R/plotPatterns.R
In plbaldoni/epigrahmm: Epigenomic R-based analysis with hidden Markov models
Defines functions
plotPatterns
Documented in
plotPatterns
#' Create a plot of differerential patterns posterior probabilities from epigraHMM
#'
#' `plotPatterns()` plots the posterior probabilities associated with differential patterns from a differential analysis of `epigraHMM()`
#'
#' @param object an epigraHMMDataSet
#' @param ranges a GRanges object or a pair of integers with the genomic corrdinates/windows to be plotted
#' @param peaks either a GRanges object or a vector of logicals (with length equal to the number of rows in `object`) specifying the genomic corrdinates/windows with peaks
#' @param hdf5 a character string with the hdf5 file path from `epigraHMM`
#' @param colors an optional argument that specifies the colors for each differential combinatorial pattern
#'
#' @return A pheatmat
#'
#' @examples
#' # Creating dummy object
#' countData <- cbind(rbind(matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 10, size = 5), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 10, size = 5), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1)),
#' rbind(matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 10, size = 5), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 10, size = 5), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1)))
#'
#' colData <- data.frame(condition = c('A','B'), replicate = c(1,1))
#' rowRanges <- GenomicRanges::GRanges('chrA',
#' IRanges::IRanges(start = seq(1,by = 500,
#' length.out = nrow(countData)),width = 500))
#'
#' object <- epigraHMMDataSetFromMatrix(countData,colData,rowRanges = rowRanges)
#'
#' # Initializing
#' object <- initializer(object,controlEM())
#'
#' # Running epigraHMM
#' object <- epigraHMM(object,controlEM(),type = 'differential',dist = 'nb')
#'
#' # Calling peaks
#' peaks <- callPeaks(object = object,
#' hdf5 = S4Vectors::metadata(object)$output,
#' method = 'viterbi')
#'
#' # Plotting patterns
#' plotPatterns(object,
#' ranges = peaks[1],
#' peaks = peaks)
#'
#' @author Pedro L. Baldoni, \email{pedrobaldoni@gmail.com}
#' @references \url{https://github.com/plbaldoni/epigraHMM}
#'
#' @importFrom pheatmap pheatmap
#' @importFrom grDevices colorRampPalette palette.colors
#'
#' @export
plotPatterns = function(object,
ranges,
peaks,
hdf5 = metadata(object)$output,
colors = NULL) {
# Checking if differential analysis
if (!(length(unique(object$condition)) > 1)) stop('Only one condition is present in the object input.')
# Checking if hdf5 file exists
if(!file.exists(hdf5)) stop('The hdf5 file does not exist.')
# Reading in posterior probabilties and patterns
postprob <- rhdf5::h5read(hdf5,'mixtureProb')
patterns <- getPatterns(x = object,hdf5 = hdf5)
# Subsetting
sub_index <- if (methods::is(ranges)[1] == "GRanges") overlapsAny(object, ranges) else seq(ranges[1], ranges[2])
sub_object <- object[sub_index,]
sub_postprob <- postprob[sub_index,]
colnames(sub_postprob) <- patterns
# Checking overlaps with differential peaks
diff_index <- overlapsAny(sub_object, peaks)
sub_postprob[!diff_index,] <- NA
# Annotation
if(is.null(colors)) colors <- grDevices::palette.colors(n = 10, "Tableau 10")
if(length(colors)<ncol(sub_postprob)) stop('Insufficient number of colors. Please provide ',ncol(sub_postprob),' different colors.')
anno_colors <- list('Pattern' = colors[seq_len(ncol(sub_postprob))])
names(anno_colors[['Pattern']]) <- colnames(sub_postprob)
# Plotting
fig <- pheatmap::pheatmap(sub_postprob,
color = grDevices::colorRampPalette(c(4, "white", 2))(256),
annotation_col = data.frame('Pattern' = colnames(sub_postprob),
row.names = colnames(sub_postprob)),
annotation_colors = anno_colors,
cluster_rows = FALSE,cluster_cols = FALSE,angle_col = 45,
main = paste0('Differential Enrichment Pattern\nPosterior Probability\n(',
unique(seqnames(sub_object)),':',
scales::comma(min(start(sub_object))),'-',
scales::comma(max(end(sub_object))),')'),
labels_row = 'Genomic\nWindows',annotation_names_col = FALSE)
return(fig)
}
plbaldoni/epigrahmm documentation built on Oct. 14, 2023, 5:13 a.m.
