AggregatedEffects: Summarised coefficients conditionally on selection

# \donttest{
# Example with univariate outcome
set.seed(1)
simul <- SimulateRegression(n = 100, pk = 50, family = "gaussian")
stab <- VariableSelection(xdata = simul$xdata, ydata = simul$ydata, family = "gaussian")
median_betas <- AggregatedEffects(stab)

# Comparison with refitted model
refitted <- Refit(xdata = simul$xdata, ydata = simul$ydata, stability = stab)
refitted_betas <- coef(refitted)[-1, 1]
plot(median_betas[names(refitted_betas), ], refitted_betas,
  panel.first = abline(0, 1, lty = 2)
)

# Extracting mean betas conditionally on selection
mean_betas <- AggregatedEffects(stab, FUN = mean)
plot(median_betas, mean_betas)

# Regression with multivariate outcomes
set.seed(1)
simul <- SimulateRegression(n = 100, pk = 50, q = 2, family = "gaussian")
stab <- VariableSelection(xdata = simul$xdata, ydata = simul$ydata, family = "mgaussian")
median_betas <- AggregatedEffects(stab)
dim(median_betas)

# Sparse PLS with multivariate outcome
if (requireNamespace("sgPLS", quietly = TRUE)) {
  set.seed(1)
  simul <- SimulateRegression(n = 50, pk = 15, q = 3, family = "gaussian")
  x <- simul$xdata
  y <- simul$ydata
  stab <- BiSelection(
    xdata = x, ydata = y,
    family = "gaussian", ncomp = 3,
    LambdaX = seq_len(ncol(x) - 1),
    implementation = SparsePLS
  )
  median_betas <- AggregatedEffects(stab)
  dim(median_betas)
  median_betas <- AggregatedEffects(stab, side = "Y")
  dim(median_betas)
}
# }