Nothing
R/hessian.R
In pracma: Practical Numerical Math Functions
Defines functions
laplacian
hessdiag
hessian
Documented in
hessdiag
hessian
laplacian
##
## h e s s i a n . R Hessian Matrix
##
hessian <- function(f, x0, h = .Machine$double.eps^(1/4), ...) {
if (!is.numeric(x0))
stop("Argument 'x0' must be a numeric vector.")
fun <- match.fun(f)
f <- function(x) fun(x, ...)
n <- length(x0)
if (length(f(x0)) != 1)
stop("Function 'f' must be a univariate function of n variables.")
if (n == 1)
return(matrix(fderiv(f, x0, n = 2, h = h), nrow = 1, ncol = 1))
H <- matrix(NA, nrow = n, ncol = n)
hh <- diag(h, n)
for (i in 1:(n-1)) {
hi <- hh[, i]
H[i, i] <- (f(x0-hi) - 2*f(x0) + f(x0+hi)) / h^2
for (j in (i+1):n) {
hj <- hh[, j]
H[i, j] <- (f(x0+hi+hj) - f(x0+hi-hj) - f(x0-hi+hj) + f(x0-hi-hj)) / (4*h^2)
H[j, i] <- H[i, j]
}
}
hi <- hh[, n]
H[n, n] <- (f(x0-hi) - 2*f(x0) + f(x0+hi)) / h^2
return(H)
}
hessvec <- function (f, x, v, csd = FALSE, ...) {
if (!is.numeric(x) || !is.numeric(v))
stop("Arguments 'x' and 'v' must be a numeric.")
fun <- match.fun(f)
f <- function(x) fun(x, ...)
if (length(x) < 2 || length(f(x)) != 1)
stop("Function 'f' must be univariate of 2 or more variables.")
if (length(v) != length(x))
stop("Vectors 'x' and 'v' must be of equal length.")
h <- .Machine$double.eps^(1/4)
r <- h / sqrt(sum(v*v))
if (csd) {
hv <- (grad_csd(f, x+r*v) - grad_csd(f, x-r*v))/(2*r)
} else {
hv <- (grad(f, x+r*v) - grad(f, x-r*v))/(2*r)
}
return(hv)
}
hessdiag <- function(f, x, ...) {
if (!is.numeric(x))
stop("Arguments 'x' and 'v' must be a numeric.")
fun <- match.fun(f)
f <- function(x) fun(x, ...)
if (length(x) < 2 || length(f(x)) != 1)
stop("Function 'f' must be univariate of 2 or more variables.")
n <- length(x)
h <- .Machine$double.eps^(1/4)
hh <- rep(0, n)
HD <- numeric(n)
for (i in 1:n) {
hh[i] <- h
HD[i] <- (f(x + hh) - 2*f(x) + f(x - hh)) / h^2
hh[i] <- 0
}
return(HD)
}
laplacian <- function(f, x0, h = .Machine$double.eps^(1/4), ...) {
if (!is.numeric(x0))
stop("Argument 'x0' must be a numeric vector.")
fun <- match.fun(f)
f <- function(x) fun(x, ...)
n <- length(x0)
hh <- rep(0, n)
L <- 0
for (i in 1:n) {
hh[i] <- h
L <- L + (f(x0+hh) + f(x0-hh) - 2*f(x0)) / h^2
hh[i] <- 0
}
return(L)
}
Try the pracma package in your browser
Any scripts or data that you put into this service are public.
pracma documentation built on Nov. 10, 2023, 1:14 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Defines functions laplacian hessdiag hessian
Documented in hessdiag hessian laplacian
##
## h e s s i a n . R Hessian Matrix
##
hessian <- function(f, x0, h = .Machine$double.eps^(1/4), ...) {
if (!is.numeric(x0))
stop("Argument 'x0' must be a numeric vector.")
fun <- match.fun(f)
f <- function(x) fun(x, ...)
n <- length(x0)
if (length(f(x0)) != 1)
stop("Function 'f' must be a univariate function of n variables.")
if (n == 1)
return(matrix(fderiv(f, x0, n = 2, h = h), nrow = 1, ncol = 1))
H <- matrix(NA, nrow = n, ncol = n)
hh <- diag(h, n)
for (i in 1:(n-1)) {
hi <- hh[, i]
H[i, i] <- (f(x0-hi) - 2*f(x0) + f(x0+hi)) / h^2
for (j in (i+1):n) {
hj <- hh[, j]
H[i, j] <- (f(x0+hi+hj) - f(x0+hi-hj) - f(x0-hi+hj) + f(x0-hi-hj)) / (4*h^2)
H[j, i] <- H[i, j]
}
}
hi <- hh[, n]
H[n, n] <- (f(x0-hi) - 2*f(x0) + f(x0+hi)) / h^2
return(H)
}
hessvec <- function (f, x, v, csd = FALSE, ...) {
if (!is.numeric(x) || !is.numeric(v))
stop("Arguments 'x' and 'v' must be a numeric.")
fun <- match.fun(f)
f <- function(x) fun(x, ...)
if (length(x) < 2 || length(f(x)) != 1)
stop("Function 'f' must be univariate of 2 or more variables.")
if (length(v) != length(x))
stop("Vectors 'x' and 'v' must be of equal length.")
h <- .Machine$double.eps^(1/4)
r <- h / sqrt(sum(v*v))
if (csd) {
hv <- (grad_csd(f, x+r*v) - grad_csd(f, x-r*v))/(2*r)
} else {
hv <- (grad(f, x+r*v) - grad(f, x-r*v))/(2*r)
}
return(hv)
}
hessdiag <- function(f, x, ...) {
if (!is.numeric(x))
stop("Arguments 'x' and 'v' must be a numeric.")
fun <- match.fun(f)
f <- function(x) fun(x, ...)
if (length(x) < 2 || length(f(x)) != 1)
stop("Function 'f' must be univariate of 2 or more variables.")
n <- length(x)
h <- .Machine$double.eps^(1/4)
hh <- rep(0, n)
HD <- numeric(n)
for (i in 1:n) {
hh[i] <- h
HD[i] <- (f(x + hh) - 2*f(x) + f(x - hh)) / h^2
hh[i] <- 0
}
return(HD)
}
laplacian <- function(f, x0, h = .Machine$double.eps^(1/4), ...) {
if (!is.numeric(x0))
stop("Argument 'x0' must be a numeric vector.")
fun <- match.fun(f)
f <- function(x) fun(x, ...)
n <- length(x0)
hh <- rep(0, n)
L <- 0
for (i in 1:n) {
hh[i] <- h
L <- L + (f(x0+hh) + f(x0-hh) - 2*f(x0)) / h^2
hh[i] <- 0
}
return(L)
}
Try the pracma package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.