R/produce_heatmap.R
In CharlesJB/heatmaps: What the Package Does (One Line, Title Case)
Defines functions
produce_heatmap
Documented in
produce_heatmap
#' Convert coverage to heatmap
#'
#' @return An heatmap object
#'
#' @param cov A coverage generated with the \code{import_bedgraph} function.
#' @param peaks A \code{GRanges} object representing the peaks to import. Peaks
#' will be resized to 5000 base pairs to make sure all regions are of the same
#' length.
#' @param name The name of the heatmap that will be shown at the top.
#' @param partitions If you want to split the heatmap based on different group,
#' you must specify the groups (or partitions). The \code{partition} must be a
#' \code{vector} of \code{character} of the same length as the \code{peaks}
#' param. If the \code{vector} is empty (i.e. \code{character(0)}, the heatmap
#' won't be splitted. Default: \code{character(0)}.
#' @param col A \code{circlize::colorRamp2} object. If \code{NULL}, default
#' values will be used.
#' @param col_order A \code{numeric} object corresponding to the order of the
#' colors in the right annotation. To use when the colors are not matchning
#' with the top_annotation. Default: \code{NULL}.
#' @param force_seqlevels If \code{TRUE}, remove regions that are not found
#' in the coverage. Corresponds to \code{pruning.mode =
#' "coarse"} in \code{?seqinfo}. Default: \code{FALSE}.
#' @param seed Set a seed value for the color selection. Only used when
#' \code{partition} is not \code{NULL}. The value must be the same as the one
#' used for the \code{prepare_heatmap_list} function. Default: 99841.
#' @param top_anno_ylim Manually set the ylim value for the top_annotation.
#' If \code{NULL}, value is inferred using the data. Default: \code{NULL}.
#' @param show_row_names Show matrix rownames on left side.
#' If \code{FALSE}, row names are hidden Default: \code{FALSE}.
#' @param row_labels Manually set row label on the left side.
#' If \code{NULL}, no row label. Default: \code{NULL}.
#' @param extend extended base pairs to the upstream and downstream of target.
#' It can be a vector of length one or two. If it is length one, it means
#' extension to the upstream and downstream are the same.
#' @param w window size for splitting upstream and downstream.
#' @param value_column column index in signal that will be mapped to colors. If
#' it is NULL, an internal column which all contains 1 will be used.
#' @param mean_mode when a window is not perfectly overlapped to signal, how to
#' summarize values to this window. See 'Details' section for a detailed
#' explanation.
#' @param raster_by_magick Value for the \code{raster_by_magick} parameter for
#' the \code{EnrichedHeatmap} function. Setting to FALSE might help to avoid
#' errors when calling the \code{draw} function with a large set of peaks.
#' Default: \code{TRUE}.
#'
#' @examples
#' bdg <- get_demo_bdg()
#' bed_file <- get_demo_bed_files()[[1]]
#' peaks <- import(bed_file)
#' cov <- import_bedgraph(bdg)
#' heatmap <- produce_heatmap(cov, peaks, "demo")
#'
#' @import EnrichedHeatmap
#' @import GenomeInfoDb
#' @import circlize
#' @importFrom magrittr %>%
#'
#' @export
produce_heatmap <- function(cov,
peaks,
name,
partitions = character(0),
col = NULL,
col_order = NULL,
force_seqlevels = FALSE,
seed = 99841,
top_anno_ylim = NULL,
show_row_names = FALSE,
row_labels = NULL,
extend = 5000,
w = max(extend)/100,
value_column = "score",
mean_mode = "w0",
raster_by_magick = TRUE){
stopifnot(is(cov, "GRanges"))
stopifnot(length(cov) > 0)
stopifnot(is(peaks, "GRanges"))
stopifnot(length(peaks) > 0)
stopifnot(is.character(name))
stopifnot(nchar(name) > 0)
stopifnot(is.character(partitions) | is.factor(partitions))
if (length(partitions) > 0) {
stopifnot(length(partitions) == length(peaks))
stopifnot(length(unique(partitions)) > 1)
}
stopifnot(is(force_seqlevels, "logical"))
stopifnot(is.numeric(seed))
stopifnot(is.null(top_anno_ylim) | is.numeric(top_anno_ylim))
stopifnot(is.logical(show_row_names))
stopifnot(is.null(row_labels) | is.character(row_labels) | is.list(row_labels))
