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R/plotFreqHeatmap.R
In CATALYST: Cytometry dATa anALYSis Tools
Defines functions
plotFreqHeatmap
Documented in
plotFreqHeatmap
# ==============================================================================
# Heatmap for differental abundance & state analysis
# ------------------------------------------------------------------------------
#' @rdname plotFreqHeatmap
#' @title Cluster frequency heatmap
#' @description Heatmap of relative cluster abundances (frequencies) by sample.
#'
#' @param x a \code{\link[SingleCellExperiment]{SingleCellExperiment}}.
#' @param k character string specifying the clustering to use;
#' valid values are \code{names(cluster_codes(x))}.
#' Cell counts will be computed across these cluster IDs.
#' @param m character string specifying a metaclustering
#' to include as an annotation when \code{row_anno = TRUE}.
#' @param normalize logical specifying whether to Z-score normalize.
#' @param row_anno,col_anno logical specifying whether to
#' include row/column annotations for clusters/samples;
#' for \code{col_anno}, this can be a character vector specifying
#' a subset of \code{names(colData(x))} to be included.
#' @param row_clust,col_clust logical specifying
#' whether rows/columns (clusters/samples) should be
#' hierarchically clustered and re-ordered accordingly.
#' @param row_dend,col_dend logical specifying
#' whether to include row/column dendrograms.
#' @param bars logical specifying whether to include a barplot
#' of cell counts per cluster as a right-hand side row annotation.
#' @param perc logical specifying whether to display
#' percentage labels next to bars when \code{bars = TRUE}.
#' @param hm_pal character vector of colors to interpolate for the heatmap.
#' @param k_pal,m_pal character vector of colors
#' to use for cluster and merging row annotations.
#' If less than \code{nlevels(cluster_ids(x, k/m))}
#' values are supplied, colors will be interpolated
#' via \code{\link[grDevices:colorRamp]{colorRampPalette}}.
#'
#' @return a \code{\link[ComplexHeatmap]{Heatmap-class}} object.
#'
#' @author Helena L Crowell \email{helena.crowell@@uzh.ch}
#'
#' @seealso
#' \code{\link{plotAbundances}},
#' \code{\link{plotExprHeatmap}},
#' \code{\link{plotMultiHeatmap}},
#'
#' @examples
#' data(PBMC_fs, PBMC_panel, PBMC_md)
#' sce <- prepData(PBMC_fs, PBMC_panel, PBMC_md)
#' sce <- cluster(sce)
#'
#' # complete
#' plotFreqHeatmap(sce, k = "meta12", m = "meta8")
#'
#' # minimal
#' plotFreqHeatmap(sce, k = "meta10",
#' normalize = FALSE, bars = FALSE,
#' row_anno = FALSE, col_anno = FALSE,
#' row_clust = FALSE, col_clust = FALSE)
#'
#' # customize colors & annotations
#' plotFreqHeatmap(sce,
#' k = "meta7", m = "meta4",
#' col_anno = "condition",
#' hm_pal = c("navy", "grey95", "gold"),
#' k_pal = hcl.colors(7, "Set 2"),
#' m_pal = hcl.colors(4, "Dark 3"))
#'
#' @importFrom ComplexHeatmap Heatmap
#' @importFrom Matrix colSums
#' @importFrom RColorBrewer brewer.pal
#' @export
plotFreqHeatmap <- function(x,
k = "meta20", m = NULL, normalize = TRUE,
row_anno = TRUE, col_anno = TRUE,
row_clust = TRUE, col_clust = TRUE,
row_dend = TRUE, col_dend = TRUE,
bars = TRUE, perc = FALSE,
hm_pal = rev(brewer.pal(11, "RdBu")),
k_pal = CATALYST:::.cluster_cols, m_pal = k_pal) {
# check validity of input arguments
args <- as.list(environment())
.check_args_plotFreqHeatmap(args)
# compute cell counts & frequencies by cluster-sample
x$cluster_id <- cluster_ids(x, k)
ns <- table(x$cluster_id, x$sample_id)
fq <- prop.table(ns, 2)
y <- as.matrix(unclass(fq))
# do Z-score normalization by cluster & across samples
if (normalize) y <- .z_normalize(asin(sqrt(y)))
# left-hand side row annotation of (meta)clustering
if (!isFALSE(row_anno)) {
left_anno <- .anno_clusters(x, k, m, k_pal, m_pal)
} else left_anno <- NULL
# column annotation of cell metadata variables
if (!isFALSE(col_anno)) {
top_anno <- .anno_factors(x, levels(x$sample_id), col_anno, "colum")
} else top_anno <- NULL
# right-hand side row annotation of cell counts & frequencies by cluster
if (bars) {
right_anno <- .anno_counts(x$cluster_id, perc)
} else right_anno <- NULL
Heatmap(
matrix = y,
name = paste0("normalized\n"[normalize], "frequency"),
col = hm_pal,
na_col = "lightgrey",
rect_gp = gpar(col = "white"),
column_title = "sample_id",
column_title_side = "bottom",
cluster_rows = row_clust,
cluster_columns = col_clust,
show_row_dend = row_dend,
show_column_dend = col_dend,
show_row_names = is.null(left_anno),
row_names_side = "left",
top_annotation = top_anno,
left_annotation = left_anno,
right_annotation = right_anno)
}
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Defines functions plotFreqHeatmap
Documented in plotFreqHeatmap
# ==============================================================================
# Heatmap for differental abundance & state analysis
# ------------------------------------------------------------------------------
#' @rdname plotFreqHeatmap
#' @title Cluster frequency heatmap
#' @description Heatmap of relative cluster abundances (frequencies) by sample.
