This is definitely possible. Here's a little example that I cooked up:

First, the datafile `"data.dat"`

:

```
#histograms
1 3 stack1
2 2 stack2
3 1 stack3
#mono
.6
.6
1.5
1.5
3.1
3.1
```

Now the gnuplot script to plot it:

```
set yrange [0:*]
set style data histograms
set style histogram cluster gap 1
IDX=-1
xpos(x)=(IDX=IDX+1, IDX%2==0)?(IDX/2-.5):(IDX/2+.5)
set style fill solid
plot 'data.dat' index "histograms" u 1:xtic(3) title "column1", \
'' index "histograms" u 2 title "column2", \
'' index "mono" u (xpos($1)):1 w lines ls -1 title "mono"
```

This is a little more tricky than my last version. When plotting a cluster of histograms, each cluster is centered on an integer starting at 0 and incrementing by 1 for each cluster (regardless of your setting for xtics and labels). What I've done is used that information to simplify the datafile. Now this plot command plots 2 different data sets as histograms (taken from each column in the "histogram" portion of the datafile), the first one adds the xtic labels. Then the tricky part: I write a function which has side-effects (gnuplot inline-functions are new in gnuplot 4.4 I think). Each time it is called, the value for the variable `IDX`

is incremented -- So, the current position on the xrange is always `IDX/2`

. This function alternates between returning `IDX/2-.5`

and `IDX/2+.5`

. Note that to create another dataset `random`

, you'll need another function `xpos2`

which is the same as `xpos1`

except it uses a separate iterator.