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#' R-objects related to metabolomics data on patients with Alzheimer's Disease
#'
#' \code{ADdata} contains 3 objects related to metabolomics data on patients
#' with Alzheimer's Disease (AD).
#'
#' \code{ADmetabolites} is a \code{matrix} containing metabolic expressions of
#' 230 metabolites (rows) on 127 samples (columns).
#'
#' \code{sampleInfo} is a \code{data.frame} containing information on the
#' samples. Information pertains to diagnosis: AD class 1 or AD class 2.
#'
#' \code{variableInfo} is a \code{data.frame} containing information on the
#' metabolic features. Information pertains to compound families: Amines,
#' organic acids, lipids, and oxidative stress compounds.
#'
#' See description.
#'
#' @name ADdata
#' @aliases ADdata ADmetabolites sampleInfo variableInfo
#' @docType data
#' @author Carel F.W. Peeters <carel.peeters@@wur.nl>
#' @source de Leeuw, F., Peeters, C.F.W., Kester, M.I., Harms, A.C., Struys,
#' E., Hankemeijer, T., van Vlijmen, H.W.T., van Duijn, C.M., Scheltens, P.,
#' Demirkan, A., van de Wiel, M.A., van der Flier, W.M., and Teunissen, C.E.
#' (2017). Blood-based metabolic signatures in Alzheimer's Disease. Alzheimer's
#' & Dementia: Diagnosis, Assessment & Disease Monitoring, 8: 196-207.
#' @keywords datasets
#' @examples
#'
#' data(ADdata)
#'
#' ## Look at sample information
#' sampleInfo
#'
#' ## Look at feature information
#' variableInfo
#'
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#' Ridge estimation for high-dimensional precision matrices
#'
#' Package contains proper L2-penalized ML estimators for the precision matrix
#' as well as supporting functions to employ these estimators in a (integrative
#' or meta-analytic) graphical modeling setting.
#'
#' The main function of the package is \code{\link{ridgeP}} which enables
#' archetypal and proper alternative ML ridge estimation of the precision
#' matrix. The alternative ridge estimators can be found in van Wieringen and
#' Peeters (2015) and encapsulate both target and non-target shrinkage for the
#' multivariate normal precision matrix. The estimators are analytic and enable
#' estimation in large \eqn{p} small \eqn{n} settings. Supporting functions to
#' employ these estimators in a graphical modeling setting are also given.
#' These supporting functions enable, a.o., the determination of the optimal
#' value of the penalty parameter, the determination of the support of a
#' shrunken precision estimate, as well as various visualization options.
#'
#' The package has a modular setup. The \emph{core module} (rags2ridges.R)
#' contains the functionality stated above. The \emph{fused module}
#' (rags2ridgesFused.R) extends the functionality of the core module to the
#' joint estimation of multiple precision matrices from (aggregated)
#' high-dimensional data consisting of distinct classes. The result is a
#' targeted fused ridge estimator that is of use when the precision matrices of
#' the constituent classes are believed to chiefly share the same structure
#' while potentially differing in a number of locations of interest. The fused
#' module also contains supporting functions for integrative or meta-analytic
#' Gaussian graphical modeling. The third module is the \emph{miscellaneous
#' module} (rags2RidgesMisc.R) which contains assorted hidden functions.
#'
#' Function overview \emph{core module}: \itemize{ \item Function for (proper)
#' ridge estimation of the precision matrix \itemize{ \item
#' \code{\link{ridgeP}} } \item Functions for penalty parameter selection
#' \itemize{ \item \code{\link{CNplot}} \item \code{\link{optPenalty.aLOOCV}}
#' \item \code{\link{optPenalty.kCV}} \item \code{\link{optPenalty.kCVauto}} }
#' \item Functions for loss/entropy/fit evaluation \itemize{ \item
#' \code{\link{evaluateSfit}} \item \code{\link{KLdiv}} \item
#' \code{\link{loss}} } \item Functions for block-independence testing
#' \itemize{ \item \code{\link{GGMblockNullPenalty}} \item
#' \code{\link{GGMblockTest}} } \item Function for support determination
#' \itemize{ \item \code{\link{sparsify}} } \item Functions for (network)
#' visualization \itemize{ \item \code{\link{edgeHeat}} \item
#' \code{\link{ridgePathS}} \item \code{\link{Ugraph}} } \item Functions for
#' topology statistics \itemize{ \item \code{\link{GGMmutualInfo}} \item
#' \code{\link{GGMnetworkStats}} \item \code{\link{GGMpathStats}} } \item
