R/wilcoxon.R
In Wancen/airpart: Differential cell-type-specific allelic imbalance
Defines functions
wilcoxInt
select_thrs
wilcoxExt
Documented in
wilcoxExt
#' Extension on Pairwise Mann Whitney Wilcoxon Test for partitioning
#'
#' Extends the Pairwise Mann Whitney Wilcoxon Test by combining
#' hierarchical clustering for partition.
#'
#' @param sce A SingleCellExperiment containing assays (\code{"ratio"},
#' \code{"counts"}) and colData \code{"x"}
#' @param genecluster which gene cluster result want to be returned.
#' Usually identified interesting gene cluster pattern by
#' \code{\link{summaryAllelicRatio}}
#' @param threshold a vector with candidate thresholds for raw p-value
#' cut-off. Default is 10^seq(from=-2,to=-0.4,by=0.2).
#' For details please see vignette
#' @param adj.matrix an adjacency matrix with 1 indicates cell states
#' allowed to be grouped together, 0 otherwise.
#' @param p.adjust.method method for adjusting p-values
#' (see \code{\link[stats]{p.adjust}}). Can be abbreviated
#' @param ncores A cluster object created by \code{\link[parallel]{makeCluster}}.
#' Or an integer to indicate number of child-processes
#' (integer values are ignored on Windows) for parallel evaluations
#' @param ... additional arguments to pass to \code{\link[stats]{wilcox.test}}.
#'
#' @return A matrix grouping factor partition and
#' the significant cut-off threshold
#' are returned in metadata \code{"partition"} and \code{"threshold"}.
#' Partation also stored in colData\code{"part"}. Note we recommend the returned
#' \code{"threshold"} is not at the ends of input \code{"threshold"}.
#'
#' @examples
#' library(S4Vectors)
#' sce <- makeSimulatedData()
#' sce <- preprocess(sce)
#' sce <- geneCluster(sce, G = seq_len(4))
#' sce_sub <- wilcoxExt(sce, genecluster = 1)
#' metadata(sce_sub)$partition
#' metadata(sce_sub)$threshold
#'
#' # Suppose we have 4 cell states, if we don't want cell state 1
#' # to be grouped together with other cell states
#' adj.matrix <- 1 - diag(4)
#' colnames(adj.matrix) <- rownames(adj.matrix) <- levels(sce$x)
#' adj.matrix[1, c(2, 3, 4)] <- 0
#' adj.matrix[c(2, 3, 4), 1] <- 0
#' thrs <- 10^seq(from = -2, to = -0.4, by = 0.1)
#' sce_sub <- wilcoxExt(sce,
#' genecluster = 1, threshold = thrs,
#' adj.matrix = adj.matrix
#' )
#' metadata(sce_sub)$partition
#' @importFrom dplyr left_join
#' @importFrom plyr mutate
#' @importFrom stats pairwise.wilcox.test
#' @importFrom pbapply pblapply
#'
#' @export
wilcoxExt <- function(sce, genecluster, threshold, adj.matrix,
p.adjust.method = "none", ncores = NULL, ...) {
if (missing(threshold)) {
threshold <- 10^seq(from = -2, to = -0.4, by = 0.2)
}
if (missing(genecluster)) {
stop("No gene cluster number")
}
nct <- nlevels(sce$x)
if (missing(adj.matrix)) {
adj.matrix <- matrix(1, nct, nct)
}
stopifnot(c("ratio", "counts") %in% assayNames(sce))
stopifnot("x" %in% names(colData(sce)))
stopifnot("cluster" %in% names(rowData(sce)))
## construct data frame
sce_sub <- sce[rowData(sce)$cluster == genecluster, ]
cl_ratio <- as.vector(unlist(assays(sce_sub)[["ratio"]]))
cl_total <- as.vector(unlist(counts(sce_sub)))
dat <- data.frame(
ratio = cl_ratio,
x = factor(rep(sce_sub$x, each = length(sce_sub))),
cts = cl_total
)
obj <- pblapply(threshold, select_thrs,
dat = dat, p.adjust.method = p.adjust.method,
adj.matrix = adj.matrix, cl = ncores, ...