#'
#' @param x a \code{\link[SingleCellExperiment]{SingleCellExperiment}}.
#' @param k character string specifying the clustering to use;
#' valid values are \code{names(cluster_codes(x))}.
#' Cell counts will be computed across these cluster IDs.
#' @param m character string specifying a metaclustering
#' to include as an annotation when \code{row_anno = TRUE}.
#' @param normalize logical specifying whether to Z-score normalize.
#' @param row_anno,col_anno logical specifying whether to
#' include row/column annotations for clusters/samples;
#' for \code{col_anno}, this can be a character vector specifying
#' a subset of \code{names(colData(x))} to be included.
#' @param row_clust,col_clust logical specifying
#' whether rows/columns (clusters/samples) should be
#' hierarchically clustered and re-ordered accordingly.
#' @param row_dend,col_dend logical specifying
#' whether to include row/column dendrograms.
#' @param bars logical specifying whether to include a barplot
#' of cell counts per cluster as a right-hand side row annotation.
#' @param perc logical specifying whether to display
#' percentage labels next to bars when \code{bars = TRUE}.
#' @param hm_pal character vector of colors to interpolate for the heatmap.
#' @param k_pal,m_pal character vector of colors
#' to use for cluster and merging row annotations.
#' If less than \code{nlevels(cluster_ids(x, k/m))}
#' values are supplied, colors will be interpolated
#' via \code{\link[grDevices:colorRamp]{colorRampPalette}}.
#'
#' @return a \code{\link[ComplexHeatmap]{Heatmap-class}} object.
#'
#' @author Helena L Crowell \email{helena.crowell@@uzh.ch}
#'
#' @seealso
#' \code{\link{plotAbundances}},
#' \code{\link{plotExprHeatmap}},
#' \code{\link{plotMultiHeatmap}},
#'
#' @examples
#' data(PBMC_fs, PBMC_panel, PBMC_md)
#' sce <- prepData(PBMC_fs, PBMC_panel, PBMC_md)
#' sce <- cluster(sce)
#'
#' # complete
#' plotFreqHeatmap(sce, k = "meta12", m = "meta8")
#'
#' # minimal
#' plotFreqHeatmap(sce, k = "meta10",
#' normalize = FALSE, bars = FALSE,
#' row_anno = FALSE, col_anno = FALSE,
#' row_clust = FALSE, col_clust = FALSE)
#'
#' # customize colors & annotations
#' plotFreqHeatmap(sce,
#' k = "meta7", m = "meta4",
#' col_anno = "condition",
#' hm_pal = c("navy", "grey95", "gold"),
#' k_pal = hcl.colors(7, "Set 2"),
#' m_pal = hcl.colors(4, "Dark 3"))
#'
#' @importFrom ComplexHeatmap Heatmap
#' @importFrom Matrix colSums
#' @importFrom RColorBrewer brewer.pal
#' @export
plotFreqHeatmap <- function(x,
k = "meta20", m = NULL, normalize = TRUE,
row_anno = TRUE, col_anno = TRUE,
row_clust = TRUE, col_clust = TRUE,
row_dend = TRUE, col_dend = TRUE,
bars = TRUE, perc = FALSE,
hm_pal = rev(brewer.pal(11, "RdBu")),
k_pal = CATALYST:::.cluster_cols, m_pal = k_pal) {
# check validity of input arguments
args <- as.list(environment())
.check_args_plotFreqHeatmap(args)
# compute cell counts & frequencies by cluster-sample
x$cluster_id <- cluster_ids(x, k)
ns <- table(x$cluster_id, x$sample_id)
fq <- prop.table(ns, 2)
y <- as.matrix(unclass(fq))
# do Z-score normalization by cluster & across samples
if (normalize) y <- .z_normalize(asin(sqrt(y)))
# left-hand side row annotation of (meta)clustering
if (!isFALSE(row_anno)) {
left_anno <- .anno_clusters(x, k, m, k_pal, m_pal)
} else left_anno <- NULL
# column annotation of cell metadata variables
if (!isFALSE(col_anno)) {
top_anno <- .anno_factors(x, levels(x$sample_id), col_anno, "colum")
} else top_anno <- NULL
# right-hand side row annotation of cell counts & frequencies by cluster
if (bars) {
right_anno <- .anno_counts(x$cluster_id, perc)
} else right_anno <- NULL
Heatmap(
matrix = y,
name = paste0("normalized\n"[normalize], "frequency"),
col = hm_pal,
na_col = "lightgrey",
rect_gp = gpar(col = "white"),
column_title = "sample_id",
column_title_side = "bottom",
cluster_rows = row_clust,
cluster_columns = col_clust,
show_row_dend = row_dend,
show_column_dend = col_dend,
show_row_names = is.null(left_anno),
row_names_side = "left",
top_annotation = top_anno,
left_annotation = left_anno,
right_annotation = right_anno)
}
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