The 'DHARMa' package uses a simulation-based approach to create readily interpretable scaled (quantile) residuals for fitted generalized linear (mixed) models. Currently supported are linear and generalized linear (mixed) models from 'lme4' (classes 'lmerMod', 'glmerMod'), 'glmmTMB', 'GLMMadaptive' and 'spaMM'; phylogenetic linear models from 'phylolm' (classes 'phylolm' and 'phyloglm'); generalized additive models ('gam' from 'mgcv'); 'glm' (including 'negbin' from 'MASS', but excluding quasi-distributions) and 'lm' model classes. Moreover, externally created simulations, e.g. posterior predictive simulations from Bayesian software such as 'JAGS', 'STAN', or 'BUGS' can be processed as well. The resulting residuals are standardized to values between 0 and 1 and can be interpreted as intuitively as residuals from a linear regression. The package also provides a number of plot and test functions for typical model misspecification problems, such as over/underdispersion, zero-inflation, and residual spatial, temporal and phylogenetic autocorrelation.
DHARMa is on CRAN, and for most users, installing from CRAN will be the best option. To install the latest CRAN release, just run
install.packages("DHARMa")
To get an overview about its functionality once the package is installed, run
library(DHARMa)
?DHARMa
vignette("DHARMa", package="DHARMa")
The vignette, which can also be read online here, provides many exampless about how to use the package function for the supported regression models. To cite the package, run
citation("DHARMa")
To fit a model (from any package supported by DHARMa), run
testData = createData(sampleSize = 200, family = poisson())
m1 <- glm(observedResponse ~ Environment1,
family = "poisson", data = testData)
res <- simulateResiduals(m1, plot = T)
and read to help of ?simulateResiduals and the vignette to understand what you can do with the object res. If you want to ask questions about DHARMa, or report a bug, please use the DHARMa GitHub issue page.
New features in DHARMa will typically on GitHub 1-2 months before they are on CRAN. If you want to install the current (development) version from this repository, run
devtools::install_github(repo = "florianhartig/DHARMa", subdir = "DHARMa",
dependencies = T, build_vignettes = T)
Below the status of the automatic tests via GitHub Actions
To install a specific (older) release, or a particular branch, decide for the version number that you want to install in https://github.com/florianhartig/DHARMa/releases (version numbering corresponds to CRAN, but there may be smaller releases that were not pushed to CRAN), or branch and run
devtools::install_github(repo = "florianhartig/DHARMa", subdir = "DHARMa",
ref = "v0.0.2.1", dependencies = T, build_vignettes = T)
with the appropriate version number / branch as argument to ref.
Contributions to DHARMa are very welcome! There are several ways in which you can contribute:
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A simple but nevertheless important way to contribute is to suggest problems / new features in DHARMa, and post them in our issue tracker. A good issue should at least have a clear reproducible example. If possible, it could also already contain an analysis of the problem, and / or ideas for a fix. Likewise, feel free to comment on issues existing issues, e.g. by adding examples or suggesting solutions.
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If you want to propose a solution an existing problem, for simple things (typos, etc.), the easiest would be to just create a PR that I can directly merge. For more complicated changes, however, I would suggest that it is more effective to first discuss the approach at the thread of the issue.
When working on these issues, note that there is extensive code for tests / development purposes outsite the core package in the folde ./code/ on GH. You may find useful information there, and in case you have code intended for development to contribute, you may also create a PR intended for this section.
Also, there are a few technical hints about DHARMA development on the DHARMa GH wiki.
The development of DHARMA and all its surrounding activities is based on the values of scientific integrity, free software and knowledge, and mutual respect, indepdent of background or world view.
A question by Catalina Gutiérrez Chacón provided me with the motivation write the first version of DHARMa. Thanks for useful suggestions to improve DHARMa by Jochen Fründ, Tomer J. Czaczkes, Luis Cayuela Delgado, Alexandre Courtiol, Jim Thorson, Lukas Lohse, jmniehaus, justintimm and many other people that made comments on GitHub, Crossvalidated or via email.
