View source: R/loo_predictive_metric.R
loo_predictive_metric | R Documentation |
The loo_predictive_metric()
function computes estimates of leave-one-out
predictive metrics given a set of predictions and observations. Currently
supported metrics are mean absolute error, mean squared error and root mean
squared error for continuous predictions and accuracy and balanced accuracy
for binary classification. Predictions are passed on to the E_loo()
function, so this function assumes that the PSIS approximation is working
well.
loo_predictive_metric(x, ...)
## S3 method for class 'matrix'
loo_predictive_metric(
x,
y,
log_lik,
...,
metric = c("mae", "rmse", "mse", "acc", "balanced_acc"),
r_eff = 1,
cores = getOption("mc.cores", 1)
)
x |
A numeric matrix of predictions. |
... |
Additional arguments passed on to |
y |
A numeric vector of observations. Length should be equal to the
number of rows in |
log_lik |
A matrix of pointwise log-likelihoods. Should be of same
dimension as |
metric |
The type of predictive metric to be used. Currently
supported options are
|
r_eff |
A Vector of relative effective sample size estimates containing
one element per observation. See |
cores |
The number of cores to use for parallelization of |
A list with the following components:
estimate
Estimate of the given metric.
se
Standard error of the estimate.
if (requireNamespace("rstanarm", quietly = TRUE)) {
# Use rstanarm package to quickly fit a model and get both a log-likelihood
# matrix and draws from the posterior predictive distribution
library("rstanarm")
# data from help("lm")
ctl <- c(4.17,5.58,5.18,6.11,4.50,4.61,5.17,4.53,5.33,5.14)
trt <- c(4.81,4.17,4.41,3.59,5.87,3.83,6.03,4.89,4.32,4.69)
d <- data.frame(
weight = c(ctl, trt),
group = gl(2, 10, 20, labels = c("Ctl","Trt"))
)
fit <- stan_glm(weight ~ group, data = d, refresh = 0)
ll <- log_lik(fit)
r_eff <- relative_eff(exp(-ll), chain_id = rep(1:4, each = 1000))
mu_pred <- posterior_epred(fit)
# Leave-one-out mean absolute error of predictions
mae <- loo_predictive_metric(x = mu_pred, y = d$weight, log_lik = ll,
pred_error = 'mae', r_eff = r_eff)
# Leave-one-out 90%-quantile of mean absolute error
mae_90q <- loo_predictive_metric(x = mu_pred, y = d$weight, log_lik = ll,
pred_error = 'mae', r_eff = r_eff,
type = 'quantile', probs = 0.9)
}
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