Nothing
describe_prior <- function(
prior,
digits = 3
) {
if (is.null(prior) || !inherits(prior, "prior")) {
return(NULL)
}
family <- attr(prior, "family")
param <- attr(prior, "param")
if (is.numeric(param)) {
param <- round(param, digits)
}
labels <- switch(family,
"norm" = paste0("mean=", param[1], ", sd=", param[2]),
"t" = paste0("location=", param[1], ", scale=", param[2], ", nu=", param[3]),
"beta" = paste0("shape1=", param[1], ", shape2=", param[2]),
"invgamma" = paste0("shape=", param[1], ", scale=", param[2]),
"gamma" = paste0("shape=", param[1], ", rate=", param[2]),
"0" = paste0("H0: ", attr(prior, "label"), " = 0) "),
"custom" = paste0("user-specified function"),
stop("Distribution not supported.")
)
if (family == "custom") {
truncated <- TRUE
} else {
truncated <-
default_lower(family) != attr(prior, "lower") ||
default_upper(family) != attr(prior, "upper")
}
trunc <- switch(family,
"beta" = ") rescaled to the interval",
"0" = "",
ifelse(truncated,
") truncated to the interval",
") with support on the interval"
)
)
paste0(
"'", attr(prior, "family"), "' (", labels, trunc, " [",
attr(prior, "lower"), ",", attr(prior, "upper"), "]."
)
}
#' @export
print.prior <- function(
x,
digits = 3,
...
) {
cat("Prior density function (class='prior'):",
describe_prior(x, digits = digits), "\n")
}
#' @importFrom LaplacesDemon rinvgamma rst dst pst qst
rprior <- function(
n,
prior
) {
if (is.null(prior)) {
return(NULL)
}
param <- attr(prior, "param")
lower <- attr(prior, "lower")
upper <- attr(prior, "upper")
truncated <- lower != default_lower(attr(prior, "family")) ||
upper != default_upper(attr(prior, "family"))
# random number generation with truncation:
if (truncated) {
x <- switch(
EXPR = attr(prior, "family"),
"norm" = LaplacesDemon::rtrunc(n, spec = "norm", lower, upper,
mean = param[1], sd = param[2]),
"t" = LaplacesDemon::rtrunc(n, spec = "st", lower, upper,
mu = param[1], sigma = param[2], nu = param[3]),
"gamma" = LaplacesDemon::rtrunc(n, spec = "gamma", lower, upper,
shape = param[1], rate = param[2]),
# custom function "rtrunc" for inverse gamma (not LaplacesDemon!)
"invgamma" = rtrunc(n, "invgamma", lower, upper,
shape = param[1], scale = param[2]
),
# scaled beta:
"beta" = lower + (upper - lower) * rbeta(n, param[1], param[2]),
"0" = rep(0, n),
"custom" = stop("Custom prior not supported."),
stop("Distribution not supported.")
)
# random number generation without truncation:
} else {
x <- switch(
EXPR = attr(prior, "family"),
"norm" = rnorm(n, mean = param[1], sd = param[2]),
"t" = rst(n, mu = param[1], sigma = param[2], nu = param[3]),
"beta" = rbeta(n, param[1], param[2]),
"invgamma" = LaplacesDemon::rinvgamma(n, shape = param[1], scale = param[2]),
"gamma" = rgamma(n, shape = param[1], rate = param[2]),
"0" = rep(0, n),
"custom" = stop("Custom prior not supported."),
stop("Distribution not supported.")
)
}
x
}
truncnorm_mean <- function(
mean,
sd,
lower,
upper
) {
alpha <- (lower - mean) / sd
beta <- (upper - mean) / sd
diff_cdf <- pnorm(beta) - pnorm(alpha)
diff_pdf <- dnorm(alpha) - dnorm(beta)
mean + sd * diff_pdf / diff_cdf
}
log_diff_exp <- function(
logx1,
logx2
) {
c <- logx1
log(exp(logx1 - c) - exp(logx2 - c)) + c
}
############## random sampling for custom prior not supported
# lb <- attr(prior, "lower")
# ub <- attr(prior, "upper")
# px <- function(p) sapply(p, function(pp)
# integrate(prior, lb, pp)$value )
# u <- runif(n, lb, ub)
#
# xx <- seq(max(lb, 0), min(ub, 3), length.out = 201)
# cnt <- 1
# while (px(xx[1]) > .002) {
# cnt <- cnt + 1
# newx <- seq(min(xx)-1, min(xx), length.out = 41)
# xx <- c(newx, xx)
# }
# cnt <- 1
# while (px(max(xx)) < .998) {
# cnt <- cnt + 1
# newx <- seq(from = max(xx), to = max(xx)+1, length.out = 41)
# xx <- c(xx, newx)
# }
# dx <- prior(xx)
# px <- cumsum(dx)
# qdens <- splinefun(px, xx)
# length.interval <- function (start) {
# qdens(start+ci)-qdens(start)
# }
# oo <- optim((1-ci)/2, length.interval, method = "L-BFGS-B",
# lower=min(px), upper=max(px)-ci)
# if (log) dx <- log(dx)
# return (dx)
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