R/celdaProbabilityMap.R
In campbio/celda: CEllular Latent Dirichlet Allocation
Defines functions
.celdaProbabilityMapCG
.celdaProbabilityMapC
#' @title Probability map for a celda model
#' @description Renders probability and relative expression heatmaps to
#' visualize the relationship between features and cell populations (or cell
#' populations and samples).
#' @param sce A \link[SingleCellExperiment]{SingleCellExperiment} object
#' returned by \link{celda_C}, \link{celda_G}, or \link{celda_CG}.
#' @param useAssay A string specifying which \link{assay}
#' slot to use. Default "counts".
#' @param altExpName The name for the \link{altExp} slot
#' to use. Default "featureSubset".
#' @param level Character. One of "cellPopulation" or "Sample".
#' "cellPopulation" will display the absolute probabilities and relative
#' normalized expression of each module in each cell population.
#' \strong{\code{level = "cellPopulation"} only works for celda_CG \code{sce}
#' objects}. "sample" will display the absolute probabilities and relative
#' normalized abundance of each cell population in each sample. Default
#' "cellPopulation".
#' @param ncols The number of colors (>1) to be in the color palette of
#' the absolute probability heatmap.
#' @param col2 Passed to \code{col} argument of \link[ComplexHeatmap]{Heatmap}.
#' Set color boundaries and colors for the relative expression heatmap.
#' @param title1 Passed to \code{column_title} argument of
#' \link[ComplexHeatmap]{Heatmap}. Figure title for the absolute probability
#' heatmap.
#' @param title2 Passed to \code{column_title} argument of
#' \link[ComplexHeatmap]{Heatmap}. Figure title for the relative expression
#' heatmap.
#' @param showColumnNames Passed to \code{show_column_names} argument of
#' \link[ComplexHeatmap]{Heatmap}. Show column names.
#' @param showRowNames Passed to \code{show_row_names} argument of
#' \link[ComplexHeatmap]{Heatmap}. Show row names.
#' @param rowNamesgp Passed to \code{row_names_gp} argument of
#' \link[ComplexHeatmap]{Heatmap}. Set row name font.
#' @param colNamesgp Passed to \code{column_names_gp} argument of
#' \link[ComplexHeatmap]{Heatmap}. Set column name font.
#' @param clusterRows Passed to \code{cluster_rows} argument of
#' \link[ComplexHeatmap]{Heatmap}. Cluster rows.
#' @param clusterColumns Passed to \code{cluster_columns} argument of
#' \link[ComplexHeatmap]{Heatmap}. Cluster columns.
#' @param showHeatmapLegend Passed to \code{show_heatmap_legend} argument of
#' \link[ComplexHeatmap]{Heatmap}. Show heatmap legend.
#' @param heatmapLegendParam Passed to \code{heatmap_legend_param} argument of
#' \link[ComplexHeatmap]{Heatmap}. Heatmap legend parameters.
#' @param ... Additional parameters passed to \link[ComplexHeatmap]{Heatmap}.
#' @seealso \link{celda_C} for clustering cells. \link{celda_CG} for
#' clustering features and cells
#' @return A \link[ComplexHeatmap]{HeatmapList} object containing 2
#' \link[ComplexHeatmap]{Heatmap-class} objects
#' @export
setGeneric("celdaProbabilityMap",
function(sce,
useAssay = "counts",
altExpName = "featureSubset",
level = c("cellPopulation", "sample"),
ncols = 100,
col2 = circlize::colorRamp2(c(-2, 0, 2),
c("#1E90FF", "#FFFFFF", "#CD2626")),
title1 = "Absolute probability",
title2 = "Relative expression",
showColumnNames = TRUE,
showRowNames = TRUE,
rowNamesgp = grid::gpar(fontsize = 8),
colNamesgp = grid::gpar(fontsize = 12),
clusterRows = FALSE,
clusterColumns = FALSE,
showHeatmapLegend = TRUE,
heatmapLegendParam = list(title = NULL,
legend_height = grid::unit(6, "cm")),
...) {
standardGeneric("celdaProbabilityMap")
})
#' @rdname celdaProbabilityMap
#' @importFrom RColorBrewer brewer.pal
#' @importFrom grDevices colorRampPalette
#' @examples
#' data(sceCeldaCG)
#' celdaProbabilityMap(sceCeldaCG)
#' @export
setMethod("celdaProbabilityMap", signature(sce = "SingleCellExperiment"),
