This document is focused on using data.table
as a dependency in other R packages. If you are interested in using data.table
C code from a non-R application, or in calling its C functions directly, jump to the last section of this vignette.
Importing data.table
is no different from importing other R packages. This vignette is meant to answer the most common questions arising around that subject; the lessons presented here can be applied to other R packages.
data.table
One of the biggest features of data.table
is its concise syntax which makes exploratory analysis faster and easier to write and perceive; this convenience can drive packages authors to use data.table
in their own packages. Another maybe even more important reason is high performance. When outsourcing heavy computing tasks from your package to data.table
, you usually get top performance without needing to re-invent any high of these numerical optimization tricks on your own.
data.table
is easyIt is very easy to use data.table
as a dependency due to the fact that data.table
does not have any of its own dependencies. This statement is valid for both operating system dependencies and R dependencies. It means that if you have R installed on your machine, it already has everything needed to install data.table
. This also means that adding data.table
as a dependency of your package will not result in a chain of other recursive dependencies to install, making it very convenient for offline installation.
DESCRIPTION
file {DESCRIPTION}The first place to define a dependency in a package is the DESCRIPTION
file. Most commonly, you will need to add data.table
under the Imports:
field. Doing so will necessitate an installation of data.table
before your package can compile/install. As mentioned above, no other packages will be installed because data.table
does not have any dependencies of its own. You can also specify the minimal required version of a dependency; for example, if your package is using the fwrite
function, which was introduced in data.table
in version 1.9.8, you should incorporate this as Imports: data.table (>= 1.9.8)
. This way you can ensure that the version of data.table
installed is 1.9.8 or later before your users will be able to install your package. Besides the Imports:
field, you can also use Depends: data.table
but we strongly discourage this approach (and may disallow it in future) because this loads data.table
into your user’s workspace; i.e. it enables data.table
functionality in your user’s scripts without them requesting that. Imports:
is the proper way to use data.table
within your package without inflicting data.table
on your user. In fact, we hope the Depends:
field is eventually deprecated in R since this is true for all packages.
NAMESPACE
file {NAMESPACE}The next thing is to define what content of data.table
your package is using. This needs to be done in the NAMESPACE
file. Most commonly, package authors will want to use import(data.table)
which will import all exported (i.e., listed in data.table
’s own NAMESPACE
file) functions from data.table
.
You may also want to use just a subset of data.table
functions; for example, some packages may simply make use of data.table
’s high-performance CSV reader and writer, for which you can add importFrom(data.table, fread, fwrite)
in your NAMESPACE
file. It is also possible to import all functions from a package excluding particular ones using import(data.table, except=c(fread, fwrite))
.
Be sure to read also the note about non-standard evaluation in data.table
in the section on “undefined globals”
As an example we will define two functions in a.pkg
package that uses data.table
. One function, gen
, will generate a simple data.table
; another, aggr
, will do a simple aggregation of it.
Be sure to include tests in your package. Before each major release of data.table
, we check reverse dependencies. This means that if any changes in data.table
would break your code, we will be able to spot breaking changes and inform you before releasing the new version. This of course assumes you will publish your package to CRAN or Bioconductor. The most basic test can be a plaintext R script in your package directory tests/test.R
:
When testing your package, you may want to use R CMD check --no-stop-on-test-error
, which will continue after an error and run all your tests (as opposed to stopping on the first line of script that failed) NB this requires R 3.4.0 or greater.
testthat
It is very common to use the testthat
package for purpose of tests. Testing a package that imports data.table
is no different from testing other packages. An example test script tests/testthat/test-pkg.R
:
context("pkg tests")
test_that("generate dt", { expect_true(nrow(gen()) == 100) })
test_that("aggregate dt", { expect_true(nrow(aggr(gen())) < 100) })
If data.table
is in Suggests (but not Imports) then you need to declare .datatable.aware=TRUE
in one of the R/* files to avoid “object not found” errors when testing via testthat::test_package
or testthat::test_check
.
data.table
’s use of R’s deferred evaluation (especially on the left-hand side of :=
) is not well-recognised by R CMD check
. This results in NOTE
s like the following during package check:
* checking R code for possible problems ... NOTE
aggr: no visible binding for global variable 'grp'
gen: no visible binding for global variable 'grp'
gen: no visible binding for global variable 'id'
Undefined global functions or variables:
grp id
The easiest way to deal with this is to pre-define those variables within your package and set them to NULL
, optionally adding a comment (as is done in the refined version of gen
below). When possible, you could also use a character vector instead of symbols (as in aggr
below):
gen = function (n = 100L) {
id = grp = NULL # due to NSE notes in R CMD check
dt = as.data.table(list(id = seq_len(n)))
dt[, grp := ((id - 1) %% 26) + 1
][, grp := letters[grp]
][]
}
aggr = function (x) {
stopifnot(
is.data.table(x),
"grp" %in% names(x)
)
x[, .N, by = "grp"]
}
The case for data.table
’s special symbols (.SD
, .BY
, .N
, .I
, .GRP
, .NGRP
, and .EACHI
; see ?.N
) and assignment operator (:=
) is slightly different. You should import whichever of these values you use from data.table
’s namespace to protect against any issues arising from the unlikely scenario that we change the exported value of these in the future, e.g. if you want to use .N
, .I
, and :=
, a minimal NAMESPACE
would have:
Much simpler is to just use import(data.table)
which will greedily allow usage in your package’s code of any object exported from data.table
.
If you don’t mind having id
and grp
registered as variables globally in your package namespace you can use ?globalVariables
. Be aware that these notes do not have any impact on the code or its functionality; if you are not going to publish your package, you may simply choose to ignore them.
