https://github.com/cran/lattice
Tip revision: ee769229132969462ab7746f8b670e7a778254b8 authored by Deepayan Sarkar on 07 September 2007, 00:00:00 UTC
version 0.16-5
version 0.16-5
Tip revision: ee76922
histogram.Rd
\name{histogram}
\alias{histogram}
\alias{histogram.factor}
\alias{histogram.numeric}
\alias{histogram.formula}
\alias{densityplot}
\alias{densityplot.numeric}
\alias{densityplot.formula}
\alias{do.breaks}
\title{Histograms and Kernel Density Plots}
\usage{
histogram(x, data, \dots)
densityplot(x, data, \dots)
\method{histogram}{formula}(x,
data,
allow.multiple, outer = TRUE,
auto.key = FALSE,
aspect = "fill",
panel = lattice.getOption("panel.histogram"),
prepanel, scales, strip, groups,
xlab, xlim, ylab, ylim,
type = c("percent", "count", "density"),
nint = if (is.factor(x)) nlevels(x)
else round(log2(length(x)) + 1),
endpoints = extend.limits(range(x, finite = TRUE), prop = 0.04),
breaks,
equal.widths = TRUE,
drop.unused.levels = lattice.getOption("drop.unused.levels"),
\dots,
lattice.options = NULL,
default.scales = list(),
subscripts,
subset)
\method{histogram}{numeric}(x, data = NULL, xlab, \dots)
\method{histogram}{factor}(x, data = NULL, xlab, \dots)
\method{densityplot}{formula}(x,
data,
allow.multiple = is.null(groups) || outer,
outer = !is.null(groups),
auto.key = FALSE,
aspect = "fill",
panel = lattice.getOption("panel.densityplot"),
prepanel, scales, strip, groups,
xlab, xlim, ylab, ylim,
bw, adjust, kernel, window, width, give.Rkern,
n = 50, from, to, cut, na.rm,
drop.unused.levels = lattice.getOption("drop.unused.levels"),
\dots,
lattice.options = NULL,
default.scales = list(),
subscripts,
subset)
\method{densityplot}{numeric}(x, data = NULL, xlab, \dots)
do.breaks(endpoints, nint)
}
\description{
Draw Histograms and Kernel Density Plots, possibly conditioned on
other variables.
}
\arguments{
\item{x}{
The object on which method dispatch is carried out.
For the \code{formula} method, a formula of the form \code{~ x | g1
* g2 * \dots} indicates that histograms or Kernel Density
estimates of \code{x} should be produced conditioned on the levels
of the (optional) variables \code{g1, g2, \dots}. \code{x} can be
numeric (or factor for \code{histogram}), and each of \code{g1, g2,
\dots} must be either factors or shingles.
As a special case, the right hand side of the formula can contain
more than one variable separated by a \code{+} sign. What happens in
this case is described in details in the documentation for
\code{\link{xyplot}}. Note that in either form, all the variables
involved in the formula have to have same length.
For the \code{numeric} and \code{factor} methods, \code{x}
replaces the \code{x} vector described above. Conditioning is not
allowed in these cases.
}
\item{data}{
For the \code{formula} method, an optional data frame in which
variables are to be evaluated. Ignored with a warning in other
cases.
}
\item{type}{
Character string indicating type of histogram to be drawn.
\code{"percent"} and \code{"count"} give relative frequency
and frequency histograms, and can be misleading when breakpoints are
not equally spaced. \code{"density"} produces a density scale
histogram.
\code{type} defaults to \code{"percent"}, except when the
breakpoints are unequally spaced or \code{breaks = NULL}, when it
defaults to \code{"density"}.
}
\item{nint}{
Number of bins. Applies only when \code{breaks} is unspecified or
\code{NULL} in the call. Not applicable when the variable being
plotted is a factor.
}
\item{endpoints}{
vector of length 2 indicating the range of x-values that is to be
covered by the histogram. This applies only when \code{breaks} is
unspecified and the variable being plotted is not a factor. In
\code{do.breaks}, this specifies the interval that is to be divided
up.
