Nothing
R/meta-analysis.R
In RCPA: Consensus Pathway Analysis
Defines functions
runDEMetaAnalysis
runPathwayMetaAnalysis
.runGeoMean
.runAddCLT
.runStouffer
.runFisher
Documented in
runDEMetaAnalysis
runPathwayMetaAnalysis
#' @title Combine p-values using Fisher's
#' @description This function combines p-values based on Fisher's method.
#' This function is used internally by .combinePvalues.
#' @param pvals The vector of P-Values to be combined.
#' @return A combined P-Value
#' @details This function is used internally by .combinePvalues.
#' @importFrom stats qnorm pchisq
#' @noRd
.runFisher <- function(pvals) {
pvals[pvals == 0] <- .Machine$double.eps
p.value <- pchisq(-2 * sum(log(pvals)), df = 2 * length(pvals), lower.tail = FALSE)
return(p.value)
}
#' @title Combine p-values using Stouffer's
#' @description This function combines p-values based on Stouffer's method.
#' This function is used internally by .combinePvalues.
#' @param pvals The vector of p-values to be combined.
#' @return A combined P-Value
#' @details This function is used internally by .combinePvalues.
#' @importFrom stats pnorm qnorm
#' @noRd
.runStouffer <- function(pvals) {
pvals[pvals == 0] <- .Machine$double.eps
p.value <- pnorm(sum(qnorm(pvals)) / sqrt(length(pvals)))
return(p.value)
}
#' @title Combine p-values using addCLT
#' @description This function combines p-values based on addCLT method.
#' This function is used internally by .combinePvalues.
#' @param pvals The vector of P-Values to be combined.
#' @return A combined P-Value
#' @details This function is used internally by .combinePvalues.
#' @importFrom stats pnorm
#' @noRd
.runAddCLT <- function(pvals) {
pvals <- pvals[!is.na(pvals)]
pvals[pvals == 0] <- .Machine$double.eps
n <- length(pvals)
p.value <- 1
if (n <= 20) {
x <- sum(pvals)
p.value <- 1 / factorial(n) * sum(sapply(0:floor(x), function(k) (-1)^k * choose(n, k) * (x - k)^(n)))
}else {
p.value <- pnorm(sum(pvals), n / 2, sqrt(n / 12), lower.tail = TRUE)
}
return(p.value)
}
#' @title Combine p-values using Geometric Mean
#' @description This function combines P-Values by computing their geometric mean.
#' This function is used internally by .combinePvalues.
#' @param pvals The vector of P-Values to be combined.
#' @return A combined P-Value
#' @details This function is used internally by .combinePvalues.
#' @noRd
.runGeoMean <- function(pvals) {
pvals[pvals == 0] <- .Machine$double.eps
p.value <- exp(mean(log(pvals)))
return(p.value)
}
#' @title Perform Meta Analysis
#' @description This function performs meta analysis on multiple pathway analysis results.
#' @param PAResults A list of at least size two of data frames obtained from pathway analysis
#' @param method A method used to combine pathway analysis results, which can be "stouffer", "fisher", "addCLT", "geoMean", "minP", or "REML"
#' @return A dataframe of meta analysis results including the following columns:
#' \itemize{
#' \item{ID: The ID of pathway}
#' \item{name: The name of pathway}
#' \item{p.value: The meta p-value of pathway}
#' \item{pFDR: The adjusted meta p-value of pathway using Benjamini-Hochberg method}
#' \item{score: The combined score of pathway}
#' \item{normalizedScore: The combined normalized score of pathway}
#' \item{pathwaySize: The size of pathway}
#' }
#' @examples
#' \donttest{
#'
#' library(RCPA)
#' affyFgseaResult <- loadData("affyFgseaResult")
#' agilFgseaResult <- loadData("agilFgseaResult")
#' RNASeqFgseaResult <- loadData("RNASeqFgseaResult")
#'
#' metaPAResult <- RCPA::runPathwayMetaAnalysis(
#' list(affyFgseaResult, agilFgseaResult, RNASeqFgseaResult),
#' method = "stouffer"
#' )
#' }
#' @details This function performs meta-analysis on multiple pathway analysis results.