function(sce,
useAssay = "counts",
altExpName = "featureSubset",
level = c("cellPopulation", "sample"),
ncols = 100,
col2 = circlize::colorRamp2(c(-2, 0, 2),
c("#1E90FF", "#FFFFFF", "#CD2626")),
title1 = "Absolute probability",
title2 = "Relative expression",
showColumnNames = TRUE,
showRowNames = TRUE,
rowNamesgp = grid::gpar(fontsize = 8),
colNamesgp = grid::gpar(fontsize = 12),
clusterRows = FALSE,
clusterColumns = FALSE,
showHeatmapLegend = TRUE,
heatmapLegendParam = list(title = NULL,
legend_height = grid::unit(6, "cm")),
...) {
level <- match.arg(level)
if (celdaModel(sce, altExpName = altExpName) == "celda_C") {
if (level == "cellPopulation") {
warning("'level' has been set to 'sample'")
}
pm <- .celdaProbabilityMapC(sce = sce,
useAssay = useAssay,
altExpName = altExpName,
level = "sample",
ncols = ncols,
col2 = col2,
title1 = title1,
title2 = title2,
showColumnNames = showColumnNames,
showRowNames = showRowNames,
rowNamesgp = rowNamesgp,
colNamesgp = colNamesgp,
clusterRows = clusterRows,
clusterColumns = clusterColumns,
showHeatmapLegend = showHeatmapLegend,
heatmapLegendParam = heatmapLegendParam,
...)
} else if (celdaModel(sce, altExpName = altExpName) == "celda_CG") {
pm <- .celdaProbabilityMapCG(sce = sce,
useAssay = useAssay,
altExpName = altExpName,
level = level,
ncols = ncols,
col2 = col2,
title1 = title1,
title2 = title2,
showColumnNames = showColumnNames,
showRowNames = showRowNames,
rowNamesgp = rowNamesgp,
colNamesgp = colNamesgp,
clusterRows = clusterRows,
clusterColumns = clusterColumns,
showHeatmapLegend = showHeatmapLegend,
heatmapLegendParam = heatmapLegendParam,
...)
} else {
stop("S4Vectors::metadata(altExp(sce,",
" altExpName))$celda_parameters$model must be",
" one of 'celda_C', or 'celda_CG'!")
}
return(pm)
}
)
.celdaProbabilityMapC <- function(sce,
useAssay,
altExpName,
level,
ncols,
col2,
title1,
title2,
showColumnNames,
showRowNames,
rowNamesgp,
colNamesgp,
clusterRows,
clusterColumns,
showHeatmapLegend,
heatmapLegendParam,
...) {
altExp <- SingleCellExperiment::altExp(sce, altExpName)
zInclude <- which(tabulate(SummarizedExperiment::colData(
altExp)$celda_cell_cluster,
S4Vectors::metadata(altExp)$celda_parameters$K) > 0)
factorized <- factorizeMatrix(x = sce, useAssay = useAssay,
type = "proportion")
samp <- factorized$proportions$sample[zInclude, , drop = FALSE]
col1 <- grDevices::colorRampPalette(c("white",
"blue",
"midnightblue",
"springgreen4",
"yellowgreen",
"yellow",
"orange",
"red"))(100)
breaks <- seq(0, 1, length.out = length(col1))
g1 <- ComplexHeatmap::Heatmap(matrix = samp,
col = circlize::colorRamp2(breaks, col1),
column_title = title1,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
if (ncol(samp) > 1) {
sampNorm <- normalizeCounts(samp,
normalize = "proportion",
transformationFun = sqrt,
scaleFun = base::scale)
g2 <- ComplexHeatmap::Heatmap(matrix = sampNorm,
col = col2,
column_title = title2,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
return(g1 + g2)
} else {
return(g1)
}
}
.celdaProbabilityMapCG <- function(sce,
useAssay,
altExpName,
level,
ncols,
col2,
title1,
title2,
showColumnNames,
showRowNames,
rowNamesgp,
colNamesgp,
clusterRows,
clusterColumns,
showHeatmapLegend,
heatmapLegendParam,
...) {
altExp <- SingleCellExperiment::altExp(sce, altExpName)
factorized <- factorizeMatrix(x = sce, useAssay = useAssay,
altExpName = altExpName,
type = c("counts", "proportion"))
zInclude <- which(tabulate(SummarizedExperiment::colData(
altExp)$celda_cell_cluster,
S4Vectors::metadata(altExp)$celda_parameters$K) > 0)
yInclude <- which(tabulate(SummarizedExperiment::rowData(
altExp)$celda_feature_module,
S4Vectors::metadata(altExp)$celda_parameters$L) > 0)
if (level == "cellPopulation") {
pop <- factorized$proportions$cellPopulation[yInclude,
zInclude,
drop = FALSE]
popNorm <- normalizeCounts(pop,
