The hardware and bandwidth for this mirror is donated by dogado GmbH, the Webhosting and Full Service-Cloud Provider. Check out our Wordpress Tutorial.
If you wish to report a bug, or if you are interested in having us mirror your free-software or open-source project, please feel free to contact us at mirror[@]dogado.de.
Usage | Release | Development | Translation Status |
---|---|---|---|
datefixR
standardizes dates in different formats or with
missing data: for example dates which have been provided from free text
web forms.
There are many different formats dates are commonly represented with:
the order of day, month, or year can differ, different separators (“-”,
“/”, “.”, or whitespace) can be used, months can be numerical, names, or
abbreviations and year given as two digits or four.
datefixR
takes dates in all these different formats and
converts them to R’s built-in date class. If datefixR
cannot standardize a date, such as because it is too malformed, then the
user is told which date cannot be standardized and the corresponding ID
for the row. datefixR
also allows the imputation of missing
days and months with user-controlled behavior.
datefixR
also supports dates provided in different
languages and provides translated warning and error messages. The
following languages are currently supported:
Not familiar with R or want to quickly try out datefixR
?
Check out the shiny app here.
datefixR
is now available on CRAN.
install.packages("datefixR")
The most up-to-date (hopefully) stable version of
datefixR
can be installed via r-universe
# Enable universe(s) by ropensci
options(repos = c(
ropensci = "https://ropensci.r-universe.dev",
CRAN = "https://cloud.r-project.org"
))
install.packages("datefixR")
If you wish to live on the cutting edge of datefixR
development, then the development version can be installed via
if (!require("remotes")) install.packages("remotes")
::install_github("ropensci/datefixR", "devel") remotes
datefixR
has a “Getting Started” vignette which
describes how to use this package in more detail than this page. View
the vignette by either calling
browseVignettes("datefixR")
or visiting the vignette on the package website
datefixR
is most commonly used to standardize columns of
date data in a data frame or tibble. For this demonstration, we will use
an example toy dataset provided alongside the package,
exampledates
.
library(datefixR)
data("exampledates")
::kable(exampledates) knitr
id | some.dates | some.more.dates |
---|---|---|
1 | 02 05 92 | 2015 |
2 | 01-04-2020 | 02/05/00 |
3 | 1996/05/01 | 05/1990 |
4 | 2020-may-01 | 2012-08 |
5 | 02-04-96 | jan 2020 |
6 | le 3 mars 2013 | 22.07.1977 |
7 | 7 de septiembre de 2014 | 13821 |
We can standardize these date columns by using the
fix_date_df()
function and passing the data frame/tibble
object and a character vector of column names for the corresponding
columns to fix.
<- fix_date_df(exampledates, c("some.dates", "some.more.dates"))
fixed.df ::kable(fixed.df) knitr
id | some.dates | some.more.dates |
---|---|---|
1 | 1992-05-02 | 2015-07-01 |
2 | 2020-04-01 | 2000-05-02 |
3 | 1996-05-01 | 1990-05-01 |
4 | 2020-05-01 | 2012-08-01 |
5 | 1996-04-02 | 2020-01-01 |
6 | 2013-03-03 | 1977-07-22 |
7 | 2014-09-07 | 2007-11-04 |
By default, datefixR
imputes missing days of the month
as 01, and missing months as 07 (July). However, this behavior can be
modified via the day.impute
or month.impute
arguments.
<- data.frame(example = "1994")
example.df
fix_date_df(example.df, "example", month.impute = 1)
#> example
#> 1 1994-01-01
Functions in datefixR
assume day-first instead of
month-first when day, month, and year are all given (unless year is
given first). However this behavior can be modified by passing
format = "mdy"
to function calls.
