Nothing
#' @describeIn ExposomeSet Draws a boxplot or accumulated-bar plot for each
#' exposure in a given family.
#' @param group Phenotype to group exposures
#' @param group2 Phenotype to group exposures
#' @param scatter If set to true it shows the samples value in the plot
#' @param na.omit If set to \code{TRUE}, \code{NA} values are discarded
setMethod(
f = "plotFamily",
signature = "ExposomeSet",
definition = function(x, family, group, group2, scatter = TRUE, na.omit=TRUE) {
# If family is 'all' all the exposome is shown
if(tolower(family) == "all") {
return(.plot_exposome(x))
}
# /
if (!family %in% familyNames(x)) {
stop("Given family '", family, "' not in ExposomeSet (description).")
}
if (!missing(group)) {
if (!group %in% phenotypeNames(x)) {
stop("Given group '", group, "' not in ExposomeSet (phenotype).")
}
} else {
group <- NA
}
if (!missing(group2)) {
if (!group2 %in% phenotypeNames(x)) {
stop("Given group (2)'", group2, "' not in ExposomeSet (phenotype).")
}
if(is.na(group)) {
group <- group2
group2 <- NA
}
} else {
group2 <- NA
}
typ <- .family_type(x, family)
if (typ == "numeric") {
.plot_exposure_numeric(x, family, group, group2, scatter, na.omit)
} else if (typ == "factor") {
.plot_exposure_factor(x, family, group, group2, na.omit)
} else {
stop("Plot for mixed family is not implemented.")
}
}
)
.get_exposures <- function(x, family, group = NA, group2 = NA, na.omit = TRUE) {
data <- .family_type(x, family, as.type=TRUE)
if (!is.na(group)) {
if(!is.na(group2)) {
gData <- pData(x)[, c(group, group2), drop=FALSE]
colnames(gData) <- c("group1", "group2")
n <- 2
} else {
gData <- pData(x)[, group, drop=FALSE]
colnames(gData) <- "group"
n <- 1
}
data <- cbind(data[rownames(gData), ], gData)
if(!is.na(group2)) {
data$group1 <- as.factor(data$group1)
data$group2 <- as.factor(data$group2)
} else {
data$group <- as.factor(data$group)
}
data <- reshape2::melt(data, measure.vars = 1:(ncol(data)-n),
variable.factor = FALSE, rm.na = TRUE,
variable.name="exposures")
if(na.omit) {
if(!is.na(group2)) {
data <- data[!is.na(data[, 1]), ]
data <- data[!is.na(data[, 2]), ]
data <- data[!is.na(data[, 4]), ]
} else {
data <- data[!is.na(data[, 1]), ]
data <- data[!is.na(data[, 3]), ]
}
}
} else {
data <- reshape2::melt(data, measure.vars = 1:ncol(data),
variable.factor = FALSE, rm.na = TRUE,
variable.name="exposures")
if(na.omit) {
data <- data[!is.na(data[, 2]), ]
}
}
return(data)
}
.plot_exposure_numeric <- function(x, family, group = NA, group2 = NA, scatter = TRUE, na.omit = TRUE) {
data <- .get_exposures(x, family, group, group2, na.omit)
# Design the plot
if (!is.na(group)) {
if(!is.na(group2)) {
plot <- ggplot2::ggplot(data, ggplot2::aes_string(x = "exposures", y = "value", fill = "group1"))
plot <- plot + ggplot2::geom_boxplot()
plot <- plot + ggplot2::facet_wrap(~group2)
} else {
plot <- ggplot2::ggplot(data, ggplot2::aes_string(x = "exposures", y = "value", fill = "group"))
plot <- plot + ggplot2::geom_boxplot()
}
} else {
plot <- ggplot2::ggplot(data, ggplot2::aes_string(x = "exposures", y = "value"))
if(scatter) {
plot <- plot + ggplot2::geom_point(position = ggplot2::position_jitter(width=0.3), alpha=0.1)
plot <- plot + ggplot2::geom_boxplot(alpha=0.1)
} else {
plot <- plot + ggplot2::geom_boxplot()
}
}
plot <- plot + ggplot2::scale_fill_brewer()
plot <- plot + ggplot2::theme(axis.text.x = ggplot2::element_text(angle = 90, hjust = 1))
plot <- plot + ggplot2::ylab("Measure")
plot <- plot + ggplot2::xlab("Exposure")
#plot <- plot + ggplot2::ggtitle(main)
# /
plot
}
.plot_exposure_factor <- function(x, family, group = NA, group2 = NA, na.omit = TRUE) {
data <- .get_exposures(x, family, group, group2, na.omit)
plot <- ggplot2::ggplot(data, ggplot2::aes_string(x = "exposures", fill = "value"))
if (!is.na(group)) {
if(is.na(group2)) {
plot <- plot + ggplot2::facet_wrap(~group)
} else {
plot <- plot + ggplot2::facet_wrap(group2~group1)
}
}
plot <- plot + ggplot2::geom_bar(position = "fill")
plot <- plot + ggplot2::scale_y_continuous(labels = scales::percent_format())
plot <- plot + ggplot2::ylab("Percent")
plot <- plot + ggplot2::theme(axis.text.x = ggplot2::element_text(angle = 90, hjust = 1))
plot <- plot + ggplot2::xlab("Exposure")
# /
plot
}
.plot_exposome <- function(obj) {
.vplayout <- function(x, y) {
grid::viewport(layout.pos.row = x, layout.pos.col = y)
}
nc <- round(sqrt(length(familyNames(obj))))
if(nc * nc < length(familyNames(obj))) {
nr <- nc + 1
} else {
nr <- nc
}
de
ff <- familyNames(obj)
grid::grid.newpage()
grid::pushViewport(grid::viewport(layout = grid::grid.layout(nr, nc)))
idx <- 1
for(ii in 1:nr) {
for(jj in 1:nc) {
if(idx < length(ff) + 1) {
plt <- plotFamily(obj, family = ff[idx], scatter = FALSE)
plt <- plt + ggplot2::ggtitle(ff[idx])
if(jj != 1) {
plt <- plt + ggplot2::ylab("")
}
if(ii != nr) {
plt <- plt + ggplot2::xlab("")
}
print(plt, vp = .vplayout(ii, jj))
idx <- idx + 1
}
}
}
return(invisible())
}
Any scripts or data that you put into this service are public.
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.