% Generated by roxygen2: do not edit by hand % Please edit documentation in R/freq.R \name{freq} \alias{freq} \alias{frequency_tbl} \alias{top_freq} \alias{print.frequency_tbl} \title{Frequency table} \usage{ frequency_tbl(x, ..., sort.count = TRUE, nmax = getOption("max.print.freq"), na.rm = TRUE, row.names = TRUE, markdown = !interactive(), digits = 2, quote = FALSE, header = !markdown, title = NULL, na = "", sep = " ") freq(x, ..., sort.count = TRUE, nmax = getOption("max.print.freq"), na.rm = TRUE, row.names = TRUE, markdown = !interactive(), digits = 2, quote = FALSE, header = !markdown, title = NULL, na = "", sep = " ") top_freq(f, n) \method{print}{frequency_tbl}(x, nmax = getOption("max.print.freq", default = 15), markdown = !interactive(), header = !markdown, ...) } \arguments{ \item{x}{vector of any class or a \code{\link{data.frame}}, \code{\link{tibble}} (may contain a grouping variable) or \code{\link{table}}} \item{...}{up to nine different columns of \code{x} when \code{x} is a \code{data.frame} or \code{tibble}, to calculate frequencies from - see Examples} \item{sort.count}{sort on count, i.e. frequencies. This will be \code{TRUE} at default for everything except when using grouping variables.} \item{nmax}{number of row to print. The default, \code{15}, uses \code{\link{getOption}("max.print.freq")}. Use \code{nmax = 0}, \code{nmax = Inf}, \code{nmax = NULL} or \code{nmax = NA} to print all rows.} \item{na.rm}{a logical value indicating whether \code{NA} values should be removed from the frequency table. The header (if set) will always print the amount of \code{NA}s.} \item{row.names}{a logical value indicating whether row indices should be printed as \code{1:nrow(x)}} \item{markdown}{a logical value indicating whether the frequency table should be printed in markdown format. This will print all rows and is default behaviour in non-interactive R sessions (like when knitting RMarkdown files).} \item{digits}{how many significant digits are to be used for numeric values in the header (not for the items themselves, that depends on \code{\link{getOption}("digits")})} \item{quote}{a logical value indicating whether or not strings should be printed with surrounding quotes} \item{header}{a logical value indicating whether an informative header should be printed} \item{title}{text to show above frequency table, at default to tries to coerce from the variables passed to \code{x}} \item{na}{a character string to should be used to show empty (\code{NA}) values (only useful when \code{na.rm = FALSE})} \item{sep}{a character string to separate the terms when selecting multiple columns} \item{f}{a frequency table} \item{n}{number of top \emph{n} items to return, use -n for the bottom \emph{n} items. It will include more than \code{n} rows if there are ties.} } \value{ A \code{data.frame} with an additional class \code{"frequency_tbl"} } \description{ Create a frequency table of a vector with items or a data frame. Supports quasiquotation and markdown for reports. \code{top_freq} can be used to get the top/bottom \emph{n} items of a frequency table, with counts as names. } \details{ Frequency tables (or frequency distributions) are summaries of the distribution of values in a sample. With the `freq` function, you can create univariate frequency tables. Multiple variables will be pasted into one variable, so it forces a univariate distribution. This package also has a vignette available to explain the use of this function further, run \code{browseVignettes("AMR")} to read it. For numeric values of any class, these additional values will all be calculated with \code{na.rm = TRUE} and shown into the header: \itemize{ \item{Mean, using \code{\link[base]{mean}}} \item{Standard Deviation, using \code{\link[stats]{sd}}} \item{Coefficient of Variation (CV), the standard deviation divided by the mean} \item{Mean Absolute Deviation (MAD), using \code{\link[stats]{mad}}} \item{Tukey Five-Number Summaries (minimum, Q1, median, Q3, maximum), using \code{\link[stats]{fivenum}}} \item{Interquartile Range (IQR) calculated as \code{Q3 - Q1} using the Tukey Five-Number Summaries, i.e. \strong{not} using the \code{\link[stats]{quantile}} function} \item{Coefficient of Quartile Variation (CQV, sometimes called coefficient of dispersion), calculated as \code{(Q3 - Q1) / (Q3 + Q1)} using the Tukey Five-Number Summaries} \item{Outliers (total count and unique count), using \code{\link[grDevices]{boxplot.stats}}} } For dates and times of any class, these additional values will be calculated with \code{na.rm = TRUE} and shown into the header: \itemize{ \item{Oldest, using \code{\link{min}}} \item{Newest, using \code{\link{max}}, with difference between newest and oldest} \item{Median, using \code{\link[stats]{median}}, with percentage since oldest} } The function \code{top_freq} uses \code{\link[dplyr]{top_n}} internally and will include more than \code{n} rows if there are ties. } \examples{ library(dplyr) # this all gives the same result: freq(septic_patients$hospital_id) freq(septic_patients[, "hospital_id"]) septic_patients$hospital_id \%>\% freq() septic_patients[, "hospital_id"] \%>\% freq() septic_patients \%>\% freq("hospital_id") septic_patients \%>\% freq(hospital_id) #<- easiest to remember (tidyverse) # you could also use `select` or `pull` to get your variables septic_patients \%>\% filter(hospital_id == "A") \%>\% select(mo) \%>\% freq() # multiple selected variables will be pasted together septic_patients \%>\% left_join_microorganisms \%>\% filter(hospital_id == "A") \%>\% freq(genus, species) # group a variable and analyse another septic_patients \%>\% group_by(hospital_id) \%>\% freq(gender) # get top 10 bugs of hospital A as a vector septic_patients \%>\% filter(hospital_id == "A") \%>\% freq(mo) \%>\% top_freq(10) # save frequency table to an object years <- septic_patients \%>\% mutate(year = format(date, "\%Y")) \%>\% freq(year) # show only the top 5 years \%>\% print(nmax = 5) # save to an object with formatted percentages years <- format(years) # print a histogram of numeric values septic_patients \%>\% freq(age) \%>\% hist() # or print all points to a regular plot septic_patients \%>\% freq(age) \%>\% plot() # transform to a data.frame or tibble septic_patients \%>\% freq(age) \%>\% as.data.frame() # or transform (back) to a vector septic_patients \%>\% freq(age) \%>\% as.vector() identical(septic_patients \%>\% freq(age) \%>\% as.vector() \%>\% sort(), sort(septic_patients$age)) # TRUE # it also supports `table` objects: table(septic_patients$gender, septic_patients$age) \%>\% freq(sep = " **sep** ") # check differences between frequency tables diff(freq(septic_patients$trim), freq(septic_patients$trsu)) } \keyword{freq} \keyword{frequency} \keyword{summarise} \keyword{summary}