#' Wrapper function \itemize{ \item \code{\link{fullMontyS}} } \item Support
#' functions \itemize{ \item \code{\link{adjacentMat}} \item
#' \code{\link{covML}} \item \code{\link{covMLknown}} \item
#' \code{\link{default.target}} \item \code{\link{evaluateS}} \item
#' \code{\link{pcor}} \item \code{\link{symm}} } }
#'
#' Function overview \emph{fused module}: \itemize{ \item Function for targeted
#' fused ridge estimation of multiple precision matrices \itemize{ \item
#' \code{\link{ridgeP.fused}} } \item Function for fused penalty parameter
#' selection \itemize{ \item \code{\link{optPenalty.fused}} } \item Functions
#' for loss/entropy/fit evaluation \itemize{ \item \code{\link{KLdiv.fused}}
#' \item \code{\link{NLL}} } \item Function for testing the necessity of fusion
#' \itemize{ \item \code{\link{fused.test}} } \item Function for support
#' determination \itemize{ \item \code{\link{sparsify.fused}} } \item Functions
#' for topology statistics \itemize{ \item \code{\link{GGMnetworkStats.fused}}
#' \item \code{\link{GGMpathStats.fused}} } \item Support functions \itemize{
#' \item \code{\link{createS}} \item \code{\link{default.penalty}} \item
#' \code{\link{default.target.fused}} \item \code{\link{getKEGGPathway}} \item
#' \code{\link{isSymmetricPD}} \item \code{\link{is.Xlist}} \item
#' \code{\link{kegg.target}} \item \code{\link{plot.ptest}} \item
#' \code{\link{pooledS}} \item \code{\link{print.optPenaltyFusedGrid}} \item
#' \code{\link{print.ptest}} \item \code{\link{rmvnormal}} } }
#'
#' Calls of interest to \emph{miscellaneous module}: \itemize{ \item
#' \code{rags2ridges:::.TwoCents()} ~~(Unsolicited advice) \item
#' \code{rags2ridges:::.Brooke()} ~~(Endorsement) \item
#' \code{rags2ridges:::.JayZScore()} ~~(The truth) \item
#' \code{rags2ridges:::.theHoff()} ~~(Wish) \item
#' \code{rags2ridges:::.rags2logo()} ~~(Warm welcome) }
#'
#' @name rags2ridges-package
#' @aliases rags2ridges-package rags2ridges
#' @docType package
#' @author Carel F.W. Peeters, Anders Ellern Bilgrau, Wessel, N. van Wieringen
#' \cr Maintainer: Carel F.W. Peeters <carel.peeters@@wur.nl>
#' @references Peeters, C.F.W., Bilgrau, A.E., and van Wieringen, W.N. (2022).
#' rags2ridges: A One-Stop-l2-Shop for Graphical Modeling of High-Dimensional
#' Precision Matrices. Journal of Statistical Software, vol. 102(4): 1-32.
#'
#' Bilgrau, A.E., Peeters, C.F.W., Eriksen, P.S., Boegsted, M., and
#' van Wieringen, W.N. (2020). Targeted Fused Ridge Estimation of Inverse
#' Covariance Matrices from Multiple High-Dimensional Data Classes. Journal of
#' Machine Learning Research, 21(26): 1-52. Also available as
#' arXiv:1509.07982v2 [stat.ME].
#'
#' Peeters, C.F.W., van de Wiel, M.A., & van Wieringen, W.N. (2020). The
#' Spectral Condition Number Plot for Regularization Parameter Evaluation.
#' Computational Statistics, 35: 629-646. Also available as arXiv:1608.04123
#' [stat.CO].
#'
#' van Wieringen, W.N. & Peeters, C.F.W. (2016). Ridge Estimation of Inverse
#' Covariance Matrices from High-Dimensional Data. Computational Statistics &
#' Data Analysis, vol. 103: 284-303. Also available as arXiv:1403.0904v3
#' [stat.ME].
#'
#' van Wieringen, W.N. & Peeters, C.F.W. (2015). Application of a New Ridge
#' Estimator of the Inverse Covariance Matrix to the Reconstruction of
#' Gene-Gene Interaction Networks. In: di Serio, C., Lio, P., Nonis, A., and
#' Tagliaferri, R. (Eds.) `Computational Intelligence Methods for
#' Bioinformatics and Biostatistics'. Lecture Notes in Computer Science, vol.
#' 8623. Springer, pp. 170-179.
#' @importFrom stats cov2cor optim qqplot quantile coef lm.fit nlm
#' optimize constrOptim nlminb
#' @importFrom methods hasArg is as
#' @importFrom expm sqrtm
#' @importFrom Hmisc minor.tick
#' @importFrom snowfall sfInit sfLibrary sfSapply sfStop
#' @importFrom fdrtool fdrtool
#' @importFrom ggplot2 ggplot aes geom_tile scale_fill_gradient2 theme
#' element_blank element_text xlab ylab ylim ggtitle
#' @importFrom sfsmisc lseq
#' @importFrom utils capture.output setTxtProgressBar txtProgressBar
#' @importFrom grDevices dev.off pdf postscript setEPS rainbow
#' @importFrom graphics abline axis hist legend lines mtext par plot
#' text rug
#' @importFrom gRbase triangulate rip is.complete jTree
#' @importFrom RBGL is.triangulated
#' @importFrom graph numEdges
#' @importFrom RSpectra eigs_sym
#' @import igraph
#' @import reshape
#' @import Rcpp
#' @useDynLib rags2ridges
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