# Gnuplot: how to add y2 axis scale for different units

I'm plotting data from a file. The data points are in metric units. I want to show a second scale on the right (y2) that's in standard units.

The file represents rocket motor thrust over time. The data are in Newtons. I want to show newtons on the left (this happens by itself, naturally) and pounds force on the right. The conversion is a simple factor (multiply N by 0.2248 to obtain lbf).

I can set y2tics and if I set y2range manually, they appear on the right. What I don't know how to do is set y2range automatically to y1range * a factor.

My eventual solution is to plot twice, once in Newtons on y1 and once in pounds on y2, and make the y2 plot almost invisible:

``````plot '-' using 1:(\$2*0.2248) with dots axes x1y2 lc rgb 'white' notitle, \
'' using 1:2 with lines lc rgb '<color>' title '<title>'
``````

The solution above often generates slightly different y scales: with autoragne, gnuplot rounds up the range so the top tick on each axis is a round number, and of course the rounding is different for different units.

Ultimately I end up with Python code that finds the highest thrust value in each graph, then I explicitly set yrange to that number and y2range to that number * 0.2248:

``````f.write("set yrange [0:%s]; set y2range[0:%s]\n" % (peak_thrust, peak_thrust*NEWTON_LBF));
``````

Here's the end result: http://www.lib.aero/hosted/motors/cesaroni_12-15-12.html (sample graph below)

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It seems to me that the easiest way to do this is to simply scale the data:

``````set y2tics
plot sin(x) w lines, 5*sin(x) w lines axes x1y2
``````

Of course, you're plotting data from a file, so it would look something more like:

``````set y2tics
FACTOR=0.2248  #conversion factor from newtons to lbf
plot 'datafile' u 1:2 w lines, '' u 1:(FACTOR*\$2) w lines
``````

If you're setting the yrange explicitly (which you may need to do):

``````set yrange [ymin:ymax]
set y2range [ymin*FACTOR:ymax*FACTOR]
``````

Finally, if you really want to rely on autoscaling, you're going to need to do some "gymnastics".

First, set a dummy terminal so we can `plot` without making a plot:

``````set term unknown
plot 'datafile' u 1:2  #collect information on our data
``````

Now that we've collected information on the data, we can set our real `y2range`

``````FACTOR=0.2248
set y2range [FACTOR*GPVAL_Y_MIN : FACTOR*GPVAL_Y_MAX]
set y2tics nomirror
set ytics nomirror
``````

Now set the terminal and plot the data:

``````set term ...
set output ...
plot 'datafile' u 1:2 w lines
``````
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So what it comes down to is that I need to plot the data twice, once on each y axis? –  iter Dec 20 '12 at 18:15
@iter -- I guess not really. (see my updated code). If you set the y2range explicitly, you can get around that. –  mgilson Dec 20 '12 at 18:30
Every code snippet I see above plots twice (except the one that sets range explicitly, which I don't want to do; I'm relying on autoscale). The last snippet plots twice also, it just throws the first plot away (to the fake terminal) –  iter Dec 20 '12 at 18:34
@iter -- Yes, that's true. You need to read the data twice. Once to set the scale if you're autoscaling. Is performance really that big of an issue for this script? –  mgilson Dec 20 '12 at 18:35
What I ended up doing is sort of like your second approach, but with explicit axes and make the first plot almost invisible: –  iter Dec 20 '12 at 18:36

Version 5.0 added support for this kind of relations between the `y` and `y2` (or also `x` and `x2`) axis:

``````set xrange[0:370]
set ytics nomirror
set y2tics
set link y2 via 0.2248*y inverse y/0.2248
plot x
``````

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I know it's an old question and the answer has already been accepted, but I think it's worth sharing my approach.

I simply use modified labels for the x2axis. In your case, this would be

``````set y2tics ("10" 10/0.2248, "20" 20/0.2248 etc etc...
``````

that can be looped this way

``````do for [i=0:1000:10] { set y2tics add (sprintf("%i",i) i/0.2248) }
``````

where the `for` range should be adjusted according to your data (you could use `stats` and the variable `GPVAL_DATA_Y_MAX` for complete peace of mind). Don't forget to

``````set ytics nomirror
``````

This will give exactly what are you looking for, in (almost) a one liner:

If you want to use a grid and have the converted factors on the `x2axis`, so that for example to the label y=50 N would correspond y2=11.2 (it keeps things tidy if you use a grid) you can do

``````do for [i=0:1000:50] { set y2tics add (sprintf("%5.1f",i*0.2248) }
``````

This is the result:

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