R/RcppExports.R
In WT215/bayNorm: Single-cell RNA sequencing data normalization
Defines functions
Main_mean_NB_spBay
asMatrix
t_sp
EstPrior_rcpp
EstPrior_sprcpp
rowVarsFast
rowMeansFast
Main_mode_NB_Bay
Main_mean_NB_Bay
Main_NB_Bay
GradientFun_NB_2D
GradientFun_NB_1D
MarginalF_NB_2D
MarginalF_NB_1D
DownSampling
Documented in
asMatrix
DownSampling
EstPrior_rcpp
EstPrior_sprcpp
t_sp
# Generated by using Rcpp::compileAttributes() -> do not edit by hand
# Generator token: 10BE3573-1514-4C36-9D1C-5A225CD40393
#' @title Binomial downsampling
#'
#' @description For each element in the \code{Data},
#' randomly generate a number using Binomial distribution with
#' probability equal to the specific capture efficiency.
#'
#' @param Data raw count Data
#' @param BETA_vec A vector of capture efficiencies of cells
#'
#' @return A matrix of binomial downsampling data.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' Downsample_data<-DownSampling(Data=EXAMPLE_DATA_list$inputdata
#' ,BETA_vec = EXAMPLE_DATA_list$inputbeta)
#' @export
#'
DownSampling <- function(Data, BETA_vec) {
.Call('_bayNorm_DownSampling', PACKAGE = 'bayNorm', Data, BETA_vec)
}
MarginalF_NB_1D <- function(SIZE, MU, m_observed, BETA) {
.Call('_bayNorm_MarginalF_NB_1D', PACKAGE = 'bayNorm', SIZE, MU, m_observed, BETA)
}
MarginalF_NB_2D <- function(SIZE_MU, m_observed, BETA) {
.Call('_bayNorm_MarginalF_NB_2D', PACKAGE = 'bayNorm', SIZE_MU, m_observed, BETA)
}
GradientFun_NB_1D <- function(SIZE, MU, m_observed, BETA) {
.Call('_bayNorm_GradientFun_NB_1D', PACKAGE = 'bayNorm', SIZE, MU, m_observed, BETA)
}
GradientFun_NB_2D <- function(SIZE_MU, m_observed, BETA) {
.Call('_bayNorm_GradientFun_NB_2D', PACKAGE = 'bayNorm', SIZE_MU, m_observed, BETA)
}
Main_NB_Bay <- function(Data, BETA_vec, size, mu, S, thres) {
.Call('_bayNorm_Main_NB_Bay', PACKAGE = 'bayNorm', Data, BETA_vec, size, mu, S, thres)
}
Main_mean_NB_Bay <- function(Data, BETA_vec, size, mu, S, thres) {
.Call('_bayNorm_Main_mean_NB_Bay', PACKAGE = 'bayNorm', Data, BETA_vec, size, mu, S, thres)
}
Main_mode_NB_Bay <- function(Data, BETA_vec, size, mu, S, thres) {
.Call('_bayNorm_Main_mode_NB_Bay', PACKAGE = 'bayNorm', Data, BETA_vec, size, mu, S, thres)
}
rowMeansFast <- function(x) {
.Call('_bayNorm_rowMeansFast', PACKAGE = 'bayNorm', x)
}
rowVarsFast <- function(x, means) {
.Call('_bayNorm_rowVarsFast', PACKAGE = 'bayNorm', x, means)
}
#' @title Estimate size and mu for Negative Binomial distribution
#' for each gene using MME method (Rcpp version, sp_mat)
#'
#' @description Input raw data and return
#' estimated size and mu for each gene using the MME method.
#' @param Data A matrix of single-cell expression where rows
#' are genes and columns are samples (cells). \code{Data}
#' can be of class \code{SummarizedExperiment} (the
#' assays slot contains the expression matrix and
#' is named "Counts") or just matrix.
#' @details mu and size are two parameters of the prior that
#' need to be specified for each gene in bayNorm.
#' They are parameters of negative binomial distribution.
#' The variance is \eqn{mu + mu^2/size} in this parametrization.
#'
#' @return List containing estimated mu and
#' size for each gene.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' #Should not run by the users, it is used in prior estimation.
#' \dontrun{
#' }
#' @export
EstPrior_sprcpp <- function(Data) {
.Call('_bayNorm_EstPrior_sprcpp', PACKAGE = 'bayNorm', Data)
}
#' @title Estimate size and mu for Negative Binomial distribution
#' for each gene using MME method (Rcpp version)
#'
#' @description Input raw data and return
#' estimated size and mu for each gene using the MME method.
