R/statsUMI4C.R
In Pasquali-lab/UMI4Cats: UMI4Cats: Processing, analysis and visualization of UMI-4C chromatin contact data
Defines functions
.getSummaryBam
createStatsTable
statsUMI4C
Documented in
createStatsTable
.getSummaryBam
statsUMI4C
#' Statistics UMI4C
#'
#' Creates a stats summary file and generates a summary plot describing
#' statistics for processed UMI-4C samples.
#' @inheritParams contactsUMI4C
#' @return Returns a plot summarizing the main statistics of the processed
#' UMI-4C experiments found in \code{wk_dir}. Also, writes a file named
#' \code{stats_summary.txt} in \code{wk_dir/logs} that summarizes all the
#' values represented in the plot.
#' @examples
#' statsUMI4C(wk_dir = system.file("extdata", "CIITA",
#' package = "UMI4Cats"
#' ))
#' stats <- read.delim(system.file("extdata", "CIITA", "logs", "stats_summary.txt",
#' package = "UMI4Cats"
#' ))
#' head(stats)
#' @export
statsUMI4C <- function(wk_dir) {
stats <- createStatsTable(wk_dir)
utils::write.table(stats[, c(
"sample_id",
"specific_reads", "nonspecific_reads",
"filtered_reads", "filtout_reads",
"al_mapped", "al_unmapped",
"umi"
)],
file = file.path(wk_dir, "logs", "stats_summary.txt"),
row.names = FALSE,
quote = FALSE,
sep = "\t"
)
# Create data.frame for plotting
counts <- reshape2::melt(stats, stringsAsFactors = FALSE)
counts$stats <- "Specificity"
counts$stats[grep("filt", counts$variable)] <- "Filtering"
counts$stats[grep("al_", counts$variable)] <- "Alignment"
counts$stats[grep("umi", counts$variable)] <- "UMIs"
counts$variable <- factor(counts$variable,
levels = c(
"specific_reads", "nonspecific_reads",
"filtered_reads", "filtout_reads",
"al_mapped", "al_unmapped",
"umi"
),
labels = c(
"Specific", "Non-specific",
"Good quality", "Bad quality",
"Aligned", "Unaligned",
"UMIs"
)
)
counts$stats <- factor(counts$stats,
levels = c(
"Specificity", "Filtering",
"Alignment", "UMIs"
)
)
# Generate plot for read stats
read_stats <-
ggplot2::ggplot(
counts[counts$stats != "UMIs", ],
ggplot2::aes(sample_id, value)
) +
ggplot2::geom_bar(ggplot2::aes(fill = variable),
stat = "identity",
position = "fill", color = "black"
) +
ggplot2::scale_fill_manual(
values = c(
Specific = "olivedrab3",
"Non-specific" = "tomato3",
`Good quality` = "darkolivegreen4",
`Bad quality` = "grey80",
Aligned = "deepskyblue3",
Unaligned = "grey"
),
name = "Read type",
guide = ggplot2::guide_legend(nrow = 2)
) +
ggplot2::coord_flip() +
ggplot2::scale_y_continuous(
name = "Percentage of reads",
labels = function(x) x * 100
) +
ggplot2::facet_wrap(~stats) +
cowplot::theme_cowplot() +
ggplot2::theme(
legend.position = "top",
axis.title.y = ggplot2::element_blank()
)
# Generate plot for umi stats
umi_stats <-
ggplot2::ggplot(
counts[counts$stats == "UMIs", ],
ggplot2::aes(sample_id, value)
) +
ggplot2::geom_bar(ggplot2::aes(fill = sample_id),
stat = "identity",
color = "black"
) +
ggplot2::geom_label(ggplot2::aes(label = scales::comma(value)),
hjust = 1, nudge_y = -(0.025 * max(counts$value[counts$stats == "UMIs"]))
) +
ggplot2::coord_flip() +
ggplot2::scale_y_continuous(
name = "Number of UMIs",
labels = function(x) scales::comma(x)
) +
ggplot2::facet_wrap(~stats) +
cowplot::theme_cowplot() +
ggplot2::theme(
legend.position = "none",
axis.title.y = ggplot2::element_blank()
)
# Grid of plots
cowplot::plot_grid(read_stats,
umi_stats,
ncol = 1,
rel_heights = c(0.6, 0.4)
)
}
#' Create stats table
#'
#' Create a statistical summary of the UMI-4C experiments analyzed with
#' \code{contactsUMI4C}.
