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R/core.R
In Dune: Improving replicability in single-cell RNA-Seq cell type discovery
Defines functions
functionTracking
intermediateMat
clusterConversion
ARIImp
Documented in
ARIImp
clusterConversion
functionTracking
intermediateMat
#' ARI improvement
#'
#' Compute the ARI improvement over the ARI merging procedure
#' @param merger the result from having run \code{\link{Dune}}
#' on the dataset
#' @param unclustered The value assigned to unclustered cells. Default to \code{NULL}
#' @return a vector with the mean ARI between methods at each merge
#' @seealso ARItrend
#' @importFrom magrittr %>%
#' @examples
#' data("clusMat", package = "Dune")
#' merger <- Dune(clusMat = clusMat)
#' plot(0:nrow(merger$merges), ARIImp(merger))
#' @export
ARIImp <- function(merger, unclustered = NULL) {
baseARI <- ARIs(merger$initialMat, unclustered = unclustered)
# Normalize the impARI so that we take the mean over the same values.
ARI <- merger$ImpARI
baseARI <- baseARI[upper.tri(baseARI)] %>% mean()
ARI <- c(baseARI, ARI)
ARI <- cumsum(ARI)
return(ARI)
}
#' clusterConversion
#'
#' Find the conversion between the old cluster and the final clusters
#' @param merger the result from having run \code{\link{Dune}}
#' on the dataset
#' @param p A value between 0 and 1. We stop when the mean ARI has improved by p
#' of the final total improvement. Default to 1 (i.e running the full merging).
#' @param n_steps Alternatively, you can specifiy the number of merging steps to
#' do before stopping.
#' @return A list containing a matrix per clustering method, with a column for the old labels
#' and a column for the new labels.
#' @importFrom magrittr %>%
#' @importFrom dplyr n_distinct filter
#' @examples
#' data("clusMat", package = "Dune")
#' merger <- Dune(clusMat = clusMat)
#' clusterConversion(merger)[[2]]
#' @export
clusterConversion <- function(merger, p = 1, n_steps = NULL) {
if (p == 0 | (!is.null(n_steps) && n_steps == 0)) {
updates <- lapply(as.data.frame(merger$initialMat), function(clusters){
return(data.frame(old = unique(clusters), new = unique(clusters)))
})
} else {
# Compute ARI imp and find where to stop the merge
merges <- merger$merges
if (is.null(n_steps)) {
j <- whenToStop(merger, p = p)
} else {
j <- n_steps
}
merges <- merges[seq_len(j), ]
updates <- lapply(colnames(merger$initialMat), function(clusLab){
clusters <- unique(merger$initialMat[, clusLab])
update <- data.frame(old = clusters, new = clusters)
return(update)
})
names(updates) <- colnames(merger$initialMat)
for (i in seq_len(nrow(merges))) {
clusLab <- merges[i, 1]
pair <- as.numeric(merges[i, 2:3])
clus <- max(pair)
id <- updates[[clusLab]]$new == clus
updates[[clusLab]][id, "new"] <- min(pair)
}
}
return(updates)
}
#' Find the clustering matrix that we would get if we stopped the ARI merging
#' early
#' @param merger the result from having run \code{\link{Dune}}
#' on the dataset
#' @param p A value between 0 and 1. We stop when the mean ARI has improved by p
#' of the final total improvement. Default to 1 (i.e running the full merging).
#' @param n_steps Alternatively, you can specifiy the number of merging steps to
#' do before stopping.