#' @param Data A matrix of single-cell expression where rows
#' are genes and columns are samples (cells). \code{Data}
#' can be of class \code{SummarizedExperiment} (the
#' assays slot contains the expression matrix and
#' is named "Counts") or just matrix.
#' @details mu and size are two parameters of the prior that
#' need to be specified for each gene in bayNorm.
#' They are parameters of negative binomial distribution.
#' The variance is \eqn{mu + mu^2/size} in this parametrization.
#'
#' @return List containing estimated mu and
#' size for each gene.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' #Should not run by the users, it is used in prior estimation.
#' \dontrun{
#' }
#' @export
EstPrior_rcpp <- function(Data) {
.Call('_bayNorm_EstPrior_rcpp', PACKAGE = 'bayNorm', Data)
}
#' @title Transpose of sparse matrix
#'
#' @description Transpose of sparse matrix
#' @param Data A matrix of single-cell expression where rows
#' are genes and columns are samples (cells). \code{Data}
#' can be of class \code{SummarizedExperiment} (the
#' assays slot contains the expression matrix and
#' is named "Counts") or just matrix.
#' @details Transpose of sparse matrix.
#'
#' @return Transpose of sparse matrix.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' #Should not run by the users, it is used in prior estimation.
#' \dontrun{
#' }
#' @export
t_sp <- function(Data) {
.Call('_bayNorm_t_sp', PACKAGE = 'bayNorm', Data)
}
#' @title Rcpp version: as.matrix
#'
#' @description Rcpp version: as.matrix
#' @param rp vector
#' @param cp vector
#' @param z vector
#' @param nrows nrows
#' @param ncols ncols
#' @details Rcpp version: as.matrix
#'
#' @return Matrix object in R.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' #Should not run by the users, it is used in prior estimation.
#' \dontrun{
#' }
#' @export
asMatrix <- function(rp, cp, z, nrows, ncols) {
.Call('_bayNorm_asMatrix', PACKAGE = 'bayNorm', rp, cp, z, nrows, ncols)
}
Main_mean_NB_spBay <- function(Data, BETA_vec, size, mu, S, thres) {
.Call('_bayNorm_Main_mean_NB_spBay', PACKAGE = 'bayNorm', Data, BETA_vec, size, mu, S, thres)
}
WT215/bayNorm documentation built on Sept. 2, 2022, 1:46 a.m.
R Package Documentation
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Defines functions Main_mean_NB_spBay asMatrix t_sp EstPrior_rcpp EstPrior_sprcpp rowVarsFast rowMeansFast Main_mode_NB_Bay Main_mean_NB_Bay Main_NB_Bay GradientFun_NB_2D GradientFun_NB_1D MarginalF_NB_2D MarginalF_NB_1D DownSampling
Documented in asMatrix DownSampling EstPrior_rcpp EstPrior_sprcpp t_sp
# Generated by using Rcpp::compileAttributes() -> do not edit by hand
# Generator token: 10BE3573-1514-4C36-9D1C-5A225CD40393
#' @title Binomial downsampling
#'
#' @description For each element in the \code{Data},
#' randomly generate a number using Binomial distribution with
#' probability equal to the specific capture efficiency.
#'
#' @param Data raw count Data
#' @param BETA_vec A vector of capture efficiencies of cells
#'
#' @return A matrix of binomial downsampling data.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' Downsample_data<-DownSampling(Data=EXAMPLE_DATA_list$inputdata
#' ,BETA_vec = EXAMPLE_DATA_list$inputbeta)
#' @export
#'
DownSampling <- function(Data, BETA_vec) {
.Call('_bayNorm_DownSampling', PACKAGE = 'bayNorm', Data, BETA_vec)
}
MarginalF_NB_1D <- function(SIZE, MU, m_observed, BETA) {
.Call('_bayNorm_MarginalF_NB_1D', PACKAGE = 'bayNorm', SIZE, MU, m_observed, BETA)
}
MarginalF_NB_2D <- function(SIZE_MU, m_observed, BETA) {
.Call('_bayNorm_MarginalF_NB_2D', PACKAGE = 'bayNorm', SIZE_MU, m_observed, BETA)
}
GradientFun_NB_1D <- function(SIZE, MU, m_observed, BETA) {
.Call('_bayNorm_GradientFun_NB_1D', PACKAGE = 'bayNorm', SIZE, MU, m_observed, BETA)
}
GradientFun_NB_2D <- function(SIZE_MU, m_observed, BETA) {
.Call('_bayNorm_GradientFun_NB_2D', PACKAGE = 'bayNorm', SIZE_MU, m_observed, BETA)
}
Main_NB_Bay <- function(Data, BETA_vec, size, mu, S, thres) {
.Call('_bayNorm_Main_NB_Bay', PACKAGE = 'bayNorm', Data, BETA_vec, size, mu, S, thres)
}
Main_mean_NB_Bay <- function(Data, BETA_vec, size, mu, S, thres) {
.Call('_bayNorm_Main_mean_NB_Bay', PACKAGE = 'bayNorm', Data, BETA_vec, size, mu, S, thres)
}
Main_mode_NB_Bay <- function(Data, BETA_vec, size, mu, S, thres) {
.Call('_bayNorm_Main_mode_NB_Bay', PACKAGE = 'bayNorm', Data, BETA_vec, size, mu, S, thres)
}
rowMeansFast <- function(x) {
.Call('_bayNorm_rowMeansFast', PACKAGE = 'bayNorm', x)
}
rowVarsFast <- function(x, means) {
.Call('_bayNorm_rowVarsFast', PACKAGE = 'bayNorm', x, means)
}
#' @title Estimate size and mu for Negative Binomial distribution
#' for each gene using MME method (Rcpp version, sp_mat)
#'
#' @description Input raw data and return
#' estimated size and mu for each gene using the MME method.
