CRAN packages may wish to link to external libraries (or rarely, invoke
other software) that needs to be installed on the CRAN check machines
(which the CRAN policy prefers to including in the package). Requests
to add software should be sent to CRAN@R-project.org
and where
relevant copied to those responsible for the binary packages (see the
CRAN policy).
Java SDKs (currently OpenJDK of various versions including 11 and 17)
are installed on all the CRAN platforms, as are JAGS
and
ghostscript
. Most but not all systems have MPI support
installed. All have a Cargo/Rustc installation (not necessarily very
recent). Support for other languages such as Julia cannot be assumed.
Email addresses for those named are of the form ‘First.Lastname@R-project.org’.
CRAN checks are done on several Debian (including incoming checks) and
Fedora machines. Software will only be installed on the Debian machines
that is available from Debian repositories for ‘testing’.
The rcheckserver
meta-package available from the AASC repository
at https://statmath.wu.ac.at/AASC/debian provides all system
dependencies used for the Debian checks.
For Fedora, requests to add RPMs from official repositories are
preferred, but at our discretion software may be installed from
elsewhere (as has been done for pandoc
) or compiled from
source (as may be needed for the fedora-clang checks). No information
is publicly available on what RPMs are already installed as it differs
by machine.
Be aware that adding software to the Linux machines needs the time of busy sysadmins, not just the CRAN team.
External libraries are made for both macOS architectures via Simon Urbanek’s ‘recipes’ system at https://github.com/R-macos/recipes. Tested updates to these recipes or new recipes should be requested at GitHub or emailed to him, failing which he can be asked to help to prepare a recipe.
An idea of what external libraries are currently available can be found at https://mac.r-project.org/bin/darwin20/x86_64/ and https://mac.r-project.org/bin/darwin20/arm64/ with installation instructions at https://mac.r-project.org/bin/.
Requests to add or update other software (which in the past have
included cmake
and pandoc
) should be sent to the
maintainer, Simon Urbanek, with as much detail as possible.
There is no MPI support. Although OpenMPI can be installed, only dynamic linking works and so cannot be used portably.
JAGS is likely to be available. There is an ‘official’ release for both architectures at https://sourceforge.net/projects/mcmc-jags/files/JAGS/4.x/.
The build system for Windows changed with 4.2.0 and only that is considered here (and only 64-bit Windows is now supported).
Building of external libraries is done using MXE (https://mxe.cc/). That has an extensive set of packages (https://github.com/mxe/mxe/blob/master/src), and users can contribute others (https://mxe.cc/#creating-packages). For external libraries not already available, the best approach is to contribute to the MXE library. For advice, consult Tomas Kalibera.
Common build tools are installed using Msys2 (https://www.msys2.org/).
GDAL executables are currently available via a QGIS installation (https://qgis.org/downloads/QGIS-OSGeo4W-3.22.0-4.msi), but this may change in future.
Requests to add or update other software should be sent to the maintainer, Uwe Ligges, with as much detail as possible.
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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