If you want overlapping then you missed one number - overlapping all three: `a`

, `b`

, `c`

.

As Aniko write in comment you could use Venn diagrams, e.g. Vennerable from R-forge.

Installation need some packages from BioConductor:

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

You mast prepare your data properly:

```
require(Vennerable)
x <- Venn(
SetNames = c("a", "b", "c"),
Weight = c(`100`=1, `010`=1, `001`=1,
`110`=0.5, `101`=0.7, `011`=0.4,
`111`=.5) # I made this up cause your question miss it
)
```

And voilà:

```
plot(x, doWeights=TRUE)
```

Some additional explanations.

Data structures for Vennerable package need to provide set names (`"a"`

, `"b"`

, `"c"`

in your case) and frequencies/proportions of each intersects. This 0/1 names identify subsets: `1`

means "in set", `0`

means "not in set". So e.g.:

`100`

means in `a`

, not in `b`

, not in `c`

,
`011`

means not in `a`

, in `b`

, in `c`

So `111`

means in all three sets, which is missing in your matrix and it can't be added there. For your sample data when a&b has 0.7 overlapping and b&c has 0.4 means that at least 0.1 is in three set at the same time (or I missed interpretation of this numbers). (note: I think I overestimated this 0.5, cause it should be lower than 0.4)

You could prepare your data to Venn plot before creating matrix, e.g:

```
X <- list(
a = c("One", "Two", "Three"),
b = c("One", "Three", "Four", "Five", "Seven"),
c = c("Three", "Five", "Eight", "Nine", "Ten")
)
x <- Venn(X)
x
# A Venn object on 3 sets named
# a,b,c
# 000 100 010 110 001 101 011 111
# 0 1 2 1 3 0 1 1
plot(x, doWeights=TRUE)
```