% Generated by roxygen2: do not edit by hand
% Please edit documentation in R/mutate.R
\name{mutate}
\alias{mutate}
\alias{mutate.data.frame}
\alias{transmute}
\title{Create, modify, and delete columns}
\usage{
mutate(.data, ...)

\method{mutate}{data.frame}(
  .data,
  ...,
  .keep = c("all", "used", "unused", "none"),
  .before = NULL,
  .after = NULL
)

transmute(.data, ...)
}
\arguments{
\item{.data}{A data frame, data frame extension (e.g. a tibble), or a
lazy data frame (e.g. from dbplyr or dtplyr). See \emph{Methods}, below, for
more details.}

\item{...}{<\code{\link[=dplyr_data_masking]{data-masking}}> Name-value pairs.
The name gives the name of the column in the output.

The value can be:
\itemize{
\item A vector of length 1, which will be recycled to the correct length.
\item A vector the same length as the current group (or the whole data frame
if ungrouped).
\item \code{NULL}, to remove the column.
\item A data frame or tibble, to create multiple columns in the output.
}}

\item{.keep}{\Sexpr[results=rd]{lifecycle::badge("experimental")}
This is an experimental argument that allows you to control which columns
from \code{.data} are retained in the output:
\itemize{
\item \code{"all"}, the default, retains all variables.
\item \code{"used"} keeps any variables used to make new variables; it's useful
for checking your work as it displays inputs and outputs side-by-side.
\item \code{"unused"} keeps only existing variables \strong{not} used to make new
variables.
\item \code{"none"}, only keeps grouping keys (like \code{\link[=transmute]{transmute()}}).
}

Grouping variables are always kept, unconditional to \code{.keep}.}

\item{.before, .after}{\Sexpr[results=rd]{lifecycle::badge("experimental")}
<\code{\link[=dplyr_tidy_select]{tidy-select}}> Optionally, control where new columns
should appear (the default is to add to the right hand side). See
\code{\link[=relocate]{relocate()}} for more details.}
}
\value{
An object of the same type as \code{.data}. The output has the following
properties:
\itemize{
\item Rows are not affected.
\item Existing columns will be preserved according to the \code{.keep} argument.
New columns will be placed according to the \code{.before} and \code{.after}
arguments. If \code{.keep = "none"} (as in \code{transmute()}), the output order
is determined only by \code{...}, not the order of existing columns.
\item Columns given value \code{NULL} will be removed
\item Groups will be recomputed if a grouping variable is mutated.
\item Data frame attributes are preserved.
}
}
\description{
\code{mutate()} adds new variables and preserves existing ones;
\code{transmute()} adds new variables and drops existing ones.
New variables overwrite existing variables of the same name.
Variables can be removed by setting their value to \code{NULL}.
}
\section{Useful mutate functions}{

\itemize{
\item \code{\link{+}}, \code{\link{-}}, \code{\link[=log]{log()}}, etc., for their usual mathematical meanings
\item \code{\link[=lead]{lead()}}, \code{\link[=lag]{lag()}}
\item \code{\link[=dense_rank]{dense_rank()}}, \code{\link[=min_rank]{min_rank()}}, \code{\link[=percent_rank]{percent_rank()}}, \code{\link[=row_number]{row_number()}},
\code{\link[=cume_dist]{cume_dist()}}, \code{\link[=ntile]{ntile()}}
\item \code{\link[=cumsum]{cumsum()}}, \code{\link[=cummean]{cummean()}}, \code{\link[=cummin]{cummin()}}, \code{\link[=cummax]{cummax()}}, \code{\link[=cumany]{cumany()}}, \code{\link[=cumall]{cumall()}}
\item \code{\link[=na_if]{na_if()}}, \code{\link[=coalesce]{coalesce()}}
\item \code{\link[=if_else]{if_else()}}, \code{\link[=recode]{recode()}}, \code{\link[=case_when]{case_when()}}
}
}