#' @importFrom dplyr %>% bind_rows mutate group_by summarise filter group_split select inner_join
#' @importFrom tidyr drop_na
#' @export
runPathwayMetaAnalysis <- function(PAResults, method = c("stouffer", "fisher", "addCLT", "geoMean", "minP", "REML")) {
method <- match.arg(method)
if (!.requirePackage("meta")){
return(NULL)
}
if (length(PAResults) == 1) {
stop("Meta analysis is valid for two or more studies.")
}
for (PAResult in PAResults) {
if (is.null(PAResult)) {
stop("There is null object in the input list.")
}
if (!all(c("ID", "p.value", "normalizedScore", "sampleSize") %in% colnames(PAResult))) {
stop("All the dataframes in the input list must have ID, p.value, normalizedScore and sampleSize columns.")
}
}
if (method != "REML"){
combinePFunc <- switch(method,
fisher = .runFisher,
stouffer = .runStouffer,
minP = min,
addCLT = .runAddCLT,
geoMean = .runGeoMean)
pvalRes <- PAResults %>%
lapply(function(df) {
df[, c("ID", "p.value", "normalizedScore")] %>% as.data.frame()
}) %>%
bind_rows() %>%
drop_na() %>%
mutate(
left.p = ifelse(.$normalizedScore < 0, .$p.value, 1 - .$p.value),
right.p = ifelse(.$normalizedScore > 0, .$p.value, 1 - .$p.value)
) %>%
group_by(.data$ID) %>%
summarise(
left.p = combinePFunc(.data$left.p),
right.p = combinePFunc(.data$right.p),
n = length(.data$ID)
) %>%
filter(.data$n == length(PAResults))
}
metagenRes <- PAResults %>%
lapply(function(df) {
df[, c("ID", "normalizedScore", "p.value", "sampleSize")] %>% as.data.frame()
}) %>%
bind_rows() %>%
group_by(.data$ID) %>%
group_split() %>%
lapply(function(dat) {
if (nrow(dat) < length(PAResults)) {
return(NULL)
}
res <- try({
meta::metagen(data = dat,
studlab = dat$ID,
TE = dat$normalizedScore,
# seTE = logFCSE,
pval = dat$p.value,
sm = "SMD",
method.tau = "REML",
hakn = TRUE,
n.e = dat$sampleSize
) }, silent = TRUE)
if (inherits(res, "try-error")) {
res <- NULL
}
return(res)
}) %>%
do.call(what = rbind)
metaResult <- metagenRes[, c("studlab", "TE.fixed", "seTE.fixed", "pval.fixed")] %>%
as.data.frame() %>%
mutate(
ID = .data$studlab %>% sapply(`[`, 1),
p.value = unlist(.data$pval.fixed),
score = unlist(.data$TE.fixed),
normalizedScore = .data$score
) %>%
mutate(
pFDR = p.adjust(.data$p.value, method = "fdr")
)
if (method != "REML"){
metaResult <- metaResult %>%
select("ID", "score", "normalizedScore") %>%
inner_join(pvalRes, by = "ID") %>%
mutate(
p.value = ifelse(.$normalizedScore < 0, .$left.p, .$right.p),
pFDR = p.adjust(.data$p.value, method = "fdr")
)
}
metaResult$name <- PAResults[[1]][match(metaResult$ID, PAResults[[1]]$ID), "name"]
metaResult$pathwaySize <- PAResults[[1]][match(metaResult$ID, PAResults[[1]]$ID), "pathwaySize"]
metaResult <- metaResult[order(metaResult$p.value),]
rownames(metaResult) <- NULL
metaResult[, c("ID", "name", "p.value", "pFDR", "score", "normalizedScore", "pathwaySize")]
}
#' @title Combine DE analysis results
#' @description This function performs mata analysis on multiple DE analysis results.
#' @param DEResults A list of dataframes containing DE analysis results.
#' Each dataframe must have ID, p.value, logFC and logFCSE columns.
#' @param method The method to combine p-values. It can be one of "fisher", "stouffer", "geoMean", "addCLT", "minP", or "REML".
#' @return A dataframe containing combined DE analysis results.
#' The dataframe has ID, p.value, pDFR, logFC, and logFCSE columns.
