Overview
Teaching: 40 min Exercises: 15 minQuestions
How can I manipulate dataframes without repeating myself?
Objectives
To be able to use the six main dataframe manipulation ‘verbs’ with pipes in
dplyr
.
Manipulation of dataframes means many things to many researchers, we often select certain observations (rows) or variables (columns), we often group the data by a certain variable(s), or we even calculate summary statistics. We can do these operations using the normal base R operations:
mean(gapminder[gapminder$continent == "Africa", "gdpPercap"])
[1] 2193.755
mean(gapminder[gapminder$continent == "Americas", "gdpPercap"])
[1] 7136.11
mean(gapminder[gapminder$continent == "Asia", "gdpPercap"])
[1] 7902.15
But this isn’t very nice because there is a fair bit of repetition. Repeating yourself will cost you time, both now and later, and potentially introduce some nasty bugs.
dplyr
packageLuckily, the dplyr
package provides a number of very useful functions for manipulating dataframes
in a way that will reduce the above repetition, reduce the probability of making
errors, and probably even save you some typing. As an added bonus, you might
even find the dplyr
grammar easier to read.
Here we’re going to cover 6 of the most commonly used functions as well as using
pipes (%>%
) to combine them.
select()
filter()
group_by()
summarize()
mutate()
If you have have not installed this package earlier, please do so:
install.packages('dplyr')
Now let’s load the package:
library(dplyr)
If, for example, we wanted to move forward with only a few of the variables in
our dataframe we could use the select()
function. This will keep only the
variables you select.
year_country_gdp <- select(gapminder,year,country,gdpPercap)
If we open up year_country_gdp
we’ll see that it only contains the year,
country and gdpPercap. Above we used ‘normal’ grammar, but the strengths of
dplyr
lie in combining several functions using pipes. Since the pipes grammar
is unlike anything we’ve seen in R before, let’s repeat what we’ve done above
using pipes.
year_country_gdp <- gapminder %>% select(year,country,gdpPercap)
To help you understand why we wrote that in that way, let’s walk through it step
by step. First we summon the gapminder dataframe and pass it on, using the pipe
symbol %>%
, to the next step, which is the select()
function. In this case
we don’t specify which data object we use in the select()
function since in
gets that from the previous pipe. Fun Fact: There is a good chance you have
encountered pipes before in the shell. In R, a pipe symbol is %>%
while in the
shell it is |
but the concept is the same!
If we now wanted to move forward with the above, but only with European
countries, we can combine select
and filter
year_country_gdp_euro <- gapminder %>%
filter(continent=="Europe") %>%
select(year,country,gdpPercap)
Challenge 1
Write a single command (which can span multiple lines and includes pipes) that will produce a dataframe that has the African values for
lifeExp
,country
andyear
, but not for other Continents. How many rows does your dataframe have and why?Solution to Challenge 1
year_country_lifeExp_Africa <- gapminder %>% filter(continent=="Africa") %>% select(year,country,lifeExp)
As with last time, first we pass the gapminder dataframe to the filter()
function, then we pass the filtered version of the gapminder dataframe to the
select()
function. Note: The order of operations is very important in this
case. If we used ‘select’ first, filter would not be able to find the variable
continent since we would have removed it in the previous step.
Now, we were supposed to be reducing the error prone repetitiveness of what can
be done with base R, but up to now we haven’t done that since we would have to
repeat the above for each continent. Instead of filter()
, which will only pass
observations that meet your criteria (in the above: continent=="Europe"
), we
can use group_by()
, which will essentially use every unique criteria that you
could have used in filter.
str(gapminder)
'data.frame': 1704 obs. of 6 variables:
$ country : Factor w/ 142 levels "Afghanistan",..: 1 1 1 1 1 1 1 1 1 1 ...
$ year : int 1952 1957 1962 1967 1972 1977 1982 1987 1992 1997 ...
$ pop : num 8425333 9240934 10267083 11537966 13079460 ...
$ continent: Factor w/ 5 levels "Africa","Americas",..: 3 3 3 3 3 3 3 3 3 3 ...
$ lifeExp : num 28.8 30.3 32 34 36.1 ...
$ gdpPercap: num 779 821 853 836 740 ...
str(gapminder %>% group_by(continent))
Classes 'grouped_df', 'tbl_df', 'tbl' and 'data.frame': 1704 obs. of 6 variables:
$ country : Factor w/ 142 levels "Afghanistan",..: 1 1 1 1 1 1 1 1 1 1 ...