#' @inheritParams statsUMI4C
#' @return Returns a data.frame summarizing all the different statistics
#' for each sample analyzed in \code{wk_dir}.
createStatsTable <- function(wk_dir) {
# List files in logs
log_files <- list.files(file.path(wk_dir, "logs"),
pattern = ".txt", full.names = TRUE
)
# Ignore stats_summary if it was already created
log_files <- log_files[!grepl("stats_summary.txt", log_files)]
# Read log files
logs <- lapply(log_files, utils::read.delim, stringsAsFactors = FALSE)
# Get alignment stats
al <- logs[[grep("alignment", basename(log_files))]]
al$sample_id <- gsub("_R[[:digit:]]", "", al$sample_id)
al_stats <- al %>%
dplyr::group_by(.data$sample_id) %>%
dplyr::summarise(
al_mapped = sum(.data$al_mapped),
al_unmapped = sum(.data$al_unmapped)
)
# Get filtering stats
spec_stats <- logs[[which(!grepl("alignment", basename(log_files)))]]
# Get UMI stats
umi_files <- list.files(file.path(wk_dir, "count"),
pattern = ".tsv",
full.names = TRUE
)
umis <- lapply(umi_files, utils::read.delim, stringsAsFactors = FALSE)
limits <- c(
unique(umis[[1]]$start_bait) - 1.5e3,
unique(umis[[1]]$start_bait) + 1.5e3
)
umi_sum <- vapply(umis, function(x) sum(x[x$start_contact < limits[1] | x$start_contact > limits[2], "UMIs"]), FUN.VALUE = integer(1))
names <- unlist(lapply(
strsplit(basename(umi_files), "_counts.tsv"),
function(x) x[1]
))
umi_df <- data.frame(
"sample_id" = names,
"umi" = umi_sum,
stringsAsFactors = FALSE
)
# Merge data
stats <- dplyr::left_join(spec_stats, al_stats)
stats$nonspecific_reads <- stats$total_reads - stats$specific_reads
stats$filtout_reads <- stats$specific_reads - stats$filtered_reads
stats <- stats[, -which(colnames(stats) == "total_reads")]
stats <- dplyr::left_join(stats, umi_df)
return(stats)
}
#' Summarize BAM file
#'
#' Get summary of interesting bam statistics
#' @param bam_file Path for the bam file.
#' @param mapped Logical indicating whether to extract mapped reads.
#' @param secondary Logical indicating whether to extract secondary aligned
#' reads.
#' @return Returns a numeric containing the number of reads in \code{bam_file}
#' that has the specified \code{mapped} and \code{secondary} status.
.getSummaryBam <- function(bam_file, mapped = TRUE, secondary = FALSE) {
reads <- Rsamtools::countBam(bam_file,
param = Rsamtools::ScanBamParam(flag = Rsamtools::scanBamFlag(
isPaired = FALSE,
isUnmappedQuery = !mapped,
isSecondaryAlignment = secondary
))
)$records
return(reads)
}
Pasquali-lab/UMI4Cats documentation built on March 23, 2024, 9:42 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Defines functions .getSummaryBam createStatsTable statsUMI4C
Documented in createStatsTable .getSummaryBam statsUMI4C
#' Statistics UMI4C
#'
#' Creates a stats summary file and generates a summary plot describing
#' statistics for processed UMI-4C samples.
#' @inheritParams contactsUMI4C
#' @return Returns a plot summarizing the main statistics of the processed
#' UMI-4C experiments found in \code{wk_dir}. Also, writes a file named
#' \code{stats_summary.txt} in \code{wk_dir/logs} that summarizes all the
#' values represented in the plot.
#' @examples
#' statsUMI4C(wk_dir = system.file("extdata", "CIITA",
#' package = "UMI4Cats"
#' ))
#' stats <- read.delim(system.file("extdata", "CIITA", "logs", "stats_summary.txt",
#' package = "UMI4Cats"
#' ))
#' head(stats)
#' @export
statsUMI4C <- function(wk_dir) {
stats <- createStatsTable(wk_dir)
utils::write.table(stats[, c(
"sample_id",
"specific_reads", "nonspecific_reads",
"filtered_reads", "filtout_reads",
"al_mapped", "al_unmapped",
"umi"
)],
file = file.path(wk_dir, "logs", "stats_summary.txt"),
row.names = FALSE,
quote = FALSE,
sep = "\t"
)
# Create data.frame for plotting
counts <- reshape2::melt(stats, stringsAsFactors = FALSE)
counts$stats <- "Specificity"
counts$stats[grep("filt", counts$variable)] <- "Filtering"
counts$stats[grep("al_", counts$variable)] <- "Alignment"
counts$stats[grep("umi", counts$variable)] <- "UMIs"
counts$variable <- factor(counts$variable,
levels = c(
"specific_reads", "nonspecific_reads",
"filtered_reads", "filtout_reads",
"al_mapped", "al_unmapped",
"umi"
),
labels = c(
"Specific", "Non-specific",
"Good quality", "Bad quality",
"Aligned", "Unaligned",
