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<img src='tools/images/papaja_hex.png' align='right' height='150' />papaja: Prepare APA Journal Articles<br />with R Markdown

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Sections Example | Installation | Usage | Getting help | Citation | papaja in the wild | Computational reproducibility | Contribute | Related R packages | Package dependencies

papaja is an award-winning R package that facilitates creating computationally reproducible, submission-ready manuscripts which conform to the American Psychological Association (APA) manuscript guidelines (6th Edition). papaja provides

For a comprehensive introduction to papaja, see the current draft of the manual. If you have a specific question that is not answered in the manual, feel free to ask a question on Stack Overflow using the papaja tag. If you believe you have found a bug or would like to request a new feature, open an issue on Github and provide a minimal complete verifiable example.

Example

Take a look at the source file of the package vignette and the resulting PDF. The vignette also contains some basic instructions.

Installation

To use papaja you need either a recent version of RStudio or pandoc. If you want to create PDF- in addition to DOCX-documents you additionally need a TeX distribution. We recommend you use TinyTex, which can be installed from within R:

if(!requireNamespace("tinytex", quietly = TRUE)) install.packages("tinytex")

tinytex::install_tinytex()

You may also consider MikTeX for Windows, MacTeX for Mac, or TeX Live for Linux. Please refer to the papaja manual for detailed installation instructions.

papaja is available on CRAN but you can also install it from the GitHub repository:

# Install latest CRAN release
install.packages("papaja")

# Install remotes package if necessary
if(!requireNamespace("remotes", quietly = TRUE)) install.packages("remotes")

# Install the stable development version from GitHub
remotes::install_github("crsh/papaja")

Usage

Once papaja is installed, you can select the APA template when creating a new R Markdown file through the RStudio menus.

<figure> <img src="inst/images/template_selection.png" alt="APA template selection dialog" /> <figcaption aria-hidden="true">APA template selection dialog</figcaption> </figure>

To add citations, specify your bibliography-file in the YAML front matter of the document (bibliography: my.bib) and start citing (for details, see pandoc manual on the citeproc extension. You may also be interested in citr, an R Studio addin to swiftly insert Markdown citations and R Studio’s visual editor, which also enables swiftly inserting citations.

Typeset analysis results

The functions apa_print() and apa_table() facilitate reporting results of your analyses. When you pass the an output object of a supported class, such as an htest- or lm-object, to apa_print(), it will return a list of character strings that you can use to report the results of your analysis.

my_lm <- lm(
  Sepal.Width ~ Sepal.Length + Petal.Width + Petal.Length
  , data = iris
)
apa_lm <- apa_print(my_lm)

apa_lm$full_result$Sepal_Length
## [1] "$b = 0.61$, 95\\% CI $[0.48, 0.73]$, $t(146) = 9.77$, $p < .001$"

papaja currently provides methods for the following object classes:

A-BD-LL-SS-Z
afex_aovdefaultlsmobjsummary.aovlist
anovaemmGridmanovasummary.glht
anova.lmeglhtmerModsummary.glm
Anova.mlmglmmixedsummary.lm
aovhtestpapaja_wscisummary.manova
aovlistlistsummary_emmsummary.ref.grid
BFBayesFactorlmsummary.Anova.mlm
BFBayesFactorToplmesummary.aov

Create tables

apa_table() may be used to produce publication-ready tables in an R Markdown document. For instance, you might want to report some condition means (with standard errors).

npk |>
  # Summarize data
  dplyr::group_by(N, P) |>
  dplyr::summarise(
    mean = mean(yield)
    , se = sd(yield) / sqrt(length(yield))
    , .groups = "drop"
  ) |>
  # Label columns 
  label_variables(
    N = "Nitrogen"
    , P = "Phosphate"
    , mean = "*M*"
    , se = "*SE*"
  ) |>
  # Print table
  apa_table(caption = "Mean pea yield (with standard errors)")

Table 1. Mean pea yield (with standard errors)

NitrogenPhosphateMSE
0051.721.88
0152.422.65
1059.222.66
1156.152.08

This is a fairly simple example, but apa_table() may be used to generate more complex tables.

apa_table(), of course, plays nicely with the output from apa_print(). Thus, it is possible to conveniently report complete regression tables, ANOVA tables, or the output from mixed-effects models.

lm(Sepal.Width ~ Sepal.Length + Petal.Width + Petal.Length, data = iris) |>
  apa_print() |>
  apa_table(caption = "Iris regression table.")

Table 2. Iris regression table.