if (!force_seqlevels) {
seqnames_cov <- GenomeInfoDb::seqnames(cov) %>%
unique %>%
as.character
seqnames_peaks <- GenomeInfoDb::seqnames(peaks) %>%
unique %>%
as.character
stopifnot(all(seqnames_peaks %in% seqnames_cov))
} else {
GenomeInfoDb::seqlevels(peaks, pruning.mode = "coarse") <-
GenomeInfoDb::seqlevels(cov)
}
peaks <- GenomicRanges::resize(peaks, 1, fix = "center")
m <- EnrichedHeatmap::normalizeToMatrix(cov, peaks,
value_column = value_column,
extend = extend,
mean_mode = mean_mode,
w = w)
if (is.null(col)) {
col <- quantile(m, c(0.0, 0.7, 0.95), na.rm = TRUE) %>%
circlize::colorRamp2(c("white", "white", "red"))
}
if (length(partitions) > 0) {
g <- unique(partitions)
set.seed(seed)
col_blind <- (ggthemes::colorblind_pal())(length(g))
if (!is.null(col_order)) {
col_blind <- col_blind[col_order]
}
axis_params <- list(facing = "left")
ha <- ComplexHeatmap::HeatmapAnnotation(
lines = EnrichedHeatmap::anno_enriched(
gp = grid::gpar(col = col_blind),
axis_param = list(facing = "inside"),
ylim = top_anno_ylim))
} else {
ha <- ComplexHeatmap::HeatmapAnnotation(
lines = EnrichedHeatmap::anno_enriched(
axis_param = list(facing = "inside"),
ylim = top_anno_ylim))
}
if (is.null(row_labels)) {
EnrichedHeatmap::EnrichedHeatmap(m, col = col, name = name,
column_title = name, top_annotation = ha,
show_row_names = show_row_names,
row_names_side = "left",
raster_by_magick = raster_by_magick)
} else {
EnrichedHeatmap::EnrichedHeatmap(m, col = col, name = name,
column_title = name, top_annotation = ha,
show_row_names = show_row_names,
row_names_side = "left",
row_labels = row_labels[rownames(m)],
row_names_gp = gpar(fontsize = 7),
raster_by_magick = raster_by_magick)
}
}
CharlesJB/heatmaps documentation built on Nov. 2, 2023, 10:06 a.m.
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Defines functions produce_heatmap
Documented in produce_heatmap
#' Convert coverage to heatmap
#'
#' @return An heatmap object
#'
#' @param cov A coverage generated with the \code{import_bedgraph} function.
#' @param peaks A \code{GRanges} object representing the peaks to import. Peaks
#' will be resized to 5000 base pairs to make sure all regions are of the same
#' length.
#' @param name The name of the heatmap that will be shown at the top.
#' @param partitions If you want to split the heatmap based on different group,
#' you must specify the groups (or partitions). The \code{partition} must be a
#' \code{vector} of \code{character} of the same length as the \code{peaks}
#' param. If the \code{vector} is empty (i.e. \code{character(0)}, the heatmap
#' won't be splitted. Default: \code{character(0)}.
#' @param col A \code{circlize::colorRamp2} object. If \code{NULL}, default
#' values will be used.
#' @param col_order A \code{numeric} object corresponding to the order of the
#' colors in the right annotation. To use when the colors are not matchning
#' with the top_annotation. Default: \code{NULL}.
#' @param force_seqlevels If \code{TRUE}, remove regions that are not found
#' in the coverage. Corresponds to \code{pruning.mode =
#' "coarse"} in \code{?seqinfo}. Default: \code{FALSE}.
#' @param seed Set a seed value for the color selection. Only used when
#' \code{partition} is not \code{NULL}. The value must be the same as the one
#' used for the \code{prepare_heatmap_list} function. Default: 99841.
#' @param top_anno_ylim Manually set the ylim value for the top_annotation.
#' If \code{NULL}, value is inferred using the data. Default: \code{NULL}.
#' @param show_row_names Show matrix rownames on left side.
#' If \code{FALSE}, row names are hidden Default: \code{FALSE}.
#' @param row_labels Manually set row label on the left side.
#' If \code{NULL}, no row label. Default: \code{NULL}.
#' @param extend extended base pairs to the upstream and downstream of target.
#' It can be a vector of length one or two. If it is length one, it means
#' extension to the upstream and downstream are the same.
#' @param w window size for splitting upstream and downstream.
