Exploring Data Frames
Last updated on 2024-11-19 | Edit this page
Estimated time: 30 minutes
Overview
Questions
- How can I manipulate a data frame?
Objectives
- Add and remove rows or columns.
- Append two data frames.
- Display basic properties of data frames including size and class of the columns, names, and first few rows.
At this point, you’ve seen it all: in the last lesson, we toured all the basic data types and data structures in R. Everything you do will be a manipulation of those tools. But most of the time, the star of the show is the data frame—the table that we created by loading information from a csv file. In this lesson, we’ll learn a few more things about working with data frames.
Adding columns and rows in data frames
We already learned that the columns of a data frame are vectors, so that our data are consistent in type throughout the columns. As such, if we want to add a new column, we can start by making a new vector:
R
age <- c(2, 3, 5)
cats
OUTPUT
coat weight likes_string
1 calico 2.1 1
2 black 5.0 0
3 tabby 3.2 1
We can then add this as a column via:
R
cbind(cats, age)
OUTPUT
coat weight likes_string age
1 calico 2.1 1 2
2 black 5.0 0 3
3 tabby 3.2 1 5
Note that if we tried to add a vector of ages with a different number of entries than the number of rows in the data frame, it would fail:
R
age <- c(2, 3, 5, 12)
cbind(cats, age)
ERROR
Error in data.frame(..., check.names = FALSE): arguments imply differing number of rows: 3, 4
R
age <- c(2, 3)
cbind(cats, age)
ERROR
Error in data.frame(..., check.names = FALSE): arguments imply differing number of rows: 3, 2
Why didn’t this work? Of course, R wants to see one element in our new column for every row in the table:
R
nrow(cats)
OUTPUT
[1] 3
R
length(age)
OUTPUT
[1] 2
So for it to work we need to have nrow(cats)
=
length(age)
. Let’s overwrite the content of cats with our
new data frame.
R
age <- c(2, 3, 5)
cats <- cbind(cats, age)
Now how about adding rows? We already know that the rows of a data frame are lists:
R
newRow <- list("tortoiseshell", 3.3, TRUE, 9)
cats <- rbind(cats, newRow)
Let’s confirm that our new row was added correctly.
R
cats
OUTPUT
coat weight likes_string age
1 calico 2.1 1 2
2 black 5.0 0 3
3 tabby 3.2 1 5
4 tortoiseshell 3.3 1 9
Removing rows
We now know how to add rows and columns to our data frame in R. Now let’s learn to remove rows.
R
cats
OUTPUT
coat weight likes_string age
1 calico 2.1 1 2
2 black 5.0 0 3
3 tabby 3.2 1 5
4 tortoiseshell 3.3 1 9
We can ask for a data frame minus the last row:
R
cats[-4, ]
OUTPUT
coat weight likes_string age
1 calico 2.1 1 2
2 black 5.0 0 3
3 tabby 3.2 1 5
Notice the comma with nothing after it to indicate that we want to drop the entire fourth row.
Note: we could also remove several rows at once by putting the row
numbers inside of a vector, for example:
cats[c(-3,-4), ]
Removing columns
We can also remove columns in our data frame. What if we want to remove the column “age”. We can remove it in two ways, by variable number or by index.
R
cats[,-4]
OUTPUT
coat weight likes_string
1 calico 2.1 1
2 black 5.0 0
3 tabby 3.2 1
4 tortoiseshell 3.3 1
Notice the comma with nothing before it, indicating we want to keep all of the rows.
Alternatively, we can drop the column by using the index name and the
%in%
operator. The %in%
operator goes through
each element of its left argument, in this case the names of
cats
, and asks, “Does this element occur in the second
argument?”
R
drop <- names(cats) %in% c("age")
cats[,!drop]
OUTPUT
coat weight likes_string
1 calico 2.1 1
2 black 5.0 0
3 tabby 3.2 1
4 tortoiseshell 3.3 1
We will cover subsetting with logical operators like
%in%
in more detail in the next episode. See the section Subsetting through other logical
operations
Appending to a data frame
The key to remember when adding data to a data frame is that
columns are vectors and rows are lists. We can also glue two
data frames together with rbind
:
R
cats <- rbind(cats, cats)
cats
OUTPUT
coat weight likes_string age
1 calico 2.1 1 2
2 black 5.0 0 3
3 tabby 3.2 1 5
4 tortoiseshell 3.3 1 9
5 calico 2.1 1 2
6 black 5.0 0 3
7 tabby 3.2 1 5
8 tortoiseshell 3.3 1 9
Challenge 1
You can create a new data frame right from within R with the following syntax:
R
df <- data.frame(id = c("a", "b", "c"),
x = 1:3,
y = c(TRUE, TRUE, FALSE))
Make a data frame that holds the following information for yourself:
- first name
- last name
- lucky number
Then use rbind
to add an entry for the people sitting
beside you. Finally, use cbind
to add a column with each
person’s answer to the question, “Is it time for coffee break?”