$ year : int 1952 1957 1962 1967 1972 1977 1982 1987 1992 1997 ...
$ pop : num 8425333 9240934 10267083 11537966 13079460 ...
$ continent: Factor w/ 5 levels "Africa","Americas",..: 3 3 3 3 3 3 3 3 3 3 ...
$ lifeExp : num 28.8 30.3 32 34 36.1 ...
$ gdpPercap: num 779 821 853 836 740 ...
- attr(*, "vars")=List of 1
..$ : symbol continent
- attr(*, "drop")= logi TRUE
- attr(*, "indices")=List of 5
..$ : int 24 25 26 27 28 29 30 31 32 33 ...
..$ : int 48 49 50 51 52 53 54 55 56 57 ...
..$ : int 0 1 2 3 4 5 6 7 8 9 ...
..$ : int 12 13 14 15 16 17 18 19 20 21 ...
..$ : int 60 61 62 63 64 65 66 67 68 69 ...
- attr(*, "group_sizes")= int 624 300 396 360 24
- attr(*, "biggest_group_size")= int 624
- attr(*, "labels")='data.frame': 5 obs. of 1 variable:
..$ continent: Factor w/ 5 levels "Africa","Americas",..: 1 2 3 4 5
..- attr(*, "vars")=List of 1
.. ..$ : symbol continent
..- attr(*, "drop")= logi TRUE
You will notice that the structure of the dataframe where we used group_by()
(grouped_df
) is not the same as the original gapminder
(data.frame
). A
grouped_df
can be thought of as a list
where each item in the list
is a
data.frame
which contains only the rows that correspond to the a particular
value continent
(at least in the example above).
The above was a bit on the uneventful side because group_by()
much more
exciting in conjunction with summarize()
. This will allow use to create new
variable(s) by using functions that repeat for each of the continent-specific
data frames. That is to say, using the group_by()
function, we split our
original dataframe into multiple pieces, then we can run functions
(e.g. mean()
or sd()
) within summarize()
.
gdp_bycontinents <- gapminder %>%
group_by(continent) %>%
summarize(mean_gdpPercap=mean(gdpPercap))
That allowed us to calculate the mean gdpPercap for each continent, but it gets even better.
Challenge 2
Calculate the average life expectancy per country. Which had the longest life expectancy and which had the shortest life expectancy?
Solution to Challenge 2
lifeExp_bycountry <- gapminder %>% group_by(country) %>% summarize(mean_lifeExp=mean(lifeExp))
The function group_by()
allows us to group by multiple variables. Let’s group by year
and continent
.
gdp_bycontinents_byyear <- gapminder %>%
group_by(continent,year) %>%
summarize(mean_gdpPercap=mean(gdpPercap))
That is already quite powerful, but it gets even better! You’re not limited to defining 1 new variable in summarize()
.
gdp_pop_bycontinents_byyear <- gapminder %>%
group_by(continent,year) %>%
summarize(mean_gdpPercap=mean(gdpPercap),
sd_gdpPercap=sd(gdpPercap),
mean_pop=mean(pop),
sd_pop=sd(pop))
We can also create new variables prior to (or even after) summarizing information using mutate()
.
gdp_pop_bycontinents_byyear <- gapminder %>%
mutate(gdp_billion=gdpPercap*pop/10^9) %>%
group_by(continent,year) %>%
summarize(mean_gdpPercap=mean(gdpPercap),
sd_gdpPercap=sd(gdpPercap),
mean_pop=mean(pop),
sd_pop=sd(pop),
mean_gdp_billion=mean(gdp_billion),
sd_gdp_billion=sd(gdp_billion))
Advanced Challenge
Calculate the average life expectancy in 2002 of 2 randomly selected countries for each continent. Then arrange the continent names in reverse order. Hint: Use the
dplyr
functionsarrange()
andsample_n()
, they have similar syntax to other dplyr functions.Solution to Advanced Challenge
lifeExp_2countries_bycontinents <- gapminder %>% filter(year==2002) %>% group_by(continent) %>% sample_n(2) %>% summarize(mean_lifeExp=mean(lifeExp)) %>% arrange(desc(mean_lifeExp))
Key Points
Use the
dplyr
package to manipulate dataframes.Use
select()
to choose variables from a dataframe.Use
filter()
to choose data based on values.Use
group_by()
andsummarize()
to work with subsets of data.Use
mutate()
to create new variables.