095 16.477470  1.129674 16.747669 ...
1982 23.973620 17.851890 21.387944 28.451552 24.177141 25.212271 19.123179 ...
1983 19.801210 11.523906  8.103132  9.382778  4.614325 21.751529  9.540851 ...
1984 15.394517 21.021790 23.115453 12.685093 -2.209352 28.318686 10.159940 ...
1985 20.708447 13.095117 32.815273  9.393895 19.551045 24.847337 18.703991 ...

It would be handy to transform it into a data frame with columns Jan, Feb, Mar... and rows 1981, 1982, ... and then back. What's the most elegant way to do this?

  • i needed that to boxplot() the seasons, today I played with ggplot and it needs again another format, its not aware what you usually want from your data as the plot family did. I feel that one is always inprisoned by the current dataformat you use. the transformations feel clumsy or dirty, see Mr. Grothendieck mingeling with month.abb etc. Nobody thought at making a transformation library yet? as.data.frame(ts), as.qplot(ts, geom="boxplot") etc..? Do others feel the same pain as I do? – Roland Kofler Mar 17 '11 at 18:26
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    boxplotting can be done using boxplot(tt ~ cycle(tt)) where tt is your "ts" series. The zoo package does have time series specific plotting. See ?plot.zoo and ?xyplot.zoo in that package. – G. Grothendieck Mar 19 '11 at 2:57
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    Also note ?monthplot. – G. Grothendieck Mar 19 '11 at 3:04

Here are two ways. The first way creates dimnames for the matrix about to be created and then strings out the data into a matrix, transposes it and converts it to data frame. The second way creates a by list consisting of year and month variables and uses tapply on that later converting to data frame and adding names.

# create test data
tt <- ts(rnorm(12*5, 17, 8), start=c(1981,1), frequency = 12)

1) matrix. This solution requires that we have whole consecutive years

dmn <- list(month.abb, unique(floor(time(tt))))
as.data.frame(t(matrix(tt, 12, dimnames = dmn)))

If we don't care about the nice names it is just as.data.frame(t(matrix(tt, 12))) .

We could replace the dmn<- line with the following simpler line using @thelatemail's comment:

dmn <- dimnames(.preformat.ts(tt))

2) tapply. A more general solution using tapply is the following:

Month <-  factor(cycle(tt), levels = 1:12, labels = month.abb)
tapply(tt, list(year = floor(time(tt)), month = Month), c)

Note: To invert this suppose X is any of the solutions above. Then try:

ts(c(t(X)), start = 1981, freq = 12)


Improvement motivated by comments of @latemail below.

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    data.frame(matrix(co2, ncol=frequency(co2), dimnames=dimnames(.preformat.ts(co2)) )) for another attempt – thelatemail Oct 21 '16 at 3:59
  • Just an update comment following from a duplicate question - the second tapply() solution is preferable to the matrix if the ts doesn't fit the rectangle nicely - tt <- ts(1:18, start=c(1,3), end=c(2,8), frequency=12) for example will break it. The tapply also needs some ordering of the month abbreviations to make it match exactly - tapply(tt, list(year = floor(time(tt)), month = factor(month.abb[cycle(tt)], levels=month.abb)), c) – thelatemail Aug 7 '18 at 3:45

Example with the AirPassengers dataset:

Make the data available and check its type:


Convert Time-Series into a data frame:

df <- data.frame(AirPassengers, year = trunc(time(AirPassengers)), 
month = month.abb[cycle(AirPassengers)])

Redo the creation of the Time-Series object:

tsData = ts(df$AirPassengers, start = c(1949,1), end = c(1960,12), frequency = 12)

Plot the results to ensure correct execution:

components.ts = decompose(tsData)

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