`Gnuplot`

has no official way to draw this kind of horizontal boxplots. However, you can use the `boxxyerrorbars`

(shorthand `boxxy`

) to achieve this.

As I don't have any test data of your actual example, I generated a data file from a Gaussian random-walk. To generate the data run the following `python`

script:

```
from numpy import zeros, savetxt, random
N = 500
g = zeros(N)
for i in range(1, N):
g[i] = g[i-1] + random.normal()
savetxt('randomwalk.dat', g, delimiter='\t', fmt='%.3f')
```

As next thing, I do binning of the 'position data' (which in your case would be the volume data). For this one can use `smooth frequency`

. This computes the sum of the `y`

values for the same `x`

-values. So first I use a proper binning function, which returns the same value for a certain range (`x`

+- `binwidth/2`

). The output data is saved in a file, because for the plotting we must exchange `x`

and `y`

value:

```
binwidth = 2
hist(x) = floor(x+0.5)/binwidth
set output "| head -n -2 > randomwalk.hist"
set table
plot 'randomwalk.dat' using (hist($1)):(1) smooth frequency
unset table
unset output
```

Normally one should be able to use `set table "randomwalk.hist"`

, but due to a bug, one needs this workaround to filter out the last entry of the table output, see my answer to Why does the 'set table' option in Gnuplot re-write the first entry in the last line?.

Now the actual plotting part is:

```
unset key
set x2tics
set xtics nomirror
set xlabel 'time step'
set ylabel 'position value'
set x2label 'frequency'
set style fill solid 1.0 border lt -1
set terminal pngcairo
set output 'randwomwalk.png'
plot 'randomwalk.hist' using ($2/2.0):($1*binwidth):($2/2.0):(binwidth/2.0) with boxxy lc rgb '#00cc00' axes x2y1,\
'randomwalk.dat' with lines lc rgb 'black'
```

which gives the result (with 4.6.3, depends of course on your random data):

So, for your data structure, the following script should work:

```
reset
binwidth = 2
hist(x) = floor(x+0.5)/binwidth
file = 'data.txt'
histfile = 'pricevolume.hist'
set table histfile
plot file using (hist($2)):($3) smooth unique
unset table
# get the number of records to skip the last one
stats histfile using 1 nooutput
unset key
set x2tics
set xtics nomirror
set xlabel 'time'
set ylabel 'price'
set x2label 'volume'
set style fill solid 1.0 border lt -1
plot histfile using ($2/2.0):($1*binwidth):($2/2.0):(binwidth/2.0) every ::::(STATS_records-2) with boxxy lc rgb '#00cc00' axes x2y1,\
file with lines using 1:2 lc rgb 'black'
```

Note, that this time the skipping of the last `table`

entry is done by counting all entries with the `stats`

command, and skipping the last one with `every`

(yes, `STATS_records-2`

is correct, because the point numbering starts at `0`

). This variant doesn't need any external tool.

I also use `smooth unique`

, which computes the average value of the , instead of the sum (which is done with `smooth frequency`

).

`plot 'file' using 2:1`

do what you want? Otherwise, provide sample input file and more details about what you want.