#' @examples
#' \donttest{
#' library(RCPA)
#' library(SummarizedExperiment)
#' affyDEExperiment <- loadData("affyDEExperiment")
#' agilDEExperiment <- loadData("agilDEExperiment")
#' RNASeqDEExperiment <- loadData("RNASeqDEExperiment")
#'
#' metaDEResult <- RCPA::runDEMetaAnalysis(list(
#' rowData(affyDEExperiment)[1:1000,],
#' rowData(agilDEExperiment)[1:1000,],
#' rowData(RNASeqDEExperiment)[1:1000,]
#' ), method = "stouffer")
#'
#' }
#' @importFrom dplyr %>% bind_rows group_by summarize mutate
#' @importFrom stats p.adjust
#' @importFrom tidyr drop_na
#' @importFrom SummarizedExperiment rowData
#' @export
runDEMetaAnalysis <- function(DEResults, method = c("stouffer", "fisher", "addCLT", "geoMean", "minP", "REML")) {
method <- match.arg(method)
if (!.requirePackage("meta")){
return(NULL)
}
if (length(DEResults) == 1) {
stop("Meta analysis is valid for two or more studies.")
}
for (DEResult in DEResults) {
if (is.null(DEResult)) {
stop("There is null object in the input list.")
}
if (!all(c("ID", "p.value", "logFC", "logFCSE", "sampleSize") %in% colnames(DEResult))) {
stop("All the dataframes in the input list must have p.value, logFC, logFCSE, and sampleSize columns.")
}
}
if (method != "REML"){
combinePFunc <- switch(method,
fisher = .runFisher,
stouffer = .runStouffer,
minP = min,
addCLT = .runAddCLT,
geoMean = .runGeoMean
)
pvalRes <- DEResults %>%
lapply(function(df) {
df[, c("ID", "p.value", "logFC")] %>% as.data.frame()
}) %>%
bind_rows() %>%
drop_na() %>%
mutate(
left.p = ifelse(.$logFC < 0, .$p.value, 1 - .$p.value),
right.p = ifelse(.$logFC > 0, .$p.value, 1 - .$p.value)
) %>%
group_by(.data$ID) %>%
summarise(
left.p = combinePFunc(.data$left.p),
right.p = combinePFunc(.data$right.p),
n = length(.data$ID)
) %>%
filter(.data$n == length(DEResults))
}
metagenRes <- DEResults %>%
lapply(function(df) {
df[, c("ID", "logFC", "logFCSE", "p.value", "sampleSize")] %>% as.data.frame()
}) %>%
bind_rows() %>%
group_by(.data$ID) %>%
group_split() %>%
lapply(function(dat) {
if (nrow(dat) < length(DEResults)) {
return(NULL)
}
res <- try({
meta::metagen(data = dat,
studlab = dat$ID,
TE = dat$logFC,
# seTE = logFCSE,
pval = dat$p.value,
sm = "SMD",
method.tau = "REML",
hakn = TRUE,
n.e = dat$sampleSize
) }, silent = TRUE)
if (inherits(res, "try-error")) {
res <- NULL
}
return(res)
}) %>%
do.call(what = rbind)
metaResult <- metagenRes[, c("studlab", "TE.fixed", "seTE.fixed", "pval.fixed")] %>%
as.data.frame() %>%
mutate(
ID = .data$studlab %>% sapply(`[`, 1),
p.value = unlist(.data$pval.fixed),
logFC = unlist(.data$TE.fixed),
logFCSE = unlist(.data$seTE.fixed)
) %>%
mutate(
pFDR = p.adjust(.data$p.value, method = "fdr")
) %>%
select("ID", "p.value", "pFDR", "logFC", "logFCSE") %>%
drop_na() %>%
as.data.frame()
if (method != "REML"){
metaResult <- metaResult %>%
select("ID", "logFC", "logFCSE") %>%
inner_join(pvalRes, by = "ID") %>%
mutate(
p.value = ifelse(.$logFC < 0, .$left.p, .$right.p),
pFDR = p.adjust(.data$p.value, method = "fdr")
) %>%
select("ID", "p.value", "pFDR", "logFC", "logFCSE")
}
metaResult <- metaResult[order(metaResult$p.value),]
rownames(metaResult) <- NULL
return(metaResult)
}
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RCPA documentation built on Nov. 21, 2023, 5:08 p.m.
