The hardware and bandwidth for this mirror is donated by METANET, the Webhosting and Full Service-Cloud Provider.
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[@]metanet.ch.
The vtable
package serves the purpose of outputting
automatic variable documentation that can be easily viewed while
continuing to work with data.
vtable
contains four main functions:
vtable()
(or vt()
), sumtable()
(or st()
), labeltable()
, and
dftoHTML()
/dftoLaTeX()
.
This vignette focuses on some bonus helper functions that come with
vtable
that have been exported because they may be handy to
you. This can come in handy for saving a little time, and can help you
avoid having to create an unnamed function when you need to call a
function.
vtable
includes four shortcut functions. These are
generally intended for use with the summ
option in
vtable
and sumtable
because nested functions
don’t look very nice in a vtable
, or in a
sumtable
unless you explicitly set the
summ.names
.
nuniq
nuniq(x)
returns length(unique(x))
, the
number of unique values in the vector.
countNA
, propNA
, and
notNA
These three functions are shortcuts for dealing with missing data. You have probably written out the nested versions of these many times!
Function | Short For |
---|---|
countNA() |
sum(is.na()) |
propNA() |
mean(is.na()) |
notNA() |
sum(!is.na()) |
Note that notNA()
also has some additional formatting
options, which you would probably ignore if using it iteractively.
is.round
This function is a shortcut for
!any(!(x == round(x,digits)))
.
It takes two arguments: a vector x
and a number of
digits
(0 by default). It checks whether you can round to
digits
digits without losing any information.
formatfunc
formatfunc()
is a function that returns a function,
which itself helps format numbers using the format()
function, in the same spirit as the label_
functions in the
scales package. It is largely used for the numformat
argument of sumtable()
.
formatfunc()
for the most part takes the same arguments
as format()
, and so help(format)
can be a
guide for using it. However, there are some differences.
Some defaults are changed. By default,
scientific = FALSE, trim = TRUE
.
There are four new arguments as well. percent = TRUE
will format the number as a percentage by multiplying it by 100 and
adding a % at the end. You can instead set percent
equal to
some number, and that number will instead be taken as 100%, instead of
1. So percent = 100
, for example, will just add a % at the
end without doing any multiplying.
prefix
and suffix
will, naturally, add
prefixes or suffixes to the formatted number. So
prefix = '$', suffix = 'M'
, for example, will produce a
function that will turn 3
into $3M
.
scale
will multiply the number by scale
before
formatting it. So
prefix = '$', suffix = 'M', scale = 1/1000000
will turn
3000000
into $3M
.
library(vtable)
my_formatter_func <- formatfunc(percent = TRUE, digits = 3, nsmall = 2, big.mark = ',')
my_formatter_func(523.2355987)
## [1] "52,323.56%"
pctile
pctile(x)
is short for
quantile(x,1:100/100)
. So in one sense this is another
shortcut function. But this inherently lets you interact with
percentiles a bit differently.
While quantile()
has you specify which percentile you
want in the function call, pctile()
returns an object with
all integer percentiles, and you can pull out which ones you want
afterwards. pctile(x)[50]
is the 50th percentile, etc..
This can be convenient in several applications, an obvious one being in
sumtable
.
library(vtable)
#Some random normal data, and its percentiles
d <- rnorm(1000)
pc <- pctile(d)
#25th, 50th, 75th percentile
pc[c(25,50,75)]
## 25% 50% 75%
## -0.66718561 -0.02797023 0.70470260
weighted.sd
weighted.sd(x, w)
is a function to calculate a weighted
standard deviation of x
using w
as weights,
much like the base weighted.mean()
does for means. It is
mostly used as a helper function for sumtable()
when
group.weights
is specified. However, you can use it on its
own if you like. Unlike weighted.mean()
, setting
na.rm = TRUE
will account for missings both in
x
and w
.
The weighted standard deviation is calculated as
\[ \frac{\sum_i(w_i*(x_i-\bar{x}_w)^2)}{\frac{N_w-1}{N_w}\sum_iw_i} \]
Where \(\bar{x}_w\) is the weighted mean of \(x\), and \(N_w\) is the number of observations with a nonzero weight.
## [1] 67
## [1] 29.01149
## [1] 23.80476
independence.test
independence.test
is a helper function for
sumtable(group.test=TRUE)
that tests for independence
between a categorical variable x
and another variable
y
that may be categorical or numerical.
Then, it outputs a formatted string as its output, with significance stars, for printing.
The function takes the format
independence.test(x,y,w=NA,
factor.test = NA,
numeric.test = NA,
star.cutoffs = c(.01,.05,.1),
star.markers = c('***','**','*'),
digits = 3,
fixed.digits = FALSE,
format = '{name}={stat}{stars}',
opts = list())
factor.test
and numeric.test
These are functions that actually perform the independence test.
numeric.test
is used when y
is numeric, and
factor.test
is used in all other instances.
Specifically, these functions should take only x
,
y
, and w=NULL
as arguments, and should return
a list with three elements: the name of the test statistic, the test
statistic itself, and the p-value of the test.
By default, these are the internal functions
vtable:::chisq.it
for factor.test
and
vtable:::groupf.it
for numeric.test
, so you
can take a look at those (just put vtable:::chisq.it
in the
terminal and it will show you the function’s code) if you’d like to make
your own test functions.
star.cutoffs
and star.markers
These are numeric and character vectors, respectively, used for p-value cutoffs and to create significance markers.
star.cutoffs
indicates the cutoffs, and
star.markers
indicates the markers to be used with each
cutoff, in the same order. So with
star.cutoffs = c(.01,.05,.1)
and
star.markers = c('***','**','*')
, each p-value below .01
will get marked with '***'
, each from .01 to .05 will get
'**'
, and each from .05 to .1 will get *
.
Defaults are set to “economics defaults” (.1, .05, .01). But these are of course easy to change.
## [1] "F=119.265*"
digits
and fixed.digits
digits
indicates how many digits after the decimal place
from the test statistics and p-values should be displayed.
fixed.digits
determines whether trailing zeros are
maintained.
## [1] "F=49.2***"
## [1] "F=49.1600***"
format
This is the printing format that the output will produce,
incorporating the name of the test statistic {name}
, the
test statistic {stat}
, the significance markers
{stars}
, and the p-value {pval}
.
If your independence.test
is heading out to another
format besides being printed in the R console, you may want to add
additional markup like '{name}$={stat}^{stars}$'}
in LaTeX
or '{name}={stat}<sup>{stars}</sup>'
in HTML.
If you do this, be sure to think carefully about escaping or not
escaping characters as appropriate when you print!
## [1] "Pr(>F): <0.001***"
opts
You can create a named list where the names are the above options and
the values are the settings for those options, and input it into
independence.test
using opts=
. This is an easy
way to set the same options for many
independence.test
s.
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.