Common practice by R packages is to provide customization options set by options(name=val)
and fetched using getOption("name", default)
. Function arguments often specify a call to getOption()
so that the user knows (from ?fun
or args(fun)
) the name of the option controlling the default for that parameter; e.g. fun(..., verbose=getOption("datatable.verbose", FALSE))
. All data.table
options start with datatable.
so as to not conflict with options in other packages. A user simply calls options(datatable.verbose=TRUE)
to turn on verbosity. This affects all calls to fun()
other the ones which have been provided verbose=
explicity; e.g. fun(..., verbose=FALSE)
.
The option mechanism in R is global. Meaning that if a user sets a data.table
option for their own use, that setting also affects code inside any package that is using data.table
too. For an option like datatable.verbose
, this is exactly the desired behavior since the desire is to trace and log all data.table
operations from wherever they originate; turning on verbosity does not affect the results. Another unique-to-R and excellent-for-production option is R’s options(warn=2)
which turns all warnings into errors. Again, the desire is to affect any warning in any package so as to not missing any warnings in production. There are 6 datatable.print.*
options and 3 optimization options which do not affect the result of operations, either. However, there is one data.table
option that does and is now a concern: datatable.nomatch
. This option changes the default join from outer to inner. [Aside, the default join is outer because outer is safer; it doesn’t drop missing data silently; moreover it is consistent to base R way of matching by names and indices.] Some users prefer inner join to be the default and we provided this option for them. However, a user setting this option can unintentionally change the behavior of joins inside packages that use data.table
. Accordingly, in v1.12.4, we have started the process to deprecate the datatable.nomatch
option. It is the only data.table
option with this concern.
If you face any problems in creating a package that uses data.table, please confirm that the problem is reproducible in a clean R session using the R console: R CMD check package.name
.
Some of the most common issues developers are facing are usually related to helper tools that are meant to automate some package development tasks, for example, using roxygen
to generate your NAMESPACE
file from metadata in the R code files. Others are related to helpers that build and check the package. Unfortunately, these helpers sometimes have unintended/hidden side effects which can obscure the source of your troubles. As such, be sure to double check using R console (run R on the command line) and ensure the import is defined in the DESCRIPTION
and NAMESPACE
files following the instructions above.
If you are not able to reproduce problems you have using the plain R console build and check, you may try to get some support based on past issues we’ve encountered with data.table
interacting with helper tools: devtools#192 or devtools#1472.
Since version 1.10.5 data.table
is licensed as Mozilla Public License (MPL). The reasons for the change from GPL should be read in full here and you can read more about MPL on Wikipedia here and here.
data.table
: SuggestsIf you want to use data.table
conditionally, i.e., only when it is installed, you should use Suggests: data.table
in your DESCRIPTION
file instead of using Imports: data.table
. By default this definition will not force installation of data.table
when installing your package. This also requires you to conditionally use data.table
in your package code which should be done using the ?requireNamespace
function. The below example demonstrates conditional use of data.table
’s fast CSV writer ?fwrite
. If the data.table
package is not installed, the much-slower base R ?write.table
function is used instead.
my.write = function (x) {
if(requireNamespace("data.table", quietly=TRUE)) {
data.table::fwrite(x, "data.csv")
} else {
write.table(x, "data.csv")
}
}
A slightly more extended version of this would also ensure that the installed version of data.table
is recent enough to have the fwrite
function available:
my.write = function (x) {
if(requireNamespace("data.table", quietly=TRUE) &&
utils::packageVersion("data.table") >= "1.9.8") {
data.table::fwrite(x, "data.csv")
} else {
write.table(x, "data.csv")
}
}
When using a package as a suggested dependency, you should not import
it in the NAMESPACE
file. Just mention it in the DESCRIPTION
file. When using data.table
functions in package code (R/* files) you need to use the data.table::
prefix because none of them are imported. When using data.table
in package tests (e.g. tests/testthat/test* files), you need to declare .datatable.aware=TRUE
in one of the R/* files.
data.table
in Imports
but nothing importedSome users (e.g.) may prefer to eschew using importFrom
or import
in their NAMESPACE
file and instead use data.table::
qualification on all internal code (of course keeping data.table
under their Imports:
in DESCRIPTION
).
In this case, the un-exported function [.data.table
will revert to calling [.data.frame
as a safeguard since data.table
has no way of knowing that the parent package is aware it’s attempting to make calls against the syntax of data.table
’s query API (which could lead to unexpected behavior as the structure of calls to [.data.frame
and [.data.table
fundamentally differ, e.g. the latter has many more arguments).
If this is anyway your preferred approach to package development, please define .datatable.aware = TRUE
anywhere in your R source code (no need to export). This tells data.table
that you as a package developer have designed your code to intentionally rely on data.table
functionality even though it may not be obvious from inspecting your NAMESPACE
file.
data.table
determines on the fly whether the calling function is aware it’s tapping into data.table
with the internal cedta
function (Calling Environment is Data Table Aware), which, beyond checking the ?getNamespaceImports
for your package, also checks the existence of this variable (among other things).
For more canonical documentation of defining packages dependency check the official manual: Writing R Extensions.
Some of internally used C routines are now exported on C level thus can be used in R packages directly from their C code. See ?cdt
for details and Writing R Extensions Linking to native routines in other packages section for usage.
Some tiny parts of data.table
C code were isolated from the R C API and can now be used from non-R applications by linking to .so / .dll files. More concrete details about this will be provided later; for now you can study the C code that was isolated from the R C API in src/fread.c and src/fwrite.c.