R Package Documentation
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Defines functions runDEMetaAnalysis runPathwayMetaAnalysis .runGeoMean .runAddCLT .runStouffer .runFisher
Documented in runDEMetaAnalysis runPathwayMetaAnalysis
#' @title Combine p-values using Fisher's
#' @description This function combines p-values based on Fisher's method.
#' This function is used internally by .combinePvalues.
#' @param pvals The vector of P-Values to be combined.
#' @return A combined P-Value
#' @details This function is used internally by .combinePvalues.
#' @importFrom stats qnorm pchisq
#' @noRd
.runFisher <- function(pvals) {
pvals[pvals == 0] <- .Machine$double.eps
p.value <- pchisq(-2 * sum(log(pvals)), df = 2 * length(pvals), lower.tail = FALSE)
return(p.value)
}
#' @title Combine p-values using Stouffer's
#' @description This function combines p-values based on Stouffer's method.
#' This function is used internally by .combinePvalues.
#' @param pvals The vector of p-values to be combined.
#' @return A combined P-Value
#' @details This function is used internally by .combinePvalues.
#' @importFrom stats pnorm qnorm
#' @noRd
.runStouffer <- function(pvals) {
pvals[pvals == 0] <- .Machine$double.eps
p.value <- pnorm(sum(qnorm(pvals)) / sqrt(length(pvals)))
return(p.value)
}
#' @title Combine p-values using addCLT
#' @description This function combines p-values based on addCLT method.
#' This function is used internally by .combinePvalues.
#' @param pvals The vector of P-Values to be combined.
#' @return A combined P-Value
#' @details This function is used internally by .combinePvalues.
#' @importFrom stats pnorm
#' @noRd
.runAddCLT <- function(pvals) {
pvals <- pvals[!is.na(pvals)]
pvals[pvals == 0] <- .Machine$double.eps
n <- length(pvals)
p.value <- 1
if (n <= 20) {
x <- sum(pvals)
p.value <- 1 / factorial(n) * sum(sapply(0:floor(x), function(k) (-1)^k * choose(n, k) * (x - k)^(n)))
}else {
p.value <- pnorm(sum(pvals), n / 2, sqrt(n / 12), lower.tail = TRUE)
}
return(p.value)
}
#' @title Combine p-values using Geometric Mean
#' @description This function combines P-Values by computing their geometric mean.
#' This function is used internally by .combinePvalues.
#' @param pvals The vector of P-Values to be combined.
#' @return A combined P-Value
#' @details This function is used internally by .combinePvalues.
#' @noRd
.runGeoMean <- function(pvals) {
pvals[pvals == 0] <- .Machine$double.eps
p.value <- exp(mean(log(pvals)))
return(p.value)
}
#' @title Perform Meta Analysis
#' @description This function performs meta analysis on multiple pathway analysis results.
#' @param PAResults A list of at least size two of data frames obtained from pathway analysis
#' @param method A method used to combine pathway analysis results, which can be "stouffer", "fisher", "addCLT", "geoMean", "minP", or "REML"
#' @return A dataframe of meta analysis results including the following columns:
#' \itemize{
#' \item{ID: The ID of pathway}
#' \item{name: The name of pathway}
#' \item{p.value: The meta p-value of pathway}
#' \item{pFDR: The adjusted meta p-value of pathway using Benjamini-Hochberg method}
#' \item{score: The combined score of pathway}
#' \item{normalizedScore: The combined normalized score of pathway}
#' \item{pathwaySize: The size of pathway}
#' }
#' @examples
#' \donttest{
#'
#' library(RCPA)
#' affyFgseaResult <- loadData("affyFgseaResult")
#' agilFgseaResult <- loadData("agilFgseaResult")
#' RNASeqFgseaResult <- loadData("RNASeqFgseaResult")
#'
#' metaPAResult <- RCPA::runPathwayMetaAnalysis(
#' list(affyFgseaResult, agilFgseaResult, RNASeqFgseaResult),
#' method = "stouffer"
#' )
#' }
#' @details This function performs meta-analysis on multiple pathway analysis results.