normalize = "proportion",
transformationFun = sqrt,
scaleFun = base::scale)
percentile9 <- round(stats::quantile(pop, .9), digits = 2) * 100
cols11 <- grDevices::colorRampPalette(c("white",
RColorBrewer::brewer.pal(n = 9, name = "Blues")))(percentile9)
cols12 <- grDevices::colorRampPalette(c("midnightblue",
c("springgreen4", "Yellowgreen", "Yellow", "Orange",
"Red")))(ncols - percentile9)
col1 <- c(cols11, cols12)
breaks <- seq(0, 1, length.out = length(col1))
g1 <- ComplexHeatmap::Heatmap(matrix = pop,
col = circlize::colorRamp2(breaks, col1),
column_title = title1,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
g2 <- ComplexHeatmap::Heatmap(matrix = popNorm,
col = col2,
column_title = title2,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
return(g1 + g2)
} else {
samp <- factorized$proportions$sample
col1 <- grDevices::colorRampPalette(c(
"white",
"blue",
"#08306B",
"#006D2C",
"yellowgreen",
"yellow",
"orange",
"red"
))(100)
breaks <- seq(0, 1, length.out = length(col1))
g1 <- ComplexHeatmap::Heatmap(matrix = samp,
col = circlize::colorRamp2(breaks, col1),
column_title = title1,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
if (ncol(samp) > 1) {
sampNorm <- normalizeCounts(factorized$counts$sample,
normalize = "proportion",
transformationFun = sqrt,
scaleFun = base::scale)
g2 <- ComplexHeatmap::Heatmap(matrix = sampNorm,
col = col2,
column_title = title2,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
return(g1 + g2)
} else {
return(g1 + g2)
}
}
}
campbio/celda documentation built on April 5, 2024, 11:47 a.m.
R Package Documentation
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Defines functions .celdaProbabilityMapCG .celdaProbabilityMapC
#' @title Probability map for a celda model
#' @description Renders probability and relative expression heatmaps to
#' visualize the relationship between features and cell populations (or cell
#' populations and samples).
#' @param sce A \link[SingleCellExperiment]{SingleCellExperiment} object
#' returned by \link{celda_C}, \link{celda_G}, or \link{celda_CG}.
#' @param useAssay A string specifying which \link{assay}
#' slot to use. Default "counts".
#' @param altExpName The name for the \link{altExp} slot
#' to use. Default "featureSubset".
#' @param level Character. One of "cellPopulation" or "Sample".
#' "cellPopulation" will display the absolute probabilities and relative
#' normalized expression of each module in each cell population.
#' \strong{\code{level = "cellPopulation"} only works for celda_CG \code{sce}
#' objects}. "sample" will display the absolute probabilities and relative
#' normalized abundance of each cell population in each sample. Default
#' "cellPopulation".
#' @param ncols The number of colors (>1) to be in the color palette of
#' the absolute probability heatmap.
#' @param col2 Passed to \code{col} argument of \link[ComplexHeatmap]{Heatmap}.
#' Set color boundaries and colors for the relative expression heatmap.
#' @param title1 Passed to \code{column_title} argument of
#' \link[ComplexHeatmap]{Heatmap}. Figure title for the absolute probability
#' heatmap.
#' @param title2 Passed to \code{column_title} argument of
#' \link[ComplexHeatmap]{Heatmap}. Figure title for the relative expression
#' heatmap.
#' @param showColumnNames Passed to \code{show_column_names} argument of
#' \link[ComplexHeatmap]{Heatmap}. Show column names.
#' @param showRowNames Passed to \code{show_row_names} argument of
#' \link[ComplexHeatmap]{Heatmap}. Show row names.
#' @param rowNamesgp Passed to \code{row_names_gp} argument of
#' \link[ComplexHeatmap]{Heatmap}. Set row name font.
#' @param colNamesgp Passed to \code{column_names_gp} argument of
#' \link[ComplexHeatmap]{Heatmap}. Set column name font.
#' @param clusterRows Passed to \code{cluster_rows} argument of
#' \link[ComplexHeatmap]{Heatmap}. Cluster rows.
