I will show two different possibilities. In the first example, `polyclip::polyclip`

is used to get the intersection. In the second example, circles are converted to `sp::SpatialPolygons`

and we get the intersection using `rgeos::gIntersection`

. Then we re-plot the circles and fill the intersecting area.

The resulting object when using `venn.diagram`

is

"of class `gList`

containing the `grid`

objects that make up the diagram"

Thus, in both cases we can grab relevant data from "vp". First, check the `str`

ucture and list the `grobs`

of the object:

```
str(vp)
grid.ls()
# GRID.polygon.234
# GRID.polygon.235
# GRID.polygon.236 <~~ these are the empty circles
# GRID.polygon.237 <~~ $ col : chr "black"; $ fill: chr "transparent"
# GRID.text.238 <~~ labels
# GRID.text.239
# GRID.text.240
# GRID.text.241
# GRID.text.242
```

## 1. `polyclip`

Grab x- and y-values, and put them in the format required for `polyclip`

:

```
A <- list(list(x = as.vector(vp[[3]][[1]]), y = as.vector(vp[[3]][[2]])))
B <- list(list(x = as.vector(vp[[4]][[1]]), y = as.vector(vp[[4]][[2]])))
```

Find intersection:

```
library(polyclip)
AintB <- polyclip(A, B)
```

Grab labels:

```
ix <- sapply(vp, function(x) grepl("text", x$name, fixed = TRUE))
labs <- do.call(rbind.data.frame, lapply(vp[ix], `[`, c("x", "y", "label")))
```

Plot it!

```
plot(c(0, 1), c(0, 1), type = "n", axes = FALSE, xlab = "", ylab = "")
polygon(A[[1]])
polygon(B[[1]])
polygon(AintB[[1]], col = "red")
text(x = labs$x, y = labs$y, labels = labs$label)
```

## 2. `SpatialPolygons`

and `gIntersection`

Grab the coordinates of the circles:

```
# grab x- and y-values from first circle
x1 <- vp[[3]][["x"]]
y1 <- vp[[3]][["y"]]
# grab x- and y-values from second circle
x2 <- vp[[4]][["x"]]
y2 <- vp[[4]][["y"]]
```

Convert points to `SpatialPolygons`

and find their intersection:

```
library(sp)
library(rgeos)
p1 <- SpatialPolygons(list(Polygons(list(Polygon(cbind(x1, y1))), ID = 1)))
p2 <- SpatialPolygons(list(Polygons(list(Polygon(cbind(x2, y2))), ID = 2)))
ip <- gIntersection(p1, p2)
```

Plot it!

```
# plot circles
plot(p1, xlim = range(c(x1, x2)), ylim = range(c(y1, y2)))
plot(p2, add = TRUE)
# plot intersection
plot(ip, add = TRUE, col = "red")
# add labels (see above)
text(x = labs$x, y = labs$y, labels = labs$label)
```

I'm quite sure you could work directly on the `grobs`

using clipping functions in `grid`

or `gridSVG`

package.