}
\item{breaks}{ usually a numeric vector of length (number of bins +
1) defining the breakpoints of the bins. Note that when breakpoints
are not equally spaced, the only value of \code{type} that makes
sense is density. When unspecified, the default is to use
\preformatted{
breaks = seq_len(1 + nlevels(x)) - 0.5
}
when \code{x} is a factor, and
\preformatted{
breaks = do.breaks(endpoints, nint)
}
otherwise. Breakpoints calculated in such a manner are used in all
panels.
Other values of \code{breaks} are possible, in which case they
affect the display in each panel differently. A special value of
\code{breaks} is \code{NULL}, in which case the number of bins is
determined by \code{nint} and then breakpoints are chosen according to
the value of \code{equal.widths}. Other valid values of
\code{breaks} are those of the \code{breaks} argument in
\code{\link{hist}}. This allows specification of \code{breaks} as
an integer giving the number of bins (similar to \code{nint}), as a
character string denoting a method, and as a function.
}
\item{equal.widths}{ logical, relevant only when \code{breaks=NULL}.
If \code{TRUE}, equally spaced bins will be selected, otherwise,
approximately equal area bins will be selected (this would mean that
the breakpoints will \bold{not} be equally spaced).
}
\item{n}{ number of points at which density is to be evaluated }
\item{panel}{ The function that uses the packet (subset of display
variables) corresponding to a panel to create a display. Default
panel functions are documented separately, and often have arguments
that can be used to customize its display in various ways. Such
arguments can usually be directly supplied to the high level
function. }
% \item{panel.groups}{ function used as the \code{panel.groups} argument
% when \code{panel.superpose} is used as the panel function, which
% happens by default when \code{groups} is non-null. }
\item{allow.multiple, outer, auto.key, aspect, prepanel, scales,
strip, groups, xlab, xlim, ylab, ylim, drop.unused.levels,
lattice.options, default.scales, subscripts, subset}{ See
\code{\link{xyplot}} }
\item{bw, adjust, kernel, window, width, give.Rkern, from, to, cut,
na.rm}{ arguments to \code{\link{density}}, passed on as appropriate
}
\item{\dots}{ Further arguments. See corresponding entry in
\code{\link{xyplot}} for non-trivial details. }
}
\value{
An object of class \code{"trellis"}. The
\code{\link[lattice:update.trellis]{update}} method can be used to
update components of the object and the
\code{\link[lattice:print.trellis]{print}} method (usually called by
default) will plot it on an appropriate plotting device.
}
\details{
\code{histogram} draws Conditional Histograms, while
\code{densityplot} draws Conditional Kernel Density Plots. The
density estimate in \code{densityplot} is actually calculated using
the function \code{density}, and all arguments accepted by it can be
passed (as \code{\dots}) in the call to \code{densityplot} to control
the output. See documentation of \code{density} for details. (Note:
The default value of the argument \code{n} of \code{density} is
changed to 50.)
These and all other high level Trellis functions have several
arguments in common. These are extensively documented only in the
help page for \code{xyplot}, which should be consulted to learn more
detailed usage.
\code{do.breaks} is an utility function that calculates breakpoints
given an interval and the number of pieces to break it into.
}
\note{
The form of the arguments accepted by the default panel function
\code{panel.histogram} is different from that in S-PLUS. Whereas
S-PLUS calculates the heights inside \code{histogram} and passes only
the breakpoints and the heights to the panel function, here the
original variable \code{x} is passed along with the breakpoints. This
allows plots as in the second example below.
}
\seealso{
\code{\link{xyplot}},
\code{\link{panel.histogram}},
\code{\link{density}},
\code{\link{panel.densityplot}},
\code{\link{panel.mathdensity}},
\code{\link{Lattice}}
}
\author{ Deepayan Sarkar \email{Deepayan.Sarkar@R-project.org}}
\examples{
require(stats)
histogram( ~ height | voice.part, data = singer, nint = 17,
endpoints = c(59.5, 76.5), layout = c(2,4), aspect = 1,
xlab = "Height (inches)")
histogram( ~ height | voice.part, data = singer,
xlab = "Height (inches)", type = "density",
panel = function(x, ...) {
panel.histogram(x, ...)
panel.mathdensity(dmath = dnorm, col = "black",
args = list(mean=mean(x),sd=sd(x)))
} )
densityplot( ~ height | voice.part, data = singer, layout = c(2, 4),
xlab = "Height (inches)", bw = 5)
}
\keyword{hplot}