#' @importFrom dplyr %>% bind_rows mutate group_by summarise filter group_split select inner_join
#' @importFrom tidyr drop_na
#' @export
runPathwayMetaAnalysis <- function(PAResults, method = c("stouffer", "fisher", "addCLT", "geoMean", "minP", "REML")) {
method <- match.arg(method)
if (!.requirePackage("meta")){
return(NULL)
}
if (length(PAResults) == 1) {
stop("Meta analysis is valid for two or more studies.")
}
for (PAResult in PAResults) {
if (is.null(PAResult)) {
stop("There is null object in the input list.")
}
if (!all(c("ID", "p.value", "normalizedScore", "sampleSize") %in% colnames(PAResult))) {
stop("All the dataframes in the input list must have ID, p.value, normalizedScore and sampleSize columns.")
}
}
if (method != "REML"){
combinePFunc <- switch(method,
fisher = .runFisher,
stouffer = .runStouffer,
minP = min,
addCLT = .runAddCLT,
geoMean = .runGeoMean)
pvalRes <- PAResults %>%
lapply(function(df) {
df[, c("ID", "p.value", "normalizedScore")] %>% as.data.frame()
}) %>%
bind_rows() %>%
drop_na() %>%
mutate(
left.p = ifelse(.$normalizedScore < 0, .$p.value, 1 - .$p.value),
right.p = ifelse(.$normalizedScore > 0, .$p.value, 1 - .$p.value)
) %>%
group_by(.data$ID) %>%
summarise(
left.p = combinePFunc(.data$left.p),
right.p = combinePFunc(.data$right.p),
n = length(.data$ID)
) %>%
filter(.data$n == length(PAResults))
}
metagenRes <- PAResults %>%
lapply(function(df) {
df[, c("ID", "normalizedScore", "p.value", "sampleSize")] %>% as.data.frame()
}) %>%
bind_rows() %>%
group_by(.data$ID) %>%
group_split() %>%
lapply(function(dat) {
if (nrow(dat) < length(PAResults)) {
return(NULL)
}
res <- try({
meta::metagen(data = dat,
studlab = dat$ID,
TE = dat$normalizedScore,
# seTE = logFCSE,
pval = dat$p.value,
sm = "SMD",
method.tau = "REML",
hakn = TRUE,
n.e = dat$sampleSize
) }, silent = TRUE)
if (inherits(res, "try-error")) {
res <- NULL
}
return(res)
}) %>%
do.call(what = rbind)
metaResult <- metagenRes[, c("studlab", "TE.fixed", "seTE.fixed", "pval.fixed")] %>%
as.data.frame() %>%
mutate(
ID = .data$studlab %>% sapply(`[`, 1),
p.value = unlist(.data$pval.fixed),
score = unlist(.data$TE.fixed),
normalizedScore = .data$score
) %>%
mutate(
pFDR = p.adjust(.data$p.value, method = "fdr")
)
if (method != "REML"){
metaResult <- metaResult %>%
select("ID", "score", "normalizedScore") %>%
inner_join(pvalRes, by = "ID") %>%
mutate(
p.value = ifelse(.$normalizedScore < 0, .$left.p, .$right.p),
pFDR = p.adjust(.data$p.value, method = "fdr")
)
}
metaResult$name <- PAResults[[1]][match(metaResult$ID, PAResults[[1]]$ID), "name"]
metaResult$pathwaySize <- PAResults[[1]][match(metaResult$ID, PAResults[[1]]$ID), "pathwaySize"]
metaResult <- metaResult[order(metaResult$p.value),]
rownames(metaResult) <- NULL
metaResult[, c("ID", "name", "p.value", "pFDR", "score", "normalizedScore", "pathwaySize")]
}
#' @title Combine DE analysis results
#' @description This function performs mata analysis on multiple DE analysis results.
#' @param DEResults A list of dataframes containing DE analysis results.
#' Each dataframe must have ID, p.value, logFC and logFCSE columns.
#' @param method The method to combine p-values. It can be one of "fisher", "stouffer", "geoMean", "addCLT", "minP", or "REML".
#' @return A dataframe containing combined DE analysis results.
#' The dataframe has ID, p.value, pDFR, logFC, and logFCSE columns.