"UMIs"
)
)
counts$stats <- factor(counts$stats,
levels = c(
"Specificity", "Filtering",
"Alignment", "UMIs"
)
)
# Generate plot for read stats
read_stats <-
ggplot2::ggplot(
counts[counts$stats != "UMIs", ],
ggplot2::aes(sample_id, value)
) +
ggplot2::geom_bar(ggplot2::aes(fill = variable),
stat = "identity",
position = "fill", color = "black"
) +
ggplot2::scale_fill_manual(
values = c(
Specific = "olivedrab3",
"Non-specific" = "tomato3",
`Good quality` = "darkolivegreen4",
`Bad quality` = "grey80",
Aligned = "deepskyblue3",
Unaligned = "grey"
),
name = "Read type",
guide = ggplot2::guide_legend(nrow = 2)
) +
ggplot2::coord_flip() +
ggplot2::scale_y_continuous(
name = "Percentage of reads",
labels = function(x) x * 100
) +
ggplot2::facet_wrap(~stats) +
cowplot::theme_cowplot() +
ggplot2::theme(
legend.position = "top",
axis.title.y = ggplot2::element_blank()
)
# Generate plot for umi stats
umi_stats <-
ggplot2::ggplot(
counts[counts$stats == "UMIs", ],
ggplot2::aes(sample_id, value)
) +
ggplot2::geom_bar(ggplot2::aes(fill = sample_id),
stat = "identity",
color = "black"
) +
ggplot2::geom_label(ggplot2::aes(label = scales::comma(value)),
hjust = 1, nudge_y = -(0.025 * max(counts$value[counts$stats == "UMIs"]))
) +
ggplot2::coord_flip() +
ggplot2::scale_y_continuous(
name = "Number of UMIs",
labels = function(x) scales::comma(x)
) +
ggplot2::facet_wrap(~stats) +
cowplot::theme_cowplot() +
ggplot2::theme(
legend.position = "none",
axis.title.y = ggplot2::element_blank()
)
# Grid of plots
cowplot::plot_grid(read_stats,
umi_stats,
ncol = 1,
rel_heights = c(0.6, 0.4)
)
}
#' Create stats table
#'
#' Create a statistical summary of the UMI-4C experiments analyzed with
#' \code{contactsUMI4C}.
#' @inheritParams statsUMI4C
#' @return Returns a data.frame summarizing all the different statistics
#' for each sample analyzed in \code{wk_dir}.
createStatsTable <- function(wk_dir) {
# List files in logs
log_files <- list.files(file.path(wk_dir, "logs"),
pattern = ".txt", full.names = TRUE
)
# Ignore stats_summary if it was already created
log_files <- log_files[!grepl("stats_summary.txt", log_files)]
# Read log files
logs <- lapply(log_files, utils::read.delim, stringsAsFactors = FALSE)
# Get alignment stats
al <- logs[[grep("alignment", basename(log_files))]]
al$sample_id <- gsub("_R[[:digit:]]", "", al$sample_id)
al_stats <- al %>%
dplyr::group_by(.data$sample_id) %>%
dplyr::summarise(
al_mapped = sum(.data$al_mapped),
al_unmapped = sum(.data$al_unmapped)
)
# Get filtering stats
spec_stats <- logs[[which(!grepl("alignment", basename(log_files)))]]
# Get UMI stats
umi_files <- list.files(file.path(wk_dir, "count"),
pattern = ".tsv",
full.names = TRUE
)
umis <- lapply(umi_files, utils::read.delim, stringsAsFactors = FALSE)
limits <- c(
unique(umis[[1]]$start_bait) - 1.5e3,
unique(umis[[1]]$start_bait) + 1.5e3
)
umi_sum <- vapply(umis, function(x) sum(x[x$start_contact < limits[1] | x$start_contact > limits[2], "UMIs"]), FUN.VALUE = integer(1))
names <- unlist(lapply(
strsplit(basename(umi_files), "_counts.tsv"),
function(x) x[1]
))
umi_df <- data.frame(
"sample_id" = names,
"umi" = umi_sum,
stringsAsFactors = FALSE
)
# Merge data
stats <- dplyr::left_join(spec_stats, al_stats)
stats$nonspecific_reads <- stats$total_reads - stats$specific_reads
stats$filtout_reads <- stats$specific_reads - stats$filtered_reads
stats <- stats[, -which(colnames(stats) == "total_reads")]
stats <- dplyr::left_join(stats, umi_df)
return(stats)
}
#' Summarize BAM file
#'
#' Get summary of interesting bam statistics
#' @param bam_file Path for the bam file.
#' @param mapped Logical indicating whether to extract mapped reads.
#' @param secondary Logical indicating whether to extract secondary aligned
#' reads.
#' @return Returns a numeric containing the number of reads in \code{bam_file}
#' that has the specified \code{mapped} and \code{secondary} status.
.getSummaryBam <- function(bam_file, mapped = TRUE, secondary = FALSE) {
reads <- Rsamtools::countBam(bam_file,
param = Rsamtools::ScanBamParam(flag = Rsamtools::scanBamFlag(
isPaired = FALSE,
isUnmappedQuery = !mapped,
isSecondaryAlignment = secondary
))
)$records
return(reads)
}
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.