R/gtoxPlotFitc.R
In philipmorrisintl/GladiaTOX: R Package for Processing High Content Screening data
Defines functions
gtoxPlotFitc
Documented in
gtoxPlotFitc
#####################################################################
## This program is distributed in the hope that it will be useful, ##
## but WITHOUT ANY WARRANTY; without even the implied warranty of ##
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ##
## GNU General Public License for more details. ##
#####################################################################
#-------------------------------------------------------------------------------
# gtoxPlotFitc: Plot the fit category tree
#-------------------------------------------------------------------------------
#' @title Plot the fit category tree
#'
#' @description
#' \code{gtoxPlotFitc} makes a plot showing the level 5 fit categories.
#'
#' @param fitc Integer, the fit categories
#' @param main Character of length 1, the title (optional)
#' @param fitc_sub Integer, a subset of fit categories to plot
#'
#' @examples
#' ## Store the current config settings, so they can be reloaded at the end
#' ## of the examples
#' conf_store <- gtoxConfList()
#' gtoxConfDefault()
#'
#' ## Display the fit category tree.
#' gtoxPlotFitc()
#'
#' @note
#' Suggested device size (inches): width = 10, height = 7.5, pointsize = 9
#'
#' @return None
#'
#' @import data.table
#' @importFrom grDevices col2rgb colorRampPalette rgb
#' @importFrom stats quantile
#' @importFrom graphics par plot lines text legend
#' @export
gtoxPlotFitc <- function(fitc=NULL, main=NULL, fitc_sub=NULL) {
## Variable-binding to pass R CMD Check
r <- g <- N <- edge <- plt <- leaf <- parent_fitc <- xloc <- yloc <- NULL
name <- J <- NULL
if (!is.null(fitc)) {
vals <- data.table(fitc=fitc)[ , .N, by=fitc]
mypal <- rev(c(
"#A50026", "#FF7F00", "#FFFF33",
"#33A02C", "#1F78B4", "#762A83"
))
clrs <- data.table(
edge=seq_len(8),
r=col2rgb(colorRampPalette(mypal)(8))["red", ]/255,
g=col2rgb(colorRampPalette(mypal)(8))["green", ]/255,
b=col2rgb(colorRampPalette(mypal)(8))["blue", ]/255
)
clrs[ , col := rgb(r, g, b, 0.4)]
vmax <- unname(quantile(vals[ , N], 0.9))
vmin <- min(vals[ , N])
b <- unlist(
lapply(
0:7, function(x) { vmax/((vmax/vmin)^(1/8))^x }
)
)
b <- round(rev(b[seq_len(7)]), 0)
vals[N <= b[1], col := clrs[edge == 1, col]]
vals[N <= b[2] & N > b[1], col := clrs[edge == 2, col]]
vals[N <= b[3] & N > b[2], col := clrs[edge == 3, col]]
vals[N <= b[4] & N > b[3], col := clrs[edge == 4, col]]
vals[N <= b[5] & N > b[4], col := clrs[edge == 5, col]]
vals[N <= b[6] & N > b[5], col := clrs[edge == 6, col]]
vals[N <= b[7] & N > b[6], col := clrs[edge == 7, col]]
vals[N > b[7], col := clrs[edge == 8, col]]
vals[ , plt := TRUE]
if(!is.null(fitc_sub)) vals[!fitc %in% fitc_sub, plt := FALSE]
}
tree <- gtoxQuery(
"SELECT * FROM mc5_fit_categories;",
getOption("TCPL_DB")
)
tree[ , leaf := !fitc %in% parent_fitc]
tree[ , plt := TRUE]
