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R packages are the fundamental units of reproducible code in R.1 Docker is a virtualization technology that can be used to bundle an application and all its dependencies in a virtual container that can be distributed and deployed to run reproducibly on any Windows, Linux or MacOS operating system. When used in tandem, these tools can help developers deliver software with an inherently reproducible set of dependencies, including specific dependent R packages. An R package developer may consider building a docker image that contains their R package. This approach can be useful in various scenarios, one of which is a case where the R package includes functions to pre- and post-process data that is also processed by a domain-specific tool written in another language (i.e., something that couldn’t be included as an R package dependency).
We developed pracpac
with a goal of providing intuitive functions for developers to use custom R packages and Docker together. The pracpac
package is conceptually inspired by packages like devtools
and usethis
, which dramatically reduce the technical burden of R package development. With pracpac
, users can easily create templates of the necessary files and directory structure to build a Docker image that contains their R package and specific dependency packages, with versions optionally frozen via renv
.
It may be useful to clarify Docker terminology used throughout:
For more information on Docker installation, terminology, and usage see https://docs.docker.com/.
pracpac
The pracpac
package is designed to do two things:
These features are delivered in the use_docker()
and build_image()
functions.
use_docker()
The pracpac
package includes individual functions to add a template Dockerfile, build the source of an R package to be added to the Docker image, and define dependencies for that package in an renv
lock file. All files created are moved to the Docker directory specified by the user, which as a default is set to a docker/
subdirectory of the R package. For convenience, the pracpac
functionality is wrapped into the use_docker()
function.
The example that follows uses the hellow
R package that ships with pracpac
. With pracpac
installed, the hellow
source code can be found with the following command:
system.file("hellow", package = "pracpac")
To motivate the basic usage we will demonstrate how to use the example package copied to a tempdir()
.
NOTE: In practice, it is likely more convenient to use pracpac
functions within the flow of R package development (i.e., with the working directory at the package root). As such, the file copying here may not be necessary for most usage.
library(pracpac)
library(fs)
## specify the temp directory
<- tempdir()
tmp ## create a subdirectory of temp called "example"
dir_create(path = path(tmp, "example"))
## copy the example hellow package to the temp directory
dir_copy(path = system.file("hellow", package = "pracpac"), new_path = path(tmp, "example"))
The contents of the hellow
package source are structured as follows:
├── DESCRIPTION
├── LICENSE
├── LICENSE.md
├── NAMESPACE
├── R
│ └── hello.R
├── hellow.Rproj
└── man
└── isay.Rd
To create the template for a Docker image that contains the hellow
R package the developer can use use_docker()
:
use_docker(pkg_path = path(tmp, "example", "hellow"))
├── DESCRIPTION
├── LICENSE
├── LICENSE.md
├── NAMESPACE
├── R
│ └── hello.R
├── docker
│ ├── Dockerfile
│ ├── hellow_0.1.0.tar.gz
│ └── renv.lock
├── hellow.Rproj
└── man
└── isay.Rd
With defaults set, this function will create a Dockerfile
with the following contents:
FROM rocker/r-ver:latest
## copy the renv.lock into the image
COPY renv.lock /renv.lock
## install renv
RUN Rscript -e 'install.packages(c("renv"))'
## set the renv path var to the renv lib
ENV RENV_PATHS_LIBRARY renv/library
## restore packages from renv.lock
RUN Rscript -e 'renv::restore(lockfile = "/renv.lock", repos = NULL)'
## copy in built R package
COPY hellow_0.1.0.tar.gz /hellow_0.1.0.tar.gz
## run script to install built R package from source
RUN Rscript -e 'install.packages("/hellow_0.1.0.tar.gz", type='source', repos=NULL)'
And an renv.lock
with the dependencies of hellow
(in this case just the praise
package):
{
"R": {
"Version": "4.0.2",
"Repositories": [
{
"Name": "CRAN",
"URL": "https://cran.rstudio.com"
}
]
},
"Packages": {
"praise": {
"Package": "praise",
"Version": "1.0.0",
"Source": "Repository",
"Repository": "CRAN",
"Hash": "a555924add98c99d2f411e37e7d25e9f",
"Requirements": []
}
}
}
The use_docker()
defaults will produce the behavior described above. However, the functionality can be customized further. For example, the user can optionally specify a use case to create variants of template files (described in more detail in other vignettes). Another option is to specify an img_path
defining where the files used to build the Docker image should be written, which may be useful for developers who prefer not to build images within the R package root. The following shows how this could be used to write the Docker template files to the directory above the package root:
use_docker(pkg_path = path(tmp, "example", "hellow"), img_path = path(tmp, "example"))
├── Dockerfile
├── hellow
│ ├── DESCRIPTION
│ ├── LICENSE
│ ├── LICENSE.md
│ ├── NAMESPACE
│ ├── R
│ │ └── hello.R
│ ├── hellow.Rproj
│ └── man
│ └── isay.Rd
├── hellow_0.1.0.tar.gz
For a full list of options see ?use_docker
.
build_image()
The use_docker()
function includes an option to “build”. By default this parameter is set to FALSE
. The pracpac
templates are likely to require some editing by the developer. However, after editing the Dockerfile
and any constituent files to be added the user can call build_image()
to build the Docker image:
build_image(pkg_path = path(tmp, "example", "hellow"))
Note that if the user has specified a different img_path
in use_docker()
, then the same path needs to be used with build_image()
.
By default the image will be built and tagged with the name of the R package and a “latest” and version suffix:
system("docker images")
hellow 0.1.0 e1a9bc2ebbb5 15 seconds ago 828MB
hellow latest e1a9bc2ebbb5 15 seconds ago 828MB
The tagging scheme can be altered with the “tag” argument. The build_image()
function also includes a parameter to leverage the Docker build “cache” feature. For more details see ?build_image
. To use additional build parameters the user can call the Docker daemon directly on the host or use a client like stevedore
.
Hadley Wickham and Jenny Bryan. R Packages (2e). https://r-pkgs.org/.↩︎
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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