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% Generated by roxygen2: do not edit by hand
% Please edit documentation in R/hyperbolic.R
\name{step_hyperbolic}
\alias{step_hyperbolic}
\alias{tidy.step_hyperbolic}
\title{Hyperbolic Transformations}
\usage{
step_hyperbolic(
recipe,
...,
role = NA,
trained = FALSE,
func = "sin",
inverse = TRUE,
columns = NULL,
skip = FALSE,
id = rand_id("hyperbolic")
)
\method{tidy}{step_hyperbolic}(x, ...)
}
\arguments{
\item{recipe}{A recipe object. The step will be added to the
sequence of operations for this recipe.}
\item{...}{One or more selector functions to choose which
variables are affected by the step. See \code{\link[=selections]{selections()}}
for more details. For the \code{tidy} method, these are not
currently used.}
\item{role}{Not used by this step since no new variables are
created.}
\item{trained}{A logical to indicate if the quantities for
preprocessing have been estimated.}
\item{func}{A character value for the function. Valid values
are "sin", "cos", or "tan".}
\item{inverse}{A logical: should the inverse function be used?}
\item{columns}{A character string of variable names that will
be populated (eventually) by the \code{terms} argument.}
\item{skip}{A logical. Should the step be skipped when the
recipe is baked by \code{\link[=bake.recipe]{bake.recipe()}}? While all operations are baked
when \code{\link[=prep.recipe]{prep.recipe()}} is run, some operations may not be able to be
conducted on new data (e.g. processing the outcome variable(s)).
Care should be taken when using \code{skip = TRUE} as it may affect
the computations for subsequent operations}
\item{id}{A character string that is unique to this step to identify it.}
\item{x}{A \code{step_hyperbolic} object.}
}
\value{
An updated version of \code{recipe} with the new step
added to the sequence of existing steps (if any). For the
\code{tidy} method, a tibble with columns \code{terms} (the
columns that will be affected), \code{inverse}, and \code{func}.
}
\description{
\code{step_hyperbolic} creates a \emph{specification} of a
recipe step that will transform data using a hyperbolic
function.
}
\examples{
set.seed(313)
examples <- matrix(rnorm(40), ncol = 2)
examples <- as.data.frame(examples)
rec <- recipe(~ V1 + V2, data = examples)
cos_trans <- rec \%>\%
step_hyperbolic(all_predictors(),
func = "cos", inverse = FALSE)
cos_obj <- prep(cos_trans, training = examples)
transformed_te <- bake(cos_obj, examples)
plot(examples$V1, transformed_te$V1)
tidy(cos_trans, number = 1)
tidy(cos_obj, number = 1)
}
\seealso{
\code{\link[=step_logit]{step_logit()}} \code{\link[=step_invlogit]{step_invlogit()}}
\code{\link[=step_log]{step_log()}} \code{\link[=step_sqrt]{step_sqrt()}} \code{\link[=recipe]{recipe()}}
\code{\link[=prep.recipe]{prep.recipe()}} \code{\link[=bake.recipe]{bake.recipe()}}
}
\concept{preprocessing}
\concept{transformation_methods}
\keyword{datagen}
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