# NOT RUN {
testlen <- c(sin(seq(0, 1.98*pi, length=100))+2+rnorm(100)/10)
testpos <- seq(0, 1.98*pi, length=100)
PlotPolar(testlen, testpos, type="l", main="Test Polygon", col="blue")
PolarGrid(ntheta=9, col="grey", lty="solid", lblradians=TRUE)
# start at 12 o'clock and plot clockwise
PlotPolar(testlen, -(testpos - pi/2), type="p", main="Test Polygon",
col="green", pch=16)
PolarGrid(ntheta = rev(seq(0, 2*pi, by=2*pi/9) + pi/2),
alabels=Format(seq(0, 2*pi, by=2*pi/9), digits=2)[-10], col="grey",
lty="solid", lblradians=TRUE)
# just because of it's beauty
t <- seq(0,2*pi,0.01)
PlotPolar( r=sin(2*t)*cos(2*t), theta=t, type="l", lty="dashed", col="red" )
PolarGrid()
# use some filled polygons
ions <- c(3.2,5,1,3.1,2.1,5)
ion.names <- c("Na","Ca","Mg","Cl","HCO3","SO4")
PlotPolar(r = ions, type="l", fill="yellow")
# the same, but let's have a grid first
PlotPolar(r = ions, type="l", lwd=2, col="blue", main="Ions",
panel.first=PolarGrid(nr=seq(0, 6, 1)) )
# leave the radial grid out
PlotPolar(r = ions, type="l", fill="yellow")
PolarGrid(nr = NA, ntheta = length(ions), alabels = ion.names,
col = "grey", lty = "solid" )
# display radial lines
PlotPolar(r = ions, type="h", col="blue", lwd=3)
# add some points
PlotPolar(r = ions, type="p", pch=16, add=TRUE, col="red", cex=1.5)
# spiderweb (not really recommended...)
posmat <- matrix(sample(2:9,30,TRUE),nrow=3)
PlotPolar(posmat, type="l", main="Spiderweb plot", col=2:4, lwd=1:3)
PolarGrid(nr=NA, ntheta=ncol(posmat), alabels=paste("X", 1:ncol(posmat), sep=""),
col="grey", lty="solid" )
# example from: The grammar of graphics (L. Wilkinson)
data("UKgas")
m <- matrix(UKgas, ncol=4, byrow=TRUE)
cols <- c(SetAlpha(rep("green", 10), seq(0,1,0.1)),
SetAlpha(rep("blue", 10), seq(0,1,0.1)),
SetAlpha(rep("orange", 10), seq(0,1,0.1)))
PlotPolar(r=m, type="l", col=cols, lwd=2 )
PolarGrid(ntheta=4, alabels=c("Winter","Spring","Summer","Autumn"), lty="solid")
legend(x="topright", legend=c(1960,1970,1980), fill=c("green","blue","orange"))
# radarplot (same here, consider alternatives...)
data(mtcars)
d.car <- scale(mtcars[1:6,1:7], center=FALSE)
# let's have a palette with transparent colors (alpha = 32)
cols <- SetAlpha(colorRampPalette(c("red","yellow","blue"), space = "rgb")(6), 0.25)
PlotPolar(d.car, type="l", fill=cols, main="Cars in radar")
PolarGrid(nr=NA, ntheta=ncol(d.car), alabels=colnames(d.car), lty="solid", col="black")
# a polar barplot
x <- c(4,8,2,8,2,6,5,7,3,3,5,3)
theta <- (0:12) * pi / 6
PlotPolar(x, type = "n", main="Some data")
PolarGrid(nr = 0:9, ntheta = 24, col="grey", lty=1, rlabels = NA, alabels = NA)
DrawCircle(x=0, y=0, r.in=0, r.out=x,
theta.1 = theta[-length(theta)], theta.2 = theta[-1],
col=SetAlpha(rainbow(12), 0.7), border=NA)
segments(x0 = -10:10, y0 = -.2, y1=0.2)
segments(x0=-10, x1=10, y0 = 0)
segments(y0 = -10:10, x0 = -.2, x1=0.2)
segments(y0=-10, y1=10, x0 = 0)
BoxedText(x=0, y=c(0,3,6,9), labels = c(0,3,6,9), xpad = .3, ypad=.3, border="grey35")
# USJudgeRatings
PlotPolar(USJudgeRatings[1,], type="l", col=hblue, lwd=2, cex=0.8, #fill=SetAlpha("blue", 0.4),
panel.first=PolarGrid(ntheta=ncol(USJudgeRatings), col="grey", lty="solid",
las=1, alabels=colnames(USJudgeRatings), lblradians=TRUE))
PlotPolar(USJudgeRatings[2,], type="l", col=hred, lwd=2, add=TRUE)
PlotPolar(USJudgeRatings[5,], type="l", col=horange, lwd=2, add=TRUE)
legend(x="topright", inset=-0.18, col = c(hblue,hred,horange), lwd=2,
legend=rownames(USJudgeRatings)[c(1, 2, 5)])
# }
Run the code above in your browser using DataLab