Predictorb95% CItdfp
Intercept1.04[0.51, 1.58]3.85146< .001
Sepal Length0.61[0.48, 0.73]9.77146< .001
Petal Width0.56[0.32, 0.80]4.55146< .001
Petal Length-0.59[-0.71, -0.46]-9.43146< .001

Create figures

papaja further provides functions to create publication-ready plots. For example, you can use apa_barplot(), apa_lineplot(), and apa_beeplot() (or the general function apa_factorial_plot()) to visualize the results of factorial study designs:

apa_beeplot(
  data = stroop_data
  , dv = "response_time"
  , id = "id"
  , factors = c("congruency", "load")
  , ylim = c(0, 800)
  , dispersion = wsci # within-subjects confidence intervals
  , conf.level = .99
  , las = 1
)
<figure> <img src="README_files/figure-gfm/stroop-plot-1.png" alt="Response times from a simulated Stroop experiment. Large dots represent condition means, small dots represent individual participants’ mean response time. Error bars represent 99% within-subjects confidence intervals." /> <figcaption aria-hidden="true">Response times from a simulated Stroop experiment. Large dots represent condition means, small dots represent individual participants’ mean response time. Error bars represent 99% within-subjects confidence intervals.</figcaption> </figure>

If you prefer ggplot2, try theme_apa().

library("ggplot2")
library("ggforce")

p <- ggplot(
  stroop_data
  , aes(x = congruency, y = response_time, shape = load, fill = load)
) +
  geom_violin(alpha = 0.2, color = grey(0.6)) +
  geom_sina(color = grey(0.6)) +
  stat_summary(position = position_dodge2(0.95), fun.data = mean_cl_normal) +
  lims(y = c(0, max(stroop_data$response_time))) +
  scale_shape_manual(values = c(21, 22)) +
  scale_fill_grey(start = 0.6, end = 1) +
  labs(
    x = "Congruency"
    , y = "Response time"
    , shape = "Cognitive load"
    , fill = "Cognitive load"
  )

p + theme_apa()

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Usage without RStudio

Don’t use RStudio? No problem. Use the rmarkdown::render function to create articles:

# Create new R Markdown file
rmarkdown::draft(
  "mymanuscript.Rmd"
  , "apa6"
  , package = "papaja"
  , create_dir = FALSE
  , edit = FALSE
)

# Render manuscript
rmarkdown::render("mymanuscript.Rmd")

Getting help

StackOverflow
questions

For a comprehensive introduction to papaja, check out the current draft of the papaja manual. If you have a specific question that is not answered in the manual, feel free to ask a question on Stack Overflow using the papaja tag. If you believe you have found a bug or you want to request a new feature, open an issue on Github and provide a minimal complete verifiable example.

Citation

Please cite papaja if you use it.

Aust, F. & Barth, M. (2024). papaja: Prepare reproducible APA journal articles with R Markdown. R package version 0.1.3. Retrieved from https://github.com/crsh/papaja

For convenience, you can use cite_r() or copy the reference information returned by citation('papaja') to your BibTeX file:


@Manual{,
  title = {{papaja}: {Prepare} reproducible {APA} journal articles with {R Markdown}},
  author = {Frederik Aust and Marius Barth},
  year = {2024},
  note = {R package version 0.1.3},
  url = {https://github.com/crsh/papaja},
  doi = {10.32614/CRAN.package.papaja},
}

papaja in the wild

If you are interested in seeing how others are using papaja, you can find a collection of papers and the corresponding R Markdown files in the manual.

If you have published a paper that was written with papaja, please add the reference to the public Zotero group yourself or send us to me.

Computational reproducibility

To ensure mid- to long-term computational reproducibility we highly recommend conserving the software environment used to write a manuscript (e.g. R and all R packages) either in a software container or a virtual machine. This way you can be sure that your R code does not break because of updates to R or any R package. For a brief primer on containers and virtual machines see the supplementary material by Klein et al. (2018).

Docker is the most widely used containerization approach. It is open source and free to use but requires some disk space. CodeOcean is a commercial service that builds on Docker, facilitates setting up and sharing containers and lets you run computations in the cloud. See the papaja manual on how to get started using papaja with Docker or CodeOcean and our Docker workflow tailored for easy use with papaja.

Contribute

GitHub help wanted
issues GitHub documentation
issues

Like papaja and want to contribute? We highly appreciate any contributions to the R package or its documentation. Take a look at the open issues if you need inspiration. There are many additional analyses that we would like apa_print() to support. Any new S3/S4-methods for this function are always appreciated (e.g., factanal, fa, lavaan). For a primer on adding new apa_print()-methods, see the getting-started-vignette:

vignette("extending_apa_print", package = "papaja")

Before working on a contribution, please review our brief contributing guidelines and code of conduct.

Related R packages

By now, there are a couple of R packages that provide convenience functions to facilitate the reporting of statistics in accordance with APA guidelines.

If you are looking for other journal article templates, you may be interested in the rticles package.

Package dependencies

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