R
df <- data.frame(first = c("Grace"),
last = c("Hopper"),
lucky_number = c(0))
df <- rbind(df, list("Marie", "Curie", 238) )
df <- cbind(df, coffeetime = c(TRUE,TRUE))
Realistic example
So far, you have seen the basics of manipulating data frames with our
cat data; now let’s use those skills to digest a more realistic dataset.
Let’s read in the gapminder
dataset that we downloaded
previously:
R
gapminder <- read.csv("data/gapminder_data.csv")
Miscellaneous Tips
Another type of file you might encounter are tab-separated value files (.tsv). To specify a tab as a separator, use
"\\t"
orread.delim()
.Files can also be downloaded directly from the Internet into a local folder of your choice onto your computer using the
download.file
function. Theread.csv
function can then be executed to read the downloaded file from the download location, for example,
R
download.file("https://raw.githubusercontent.com/swcarpentry/r-novice-gapminder/main/episodes/data/gapminder_data.csv", destfile = "data/gapminder_data.csv")
gapminder <- read.csv("data/gapminder_data.csv")
- Alternatively, you can also read in files directly into R from the
Internet by replacing the file paths with a web address in
read.csv
. One should note that in doing this no local copy of the csv file is first saved onto your computer. For example,
R
gapminder <- read.csv("https://raw.githubusercontent.com/swcarpentry/r-novice-gapminder/main/episodes/data/gapminder_data.csv")
You can read directly from excel spreadsheets without converting them to plain text first by using the readxl package.
The argument “stringsAsFactors” can be useful to tell R how to read strings either as factors or as character strings. In R versions after 4.0, all strings are read-in as characters by default, but in earlier versions of R, strings are read-in as factors by default. For more information, see the call-out in the previous episode.
Let’s investigate gapminder a bit; the first thing we should always
do is check out what the data looks like with str
:
R
str(gapminder)
OUTPUT
'data.frame': 1704 obs. of 6 variables:
$ country : chr "Afghanistan" "Afghanistan" "Afghanistan" "Afghanistan" ...
$ year : int 1952 1957 1962 1967 1972 1977 1982 1987 1992 1997 ...
$ pop : num 8425333 9240934 10267083 11537966 13079460 ...
$ continent: chr "Asia" "Asia" "Asia" "Asia" ...
$ lifeExp : num 28.8 30.3 32 34 36.1 ...
$ gdpPercap: num 779 821 853 836 740 ...
An additional method for examining the structure of gapminder is to
use the summary
function. This function can be used on
various objects in R. For data frames, summary
yields a
numeric, tabular, or descriptive summary of each column. Numeric or
integer columns are described by the descriptive statistics (quartiles
and mean), and character columns by its length, class, and mode.
R
summary(gapminder)
OUTPUT
country year pop continent
Length:1704 Min. :1952 Min. :6.001e+04 Length:1704
Class :character 1st Qu.:1966 1st Qu.:2.794e+06 Class :character
Mode :character Median :1980 Median :7.024e+06 Mode :character
Mean :1980 Mean :2.960e+07
3rd Qu.:1993 3rd Qu.:1.959e+07
Max. :2007 Max. :1.319e+09
lifeExp gdpPercap
Min. :23.60 Min. : 241.2
1st Qu.:48.20 1st Qu.: 1202.1
Median :60.71 Median : 3531.8
Mean :59.47 Mean : 7215.3
3rd Qu.:70.85 3rd Qu.: 9325.5
Max. :82.60 Max. :113523.1
Along with the str
and summary
functions,
we can examine individual columns of the data frame with our
typeof
function:
R
typeof(gapminder$year)
OUTPUT
[1] "integer"
R
typeof(gapminder$country)
OUTPUT
[1] "character"
R
str(gapminder$country)
OUTPUT
chr [1:1704] "Afghanistan" "Afghanistan" "Afghanistan" "Afghanistan" ...
We can also interrogate the data frame for information about its
dimensions; remembering that str(gapminder)
said there were
1704 observations of 6 variables in gapminder, what do you think the
following will produce, and why?