\section{Grouped tibbles}{


Because mutating expressions are computed within groups, they may
yield different results on grouped tibbles. This will be the case
as soon as an aggregating, lagging, or ranking function is
involved. Compare this ungrouped mutate:\preformatted{starwars \%>\%
  select(name, mass, species) \%>\%
  mutate(mass_norm = mass / mean(mass, na.rm = TRUE))
}

With the grouped equivalent:\preformatted{starwars \%>\%
  select(name, mass, species) \%>\%
  group_by(species) \%>\%
  mutate(mass_norm = mass / mean(mass, na.rm = TRUE))
}

The former normalises \code{mass} by the global average whereas the
latter normalises by the averages within species levels.
}

\section{Methods}{

These function are \strong{generic}s, which means that packages can provide
implementations (methods) for other classes. See the documentation of
individual methods for extra arguments and differences in behaviour.

Methods available in currently loaded packages:
\itemize{
\item \code{mutate()}: \Sexpr[stage=render,results=rd]{dplyr:::methods_rd("mutate")}.
\item \code{transmute()}: \Sexpr[stage=render,results=rd]{dplyr:::methods_rd("transmute")}.
}
}

\examples{
# Newly created variables are available immediately
starwars \%>\%
 select(name, mass) \%>\%
 mutate(
  mass2 = mass * 2,
  mass2_squared = mass2 * mass2
)

# As well as adding new variables, you can use mutate() to
# remove variables and modify existing variables.
starwars \%>\%
 select(name, height, mass, homeworld) \%>\%
 mutate(
  mass = NULL,
  height = height * 0.0328084 # convert to feet
)

# Use across() with mutate() to apply a transformation
# to multiple columns in a tibble.
starwars \%>\%
 select(name, homeworld, species) \%>\%
 mutate(across(!name, as.factor))
# see more in ?across

# Window functions are useful for grouped mutates:
starwars \%>\%
 select(name, mass, homeworld) \%>\%
 group_by(homeworld) \%>\%
 mutate(rank = min_rank(desc(mass)))
# see `vignette("window-functions")` for more details

# By default, new columns are placed on the far right.
# Experimental: you can override with `.before` or `.after`
df <- tibble(x = 1, y = 2)
df \%>\% mutate(z = x + y)
df \%>\% mutate(z = x + y, .before = 1)
df \%>\% mutate(z = x + y, .after = x)

# By default, mutate() keeps all columns from the input data.
# Experimental: You can override with `.keep`
df <- tibble(x = 1, y = 2, a = "a", b = "b")
df \%>\% mutate(z = x + y, .keep = "all") # the default
df \%>\% mutate(z = x + y, .keep = "used")
df \%>\% mutate(z = x + y, .keep = "unused")
df \%>\% mutate(z = x + y, .keep = "none") # same as transmute()

# Grouping ----------------------------------------
# The mutate operation may yield different results on grouped
# tibbles because the expressions are computed within groups.
# The following normalises `mass` by the global average:
starwars \%>\%
  select(name, mass, species) \%>\%
  mutate(mass_norm = mass / mean(mass, na.rm = TRUE))

# Whereas this normalises `mass` by the averages within species
# levels:
starwars \%>\%
  select(name, mass, species) \%>\%
  group_by(species) \%>\%
  mutate(mass_norm = mass / mean(mass, na.rm = TRUE))

# Indirection ----------------------------------------
# Refer to column names stored as strings with the `.data` pronoun:
vars <- c("mass", "height")
mutate(starwars, prod = .data[[vars[[1]]]] * .data[[vars[[2]]]])
# Learn more in ?dplyr_data_masking
}
\seealso{
Other single table verbs: 
\code{\link{arrange}()},
\code{\link{filter}()},
\code{\link{rename}()},
\code{\link{select}()},
\code{\link{slice}()},
\code{\link{summarise}()}
}
\concept{single table verbs}