)
cl <- do.call(rbind, lapply(obj, `[[`, 1))
loss1 <- do.call(rbind, lapply(obj, `[[`, 2))
partition <- data.frame(
part = factor(cl[which.min(loss1), ]),
x = levels(sce_sub$x)
)
colData(sce_sub)$part <- partition$part[match(colData(sce_sub)$x, partition$x)]
metadata(sce_sub)$partition <- partition
metadata(sce_sub)$threshold <- threshold[which.min(loss1)]
return(sce_sub)
}
## not exported
select_thrs <- function(threshold, dat, p.adjust.method, adj.matrix, ...) {
fit <- wilcoxInt(dat,
p.adjust.method = p.adjust.method,
threshold = threshold, adj.matrix = adj.matrix, ...
)
label <- data.frame(type = factor(levels(dat$x)), par = factor(fit))
dat2 <- dat %>%
left_join(label, by = c("x" = "type"))
dat2 <- dat2 %>%
group_by(.data$par) %>%
dplyr::mutate(grpmean = mean(.data$ratio, na.rm = TRUE))
## loss function
loss1 <- nrow(dat) * log(sum((dat2$ratio - dat2$grpmean)^2, na.rm = TRUE) /
nrow(dat2)) + length(unique(fit)) * log(nrow(dat2))
return(list(cl = fit, loss1 = loss1))
}
## not exported
wilcoxInt <- function(data, threshold = 0.05,
p.adjust.method = "none", adj.matrix, ...) {
nct <- length(levels(data$x))
res <- pairwise.wilcox.test(data$ratio, data$x,
p.adjust.method = p.adjust.method, ...
)
adj <- as.data.frame(res$p.value)[lower.tri(res$p.value, diag = TRUE)]
## Wilcoxon output Nan if ratio of two cell types are exactly same
adj <- ifelse(is.nan(adj), 1, adj)
b <- matrix(0, nct, nct)
b[lower.tri(b, diag = FALSE)] <- adj
b2 <- b + t(b)
diag(b2) <- 1
b2[which(adj.matrix == 0)] <- 0
## binarize p-value to be seen as dismilarity matrix
bb <- ifelse(b2 < threshold, 1, 0)
## hierarchical cluster on adjacency matrix
clust <- hclust(as.dist(bb))
my.clusters <- cutree(clust, h = 0)
return(my.clusters)
}
Wancen/airpart documentation built on March 12, 2023, 11:53 a.m.
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Defines functions wilcoxInt select_thrs wilcoxExt
Documented in wilcoxExt
#' Extension on Pairwise Mann Whitney Wilcoxon Test for partitioning
#'
#' Extends the Pairwise Mann Whitney Wilcoxon Test by combining
#' hierarchical clustering for partition.
#'
#' @param sce A SingleCellExperiment containing assays (\code{"ratio"},
#' \code{"counts"}) and colData \code{"x"}
#' @param genecluster which gene cluster result want to be returned.
#' Usually identified interesting gene cluster pattern by
#' \code{\link{summaryAllelicRatio}}
#' @param threshold a vector with candidate thresholds for raw p-value
#' cut-off. Default is 10^seq(from=-2,to=-0.4,by=0.2).
#' For details please see vignette
#' @param adj.matrix an adjacency matrix with 1 indicates cell states
#' allowed to be grouped together, 0 otherwise.
#' @param p.adjust.method method for adjusting p-values
#' (see \code{\link[stats]{p.adjust}}). Can be abbreviated
#' @param ncores A cluster object created by \code{\link[parallel]{makeCluster}}.
#' Or an integer to indicate number of child-processes
#' (integer values are ignored on Windows) for parallel evaluations
#' @param ... additional arguments to pass to \code{\link[stats]{wilcox.test}}.
#'
#' @return A matrix grouping factor partition and
#' the significant cut-off threshold
#' are returned in metadata \code{"partition"} and \code{"threshold"}.
#' Partation also stored in colData\code{"part"}. Note we recommend the returned
#' \code{"threshold"} is not at the ends of input \code{"threshold"}.
