https://github.com/cran/pracma
Tip revision: 7f8c12bb73c64627d031ab960efe5639f33d0069 authored by Hans W. Borchers on 11 July 2015, 00:00:00 UTC
version 1.8.6
version 1.8.6
Tip revision: 7f8c12b
taylor.Rd
\name{taylor}
\alias{taylor}
\title{
Taylor Series Approximation
}
\description{
Local polynomial approximation through Taylor series.
}
\usage{
taylor(f, x0, n = 4, ...)
}
\arguments{
\item{f}{differentiable function.}
\item{x0}{point where the series expansion will take place.}
\item{n}{Taylor series order to be used; should be \code{n <= 4}.}
\item{...}{more variables to be passed to function \code{f}.}
}
\details{
Calculates the first four coefficients of the Taylor series through
numerical differentiation and uses some polynomial `yoga'.
}
\value{
Vector of length \code{n+1} representing a polynomial of degree \code{n}.
}
\note{
TODO: Pade approximation.
}
\seealso{
\code{\link{fderiv}}
}
\examples{
taylor(sin, 0, 4) #=> -0.1666666 0.0000000 1.0000000 0.0000000
taylor(exp, 1, 4) #=> 0.04166657 0.16666673 0.50000000 1.00000000 1.00000000
f <- function(x) log(1+x)
p <- taylor(f, 0, 4)
p # log(1+x) = 0 + x - 1/2 x^2 + 1/3 x^3 - 1/4 x^4 +- ...
# [1] -0.250004 0.333334 -0.500000 1.000000 0.000000
\dontrun{
x <- seq(-1.0, 1.0, length.out=100)
yf <- f(x)
yp <- polyval(p, x)
plot(x, yf, type = "l", col = "gray", lwd = 3)
lines(x, yp, col = "red")
grid()}
}
\keyword{ math }