#' @return A data.frame with the same dimensions as the currentMat of the merger
#' argument, plus one column with cell names, related to the rownames of the
#' original input
#' @examples
#' data("clusMat", package = "Dune")
#' merger <- Dune(clusMat = clusMat)
#' head(intermediateMat(merger, n_steps = 1))
#' @importFrom magrittr %>%
#' @import dplyr
#' @import tidyr
#' @export
intermediateMat <- function(merger, p = 1, n_steps = NULL) {
# Get the conversion
oldToNew <- clusterConversion(merger = merger, p = p, n_steps = n_steps)
initialMat <- merger$initialMat %>% as.data.frame()
names(oldToNew) <- colnames(initialMat)
oldToNew <- bind_rows(oldToNew, .id = "cluster_label")
initialMat <- initialMat %>%
dplyr::mutate(cells = rownames(initialMat)) %>%
tidyr::pivot_longer(cols = colnames(initialMat), values_to = "old",
names_to = "cluster_label")
newMat <- full_join(oldToNew, initialMat,
by = c("old" = "old", "cluster_label" = "cluster_label")) %>%
dplyr::select("cluster_label", "new", "cells") %>%
dplyr::mutate("new" = as.integer(new)) %>%
tidyr::pivot_wider(names_from = "cluster_label", values_from = "new")
if (is.numeric(rownames(initialMat))) {
newMat <- newMat %>%
dplyr::mutate(cells = as.numeric(cells))
}
return(newMat)
}
#' Track the evolution of a function along merging
#'
#' For a given ARI merging, compute the evolution on the function f
#'
#' @param merger the result from having run \code{\link{Dune}}
#' on the dataset
#' @param f the function used. It must takes as input a clustering matrix and
#' return a value
#' @param p A value between 0 and 1. We stop when the mean ARI has improved by p
#' of the final total improvement. Default to 1 (i.e running the full merging).
#' @param n_steps Alternatively, you can specifiy the number of merging steps to
#' do before stopping.
#' @param ... additional arguments passed to f
#' @return a vector of length the number of merges
#' @importFrom magrittr %>%
#' @import dplyr
#' @examples
#' # Return the number of clusters for the fourth cluster label
#' data("clusMat", package = "Dune")
#' merger <- Dune(clusMat = clusMat)
#' f <- function(clusMat, i) dplyr::n_distinct(clusMat[, i])
#' functionTracking(merger, f, i = 4)
#' @export
functionTracking <- function(merger, f, p = 1, n_steps = NULL, ...){
# Go over the merge and compute the function as we go
if (is.null(n_steps)) {
j <- whenToStop(merger, p = p)
} else {
j <- n_steps
}
values <- rep(0, j + 1)
values[1] <- f(merger$initialMat, ...)
for (i in seq_len(j)) {
values[i + 1] <- f(intermediateMat(merger, n_steps = i) %>% select(-cells),
...)
}
return(values)
}
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Defines functions functionTracking intermediateMat clusterConversion ARIImp
Documented in ARIImp clusterConversion functionTracking intermediateMat
#' ARI improvement
#'
#' Compute the ARI improvement over the ARI merging procedure
#' @param merger the result from having run \code{\link{Dune}}
#' on the dataset
#' @param unclustered The value assigned to unclustered cells. Default to \code{NULL}
#' @return a vector with the mean ARI between methods at each merge
#' @seealso ARItrend
#' @importFrom magrittr %>%
#' @examples
#' data("clusMat", package = "Dune")
#' merger <- Dune(clusMat = clusMat)
#' plot(0:nrow(merger$merges), ARIImp(merger))
#' @export
ARIImp <- function(merger, unclustered = NULL) {
baseARI <- ARIs(merger$initialMat, unclustered = unclustered)
# Normalize the impARI so that we take the mean over the same values.
ARI <- merger$ImpARI
baseARI <- baseARI[upper.tri(baseARI)] %>% mean()
ARI <- c(baseARI, ARI)
ARI <- cumsum(ARI)
return(ARI)
}
#' clusterConversion
#'
#' Find the conversion between the old cluster and the final clusters
#' @param merger the result from having run \code{\link{Dune}}
#' on the dataset
#' @param p A value between 0 and 1. We stop when the mean ARI has improved by p
#' of the final total improvement. Default to 1 (i.e running the full merging).
#' @param n_steps Alternatively, you can specifiy the number of merging steps to
#' do before stopping.
#' @return A list containing a matrix per clustering method, with a column for the old labels
#' and a column for the new labels.