#' @param clusterColumns Passed to \code{cluster_columns} argument of
#' \link[ComplexHeatmap]{Heatmap}. Cluster columns.
#' @param showHeatmapLegend Passed to \code{show_heatmap_legend} argument of
#' \link[ComplexHeatmap]{Heatmap}. Show heatmap legend.
#' @param heatmapLegendParam Passed to \code{heatmap_legend_param} argument of
#' \link[ComplexHeatmap]{Heatmap}. Heatmap legend parameters.
#' @param ... Additional parameters passed to \link[ComplexHeatmap]{Heatmap}.
#' @seealso \link{celda_C} for clustering cells. \link{celda_CG} for
#' clustering features and cells
#' @return A \link[ComplexHeatmap]{HeatmapList} object containing 2
#' \link[ComplexHeatmap]{Heatmap-class} objects
#' @export
setGeneric("celdaProbabilityMap",
function(sce,
useAssay = "counts",
altExpName = "featureSubset",
level = c("cellPopulation", "sample"),
ncols = 100,
col2 = circlize::colorRamp2(c(-2, 0, 2),
c("#1E90FF", "#FFFFFF", "#CD2626")),
title1 = "Absolute probability",
title2 = "Relative expression",
showColumnNames = TRUE,
showRowNames = TRUE,
rowNamesgp = grid::gpar(fontsize = 8),
colNamesgp = grid::gpar(fontsize = 12),
clusterRows = FALSE,
clusterColumns = FALSE,
showHeatmapLegend = TRUE,
heatmapLegendParam = list(title = NULL,
legend_height = grid::unit(6, "cm")),
...) {
standardGeneric("celdaProbabilityMap")
})
#' @rdname celdaProbabilityMap
#' @importFrom RColorBrewer brewer.pal
#' @importFrom grDevices colorRampPalette
#' @examples
#' data(sceCeldaCG)
#' celdaProbabilityMap(sceCeldaCG)
#' @export
setMethod("celdaProbabilityMap", signature(sce = "SingleCellExperiment"),
function(sce,
useAssay = "counts",
altExpName = "featureSubset",
level = c("cellPopulation", "sample"),
ncols = 100,
col2 = circlize::colorRamp2(c(-2, 0, 2),
c("#1E90FF", "#FFFFFF", "#CD2626")),
title1 = "Absolute probability",
title2 = "Relative expression",
showColumnNames = TRUE,
showRowNames = TRUE,
rowNamesgp = grid::gpar(fontsize = 8),
colNamesgp = grid::gpar(fontsize = 12),
clusterRows = FALSE,
clusterColumns = FALSE,
showHeatmapLegend = TRUE,
heatmapLegendParam = list(title = NULL,
legend_height = grid::unit(6, "cm")),
...) {
level <- match.arg(level)
if (celdaModel(sce, altExpName = altExpName) == "celda_C") {
if (level == "cellPopulation") {
warning("'level' has been set to 'sample'")
}
pm <- .celdaProbabilityMapC(sce = sce,
useAssay = useAssay,
altExpName = altExpName,
level = "sample",
ncols = ncols,
col2 = col2,
title1 = title1,
title2 = title2,
showColumnNames = showColumnNames,
showRowNames = showRowNames,
rowNamesgp = rowNamesgp,
colNamesgp = colNamesgp,
clusterRows = clusterRows,
clusterColumns = clusterColumns,
showHeatmapLegend = showHeatmapLegend,
heatmapLegendParam = heatmapLegendParam,
...)
} else if (celdaModel(sce, altExpName = altExpName) == "celda_CG") {
pm <- .celdaProbabilityMapCG(sce = sce,
useAssay = useAssay,
altExpName = altExpName,
level = level,
ncols = ncols,
col2 = col2,
title1 = title1,
title2 = title2,
showColumnNames = showColumnNames,
showRowNames = showRowNames,
rowNamesgp = rowNamesgp,
colNamesgp = colNamesgp,
clusterRows = clusterRows,
clusterColumns = clusterColumns,
showHeatmapLegend = showHeatmapLegend,
heatmapLegendParam = heatmapLegendParam,
...)
} else {
stop("S4Vectors::metadata(altExp(sce,",
" altExpName))$celda_parameters$model must be",
" one of 'celda_C', or 'celda_CG'!")
