# Venn Diagrams with R?

@Totovader just asked if there are other packages for doing Venn diagrams in R besides the limma package. Anyone got tips?

Here's some notes on doing Venn diagrams with the limma packages.

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Hi, I'm still looking for a package that will draw proportional Venn diagrams. Here's the closest thing that I found from 8 years ago, stat.ethz.ch/pipermail/r-help/2003-February/029393.html. I was hoping that there would be a more recent development with this. –  andrewj Mar 3 '11 at 21:58

Duncan Murdoch has a venn package, which is not on CRAN. (hat tip to Gabor Grothendieck)

You can also read about it in the "Journal of Statistical Software".

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the first link is dead –  user56 Dec 11 '12 at 19:35
@Shade the lase one also! –  agstudy Feb 15 at 15:12

There is Vennerable package on R-forge.

``````source("http://bioconductor.org/biocLite.R")
biocLite(c("graph", "RBGL", "gtools", "xtable"))
install.packages("Vennerable", repos="http://R-Forge.R-project.org")
``````

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I use two custom functions that to the trick. My implementation of venndia plots the venn diagram and returns lists of overlaps between A and B (and C). See the code below.

With these, you can

``````vd <- venndia(A=LETTERS[1:15], B=LETTERS[5:20], getdata=TRUE)
``````

which will both plot and return the data. you can switch off returning the data by doing

``````venndia(A=LETTERS[1:15], B=LETTERS[5:20])
``````

since getdata is FALSE by default. /Daniel

``````circle <- function(x, y, r, ...) {
ang <- seq(0, 2*pi, length = 100)
xx <- x + r * cos(ang)
yy <- y + r * sin(ang)
polygon(xx, yy, ...)
}

venndia <- function(A, B, C, getdata=FALSE, ...){
cMissing <- missing(C)
if(cMissing){ C <- c() }

unionAB <- union(A, B)
unionAC <- union(A, C)
unionBC <- union(B, C)
uniqueA <- setdiff(A, unionBC)
uniqueB <- setdiff(B, unionAC)
uniqueC <- setdiff(C, unionAB)
intersAB <- setdiff(intersect(A, B), C)
intersAC <- setdiff(intersect(A, C), B)
intersBC <- setdiff(intersect(B, C), A)
intersABC <- intersect(intersect(A, B), intersect(B, C))

nA <- length(uniqueA)
nB <- length(uniqueB)
nC <- length(uniqueC)

nAB <- length(intersAB)
nAC <- length(intersAC)
nBC <- length(intersBC)

nABC <- length(intersABC)

par(mar=c(2, 2, 0, 0))
plot(-10, -10, ylim=c(0, 9), xlim=c(0, 9), axes=FALSE, ...)
circle(x=3, y=6, r=3, col=rgb(1,0,0,.5), border=NA)
circle(x=6, y=6, r=3, col=rgb(0,.5,.1,.5), border=NA)
circle(x=4.5, y=3, r=3, col=rgb(0,0,1,.5), border=NA)

text( x=c(1.2, 7.7, 4.5), y=c(7.8, 7.8, 0.8), c("A", "B", "C"), cex=3, col="gray90" )

text(
x=c(2, 7, 4.5, 4.5, 3, 6, 4.5),
y=c(7, 7, 2  , 7  , 4, 4, 5),
c(nA, nB, nC, nAB, nAC, nBC, nABC),
cex=2
)

if(getdata){
list(A=uniqueA, B=uniqueB, C=uniqueC,
AB=intersAB , AC=intersAC , BC=intersBC ,
ABC=intersABC
)
}
}
``````
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This comes very late but it might useful for others searching for an answer: vennDiagram It allows multiple sets (up to 7 if I am not mistaken), customizable colors and fonts, simple syntax and and best of all the size of the circles is proportional to the size of the data sets (at least when comparing 2 data sets). To install:

``````install.packages("VennDiagram")
library(VennDiagram)
``````

For those using bioconductor packages and working with genomic coordinates, recently vennDiagram was implemented in the package ChIPpeakAnno (version 2.5.12) and allows pretty intersections of Genomic coordinates of, for instance, Chip-seq peaks. For early adopters you might need to install the development package.

``````peaks1 = RangedData(IRanges(start = c(967654, 2010897, 2496704),
end = c(967754, 2010997, 2496804), names = c("Site1", "Site2", "Site3")),
space = c("1", "2", "3"), strand=as.integer(1),feature=c("a","b","f"))

peaks2 = RangedData(IRanges(start = c(967659, 2010898,2496700,3075866,3123260),
end = c(967869, 2011108, 2496920, 3076166, 3123470),
names = c("t1", "t2", "t3", "t4", "t5")),
space = c("1", "2", "3", "1", "2"), strand = c(1, 1, -1,-1,1), feature=c("a","b","c","d","a"))

makeVennDiagram(RangedDataList(peaks1,peaks2, peaks1, peaks2), NameOfPeaks=c("TF1", "TF2","TF3", "TF4"),
totalTest=100,useFeature=TRUE, main="Venn Diagram",
col = "transparent",fill = c("cornflowerblue", "green", "yellow", "darkorchid1"),
alpha = 0.50,label.col = c("orange", "white", "darkorchid4", "white", "white", "white", "white", "white", "darkblue", "white", "white", "white", "white", "darkgreen", "white"), cat.col = c("darkblue", "darkgreen", "orange", "darkorchid4"))
``````
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I am compiling some of the packages that I know of,

Vennerable http://goo.gl/YjQCc

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