Here's one way to do it, using the data `VADeaths`

as an example (it will be in your R workspace by default, or if not, use `library(datasets)`

).

```
bar <- barplot(VADeaths)
text(rep(bar,each=nrow(VADeaths)), as.vector(apply(VADeaths,2,cumsum)),
labels=as.vector(apply(VADeaths,2,cumsum)),pos=3)
```

It looks like this:

To modify the size of the font you can use `text(...,cex=2)`

to make things twice the size they were, e.g.

Now, let's explain this code so you know how to do it yourself!

First, let's look at `VADeaths`

: it's a tally of deaths in each age group by category:

```
> VADeaths
Rural Male Rural Female Urban Male Urban Female
50-54 11.7 8.7 15.4 8.4
55-59 18.1 11.7 24.3 13.6
60-64 26.9 20.3 37.0 19.3
65-69 41.0 30.9 54.6 35.1
70-74 66.0 54.3 71.1 50.0
```

Now, to do the text on the barplot, we basically draw the barplot, and *then* draw the text on top using R command `text`

(see `?text`

).

`text`

requires x,y coordinates and corresponding pieces of text to draw on the bar plot. We will give it the coordinates of each line in the bar plot to draw the text on.

To do this, see the "Value" section `?barplot`

. This function not only plots your bar plot, but returns the x coordinate of each bar. score!

```
> bar <- barplot(VADeaths)
> bar
[1] 0.7 1.9 3.1 4.3
```

Now all we need is y coordinates to go with our x coordinates.

Well, a stacked bar plot just tallies up the frequencies in `VADeaths`

as you go along.
For example, in the 'Rural Male' group, the first line is drawn at `11.7`

, and the second is drawn at `11.7 + 18.1 = 29.8`

, the third at `11.7 + 18.1 + 26.9 = 56.7`

, and so on (see the values in `VADeaths`

).

So, our y coordinates need to be cumulative sums going down the columns.

To calculate these for each column, we can use `cumsum`

. For example

```
> cumsum(c(1,2,3,4,5))
[1] 1 3 6 10 15
```

Since we want to do this *for each column* in `VADeaths`

, we have to use the function `apply`

.

```
> apply(VADeaths,2,cumsum)
Rural Male Rural Female Urban Male Urban Female
50-54 11.7 8.7 15.4 8.4
55-59 29.8 20.4 39.7 22.0
60-64 56.7 40.7 76.7 41.3
65-69 97.7 71.6 131.3 76.4
70-74 163.7 125.9 202.4 126.4
```

`apply(VADeaths,2,cumsum)`

means: "For each column in `VADeaths`

, calculate the `cumsum`

of that".
This gives us the y values for each line of the bar plot.

Let's save these yvalues for further use:

```
> yvals <- as.vector(apply(VADeaths,2,cumsum))
```

The reason I use `as.vector`

is just to flatten the matrix into a vector of values -- it makes the plotting easier.

One last thing -- my x values (that I stored in `bar`

) only have one value per bar, but I need to expand it out so there's one x value per line on each bar. To do this:

```
> xvals <- rep(bar,each=nrow(VADeaths))
```

This turns my previous `x1,x2,x3,x4`

into `x1,x1,x1,x1,x1, x2,x2,x2,x2,x2, ..., x4,x4,x4,x4,x4`

.
Now my `xvals`

match my `yvals`

.

After this it's simply a case of using `text`

.

```
> text( xvals, yvals, labels=yvals, pos=3 )
```

The `labels`

arguments tells `text`

what text to put at the x/y positions.
The `pos=3`

means "draw each bit of text just above my specified x/y value". Otherwise, the numbers would be drawn over the lines of the barplot which would be hard to read.

Now, there are many options for customising the position and size of text, and I suggest you read `?text`

to see them.

All this code condenses down to the two-liner I gave at the beginning of the answer, but this version might be a little more understandable:

```
bar <- barplot(VADeaths)
xvals <- rep(bar,each=nrow(VADeaths))
yvals <- as.vector(apply(VADeaths,2,cumsum))
text( xvals, yvals, labels=yvals, pos=3 )
```