I could figure out triplot using package klaR. .......

``````   require(klaR)

triplot(label = c("1, 2 or 3", "4 or 5", "6"),
main = "die rolls: probabilities", pch = 17)
``````

I want to plot shaded triplot, so that I can show where particular point falls into which class.

Are there any package (developed or underdevelopment) to do this ? Or we can tweak the available packages to achieve this ?

Edits: in response to the answer below:

``````xpoint <- matrix(c(0, 0, 10,  0, 10, 0, 10,0,0, 10,10, 0, 10,0,10, 0,0, 10, 0,10,10, 10,10,10), ncol =3, byrow= TRUE)
xp <- t(apply(xpoint,1,tern2cart))
points(xp[,1], y = xp[,2], type = "p", col = "green", pch = "*", cex = 4)
text(xp[,1]-0.01,xp[,2]-0.01)
> xpoint

[,1] [,2] [,3]
[1,]    0    0   10
[2,]    0   10    0
[3,]   10    0    0
[4,]   10   10    0
[5,]   10    0   10
[6,]    0    0   10
[7,]    0   10   10
[8,]   10   10   10
``````

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would not be cool if ggplot2 has such geom_triplot (as an alternative to 3D plot does not currently have) ...... –  SHRram Jul 24 '12 at 11:03
@SHRram yes indeed .. –  jon Jul 24 '12 at 14:29

So (as for the answer I gave for this question), I am not able to provide you with an answer using `triplot` (since I don't know what referential this function is using to plot the diagram) but here is a solution from scratch:

``````#First draw the empty ternary diagram:
plot(NA,NA,xlim=c(0,1),ylim=c(0,sqrt(3)/2),asp=1,bty="n",axes=F,xlab="",ylab="")
segments(0,0,0.5,sqrt(3)/2)
segments(0.5,sqrt(3)/2,1,0)
segments(1,0,0,0)

text(0,0,labels="1, 2 or 3",pos=1)
text(1,0,labels="6",pos=1)
text(0.5,sqrt(3)/2,labels="4 or 5",pos=3)

#The following function is for transforming ternary coordinates into cartesian coordinates:
tern2cart <- function(coord){
coord[1]->x
coord[2]->y
coord[3]->z
x+y+z->tot
x/tot -> x
y/tot -> y
z/tot -> z
(2*y + z)/(2*(x+y+z)) -> x1
sqrt(3)*z/(2*(x+y+z)) -> y1
return(c(x1,y1))
}

green.zone<-matrix(c(0,0,100,40,0,60,0,40,60,0,0,100),nrow=4,byrow=TRUE)
blue.zone<-matrix(c(30,10,60,30,40,30,0,70,30,0,40,60,30,10,60),nrow=5,byrow=TRUE)
purple.zone<-matrix(c(90,0,10,100,0,0,30,70,0,30,40,30,50,40,10,90,0,10),nrow=6,byrow=TRUE)
red.zone<-matrix(c(30,40,30,30,70,0,0,100,0,0,70,30,30,40,30),nrow=5,byrow=TRUE)
yellow.zone<-matrix(c(90,0,10,40,0,60,30,10,60,30,40,30,50,40,10,90,0,10),nrow=6,byrow=TRUE)

#Then transformed into cartesian coordinates:
t(apply(green.zone,1,tern2cart))->green
t(apply(blue.zone,1,tern2cart))->blue
t(apply(purple.zone,1,tern2cart))->purple
t(apply(red.zone,1,tern2cart))->red
t(apply(yellow.zone,1,tern2cart))->yellow

#And plotted:
polygon(green,col="green",border=NULL)
polygon(blue,col="blue",border=NULL)
polygon(purple,col="purple",border=NULL)
polygon(red,col="red",border=NULL)
polygon(yellow,col="yellow",border=NULL)

#And finally the grid:
a<-seq(0.9,0.1, by=-0.1)
b<-rep(0,9)
c<-seq(0.1,0.9,by=0.1)
grid<-data.frame(x=c(a, b, c, a, c, b),y=c(b, c, a, c, b, a),z=c(c, a, b, b, a, c))
t(apply(grid,1,tern2cart)) -> grid.tern
cbind(grid.tern[1:27,],grid.tern[28:54,])->grid
apply(grid,1,function(x){segments(x0=x[1],y0=x[2],x1=x[3],y1=x[4],lty=2,col="grey80")})
``````

You can obviously wrap this up into a function if you need to...

Edit: with labels

``````paste(seq(10,90,by=10),"%")->lab
text(grid.tern[9:1,],paste(lab,"\n(1, 2 or 3)"),col="grey80",cex=0.7, pos=2)
text(grid.tern[18:10,],paste(lab,"\n(4 or 5)"),col="grey80",cex=0.7, pos=4)
text(grid.tern[27:19,],paste(lab,"\n(6)"),col="grey80",cex=0.7, pos=1)
``````

And with data plotted on the diagram

``````df<-data.frame('1, 2 or 3'=c(10,33.3,50,100), '6'=c(0,33.3,50,0), '4 or 5'=c(90,33.3,0,0))
df
X1..2.or.3   X6 X4.or.5
1       10.0  0.0    90.0
2       33.3 33.3    33.3
3       50.0 50.0     0.0
4      100.0  0.0     0.0

t(apply(df, 1, tern2cart)) -> df.tern
points(df.tern, pch="*", cex=3)
``````

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thank you great ! I was not specific about the package and your solution is constumizable solution than from a package...I have question about the cordinates ...as polygons seems to play in 0-100 scale but the grids in 0-1 scale...how about if I need to add a points plot - scatter plot (like a triangle point hidden in my example plot), workout ....thanks once again –  jon Jul 30 '12 at 14:50
see my edits if it is correct thing to do ... –  jon Jul 30 '12 at 14:53
Can we add grid labels to remove the confusion .. –  jon Jul 30 '12 at 16:03
Your points in the edit seems fine to me: a point with coordinates (0,10,0) being, on a ternary diagram, equivalent to (0,100,0) or (0,1,0) or indeed any (0,n,0) –  plannapus Jul 31 '12 at 7:43

Using the ggtern package which I have recently published via CRAN, the following can be obtained:

The above result can be achieved with the following code:

``````g <- data.frame(x=c(1,.6,.6),
y=c(0,.4,0),
z=c(0,0,.4),         Series="Green")
y <- data.frame(x=c(.6,.1,.1,.3,.6),
y=c(.4,.9,.5,.3,.3),
z=c( 0, 0,.4,.4,.1), Series="Yellow")
b <- data.frame(x=c(.6,.3,.3,.6),
y=c(.3,.3, 0, 0),
z=c(.1,.4,.7,.4),    Series="Blue")
r <- data.frame(x=c(.3, 0,0,.3),
y=c(.3,.3,0, 0),
z=c(.4,.7,1,.7),     Series="Red")
p <- data.frame(x=c(.1,0, 0,.3,.1),
y=c(.9,1,.3,.3,.5),
z=c( 0,0,.7,.4,.4),  Series="Purple")
DATA=rbind(g,y,b,r,p)
ggtern(data=DATA,aes(x,y,z)) +
geom_polygon(aes(fill=Series),alpha=.5,color="black",size=0.25) +
scale_fill_manual(values=as.character(unique(DATA\$Series))) +
theme(legend.position=c(0,1),legend.justification=c(0,1)) +
labs(fill="Region",title="Sample Filled Regions")
``````
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