if(!is.null(fitc_sub)) tree[!fitc %in% fitc_sub, plt := FALSE]
tree[ , xloc := xloc - xloc[1]]
tree[ , yloc := yloc - yloc[1]]
## pdf("test.pdf", width=10, height=7.5, pointsize=9)
opar <- par()[c("pty", "mar", "family")]
on.exit(par(opar))
fmar <- c(0, 0, ifelse(is.null(main), 0, 4), 0)
par(pty="m", mar=fmar)
p <- list(
type="n",
bty="n",
xlim=c(-1150, 1150),
ylim=c(-800, 800),
ylab="",
xlab="",
xaxt="n",
yaxt="n",
main=main
)
do.call(plot, c(tree$yloc ~ tree$xloc, p), quote=TRUE)
setkey(tree, fitc)
for (i in tree[fitc != 1 & plt, fitc]) {
lines(
x=c(tree[J(i), xloc], tree[tree[J(i), parent_fitc], xloc]),
y=c(tree[J(i), yloc], tree[tree[J(i), parent_fitc], yloc])
)
}
with(
tree[which(plt)],
rect(
xleft=xloc - 120,
xright=xloc + 120,
ybottom=yloc - 15,
ytop=yloc + 15,
border=NA,
col="white"
)
)
if (!is.null(fitc)) {
.drawCircles(
x=tree[J(vals[which(plt), fitc]), xloc],
y=tree[J(vals[which(plt), fitc]), yloc],
r=vals[which(plt), (log(N, 2) + 2)*15],
border=NA,
col=vals[which(plt), col]
)
}
if (lw(tree[ , plt & !leaf]) > 0) {
with(
tree[plt & !leaf],
text(x=xloc, y=yloc, labels=name, cex=0.45)
)
}
if (lw(tree[ , plt & leaf]) > 0) {
text(
x=tree[plt & leaf, xloc],
y=tree[plt & leaf, yloc],
labels=tree[plt & leaf, name],
cex=0.45,
font=ifelse(is.null(fitc), 2, 1),
col=ifelse(is.null(fitc), "darkgreen", "black")
)
}
if (!is.null(fitc)) {
legend(
x="bottom",
ncol=8,
bty="n",
box.lwd=0,
bg="white",
pch=19,
cex=0.8,
col=clrs[ , col],
legend=c(
paste0("1-", b[1]),
paste0(b[1] + 1, "-", b[2]),
paste0(b[2] + 1, "-", b[3]),
paste0(b[3] + 1, "-", b[4]),
paste0(b[4] + 1, "-", b[5]),
paste0(b[5] + 1, "-", b[6]),
paste0(b[6] + 1, "-", b[7]),
paste0(b[7] + 1, "+")
)
)
}
}
philipmorrisintl/GladiaTOX documentation built on Aug. 27, 2023, 9:07 p.m.
R Package Documentation
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Defines functions gtoxPlotFitc
Documented in gtoxPlotFitc
#####################################################################
## This program is distributed in the hope that it will be useful, ##
## but WITHOUT ANY WARRANTY; without even the implied warranty of ##
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ##
## GNU General Public License for more details. ##
#####################################################################
#-------------------------------------------------------------------------------
# gtoxPlotFitc: Plot the fit category tree
#-------------------------------------------------------------------------------
#' @title Plot the fit category tree
#'
#' @description
#' \code{gtoxPlotFitc} makes a plot showing the level 5 fit categories.
#'
#' @param fitc Integer, the fit categories
#' @param main Character of length 1, the title (optional)
#' @param fitc_sub Integer, a subset of fit categories to plot
#'
#' @examples
#' ## Store the current config settings, so they can be reloaded at the end
#' ## of the examples
#' conf_store <- gtoxConfList()
#' gtoxConfDefault()
#'
#' ## Display the fit category tree.
