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R/weibull.R
In BayesForge: Bayesian Inference using 'numpyro' and 'XLA'
Defines functions
bf.dist.weibull
Documented in
bf.dist.weibull
#' @title Samples from a Weibull distribution.
#' @description
#' The Weibull distribution is widely used for modeling **lifetime or reliability data**. Its shape parameter (k) controls the hazard function:
#' * (k < 1): decreasing hazard (infant mortality)
#' * (k = 1): constant hazard ??? reduces to **Exponential distribution**
#' * (k > 1): increasing hazard (aging/failure over time)
#'
#' @param scale A numeric vector, matrix, or array representing the scale parameter of the Weibull distribution. Must be positive.
#' @param concentration A numeric vector, matrix, or array representing the shape parameter of the Weibull distribution. Must be positive.
#' @param shape A numeric vector. This is used with `.expand(shape)` when `sample=False` (model building) to set the distribution's batch shape. When `sample=True` (direct sampling), this is used as `sample_shape` to draw a raw JAX array of the given shape.
#' @param event An integer representing the number of batch dimensions to reinterpret as event dimensions (used in model building).
#' @param mask An optional boolean vector to mask observations.
#' @param create_obj A logical value. If `TRUE`, returns the raw BI distribution object instead of creating a sample site.
#' @param validate_args Logical: Whether to validate parameter values. Defaults to `reticulate::py_none()`.
#' @param sample A logical value that controls the function's behavior. If `TRUE`,
#' the function will directly draw samples from the distribution. If `FALSE`,
#' it will create a random variable within a model. Defaults to `FALSE`.
#' @param seed An integer used to set the random seed for reproducibility when
#' `sample = TRUE`. This argument has no effect when `sample = FALSE`, as
#' randomness is handled by the model's inference engine. Defaults to 0.
#' @param obs A numeric vector or array of observed values. If provided, the
#' random variable is conditioned on these values. If `NULL`, the variable is
#' treated as a latent (unobserved) variable. Defaults to `NULL`.
#' @param name A character string representing the name of the random variable
#' within a model. This is used to uniquely identify the variable. Defaults to 'x'.
#' @param to_jax Boolean. Indicates whether to return a JAX array or not.
#'
#' @return
#' - When \code{sample=FALSE}, a BI Weibull distribution object (for model building).
#'
#' - When \code{sample=TRUE}, a JAX array of samples drawn from the Weibull distribution (for direct sampling).
#'
#' - When \code{create_obj=TRUE}, the raw BI distribution object (for advanced use cases).
#'
#' @seealso \url{https://num.pyro.ai/en/stable/distributions.html#weibull}
#'
#' @examples
#' \donttest{
#' library(BayesForge)
#' m=importBF(platform='cpu')
#' bf.dist.weibull(scale = c(10, 10), concentration = c(1,1), sample = TRUE)
#' }
#' @export
bf.dist.weibull=function(scale, concentration, validate_args=py_none(), name='x', obs=py_none(), mask=py_none(), sample=FALSE, seed = py_none(), shape=c(), event=0, create_obj=FALSE, to_jax = TRUE ) {
shape=do.call(tuple, as.list(as.integer(shape)))
if (!.BF_env$.py$is_none(seed)){seed=as.integer(seed);}
.BF_env$.bf_instance$dist$weibull(
scale = .BF_env$jnp$array(scale),
concentration = .BF_env$jnp$array(concentration),
validate_args= validate_args, name= name, obs= obs, mask= mask, sample= sample, seed= seed, shape= shape, event= event, create_obj= create_obj, to_jax = to_jax)
}
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Defines functions bf.dist.weibull
Documented in bf.dist.weibull
#' @title Samples from a Weibull distribution.
#' @description
#' The Weibull distribution is widely used for modeling **lifetime or reliability data**. Its shape parameter (k) controls the hazard function:
#' * (k < 1): decreasing hazard (infant mortality)
#' * (k = 1): constant hazard ??? reduces to **Exponential distribution**
#' * (k > 1): increasing hazard (aging/failure over time)
#'
#' @param scale A numeric vector, matrix, or array representing the scale parameter of the Weibull distribution. Must be positive.
#' @param concentration A numeric vector, matrix, or array representing the shape parameter of the Weibull distribution. Must be positive.
#' @param shape A numeric vector. This is used with `.expand(shape)` when `sample=False` (model building) to set the distribution's batch shape. When `sample=True` (direct sampling), this is used as `sample_shape` to draw a raw JAX array of the given shape.
#' @param event An integer representing the number of batch dimensions to reinterpret as event dimensions (used in model building).
#' @param mask An optional boolean vector to mask observations.
#' @param create_obj A logical value. If `TRUE`, returns the raw BI distribution object instead of creating a sample site.
#' @param validate_args Logical: Whether to validate parameter values. Defaults to `reticulate::py_none()`.
#' @param sample A logical value that controls the function's behavior. If `TRUE`,
#' the function will directly draw samples from the distribution. If `FALSE`,
#' it will create a random variable within a model. Defaults to `FALSE`.
#' @param seed An integer used to set the random seed for reproducibility when
#' `sample = TRUE`. This argument has no effect when `sample = FALSE`, as
#' randomness is handled by the model's inference engine. Defaults to 0.
#' @param obs A numeric vector or array of observed values. If provided, the
#' random variable is conditioned on these values. If `NULL`, the variable is
#' treated as a latent (unobserved) variable. Defaults to `NULL`.
#' @param name A character string representing the name of the random variable
#' within a model. This is used to uniquely identify the variable. Defaults to 'x'.
#' @param to_jax Boolean. Indicates whether to return a JAX array or not.
#'
#' @return
#' - When \code{sample=FALSE}, a BI Weibull distribution object (for model building).
#'
#' - When \code{sample=TRUE}, a JAX array of samples drawn from the Weibull distribution (for direct sampling).
#'
#' - When \code{create_obj=TRUE}, the raw BI distribution object (for advanced use cases).
#'
#' @seealso \url{https://num.pyro.ai/en/stable/distributions.html#weibull}
#'
#' @examples
#' \donttest{
#' library(BayesForge)
#' m=importBF(platform='cpu')
#' bf.dist.weibull(scale = c(10, 10), concentration = c(1,1), sample = TRUE)
#' }
#' @export
bf.dist.weibull=function(scale, concentration, validate_args=py_none(), name='x', obs=py_none(), mask=py_none(), sample=FALSE, seed = py_none(), shape=c(), event=0, create_obj=FALSE, to_jax = TRUE ) {
shape=do.call(tuple, as.list(as.integer(shape)))
if (!.BF_env$.py$is_none(seed)){seed=as.integer(seed);}
.BF_env$.bf_instance$dist$weibull(
scale = .BF_env$jnp$array(scale),
concentration = .BF_env$jnp$array(concentration),
validate_args= validate_args, name= name, obs= obs, mask= mask, sample= sample, seed= seed, shape= shape, event= event, create_obj= create_obj, to_jax = to_jax)
}
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