#'
#' @examples
#' library(S4Vectors)
#' sce <- makeSimulatedData()
#' sce <- preprocess(sce)
#' sce <- geneCluster(sce, G = seq_len(4))
#' sce_sub <- wilcoxExt(sce, genecluster = 1)
#' metadata(sce_sub)$partition
#' metadata(sce_sub)$threshold
#'
#' # Suppose we have 4 cell states, if we don't want cell state 1
#' # to be grouped together with other cell states
#' adj.matrix <- 1 - diag(4)
#' colnames(adj.matrix) <- rownames(adj.matrix) <- levels(sce$x)
#' adj.matrix[1, c(2, 3, 4)] <- 0
#' adj.matrix[c(2, 3, 4), 1] <- 0
#' thrs <- 10^seq(from = -2, to = -0.4, by = 0.1)
#' sce_sub <- wilcoxExt(sce,
#' genecluster = 1, threshold = thrs,
#' adj.matrix = adj.matrix
#' )
#' metadata(sce_sub)$partition
#' @importFrom dplyr left_join
#' @importFrom plyr mutate
#' @importFrom stats pairwise.wilcox.test
#' @importFrom pbapply pblapply
#'
#' @export
wilcoxExt <- function(sce, genecluster, threshold, adj.matrix,
p.adjust.method = "none", ncores = NULL, ...) {
if (missing(threshold)) {
threshold <- 10^seq(from = -2, to = -0.4, by = 0.2)
}
if (missing(genecluster)) {
stop("No gene cluster number")
}
nct <- nlevels(sce$x)
if (missing(adj.matrix)) {
adj.matrix <- matrix(1, nct, nct)
}
stopifnot(c("ratio", "counts") %in% assayNames(sce))
stopifnot("x" %in% names(colData(sce)))
stopifnot("cluster" %in% names(rowData(sce)))
## construct data frame
sce_sub <- sce[rowData(sce)$cluster == genecluster, ]
cl_ratio <- as.vector(unlist(assays(sce_sub)[["ratio"]]))
cl_total <- as.vector(unlist(counts(sce_sub)))
dat <- data.frame(
ratio = cl_ratio,
x = factor(rep(sce_sub$x, each = length(sce_sub))),
cts = cl_total
)
obj <- pblapply(threshold, select_thrs,
dat = dat, p.adjust.method = p.adjust.method,
adj.matrix = adj.matrix, cl = ncores, ...
)
cl <- do.call(rbind, lapply(obj, `[[`, 1))
loss1 <- do.call(rbind, lapply(obj, `[[`, 2))
partition <- data.frame(
part = factor(cl[which.min(loss1), ]),
x = levels(sce_sub$x)
)
colData(sce_sub)$part <- partition$part[match(colData(sce_sub)$x, partition$x)]
metadata(sce_sub)$partition <- partition
metadata(sce_sub)$threshold <- threshold[which.min(loss1)]
return(sce_sub)
}
## not exported
select_thrs <- function(threshold, dat, p.adjust.method, adj.matrix, ...) {
fit <- wilcoxInt(dat,
p.adjust.method = p.adjust.method,
threshold = threshold, adj.matrix = adj.matrix, ...
)
label <- data.frame(type = factor(levels(dat$x)), par = factor(fit))
dat2 <- dat %>%
left_join(label, by = c("x" = "type"))
dat2 <- dat2 %>%
group_by(.data$par) %>%
dplyr::mutate(grpmean = mean(.data$ratio, na.rm = TRUE))
## loss function
loss1 <- nrow(dat) * log(sum((dat2$ratio - dat2$grpmean)^2, na.rm = TRUE) /
nrow(dat2)) + length(unique(fit)) * log(nrow(dat2))
return(list(cl = fit, loss1 = loss1))
}
## not exported
wilcoxInt <- function(data, threshold = 0.05,
p.adjust.method = "none", adj.matrix, ...) {
nct <- length(levels(data$x))
res <- pairwise.wilcox.test(data$ratio, data$x,
p.adjust.method = p.adjust.method, ...
)
adj <- as.data.frame(res$p.value)[lower.tri(res$p.value, diag = TRUE)]
## Wilcoxon output Nan if ratio of two cell types are exactly same
adj <- ifelse(is.nan(adj), 1, adj)
b <- matrix(0, nct, nct)
b[lower.tri(b, diag = FALSE)] <- adj
b2 <- b + t(b)
diag(b2) <- 1
b2[which(adj.matrix == 0)] <- 0
## binarize p-value to be seen as dismilarity matrix
bb <- ifelse(b2 < threshold, 1, 0)
## hierarchical cluster on adjacency matrix
clust <- hclust(as.dist(bb))
my.clusters <- cutree(clust, h = 0)
return(my.clusters)
}
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