You are currently browsing the monthly archive for January 2014.

We’re pleased to announce a new minor version of dplyr. This fixes a few bugs that crashed R, adds a few minor new features (like a sort argument to tally()), and uses shallow copying in a few more places. There is one backward incompatible change: explain_tbl() has been renamed to explain. For a complete list of changes, please see the github release notice.

As always, you can install the latest version with install.packages("dplyr").

We’re pleased to announce a new version of roxygen2. The biggest news is that roxygen2 now recognises reference class method docstrings and will automatically add them to the documentation. 3.1.0 also offers a number of minor improvements and bug fixes, as listed on the github release notice.

As always, you can install the latest version with install.packages("roxygen2").

dplyr is a new package which provides a set of tools for efficiently manipulating datasets in R. dplyr is the next iteration of plyr, focussing on only data frames. dplyr is faster, has a more consistent API and should be easier to use. There are three key ideas that underlie dplyr:

  1. Your time is important, so Romain Francois has written the key pieces in Rcpp to provide blazing fast performance. Performance will only get better over time, especially once we figure out the best way to make the most of multiple processors.
  2. Tabular data is tabular data regardless of where it lives, so you should use the same functions to work with it. With dplyr, anything you can do to a local data frame you can also do to a remote database table. PostgreSQL, MySQL, SQLite and Google bigquery support is built-in; adding a new backend is a matter of implementing a handful of S3 methods.
  3. The bottleneck in most data analyses is the time it takes for you to figure out what to do with your data, and dplyr makes this easier by having individual functions that correspond to the most common operations (group_by, summarise, mutate, filter, select and arrange). Each function does one only thing, but does it well.

Lets compare plyr and dplyr with a little example, using the Batting dataset from the fantastic Lahman package which makes the complete Lahman baseball database easily accessible from R. Pretend we want to find the five players who have batted in the most games in all of baseball history.

In plyr, we might write code like this:


games <- ddply(Batting, "playerID", summarise, total = sum(G))
head(arrange(games, desc(total)), 5)

We use ddply() to break up the Batting dataframe into pieces according to the playerID variable, then apply summarise() to reduce the player data to a single row. Each row in Batting represents one year of data for one player, so we figure out the total number of games with sum(G) and save it in a new variable called total. We sort the result so the most games come at the top and then use head() to pull off the first five.

In dplyr, the code is similar:


players <- group_by(Batting, playerID)
games <- summarise(players, total = sum(G))
head(arrange(games, desc(total)), 5)

But now grouping is now a top level operation performed by group_by(), and summarise() works directly on the grouped data, rather than being called from inside another function. The other big difference is speed. plyr took about 7s on my computer, and dplyr took 0.2s, a 35x speed-up. This is common when switching from plyr to dplyr, and for many operations you’ll see a 20x-1000x speedup.

dplyr provides another innovation over plyr: the ability to chain operations together from left to right with the %.% operator. This makes dplyr behave a little like a grammar of data manipulation:

Batting %.%
  group_by(playerID) %.%
  summarise(total = sum(G)) %.%
  arrange(desc(total)) %.%

Read more about it in the help, ?"%.%".

If this small example has whet your interest, you can learn more from the built-in vignettes. First install dplyr with install.packages("dplyr"), then run:

You can track development progress at, report bugs at and get help with data manipulation challenges at If you ask a question specifically about dplyr on StackOverflow, please tag it with dplyr and I’ll make sure to read it.