#' gtoxPlotFitc()
#'
#' @note
#' Suggested device size (inches): width = 10, height = 7.5, pointsize = 9
#'
#' @return None
#'
#' @import data.table
#' @importFrom grDevices col2rgb colorRampPalette rgb
#' @importFrom stats quantile
#' @importFrom graphics par plot lines text legend
#' @export
gtoxPlotFitc <- function(fitc=NULL, main=NULL, fitc_sub=NULL) {
## Variable-binding to pass R CMD Check
r <- g <- N <- edge <- plt <- leaf <- parent_fitc <- xloc <- yloc <- NULL
name <- J <- NULL
if (!is.null(fitc)) {
vals <- data.table(fitc=fitc)[ , .N, by=fitc]
mypal <- rev(c(
"#A50026", "#FF7F00", "#FFFF33",
"#33A02C", "#1F78B4", "#762A83"
))
clrs <- data.table(
edge=seq_len(8),
r=col2rgb(colorRampPalette(mypal)(8))["red", ]/255,
g=col2rgb(colorRampPalette(mypal)(8))["green", ]/255,
b=col2rgb(colorRampPalette(mypal)(8))["blue", ]/255
)
clrs[ , col := rgb(r, g, b, 0.4)]
vmax <- unname(quantile(vals[ , N], 0.9))
vmin <- min(vals[ , N])
b <- unlist(
lapply(
0:7, function(x) { vmax/((vmax/vmin)^(1/8))^x }
)
)
b <- round(rev(b[seq_len(7)]), 0)
vals[N <= b[1], col := clrs[edge == 1, col]]
vals[N <= b[2] & N > b[1], col := clrs[edge == 2, col]]
vals[N <= b[3] & N > b[2], col := clrs[edge == 3, col]]
vals[N <= b[4] & N > b[3], col := clrs[edge == 4, col]]
vals[N <= b[5] & N > b[4], col := clrs[edge == 5, col]]
vals[N <= b[6] & N > b[5], col := clrs[edge == 6, col]]
vals[N <= b[7] & N > b[6], col := clrs[edge == 7, col]]
vals[N > b[7], col := clrs[edge == 8, col]]
vals[ , plt := TRUE]
if(!is.null(fitc_sub)) vals[!fitc %in% fitc_sub, plt := FALSE]
}
tree <- gtoxQuery(
"SELECT * FROM mc5_fit_categories;",
getOption("TCPL_DB")
)
tree[ , leaf := !fitc %in% parent_fitc]
tree[ , plt := TRUE]
if(!is.null(fitc_sub)) tree[!fitc %in% fitc_sub, plt := FALSE]
tree[ , xloc := xloc - xloc[1]]
tree[ , yloc := yloc - yloc[1]]
## pdf("test.pdf", width=10, height=7.5, pointsize=9)
opar <- par()[c("pty", "mar", "family")]
on.exit(par(opar))
fmar <- c(0, 0, ifelse(is.null(main), 0, 4), 0)
par(pty="m", mar=fmar)
p <- list(
type="n",
bty="n",
xlim=c(-1150, 1150),
ylim=c(-800, 800),
ylab="",
xlab="",
xaxt="n",
yaxt="n",
main=main
)
do.call(plot, c(tree$yloc ~ tree$xloc, p), quote=TRUE)
setkey(tree, fitc)
for (i in tree[fitc != 1 & plt, fitc]) {
lines(
x=c(tree[J(i), xloc], tree[tree[J(i), parent_fitc], xloc]),
y=c(tree[J(i), yloc], tree[tree[J(i), parent_fitc], yloc])
)
}
with(
tree[which(plt)],
rect(
xleft=xloc - 120,
xright=xloc + 120,
ybottom=yloc - 15,
ytop=yloc + 15,
border=NA,
col="white"
)
)
if (!is.null(fitc)) {
.drawCircles(
x=tree[J(vals[which(plt), fitc]), xloc],
y=tree[J(vals[which(plt), fitc]), yloc],
r=vals[which(plt), (log(N, 2) + 2)*15],
border=NA,
col=vals[which(plt), col]
)
}
if (lw(tree[ , plt & !leaf]) > 0) {
with(
tree[plt & !leaf],
text(x=xloc, y=yloc, labels=name, cex=0.45)
)
}
if (lw(tree[ , plt & leaf]) > 0) {
text(
x=tree[plt & leaf, xloc],
y=tree[plt & leaf, yloc],
labels=tree[plt & leaf, name],
cex=0.45,
font=ifelse(is.null(fitc), 2, 1),
col=ifelse(is.null(fitc), "darkgreen", "black")
)
}
if (!is.null(fitc)) {
legend(
x="bottom",
ncol=8,
bty="n",
box.lwd=0,
bg="white",
pch=19,
cex=0.8,
col=clrs[ , col],
legend=c(
paste0("1-", b[1]),
paste0(b[1] + 1, "-", b[2]),
paste0(b[2] + 1, "-", b[3]),
paste0(b[3] + 1, "-", b[4]),
paste0(b[4] + 1, "-", b[5]),
paste0(b[5] + 1, "-", b[6]),
paste0(b[6] + 1, "-", b[7]),
paste0(b[7] + 1, "+")
)
)
}
}
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