R
length(gapminder)
OUTPUT
[1] 6
A fair guess would have been to say that the length of a data frame would be the number of rows it has (1704), but this is not the case; remember, a data frame is a list of vectors and factors:
R
typeof(gapminder)
OUTPUT
[1] "list"
When length
gave us 6, it’s because gapminder is built
out of a list of 6 columns. To get the number of rows and columns in our
dataset, try:
R
nrow(gapminder)
OUTPUT
[1] 1704
R
ncol(gapminder)
OUTPUT
[1] 6
Or, both at once:
R
dim(gapminder)
OUTPUT
[1] 1704 6
We’ll also likely want to know what the titles of all the columns are, so we can ask for them later:
R
colnames(gapminder)
OUTPUT
[1] "country" "year" "pop" "continent" "lifeExp" "gdpPercap"
At this stage, it’s important to ask ourselves if the structure R is reporting matches our intuition or expectations; do the basic data types reported for each column make sense? If not, we need to sort any problems out now before they turn into bad surprises down the road, using what we’ve learned about how R interprets data, and the importance of strict consistency in how we record our data.
Once we’re happy that the data types and structures seem reasonable, it’s time to start digging into our data proper. Check out the first few lines:
R
head(gapminder)
OUTPUT
country year pop continent lifeExp gdpPercap
1 Afghanistan 1952 8425333 Asia 28.801 779.4453
2 Afghanistan 1957 9240934 Asia 30.332 820.8530
3 Afghanistan 1962 10267083 Asia 31.997 853.1007
4 Afghanistan 1967 11537966 Asia 34.020 836.1971
5 Afghanistan 1972 13079460 Asia 36.088 739.9811
6 Afghanistan 1977 14880372 Asia 38.438 786.1134
Challenge 2
It’s good practice to also check the last few lines of your data and some in the middle. How would you do this?
Searching for ones specifically in the middle isn’t too hard, but we could ask for a few lines at random. How would you code this?
To check the last few lines it’s relatively simple as R already has a function for this:
R
tail(gapminder)
tail(gapminder, n = 15)
What about a few arbitrary rows just in case something is odd in the middle?
Tip: There are several ways to achieve this.
The solution here presents one form of using nested functions, i.e. a function passed as an argument to another function. This might sound like a new concept, but you are already using it! Remember my_dataframe[rows, cols] will print to screen your data frame with the number of rows and columns you asked for (although you might have asked for a range or named columns for example). How would you get the last row if you don’t know how many rows your data frame has? R has a function for this. What about getting a (pseudorandom) sample? R also has a function for this.
R
gapminder[sample(nrow(gapminder), 5), ]
To make sure our analysis is reproducible, we should put the code into a script file so we can come back to it later.
Challenge 3
Go to file -> new file -> R script, and write an R script to
load in the gapminder dataset. Put it in the scripts/
directory and add it to version control.
Run the script using the source
function, using the file
path as its argument (or by pressing the “source” button in
RStudio).
The source
function can be used to use a script within a
script. Assume you would like to load the same type of file over and
over again and therefore you need to specify the arguments to fit the
needs of your file. Instead of writing the necessary argument again and
again you could just write it once and save it as a script. Then, you
can use source("Your_Script_containing_the_load_function")
in a new script to use the function of that script without writing
everything again. Check out ?source
to find out more.
R
download.file("https://raw.githubusercontent.com/swcarpentry/r-novice-gapminder/main/episodes/data/gapminder_data.csv", destfile = "data/gapminder_data.csv")
gapminder <- read.csv(file = "data/gapminder_data.csv")
To run the script and load the data into the gapminder
variable:
R
source(file = "scripts/load-gapminder.R")
Challenge 4
Read the output of str(gapminder)
again; this time, use
what you’ve learned about lists and vectors, as well as the output of
functions like colnames
and dim
to explain
what everything that str
prints out for gapminder means. If
there are any parts you can’t interpret, discuss with your
neighbors!
The object gapminder
is a data frame with columns
-
country
andcontinent
are character strings. -
year
is an integer vector. -
pop
,lifeExp
, andgdpPercap
are numeric vectors.
Key Points
- Use
cbind()
to add a new column to a data frame. - Use
rbind()
to add a new row to a data frame. - Remove rows from a data frame.
- Use
str()
,summary()
,nrow()
,ncol()
,dim()
,colnames()
,head()
, andtypeof()
to understand the structure of a data frame. - Read in a csv file using
read.csv()
. - Understand what
length()
of a data frame represents.