#' @importFrom magrittr %>%
#' @importFrom dplyr n_distinct filter
#' @examples
#' data("clusMat", package = "Dune")
#' merger <- Dune(clusMat = clusMat)
#' clusterConversion(merger)[[2]]
#' @export
clusterConversion <- function(merger, p = 1, n_steps = NULL) {
if (p == 0 | (!is.null(n_steps) && n_steps == 0)) {
updates <- lapply(as.data.frame(merger$initialMat), function(clusters){
return(data.frame(old = unique(clusters), new = unique(clusters)))
})
} else {
# Compute ARI imp and find where to stop the merge
merges <- merger$merges
if (is.null(n_steps)) {
j <- whenToStop(merger, p = p)
} else {
j <- n_steps
}
merges <- merges[seq_len(j), ]
updates <- lapply(colnames(merger$initialMat), function(clusLab){
clusters <- unique(merger$initialMat[, clusLab])
update <- data.frame(old = clusters, new = clusters)
return(update)
})
names(updates) <- colnames(merger$initialMat)
for (i in seq_len(nrow(merges))) {
clusLab <- merges[i, 1]
pair <- as.numeric(merges[i, 2:3])
clus <- max(pair)
id <- updates[[clusLab]]$new == clus
updates[[clusLab]][id, "new"] <- min(pair)
}
}
return(updates)
}
#' Find the clustering matrix that we would get if we stopped the ARI merging
#' early
#' @param merger the result from having run \code{\link{Dune}}
#' on the dataset
#' @param p A value between 0 and 1. We stop when the mean ARI has improved by p
#' of the final total improvement. Default to 1 (i.e running the full merging).
#' @param n_steps Alternatively, you can specifiy the number of merging steps to
#' do before stopping.
#' @return A data.frame with the same dimensions as the currentMat of the merger
#' argument, plus one column with cell names, related to the rownames of the
#' original input
#' @examples
#' data("clusMat", package = "Dune")
#' merger <- Dune(clusMat = clusMat)
#' head(intermediateMat(merger, n_steps = 1))
#' @importFrom magrittr %>%
#' @import dplyr
#' @import tidyr
#' @export
intermediateMat <- function(merger, p = 1, n_steps = NULL) {
# Get the conversion
oldToNew <- clusterConversion(merger = merger, p = p, n_steps = n_steps)
initialMat <- merger$initialMat %>% as.data.frame()
names(oldToNew) <- colnames(initialMat)
oldToNew <- bind_rows(oldToNew, .id = "cluster_label")
initialMat <- initialMat %>%
dplyr::mutate(cells = rownames(initialMat)) %>%
tidyr::pivot_longer(cols = colnames(initialMat), values_to = "old",
names_to = "cluster_label")
newMat <- full_join(oldToNew, initialMat,
by = c("old" = "old", "cluster_label" = "cluster_label")) %>%
dplyr::select("cluster_label", "new", "cells") %>%
dplyr::mutate("new" = as.integer(new)) %>%
tidyr::pivot_wider(names_from = "cluster_label", values_from = "new")
if (is.numeric(rownames(initialMat))) {
newMat <- newMat %>%
dplyr::mutate(cells = as.numeric(cells))
}
return(newMat)
}
#' Track the evolution of a function along merging
#'
#' For a given ARI merging, compute the evolution on the function f
#'
#' @param merger the result from having run \code{\link{Dune}}
#' on the dataset
#' @param f the function used. It must takes as input a clustering matrix and
#' return a value
#' @param p A value between 0 and 1. We stop when the mean ARI has improved by p
#' of the final total improvement. Default to 1 (i.e running the full merging).
#' @param n_steps Alternatively, you can specifiy the number of merging steps to
#' do before stopping.
#' @param ... additional arguments passed to f
#' @return a vector of length the number of merges
#' @importFrom magrittr %>%
#' @import dplyr
#' @examples
#' # Return the number of clusters for the fourth cluster label
#' data("clusMat", package = "Dune")
#' merger <- Dune(clusMat = clusMat)
#' f <- function(clusMat, i) dplyr::n_distinct(clusMat[, i])
#' functionTracking(merger, f, i = 4)
#' @export
functionTracking <- function(merger, f, p = 1, n_steps = NULL, ...){
# Go over the merge and compute the function as we go
if (is.null(n_steps)) {
j <- whenToStop(merger, p = p)
} else {
j <- n_steps
}
values <- rep(0, j + 1)
values[1] <- f(merger$initialMat, ...)
for (i in seq_len(j)) {
values[i + 1] <- f(intermediateMat(merger, n_steps = i) %>% select(-cells),
...)
}
return(values)
}
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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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