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[valse.git] / pkg / R / generateSampleInputs.R

#' Generate a sample of (X,Y) of size n
#' @param meanX matrix of group means for covariates (of size p)
#' @param covX covariance for covariates (of size p*p)
#' @param covY covariance for the response vector (of size m*m*K)
#' @param pi     proportion for each cluster
#' @param beta regression matrix, of size p*m*k
#' @param n     sample size
#'
#' @return list with X and Y
#' @export
generateXY = function(meanX, covX, covY, pi, beta, n)
{
    p = dim(covX)[1]
    m = dim(covY)[1]
    k = dim(covY)[3]

    X = matrix(nrow=n,ncol=p)
    Y = matrix(nrow=n,ncol=m)
    class = matrix(nrow = n)

    require(MASS) #simulate from a multivariate normal distribution
    for (i in 1:n)
    {
        class[i] = sample(1:k, 1, prob=pi)
        X[i,] = mvrnorm(1, meanX, covX)
        print(X[i,])
        print(beta[,,class[i]])
        Y[i,] = mvrnorm(1, X[i,] %*% beta[,,class[i]], covY[,,class[i]])
    }

    return (list(X=X,Y=Y, class = class))
}

#' Generate a sample of (X,Y) of size n with default values
#' @param n sample size
#' @param p number of covariates
#' @param m size of the response
#' @param k number of clusters
#' @return list with X and Y
#' @export
generateXYdefault = function(n, p, m, k)
{
    rangeX = 100
    meanX = rangeX * matrix(1 - 2*runif(p*k), ncol=k)
    covX = array(dim=c(p,p,k))
    covY = array(dim=c(m,m,k))
    for(r in 1:k)
    {
        covX[,,r] = diag(p)
        covY[,,r] = diag(m)
    }
    pi = rep(1./k,k)
    #initialize beta to a random number of non-zero random value
    beta = array(0, dim=c(p,m,k))
    for (j in 1:p)
    {
        nonZeroCount = sample(1:m, 1)
        beta[j,1:nonZeroCount,] = matrix(runif(nonZeroCount*k), ncol=k)
    }

    sample_IO = generateXY(meanX, covX, covY, pi, beta, n)
    return (list(X=sample_IO$X,Y=sample_IO$Y))
}

#' Initialize the parameters in a basic way (zero for the conditional mean, uniform for weights,
#' identity for covariance matrices, and uniformly distributed for the clustering)
#' @param n sample size
#' @param p number of covariates
#' @param m size of the response
#' @param k number of clusters
#' @return list with phiInit, rhoInit,piInit,gamInit
#' @export
basicInitParameters = function(n,p,m,k)
{
    phiInit = array(0, dim=c(p,m,k))

    piInit = (1./k)*rep(1,k)

    rhoInit = array(dim=c(m,m,k))
    for (i in 1:k)
        rhoInit[,,i] = diag(m)

    gamInit = 0.1 * matrix(1, nrow=n, ncol=k)
    R = sample(1:k, n, replace=TRUE)
    for (i in 1:n)
        gamInit[i,R[i]] = 0.9
    gamInit = gamInit/sum(gamInit[1,])

    return (list("phiInit" = phiInit, "rhoInit" = rhoInit, "piInit" = piInit, "gamInit" = gamInit))
}