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This vignette can be cited as:
To cite package 'ggstatsplot' in publications use:
Patil, I. (2021). Visualizations with statistical details: The
'ggstatsplot' approach. Journal of Open Source Software, 6(61), 3167,
doi:10.21105/joss.03167
A BibTeX entry for LaTeX users is
@Article{,
doi = {10.21105/joss.03167},
url = {https://doi.org/10.21105/joss.03167},
year = {2021},
publisher = {{The Open Journal}},
volume = {6},
number = {61},
pages = {3167},
author = {Indrajeet Patil},
title = {{Visualizations with statistical details: The {'ggstatsplot'} approach}},
journal = {{Journal of Open Source Software}},
}
Graphical displays can reveal problems in a statistical model that
might not be apparent from purely numerical summaries. Such
visualizations can also be helpful for the reader to evaluate the
validity of a model if it is reported in a scholarly publication or
report. But, given the onerous costs involved, researchers often avoid
preparing information-rich graphics and exploring several statistical
approaches or tests available. The {ggstatsplot}
package in
the R programming language (R Core Team, 2021) provides a one-line
syntax to enrich {ggplot2}
-based visualizations with the
results from statistical analysis embedded in the visualization itself.
In doing so, the package helps researchers adopt a rigorous, reliable,
and robust data exploratory and reporting workflow.
In a typical data analysis workflow, data visualization and
statistical modeling are two different phases: visualization informs
modeling, and in turn, modeling can suggest a different visualization
method, and so on and so forth (Wickham & Grolemund, 2016). The
central idea of {ggstatsplot}
is simple: combine these two
phases into one in the form of an informative graphic with statistical
details.
Before discussing benefits of this approach, we will show an example (Figure 1).
As can be seen, with a single line of code, the function produces
details about descriptive statistics, inferential statistics, effect
size estimate and its uncertainty, pairwise comparisons, Bayesian
hypothesis testing, Bayesian posterior estimate and its uncertainty.
Moreover, these details are juxtaposed with informative and well-labeled
visualizations. The defaults are designed to follow best practices in
both data visualization (Cleveland, 1985; Grant, 2018; Healy, 2018; Tufte, 2001; Wilke, 2019) and
(frequentist/Bayesian) statistical reporting (American Psychological Association, 2019; van Doorn et al., 2020). Without
{ggstatsplot}
, getting these statistical details and
customizing a plot would require significant amount of time and effort.
In other words, this package removes the trade-off often faced by
researchers between ease and thoroughness of data exploration and
further cements good data exploration habits.
Internally, data cleaning is carried out using the
tidyverse
(Wickham et al., 2019), while
statistical analysis is carried out via the
{statsExpressions}
(Patil, 2021) and easystats
(Ben-Shachar et
al., 2020; Lüdecke et al., 2019,
2020, 2021; Makowski et al., 2019, 2020) packages. All visualizations
are constructed using the grammar of graphics framework (Wilkinson,
2012), as implemented in the {ggplot2}
package
(Wickham,
2016).
In summary, the benefits of {ggstatsplot}
’s approach are
the following. It:
produces charts displaying both raw data, and numerical plus graphical summary indices,
avoids errors in and increases reproducibility of statistical reporting,
highlights the importance of the effect by providing effect size measures by default,
provides an easy way to evaluate absence of an effect using Bayes factors,
encourages researchers and readers to evaluate statistical assumptions of a model in the context of the underlying data (Figure 2),
is easy and simple enough that someone with little to no coding experience can use it without making an error and may even encourage beginners to programmatically analyze data, instead of using GUI software.
This package is an ambitious, ongoing, and long-term project. It currently supports common statistical tests (parametric, non-parametric, robust, or Bayesian t-test, one-way ANOVA, contingency table analysis, correlation analysis, meta-analysis, regression analyses, etc.) and corresponding visualizations (box/violin plot, scatter plot, dot-and-whisker plot, pie chart, bar chart, etc.). It will continue expanding to support an increasing collection of statistical analyses and visualizations.
{ggstatsplot}
is licensed under the GNU General Public
License (v3.0), with all source code stored at GitHub. In the
spirit of honest and open science, requests and suggestions for fixes,
feature updates, as well as general questions and concerns are
encouraged via direct interaction with contributors and developers by
filing an issue
while respecting Contribution
Guidelines.
I would like to acknowledge the support of Mina Cikara, Fiery
Cushman, and Iyad Rahwan during the development of this project.
{ggstatsplot}
relies heavily on the easystats
ecosystem, a collaborative project created to facilitate the usage of
R
for statistical analyses. Thus, I would like to thank the
members of
easystats
as well as the users. I would additionally like
to thank the contributors to {ggstatsplot}
for reporting
bugs, providing helpful feedback, or helping with enhancements.
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.