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\name{posTransform.text}
\alias{posTransform.text}
\title{
Genomic position transformation function specifically for text
}
\description{
Genomic position transformation function specifically for text
}
\usage{
posTransform.text(region, y, labels, cex = 1, font = par("font"),
sector.index = get.cell.meta.data("sector.index"),
track.index = get.cell.meta.data("track.index"), padding = 0,
extend = 0, ...)
}
\arguments{
\item{region}{Genomic positions at a single chromosome. It is a data frame with two
columns which are start position and end position.
}
\item{y}{positions of texts
}
\item{labels}{text labels
}
\item{cex}{text size
}
\item{font}{text font style
}
\item{sector.index}{sector index
}
\item{track.index}{track index
}
\item{padding}{padding of text
}
\item{extend}{extend to allow labels to be put in an region which is wider than the current chromosome.
The value should be a proportion value and the length is either one or two.
}
\item{...}{other arguments
}
}
\details{
This position transformation function is designed specifically for text.
Under the transformation, texts will be as close as possible to the original positions.
}
\examples{
\dontrun{
op = par(no.readonly = TRUE)
set.seed(123458)
par(mfrow = c(2, 2))
bed = generateRandomBed(nr = 400, fun = function(k) rep("text", k))
bed = bed[-(9:13), ]
##########################################
circos.par("start.degree" = 90, canvas.xlim = c(0, 1), canvas.ylim = c(0, 1),
gap.degree = 270, cell.padding = c(0, 0, 0, 0), track.margin = c(0.005, 0.005))
circos.initializeWithIdeogram(plotType = c("axis"), chromosome.index = "chr1")
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1),
panel.fun = function(region, value, ...) {
circos.genomicText(region, value, y = 0, labels.column = 1,
facing = "clockwise", adj = c(0, 0.5),
posTransform = posTransform.text, cex = 0.8, niceFacing = F)
}, track.height = 0.1, bg.border = NA)
i_track = get.cell.meta.data("track.index")
circos.genomicPosTransformLines(bed,
posTransform = function(region, value)
posTransform.text(region, y = 0, labels = value[[1]],
cex = 0.8, track.index = i_track),
direction = "outside"
)
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1),
panel.fun = function(region, value, ...) {
circos.points( (region[[1]] + region[[2]])/2, rep(0.5, nrow(region)), pch = 16)
}, track.height = 0.02, bg.border = NA)
circos.clear()
text(0, 0.05, "posTransform.text\ndirection = 'outside'", adj = c(0, 0))
############################################
circos.par("start.degree" = 90, canvas.xlim = c(0, 1), canvas.ylim = c(0, 1),
gap.degree = 270, cell.padding = c(0, 0, 0, 0), track.margin = c(0.005, 0.005))
circos.initializeWithIdeogram(plotType = c("axis"), chromosome.index = "chr1")
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1),
panel.fun = function(region, value, ...) {
circos.genomicText(region, value, y = 0, labels.column = 1,
facing = "clockwise", adj = c(0, 0.5),
posTransform = posTransform.default, cex = 0.8, niceFacing = F)
}, track.height = 0.1, bg.border = NA)
i_track = get.cell.meta.data("track.index")
circos.genomicPosTransformLines(bed, posTransform = posTransform.default,
direction = "outside")
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1),
panel.fun = function(region, value, ...) {
circos.points( (region[[1]] + region[[2]])/2, rep(0.5, nrow(region)), pch = 16)
}, track.height = 0.02, bg.border = NA)
circos.clear()
text(0, 0.05, "posTransform.default\ndirection = 'outside'", adj = c(0, 0))
##############################################################################
circos.par("start.degree" = 90, canvas.xlim = c(0, 1), canvas.ylim = c(0, 1),
gap.degree = 270, cell.padding = c(0, 0, 0, 0), track.margin = c(0.005, 0.005))
circos.initializeWithIdeogram(plotType = c("axis"), chromosome.index = "chr1")
circos.par(cell.padding = c(0, 0, 0, 0))
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1),
panel.fun = function(region, value, ...) {
circos.points( (region[[1]] + region[[2]])/2, rep(0.5, nrow(region)), pch = 16)
}, track.height = 0.02, bg.border = NA)
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1), track.height = 0.1, bg.border = NA)
i_track = get.cell.meta.data("track.index")
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1),
panel.fun = function(region, value, ...) {
circos.genomicText(region, value, y = 1, labels.column = 1,
facing = "clockwise", adj = c(1, 0.5),
posTransform = posTransform.text, cex = 0.8, niceFacing = F)
}, track.height = 0.1, bg.border = NA)
circos.genomicPosTransformLines(bed,
posTransform = function(region, value)
posTransform.text(region, y = 1, labels = value[[1]],
cex = 0.8, track.index = i_track+1),
direction = "inside", track.index = i_track
)
circos.clear()
text(0, 0.05, "posTransform.text\ndirection = 'inside'", adj = c(0, 0))
##############################################################################
circos.par("start.degree" = 90, canvas.xlim = c(0, 1), canvas.ylim = c(0, 1),
gap.degree = 270, cell.padding = c(0, 0, 0, 0), track.margin = c(0.005, 0.005))
circos.initializeWithIdeogram(plotType = c("axis"), chromosome.index = "chr1")
circos.par(cell.padding = c(0, 0, 0, 0))
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1),
panel.fun = function(region, value, ...) {
circos.points( (region[[1]] + region[[2]])/2, rep(0.5, nrow(region)), pch = 16)
}, track.height = 0.02, bg.border = NA)
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1), track.height = 0.1, bg.border = NA)
i_track = get.cell.meta.data("track.index")
circos.genomicTrackPlotRegion(bed, ylim = c(0, 1),
panel.fun = function(region, value, ...) {
circos.genomicText(region, value, y = 1, labels.column = 1, facing = "clockwise",
adj = c(1, 0.5), posTransform = posTransform.text, cex = 0.8,
niceFacing = F, padding = 0.2)
}, track.height = 0.1, bg.border = NA)
circos.genomicPosTransformLines(bed,
posTransform = function(region, value)
posTransform.text(region, y = 1, labels = value[[1]],
cex = 0.8, track.index = i_track+1, padding = 0.2),
direction = "inside", track.index = i_track
)
circos.clear()
text(0, 0.05, "posTransform.text\ndirection = 'inside'\npadding = 0.2", adj = c(0, 0))
par(op)
}
}
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