#' @examples
#' \donttest{
#' library(RCPA)
#' library(SummarizedExperiment)
#' affyDEExperiment <- loadData("affyDEExperiment")
#' agilDEExperiment <- loadData("agilDEExperiment")
#' RNASeqDEExperiment <- loadData("RNASeqDEExperiment")
#'
#' metaDEResult <- RCPA::runDEMetaAnalysis(list(
#' rowData(affyDEExperiment)[1:1000,],
#' rowData(agilDEExperiment)[1:1000,],
#' rowData(RNASeqDEExperiment)[1:1000,]
#' ), method = "stouffer")
#'
#' }
#' @importFrom dplyr %>% bind_rows group_by summarize mutate
#' @importFrom stats p.adjust
#' @importFrom tidyr drop_na
#' @importFrom SummarizedExperiment rowData
#' @export
runDEMetaAnalysis <- function(DEResults, method = c("stouffer", "fisher", "addCLT", "geoMean", "minP", "REML")) {
method <- match.arg(method)
if (!.requirePackage("meta")){
return(NULL)
}
if (length(DEResults) == 1) {
stop("Meta analysis is valid for two or more studies.")
}
for (DEResult in DEResults) {
if (is.null(DEResult)) {
stop("There is null object in the input list.")
}
if (!all(c("ID", "p.value", "logFC", "logFCSE", "sampleSize") %in% colnames(DEResult))) {
stop("All the dataframes in the input list must have p.value, logFC, logFCSE, and sampleSize columns.")
}
}
if (method != "REML"){
combinePFunc <- switch(method,
fisher = .runFisher,
stouffer = .runStouffer,
minP = min,
addCLT = .runAddCLT,
geoMean = .runGeoMean
)
pvalRes <- DEResults %>%
lapply(function(df) {
df[, c("ID", "p.value", "logFC")] %>% as.data.frame()
}) %>%
bind_rows() %>%
drop_na() %>%
mutate(
left.p = ifelse(.$logFC < 0, .$p.value, 1 - .$p.value),
right.p = ifelse(.$logFC > 0, .$p.value, 1 - .$p.value)
) %>%
group_by(.data$ID) %>%
summarise(
left.p = combinePFunc(.data$left.p),
right.p = combinePFunc(.data$right.p),
n = length(.data$ID)
) %>%
filter(.data$n == length(DEResults))
}
metagenRes <- DEResults %>%
lapply(function(df) {
df[, c("ID", "logFC", "logFCSE", "p.value", "sampleSize")] %>% as.data.frame()
}) %>%
bind_rows() %>%
group_by(.data$ID) %>%
group_split() %>%
lapply(function(dat) {
if (nrow(dat) < length(DEResults)) {
return(NULL)
}
res <- try({
meta::metagen(data = dat,
studlab = dat$ID,
TE = dat$logFC,
# seTE = logFCSE,
pval = dat$p.value,
sm = "SMD",
method.tau = "REML",
hakn = TRUE,
n.e = dat$sampleSize
) }, silent = TRUE)
if (inherits(res, "try-error")) {
res <- NULL
}
return(res)
}) %>%
do.call(what = rbind)
metaResult <- metagenRes[, c("studlab", "TE.fixed", "seTE.fixed", "pval.fixed")] %>%
as.data.frame() %>%
mutate(
ID = .data$studlab %>% sapply(`[`, 1),
p.value = unlist(.data$pval.fixed),
logFC = unlist(.data$TE.fixed),
logFCSE = unlist(.data$seTE.fixed)
) %>%
mutate(
pFDR = p.adjust(.data$p.value, method = "fdr")
) %>%
select("ID", "p.value", "pFDR", "logFC", "logFCSE") %>%
drop_na() %>%
as.data.frame()
if (method != "REML"){
metaResult <- metaResult %>%
select("ID", "logFC", "logFCSE") %>%
inner_join(pvalRes, by = "ID") %>%
mutate(
p.value = ifelse(.$logFC < 0, .$left.p, .$right.p),
pFDR = p.adjust(.data$p.value, method = "fdr")
) %>%
select("ID", "p.value", "pFDR", "logFC", "logFCSE")
}
metaResult <- metaResult[order(metaResult$p.value),]
rownames(metaResult) <- NULL
return(metaResult)
}
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Any scripts or data that you put into this service are public.
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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