#' @param Data A matrix of single-cell expression where rows
#' are genes and columns are samples (cells). \code{Data}
#' can be of class \code{SummarizedExperiment} (the
#' assays slot contains the expression matrix and
#' is named "Counts") or just matrix.
#' @details mu and size are two parameters of the prior that
#' need to be specified for each gene in bayNorm.
#' They are parameters of negative binomial distribution.
#' The variance is \eqn{mu + mu^2/size} in this parametrization.
#'
#' @return List containing estimated mu and
#' size for each gene.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' #Should not run by the users, it is used in prior estimation.
#' \dontrun{
#' }
#' @export
EstPrior_sprcpp <- function(Data) {
.Call('_bayNorm_EstPrior_sprcpp', PACKAGE = 'bayNorm', Data)
}
#' @title Estimate size and mu for Negative Binomial distribution
#' for each gene using MME method (Rcpp version)
#'
#' @description Input raw data and return
#' estimated size and mu for each gene using the MME method.
#' @param Data A matrix of single-cell expression where rows
#' are genes and columns are samples (cells). \code{Data}
#' can be of class \code{SummarizedExperiment} (the
#' assays slot contains the expression matrix and
#' is named "Counts") or just matrix.
#' @details mu and size are two parameters of the prior that
#' need to be specified for each gene in bayNorm.
#' They are parameters of negative binomial distribution.
#' The variance is \eqn{mu + mu^2/size} in this parametrization.
#'
#' @return List containing estimated mu and
#' size for each gene.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' #Should not run by the users, it is used in prior estimation.
#' \dontrun{
#' }
#' @export
EstPrior_rcpp <- function(Data) {
.Call('_bayNorm_EstPrior_rcpp', PACKAGE = 'bayNorm', Data)
}
#' @title Transpose of sparse matrix
#'
#' @description Transpose of sparse matrix
#' @param Data A matrix of single-cell expression where rows
#' are genes and columns are samples (cells). \code{Data}
#' can be of class \code{SummarizedExperiment} (the
#' assays slot contains the expression matrix and
#' is named "Counts") or just matrix.
#' @details Transpose of sparse matrix.
#'
#' @return Transpose of sparse matrix.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' #Should not run by the users, it is used in prior estimation.
#' \dontrun{
#' }
#' @export
t_sp <- function(Data) {
.Call('_bayNorm_t_sp', PACKAGE = 'bayNorm', Data)
}
#' @title Rcpp version: as.matrix
#'
#' @description Rcpp version: as.matrix
#' @param rp vector
#' @param cp vector
#' @param z vector
#' @param nrows nrows
#' @param ncols ncols
#' @details Rcpp version: as.matrix
#'
#' @return Matrix object in R.
#'
#' @examples
#' data("EXAMPLE_DATA_list")
#' #Should not run by the users, it is used in prior estimation.
#' \dontrun{
#' }
#' @export
asMatrix <- function(rp, cp, z, nrows, ncols) {
.Call('_bayNorm_asMatrix', PACKAGE = 'bayNorm', rp, cp, z, nrows, ncols)
}
Main_mean_NB_spBay <- function(Data, BETA_vec, size, mu, S, thres) {
.Call('_bayNorm_Main_mean_NB_spBay', PACKAGE = 'bayNorm', Data, BETA_vec, size, mu, S, thres)
}
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