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Publication-ready scatter plots in R

Rémi Thériault

September 12, 2019

Basic idea

After the nice_violin() function, here’s how to make nice scatter plots easily!

Let’s first load the demo data. This data set comes with base R (meaning you have it too and can directly type this command into your R console).

data("mtcars")
head(mtcars)
##                    mpg cyl disp  hp drat    wt  qsec vs am gear carb
## Mazda RX4         21.0   6  160 110 3.90 2.620 16.46  0  1    4    4
## Mazda RX4 Wag     21.0   6  160 110 3.90 2.875 17.02  0  1    4    4
## Datsun 710        22.8   4  108  93 3.85 2.320 18.61  1  1    4    1
## Hornet 4 Drive    21.4   6  258 110 3.08 3.215 19.44  1  0    3    1
## Hornet Sportabout 18.7   8  360 175 3.15 3.440 17.02  0  0    3    2
## Valiant           18.1   6  225 105 2.76 3.460 20.22  1  0    3    1

Getting started

Load the rempsyc package:

library(rempsyc)

Note: If you haven’t installed this package yet, you will need to install it via the following command: install.packages("rempsyc"). Furthermore, you may be asked to install the following packages if you haven’t installed them already (you may decide to install them all now to avoid interrupting your workflow if you wish to follow this tutorial from beginning to end):

install_if_not_installed("ggplot2")

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg"
)

### Save a high-resolution image file to specified directory
ggplot2::ggsave("nice_scatterplothere.pdf",
  width = 7, height = 7,
  unit = "in", dpi = 300
)
# Change the path to where you would like to save it.
# If you copy-paste your path name, remember to
# use "R" slashes ('/' rather than '\').
# Also remember to specify the .tiff extension of the file.

Pro tip: Recommended dimensions for saving is 7 inches wide and 7 inches high. The .pdf or .eps formats are recommended for scalable vector graphics for high-resolution submissions to scientific journals. However, you can also save in other formats, such as .tiff, .png, or .jpg.

Customization

Change x- and y- axis labels

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  ytitle = "Miles/(US) gallon",
  xtitle = "Weight (1000 lbs)"
)

Have points “jittered”

Meaning randomly moved around a bit to prevent overplotting (when two or more points overlap, thus hiding information).

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  has.jitter = TRUE
)

Change the transparency of the points

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  alpha = 1
) # default is 0.7

Remove points

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  has.points = FALSE,
  has.jitter = FALSE
)

Add confidence band

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  has.confband = TRUE
)

Set x- and y- scales manually

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  xmin = 1,
  xmax = 6,
  xby = 1,
  ymin = 10,
  ymax = 35,
  yby = 5
)

Change plot colour

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  colours = "blueviolet"
)

Add correlation coefficient to plot and p-value

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  has.r = TRUE,
  has.p = TRUE
)

Change location of correlation coefficient or p-value

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  has.r = TRUE,
  r.x = 4,
  r.y = 25,
  has.p = TRUE,
  p.x = 5,
  p.y = 20
)

Plot by group

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl"
)

Use full range on the slope/confidence band

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl",
  has.fullrange = TRUE
)

Change order of labels on the legend

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl",
  groups.order = c(8, 4, 6)
)

# These are the levels of 'mtcars$cyl', so we place lvl 8
# first, then lvl 4, etc.

Change legend labels

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl",
  groups.labels = c("Weak", "Average", "Powerful")
)

# Warning: This applies after changing order of level
**Warning**: This only changes labels and applies after changing order of level!
Always use `groups.order` first if you also need to use `groups.labels`!
This is to make sure to have the right labels for the right groups!

Add a title to legend

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl",
  legend.title = "Cylinders"
)

Plot by group + manually specify colours

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl",
  colours = c("burlywood", "darkgoldenrod", "chocolate")
)

Plot by group + use different line types for each group

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl",
  has.linetype = TRUE
)

Plot by group + use different point shapes for each group

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl",
  has.shape = TRUE
)

Plot by group, point shapes, line types, legend + no colours (black and white)

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  group = "cyl",
  legend.title = "Cylinders",
  has.linetype = TRUE,
  has.shape = TRUE,
  colours = rep("black", 3)
)

Putting it all together

If you’d like to see all available options at once (a bit long):

nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  ytitle = "Miles/(US) gallon",
  xtitle = "Weight (1000 lbs)",
  has.points = FALSE,
  has.jitter = TRUE,
  alpha = 1,
  has.confband = TRUE,
  has.fullrange = FALSE,
  group = "cyl",
  has.linetype = TRUE,
  has.shape = TRUE,
  xmin = 1,
  xmax = 6,
  xby = 1,
  ymin = 10,
  ymax = 35,
  yby = 5,
  has.r = TRUE,
  has.p = TRUE,
  r.x = 5.5,
  r.y = 25,
  colours = c("burlywood", "darkgoldenrod", "chocolate"),
  legend.title = "Cylinders",
  groups.labels = c("Weak", "Average", "Powerful")
)

Special situation: Add group average

There’s no straightforward way to add group average, so here’s a hack to do it. We first have to create a second data set with another “group” that will be used as the average.

Black line + coloured lines

# This simply copies the 'mtcars' dataset
new.Data <- mtcars
# That would be your "Group" variable normally
# And this operation fills all cells of that column with the word
# "Average" to identify our new 'group'
new.Data$cyl <- "Average"
# This adds the new "Average" group rows to the original data rows
XData <- rbind(mtcars, new.Data)

Then we need to create a FIRST layer of just the slopes. We add transparency to the group lines except the group average to emphasize the group average (with the new argument groups.alpha).

(p <- nice_scatter(
  data = XData,
  predictor = "wt",
  response = "mpg",
  has.points = FALSE,
  group = "cyl",
  colours = c("black", "#00BA38", "#619CFF", "#F8766D"),
  # We add colours manually because we want average to be black to stand out
  groups.order = c("Average", "4", "6", "8"),
  # We do this to have average on top since it's the most important
  groups.alpha = c(1, 0.5, 0.5, 0.5)
))

# This adds 50% transparency to all lines except
# the first one (Average) which is 100%

Finally we are ready to add a SECOND layer of just the points on top of our previous layer. We use standard ggplot syntax for this.

library(ggplot2)
p + geom_point(
  data = mtcars,
  size = 2,
  alpha = 0.5,
  shape = 16,
  # We use shape 16 because the default shape 19 sometimes
  # causes problems when exporting to PDF
  mapping = aes(
    x = wt,
    y = mpg,
    colour = factor(cyl),
    fill = factor(cyl)
  )
)

Black line, coloured dots

If you’d like instead to still show the group points but only the black average line, you can do the following as first layer:

(p <- nice_scatter(
  data = mtcars,
  predictor = "wt",
  response = "mpg",
  has.points = FALSE,
  has.legend = TRUE,
  # Important argument! Else the next legend won't appear on the second layer!
  colours = "black"
))

Then to add the points as second layer we do the same as before:

p + geom_point(
  data = mtcars,
  size = 2,
  alpha = 0.5,
  shape = 16,
  mapping = aes(
    x = wt,
    y = mpg,
    colour = factor(cyl)
  )
)

Thanks for checking in

Make sure to check out this page again if you use the code after a time or if you encounter errors, as I periodically update or improve the code. Feel free to contact me for comments, questions, or requests to improve this function at https://github.com/rempsyc/rempsyc/issues. See all tutorials here: https://remi-theriault.com/tutorials.

These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.
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