Numeric representations of dates, as used by either Excel or by R, are also supported.
fix_date_char("19539")
#> [1] "2023-07-01"
fix_date_char("45108", excel = TRUE)
#> [1] "2023-07-01"
Date and time data are often reported together in the same variable
(known as “datetime”). However datetime formats are not supported by
datefixR
. The current rationale is this package is mostly
used to handle dates entered via free text web forms and it is much less
common for both date and time to be reported together in this input
method. However, if there is significant demand for support for datetime
data in the future this may added.
The package is written solely in R and seems fast enough for my current use cases (a few hundred rows). However, I may convert the core for loop to C++ in the future if speed becomes an issue.
lubridate
lubridate::guess_formats()
can be used to guess a date format and lubridate::parse_date_time()
calls this function when it attempts to parse a vector into a POSIXct
date-time object. However:
{lubridate}
then the user
is simply told how many dates failed to parse. In datefixR
the user is told the ID (assumed to be the first column by default but
can be user-specified) corresponding to the date which failed to parse
and reports the considered date: making it much easier to figure out
which dates supplied failed to parse and why.{lubridate}
. In
datefixR
, this behavior can be controlled by the
month.impute
argument.orders
argument, which may result in a date format not
being considered if the user forgets to list one of the possible
formats. By contrast, datefixR
only needs a format to be
specified if month-first is to be preferred over day-first when guessing
a date.However, {lubridate}
of course excels in general date
manipulation and is an excellent tool to use alongside
datefixR
.
anytime
An alternative function is anytime::anydate()
which also attempts to convert dates to a consistent format (POSIXct).
However {anytime}
assumes year, month, and day have all
been provided and does not permit imputation. Moreover, if a date cannot
be parsed, then the date is converted to an NA object and no warning is
raised- which may lead to issues later in the analysis.
parsedate
parsedate::parse_date()
also attempts to solve the
problem of handling arbitrary dates and parses dates into the
POSIXct
type. Unfortunately, parse_date()
cannot handle years before 1970 – instead imputing the year using the
current year without raising a warning.
::parse_date("april 15 1969")
parsedate#> [1] "2024-04-15 UTC"
Moreover, parse_date()
assumes dates are in MDY format
and does not allow the user to specify otherwise. However,
{parsedate}
has excellent support for handling dates in ISO
8601 formats.
stringi
,
readr
, and clock
These packages all use ICU
library when parsing dates (via
stringi::stri_datetime_parse()
,
readr::parse_date()
, or clock::date_parse()
)
and therefore all behave very similarly. Notably, all of these functions
require the date format to be specified including specifying a priori if
a date is missing. Ultimately, this makes these packages unsuitable when
numerous dates in different formats must be parsed.
::parse_date("02/2010", "%m/%Y")
readr#> [1] "2010-02-01"
However, these packages have support for weekdays and months in
around 211 locales whereas datefixR
supports much fewer
languages due to support for additional languages needing to be
implemented individually by hand.
These alternative packages all use compiled code and therefore have
the potential to be orders of magnitude faster than
datefixR
. However, in my own testing, I found
{anytime}
to actually be slower than datefixR
:
consistently being over 3 times slower (testing up to 10,000 dates).
lubridate::parse_date_time()
(which is written in R) is an
order of magnitude of time faster than datefixR
and
lubridate::parse_date_time2()
, which is written in C but
only allows numeric dates, is even faster. If you are don’t mind not
having control over imputation, do not expect to have to deal with many
dates which fail to parse, are confident you will specify all potential
formats the supplied dates will be in, and you have many many dates to
standardize (hundreds of thousands or more), {lubridate}
’s
functions may be a better option than datefixR
.
If speed is an absolute priority and limited control over date
parsing is acceptable, then stringi
, readr
,
and clock
are all excellent choices as they are around
105 times faster than datefixR
.
If you are interested in contributing to datefixR
,
please read our contributing
guide.
Please note that this package is released with a Contributor Code of Conduct. By contributing to this project, you agree to abide by its terms.
If you use this package in your research, please consider citing
datefixR
! An up-to-date citation can be obtained by
running
citation("datefixR")
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.
Health stats visible at Monitor.