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04-dplyr.Rmd
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04-dplyr.Rmd
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---
layout: topic
title: Aggregating and analyzing data with dplyr
author: Data Carpentry contributors
---
```{r, echo=FALSE, purl=FALSE, message = FALSE}
source("setup.R")
surveys <- read.csv("data/portal_data_joined.csv")
```
------------
# Data manipulation using dplyr
Bracket subsetting is handy, but it can be cumbersome and difficult to read,
especially for complicated operations. Enter `dplyr`. `dplyr` is a package for
making data manipulation easier.
Packages in R are basically sets of additional functions that let you do more
stuff in R. The functions we've been using, like `str()`, come built into R;
packages give you access to more functions. You need to install a package and
then load it to be able to use it.
```{r, eval = FALSE, purl = FALSE}
install.packages("dplyr") ## install
```
You might get asked to choose a CRAN mirror -- this is basically asking you to
choose a site to download the package from. The choice doesn't matter too much;
We recommend the RStudio mirror.
```{r, message = FALSE, purl = FALSE}
library("dplyr") ## load
```
You only need to install a package once per computer, but you need to load it
every time you open a new R session and want to use that package.
## What is `dplyr`?
The package `dplyr` provides easy tools for the most common data manipulation tasks. It is built to work directly with data frames. The thinking behind it was largely inspired by the package `plyr` which has been in use for some time but suffered from being slow in some cases.` dplyr` addresses this by porting much of the computation to C++. An additional feature is the ability to work with data stored directly in an external database. The benefits of doing this are that the data can be managed natively in a relational database, queries can be conducted on that database, and only the results of the query returned.
This addresses a common problem with R in that all operations are conducted in
memory and thus the amount of data you can work with is limited by available
memory. The database connections essentially remove that limitation in that you
can have a database of many 100s GB, conduct queries on it directly and pull
back just what you need for analysis in R.
### Selecting columns and filtering rows
We're going to learn some of the most common `dplyr` functions: `select()`,
`filter()`, `mutate()`, `group_by()`, and `summarize()`. To select columns of a
data frame, use `select()`. The first argument to this function is the data
frame (`surveys`), and the subsequent arguments are the columns to keep.
```{r, results = 'hide', purl = FALSE}
select(surveys, plot_id, species_id, weight)
```
To choose rows, use `filter()`:
```{r, purl = FALSE}
filter(surveys, year == 1995)
```
### Pipes
But what if you wanted to select and filter? There are three ways to do this:
use intermediate steps, nested functions, or pipes. With the intermediate steps,
you essentially create a temporary data frame and use that as input to the next
function. This can clutter up your workspace with lots of objects. You can also
nest functions (i.e. one function inside of another). This is handy, but can be
difficult to read if too many functions are nested as the process from inside
out. The last option, pipes, are a fairly recent addition to R. Pipes let you
take the output of one function and send it directly to the next, which is
useful when you need to many things to the same data set. Pipes in R look like
`%>%` and are made available via the `magrittr` package installed as
part of `dplyr`.
```{r, purl = FALSE}
surveys %>%
filter(weight < 5) %>%
select(species_id, sex, weight)
```
In the above we use the pipe to send the `surveys` data set first through
`filter`, to keep rows where `wgt` was less than 5, and then through `select` to
keep the `species` and `sex` columns. When the data frame is being passed to the
`filter()` and `select()` functions through a pipe, we don't need to include it
as an argument to these functions anymore.
If we wanted to create a new object with this smaller version of the data we
could do so by assigning it a new name:
```{r, purl = FALSE}
surveys_sml <- surveys %>%
filter(weight < 5) %>%
select(species_id, sex, weight)
surveys_sml
```
> ### Challenge {.challenge}
>
> Using pipes, subset the data to include rows before 1995. Retain columns
> `year`, `sex`, and `weight.`
### Mutate
Frequently you'll want to create new columns based on the values in existing
columns, for example to do unit conversions or find the ratio of values in two
columns. For this we'll use `mutate()`.
To create a new column of weight in kg:
```{r, purl = FALSE}
surveys %>%
mutate(weight_kg = weight / 1000)
```
If this runs off your screen and you just want to see the first few rows, you
can use a pipe to view the `head()` of the data (pipes work with non-dplyr
functions too, as long as the `dplyr` or `magrittr` packages are loaded).
```{r, purl = FALSE}
surveys %>%
mutate(weight_kg = weight / 1000) %>%
head
```
The first few rows are full of NAs, so if we wanted to remove those we could
insert a `filter()` in this chain:
```{r, purl = FALSE}
surveys %>%
mutate(weight_kg = weight / 1000) %>%
filter(!is.na(weight)) %>%
head
```
`is.na()` is a function that determines whether something is or is not an `NA`.
The `!` symbol negates it, so we're asking for everything that is not an `NA`.
### Split-apply-combine data analysis and the summarize() function
Many data analysis tasks can be approached using the "split-apply-combine"
paradigm: split the data into groups, apply some analysis to each group, and
then combine the results. `dplyr` makes this very easy through the use of the
`group_by()` function. `group_by()` splits the data into groups upon which some
operations can be run. For example, if we wanted to group by sex and find the
number of rows of data for each sex, we would do:
```{r, purl = FALSE}
surveys %>%
group_by(sex) %>%
tally()
```
`group_by()` is often used together with `summarize()` which collapses each
group into a single-row summary of that group. So to view mean `weight` by sex:
```{r, purl = FALSE}
surveys %>%
group_by(sex) %>%
summarize(mean_weight = mean(weight, na.rm = TRUE))
```
You can group by multiple columns too:
```{r, purl = FALSE}
surveys %>%
group_by(sex, species_id) %>%
summarize(mean_weight = mean(weight, na.rm = TRUE))
```
Looks like most of these species were never weighed. We could then discard rows
where `mean_weight` is `NaN` (`NaN` refers to "Not a Number") using `filter()`:
```{r, purl = FALSE}
surveys %>%
group_by(sex, species_id) %>%
summarize(mean_weight = mean(weight, na.rm = TRUE)) %>%
filter(!is.nan(mean_weight))
```
All of a sudden this isn't running of the screen anymore. That's because `dplyr`
has changed our `data.frame` to a `tbl_df`. This is a data structure that's very
similar to a data frame; for our purposes the only difference is that it won't
automatically show tons of data going off the screen.
You can also summarize multiple variables at the same time:
```{r, purl = FALSE}
surveys %>%
group_by(sex, species_id) %>%
summarize(mean_weight = mean(weight, na.rm = TRUE),
min_weight = min(weight, na.rm = TRUE)) %>%
filter(!is.nan(mean_weight))
```
> ### Challenge {.challenge}
>
> How many times was each `plot_type` surveyed?
> ### Challenge {.challenge}
>
> Use `group_by()` and `summarize()` to find the mean, min, and max hindfoot
> length for each species.
> ### Challenge {.challenge}
>
> What was the heaviest animal measured in each year? Return the columns `year`,
> `genus`, `species`, and `weight`.
[Handy dplyr cheatsheet](http://www.rstudio.com/wp-content/uploads/2015/02/data-wrangling-cheatsheet.pdf)
*Much of this lesson was copied or adapted from Jeff Hollister's [materials](http://usepa.github.io/introR/2015/01/14/03-Clean/)*