+++ /dev/null
-#' generateXY
-#'
-#' Generate a sample of (X,Y) of size n
-#'
-#' @param n sample size
-#' @param π proportion for each cluster
-#' @param meanX matrix of group means for covariates (of size p)
-#' @param covX covariance for covariates (of size p*p)
-#' @param β regression matrix, of size p*m*k
-#' @param covY covariance for the response vector (of size m*m*K)
-#'
-#' @return list with X and Y
-#'
-#' @export
-generateXY <- function(n, π, meanX, β, covX, covY)
-{
- p <- dim(covX)[1]
- m <- dim(covY)[1]
- k <- dim(covY)[3]
-
- X <- matrix(nrow = 0, ncol = p)
- Y <- matrix(nrow = 0, ncol = m)
-
- # random generation of the size of each population in X~Y (unordered)
- sizePop <- rmultinom(1, n, π)
- class <- c() #map i in 1:n --> index of class in 1:k
-
- for (i in 1:k)
- {
- class <- c(class, rep(i, sizePop[i]))
- newBlockX <- MASS::mvrnorm(sizePop[i], meanX, covX)
- X <- rbind(X, newBlockX)
- Y <- rbind(Y, t(apply(newBlockX, 1, function(row) MASS::mvrnorm(1, row %*%
- β[, , i], covY[, , i]))))
- }
-
- shuffle <- sample(n)
- list(X = X[shuffle, ], Y = Y[shuffle, ], class = class[shuffle])
-}