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Defines functions plotPatterns
Documented in plotPatterns
#' Create a plot of differerential patterns posterior probabilities from epigraHMM
#'
#' `plotPatterns()` plots the posterior probabilities associated with differential patterns from a differential analysis of `epigraHMM()`
#'
#' @param object an epigraHMMDataSet
#' @param ranges a GRanges object or a pair of integers with the genomic corrdinates/windows to be plotted
#' @param peaks either a GRanges object or a vector of logicals (with length equal to the number of rows in `object`) specifying the genomic corrdinates/windows with peaks
#' @param hdf5 a character string with the hdf5 file path from `epigraHMM`
#' @param colors an optional argument that specifies the colors for each differential combinatorial pattern
#'
#' @return A pheatmat
#'
#' @examples
#' # Creating dummy object
#' countData <- cbind(rbind(matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 10, size = 5), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 10, size = 5), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1)),
#' rbind(matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 10, size = 5), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1),
#' matrix(rnbinom(1e2, mu = 10, size = 5), ncol = 1),
#' matrix(rnbinom(1e2, mu = 1, size = 10), ncol = 1)))
#'
#' colData <- data.frame(condition = c('A','B'), replicate = c(1,1))
#' rowRanges <- GenomicRanges::GRanges('chrA',
#' IRanges::IRanges(start = seq(1,by = 500,
#' length.out = nrow(countData)),width = 500))
#'
#' object <- epigraHMMDataSetFromMatrix(countData,colData,rowRanges = rowRanges)
#'
#' # Initializing
#' object <- initializer(object,controlEM())
#'
#' # Running epigraHMM
#' object <- epigraHMM(object,controlEM(),type = 'differential',dist = 'nb')
#'
#' # Calling peaks
#' peaks <- callPeaks(object = object,
#' hdf5 = S4Vectors::metadata(object)$output,
#' method = 'viterbi')
#'
#' # Plotting patterns
#' plotPatterns(object,
#' ranges = peaks[1],
#' peaks = peaks)
#'
#' @author Pedro L. Baldoni, \email{pedrobaldoni@gmail.com}
#' @references \url{https://github.com/plbaldoni/epigraHMM}
#'
#' @importFrom pheatmap pheatmap
#' @importFrom grDevices colorRampPalette palette.colors
#'
#' @export
plotPatterns = function(object,
ranges,
peaks,
hdf5 = metadata(object)$output,
colors = NULL) {
# Checking if differential analysis
if (!(length(unique(object$condition)) > 1)) stop('Only one condition is present in the object input.')
# Checking if hdf5 file exists
if(!file.exists(hdf5)) stop('The hdf5 file does not exist.')
# Reading in posterior probabilties and patterns
postprob <- rhdf5::h5read(hdf5,'mixtureProb')
patterns <- getPatterns(x = object,hdf5 = hdf5)
# Subsetting
sub_index <- if (methods::is(ranges)[1] == "GRanges") overlapsAny(object, ranges) else seq(ranges[1], ranges[2])
sub_object <- object[sub_index,]
sub_postprob <- postprob[sub_index,]
colnames(sub_postprob) <- patterns
# Checking overlaps with differential peaks
diff_index <- overlapsAny(sub_object, peaks)
sub_postprob[!diff_index,] <- NA
# Annotation
if(is.null(colors)) colors <- grDevices::palette.colors(n = 10, "Tableau 10")
if(length(colors)<ncol(sub_postprob)) stop('Insufficient number of colors. Please provide ',ncol(sub_postprob),' different colors.')
anno_colors <- list('Pattern' = colors[seq_len(ncol(sub_postprob))])
names(anno_colors[['Pattern']]) <- colnames(sub_postprob)
# Plotting
fig <- pheatmap::pheatmap(sub_postprob,
color = grDevices::colorRampPalette(c(4, "white", 2))(256),
annotation_col = data.frame('Pattern' = colnames(sub_postprob),
row.names = colnames(sub_postprob)),
annotation_colors = anno_colors,
cluster_rows = FALSE,cluster_cols = FALSE,angle_col = 45,
main = paste0('Differential Enrichment Pattern\nPosterior Probability\n(',
unique(seqnames(sub_object)),':',
scales::comma(min(start(sub_object))),'-',
scales::comma(max(end(sub_object))),')'),
labels_row = 'Genomic\nWindows',annotation_names_col = FALSE)
return(fig)
}
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