#' @param value_column column index in signal that will be mapped to colors. If
#' it is NULL, an internal column which all contains 1 will be used.
#' @param mean_mode when a window is not perfectly overlapped to signal, how to
#' summarize values to this window. See 'Details' section for a detailed
#' explanation.
#' @param raster_by_magick Value for the \code{raster_by_magick} parameter for
#' the \code{EnrichedHeatmap} function. Setting to FALSE might help to avoid
#' errors when calling the \code{draw} function with a large set of peaks.
#' Default: \code{TRUE}.
#'
#' @examples
#' bdg <- get_demo_bdg()
#' bed_file <- get_demo_bed_files()[[1]]
#' peaks <- import(bed_file)
#' cov <- import_bedgraph(bdg)
#' heatmap <- produce_heatmap(cov, peaks, "demo")
#'
#' @import EnrichedHeatmap
#' @import GenomeInfoDb
#' @import circlize
#' @importFrom magrittr %>%
#'
#' @export
produce_heatmap <- function(cov,
peaks,
name,
partitions = character(0),
col = NULL,
col_order = NULL,
force_seqlevels = FALSE,
seed = 99841,
top_anno_ylim = NULL,
show_row_names = FALSE,
row_labels = NULL,
extend = 5000,
w = max(extend)/100,
value_column = "score",
mean_mode = "w0",
raster_by_magick = TRUE){
stopifnot(is(cov, "GRanges"))
stopifnot(length(cov) > 0)
stopifnot(is(peaks, "GRanges"))
stopifnot(length(peaks) > 0)
stopifnot(is.character(name))
stopifnot(nchar(name) > 0)
stopifnot(is.character(partitions) | is.factor(partitions))
if (length(partitions) > 0) {
stopifnot(length(partitions) == length(peaks))
stopifnot(length(unique(partitions)) > 1)
}
stopifnot(is(force_seqlevels, "logical"))
stopifnot(is.numeric(seed))
stopifnot(is.null(top_anno_ylim) | is.numeric(top_anno_ylim))
stopifnot(is.logical(show_row_names))
stopifnot(is.null(row_labels) | is.character(row_labels) | is.list(row_labels))
if (!force_seqlevels) {
seqnames_cov <- GenomeInfoDb::seqnames(cov) %>%
unique %>%
as.character
seqnames_peaks <- GenomeInfoDb::seqnames(peaks) %>%
unique %>%
as.character
stopifnot(all(seqnames_peaks %in% seqnames_cov))
} else {
GenomeInfoDb::seqlevels(peaks, pruning.mode = "coarse") <-
GenomeInfoDb::seqlevels(cov)
}
peaks <- GenomicRanges::resize(peaks, 1, fix = "center")
m <- EnrichedHeatmap::normalizeToMatrix(cov, peaks,
value_column = value_column,
extend = extend,
mean_mode = mean_mode,
w = w)
if (is.null(col)) {
col <- quantile(m, c(0.0, 0.7, 0.95), na.rm = TRUE) %>%
circlize::colorRamp2(c("white", "white", "red"))
}
if (length(partitions) > 0) {
g <- unique(partitions)
set.seed(seed)
col_blind <- (ggthemes::colorblind_pal())(length(g))
if (!is.null(col_order)) {
col_blind <- col_blind[col_order]
}
axis_params <- list(facing = "left")
ha <- ComplexHeatmap::HeatmapAnnotation(
lines = EnrichedHeatmap::anno_enriched(
gp = grid::gpar(col = col_blind),
axis_param = list(facing = "inside"),
ylim = top_anno_ylim))
} else {
ha <- ComplexHeatmap::HeatmapAnnotation(
lines = EnrichedHeatmap::anno_enriched(
axis_param = list(facing = "inside"),
ylim = top_anno_ylim))
}
if (is.null(row_labels)) {
EnrichedHeatmap::EnrichedHeatmap(m, col = col, name = name,
column_title = name, top_annotation = ha,
show_row_names = show_row_names,
row_names_side = "left",
raster_by_magick = raster_by_magick)
} else {
EnrichedHeatmap::EnrichedHeatmap(m, col = col, name = name,
column_title = name, top_annotation = ha,
show_row_names = show_row_names,
row_names_side = "left",
row_labels = row_labels[rownames(m)],
row_names_gp = gpar(fontsize = 7),
raster_by_magick = raster_by_magick)
}
}
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