}
return(pm)
}
)
.celdaProbabilityMapC <- function(sce,
useAssay,
altExpName,
level,
ncols,
col2,
title1,
title2,
showColumnNames,
showRowNames,
rowNamesgp,
colNamesgp,
clusterRows,
clusterColumns,
showHeatmapLegend,
heatmapLegendParam,
...) {
altExp <- SingleCellExperiment::altExp(sce, altExpName)
zInclude <- which(tabulate(SummarizedExperiment::colData(
altExp)$celda_cell_cluster,
S4Vectors::metadata(altExp)$celda_parameters$K) > 0)
factorized <- factorizeMatrix(x = sce, useAssay = useAssay,
type = "proportion")
samp <- factorized$proportions$sample[zInclude, , drop = FALSE]
col1 <- grDevices::colorRampPalette(c("white",
"blue",
"midnightblue",
"springgreen4",
"yellowgreen",
"yellow",
"orange",
"red"))(100)
breaks <- seq(0, 1, length.out = length(col1))
g1 <- ComplexHeatmap::Heatmap(matrix = samp,
col = circlize::colorRamp2(breaks, col1),
column_title = title1,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
if (ncol(samp) > 1) {
sampNorm <- normalizeCounts(samp,
normalize = "proportion",
transformationFun = sqrt,
scaleFun = base::scale)
g2 <- ComplexHeatmap::Heatmap(matrix = sampNorm,
col = col2,
column_title = title2,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
return(g1 + g2)
} else {
return(g1)
}
}
.celdaProbabilityMapCG <- function(sce,
useAssay,
altExpName,
level,
ncols,
col2,
title1,
title2,
showColumnNames,
showRowNames,
rowNamesgp,
colNamesgp,
clusterRows,
clusterColumns,
showHeatmapLegend,
heatmapLegendParam,
...) {
altExp <- SingleCellExperiment::altExp(sce, altExpName)
factorized <- factorizeMatrix(x = sce, useAssay = useAssay,
altExpName = altExpName,
type = c("counts", "proportion"))
zInclude <- which(tabulate(SummarizedExperiment::colData(
altExp)$celda_cell_cluster,
S4Vectors::metadata(altExp)$celda_parameters$K) > 0)
yInclude <- which(tabulate(SummarizedExperiment::rowData(
altExp)$celda_feature_module,
S4Vectors::metadata(altExp)$celda_parameters$L) > 0)
if (level == "cellPopulation") {
pop <- factorized$proportions$cellPopulation[yInclude,
zInclude,
drop = FALSE]
popNorm <- normalizeCounts(pop,
normalize = "proportion",
transformationFun = sqrt,
scaleFun = base::scale)
percentile9 <- round(stats::quantile(pop, .9), digits = 2) * 100
cols11 <- grDevices::colorRampPalette(c("white",
RColorBrewer::brewer.pal(n = 9, name = "Blues")))(percentile9)
cols12 <- grDevices::colorRampPalette(c("midnightblue",
c("springgreen4", "Yellowgreen", "Yellow", "Orange",
"Red")))(ncols - percentile9)
col1 <- c(cols11, cols12)
breaks <- seq(0, 1, length.out = length(col1))
g1 <- ComplexHeatmap::Heatmap(matrix = pop,
col = circlize::colorRamp2(breaks, col1),
column_title = title1,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
g2 <- ComplexHeatmap::Heatmap(matrix = popNorm,
col = col2,
column_title = title2,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
return(g1 + g2)
} else {
samp <- factorized$proportions$sample
col1 <- grDevices::colorRampPalette(c(
"white",
"blue",
"#08306B",
"#006D2C",
"yellowgreen",
"yellow",
"orange",
"red"
))(100)
breaks <- seq(0, 1, length.out = length(col1))
g1 <- ComplexHeatmap::Heatmap(matrix = samp,
col = circlize::colorRamp2(breaks, col1),
column_title = title1,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
if (ncol(samp) > 1) {
sampNorm <- normalizeCounts(factorized$counts$sample,
normalize = "proportion",
transformationFun = sqrt,
scaleFun = base::scale)
g2 <- ComplexHeatmap::Heatmap(matrix = sampNorm,
col = col2,
column_title = title2,
show_column_names = showColumnNames,
show_row_names = showRowNames,
row_names_gp = rowNamesgp,
column_names_gp = colNamesgp,
cluster_rows = clusterRows,
cluster_columns = clusterColumns,
show_heatmap_legend = showHeatmapLegend,
heatmap_legend_param = heatmapLegendParam,
...)
return(g1 + g2)
} else {
return(g1 + g2)
}
}
}
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