# gnuplot: how to set custom non linear scales

is there any possibility for using non linear scales with self defined break of slope points? For example: i want the half of the y-scale shows the range [0:1] and the other half [1:5] and i do not want to use logarithmic scale.

The best thing would be the possibility to provide a mapping function. Sure one could directly map the function results but then the labes will not fit to the actual data.

Is there any possiblilty? I searched a bit but iam not sure if i missed something or if it is not possible.

• I think, the only way to do this automatically would be to use `set link`, which is available since 4.7, but my first tries didn't succeed: `i(x) = x <= 1 ? x : 1 + (x-1)*4; f(x) = x <= 1 ? x : (x-1)/4.0 + 1; set link y2 via f(y) inverse i(y)`. Sep 20, 2013 at 14:44
• @Christoph i didn't understand how the link cmd could help. its the same if i specify `set link y2 via y**2 inverse sqrt(y)` and `plot x axis x1y2` or if i directly use `plot sqrt(x)`. In both cases the y axis scale displays the wrong data Sep 20, 2013 at 14:56
• See my answer. This is the most 'handy' variant I can come up with. Sep 20, 2013 at 15:08

This can be done with `set link`, which is available only in the 4.7 development version.

The following script does the mapping, but the labels are on the `y2`-axis:

``````reset
f(x) = x <= 1 ? x : 1 + (x-1)*4
i(x) = x <= 1 ? x : (x-1)/4.0 + 1
set link y2 via f(y) inverse i(y)

unset ytics
set y2tics mirror

set xrange[0:5]
set yrange[0:2]
plot x axes x1y2
``````

Result with 4.7: With some offset, you can move the labels from the `y2`-axis to the `y`-axis:

``````reset
set terminal pngcairo size 800,500
set output 'output.png'

f(x) = x <= 1 ? x : 1 + (x-1)*4
i(x) = x <= 1 ? x : (x-1)/4.0 + 1
set link y2 via f(y) inverse i(y)

unset ytics
set lmargin at screen 0.1
set rmargin at screen 0.95
set y2tics mirror offset graph -1.04 right
set my2tics 2
set y2tics add ('' 0.25 1, '' 0.75 1)
set ylabel 'ylabel' offset -4

set xrange[0:5]
set yrange[0:2]
plot x axes x1y2
``````

That's quite ugly, but it works. It requires just a little fiddling with the left and right margins and the y2tics offset.

EDIT: I added minor tics, with a higher frequency between `0` and `1`. I think it might be useful to add one label for `0.5` to show that the scale is linear, but with a different gradient (in which case you also might want to `set y2tics format '%.1f'` to have one decimal digit for all labels). However, this tic would also appear as a major tics, because using labels for minor tics is not supported, yet.

The result is: • Interesting answer--I would not have thought to use `set link` that way (not being familiar with the command). Sep 20, 2013 at 15:18
• one more problem: the axis title is drawn in the axis tics labes and the ne plus ultra would be if the m2tics frequency could be increased in the stretched drawn area Sep 20, 2013 at 15:23
• @vlad_tepesch Sorry, don't get your question about the title. If you mean the `ylabel`, then you can also use an offset: `set ylabel 'mylabel' offset -3`, but you'll need to increase the `lmargin` for this. I don't think it is possible to increase the m2tics in the stretched area. But I'm thinking the whole time, if it wouldn't be rather straightforward to transfer this mapping stuff to a single axis, instead of linking. I'll have a look into the code... Sep 20, 2013 at 15:32
• @vlad_tepesch Well, of course you can add custom minor tics, see the edited answer `:)`. Sep 20, 2013 at 19:02
• thanks. i got the ylabel offset by myself. also thanks for the edit Sep 23, 2013 at 8:37

You have a couple of options to accomplish that kind of plot. I will use these sample data:

``````0 0
1 0.5
2 0.6
3 1
4 1.5
5 0.5
6 2.5
7 5
8 2
``````

## Multiplot method

Here you just make two plots of the same data on top of each other. Note that where the data cross the border of the plots there is a joint in the line (if you plot a line).

This is a little more complicated than the mapping method below.

``````#!/usr/bin/env gnuplot

reset

set terminal pdfcairo enhanced color lw 3 size 3,2 font 'Arial,14'
set output 'output.pdf'

set style data linespoints

set title 'my plot'
set key top left

set multiplot layout 2,1

### first (top) plot
# play with margins to ensure top and bottom plots are same size
set bmargin 0
set tmargin 2.5
# also that left margin is same with/without y label
set lmargin 6

set yrange [1:5]

unset xtics
set ytics 1 out scale 0.5 nomirror

# remove bottom line of border
set border 14

plot 'data.dat' pt 7 title 'my data'

### second (bottom) plot
unset title

# set margins to match first plot
set bmargin 2.5
set tmargin 0

set yrange [0:1]

# this offset along with the label offset compresses the bottom whitespace
set xtics out scale 0.5 nomirror offset 0,0.4

# create and place labels where they will be visible
set xlabel 'x label' offset 0,0.8
set ylabel 'y label' offset 1,3

# remove top line of border
set border 11
plot 'data.dat' pt 7 notitle

unset multiplot

reset
``````

Result: ## Mapping method

Here we create a mapping function and manipulate the y labels to match. Note there is no joint in the line, which may or may not be what you want.

``````#!/usr/bin/env gnuplot

reset

set terminal pdfcairo enhanced color lw 3 size 3,2 font 'Arial,14'
set output 'output2.pdf'

set style data linespoints

set key top left

set title 'my plot'
set xlabel 'x label'
set ylabel 'y label'

# mapping function
map(x) = x <= 1.0 ? x : (x-1.0)/4.0 + 1.0

# upper y bound is set by (5-1.0)/4.0 + 1.0
set yrange [0:2]
# y labels create illusion
set ytics out scale 0.5 nomirror \
("0" 0, "1" 1, "2" 1.25, "3" 1.5, "4" 1.75, "5" 2)
set xtics out scale 0.5 nomirror

plot 'data.dat' u 1:(map(\$2)) pt 7 title 'my data'

reset
``````

Result: 