I have the following situation: I have a plot with two y axis, the left one is of logarithmic scale and shows the quantitiy
x is linear on the x axis. On the second
y axis, I want an additional natural logarithmic scale of the same values that are plotted on the first axis. So imagine I have the following ticks on the first
10^0 10^1 10^2
Then on the second
y axis I would have a scale between
exp(10^0) exp(10^1) exp(10^2)
Using the code from this example, I managed to set the limits of the second axis correctly. However, since the scale is different from logarithmic, the values in between are placed in the wrong way. Since
exp(10^2) is extremely large, the ticks for
exp(10^0) lie very close to each other at the bottom of the axis, while
10^1 is located exactly in the middle on the first y axis.
I figured that I could use a custom scale, but the examples are quite complicated and I thought there might be an easier way to do this. If not, I could still label the ticks myself manually, which is a quite dirty solution.
#!/usr/bin/python2 from numpy import arange, exp import matplotlib.pyplot as plt fig = plt.figure() ax1 = fig.add_subplot(111) ax2 = plt.twinx() ax1.set_yscale("log") ax2.set_yscale("log") ax1.grid(True) # the conversion def time(energy): return exp(energy) # the callback to adjust the limits def update_ax2(ax1): y1, y2 = ax1.get_ylim() ax2.set_ylim(time(y1), time(y2)) ax2.figure.canvas.draw() ax1.callbacks.connect("ylim_changed", update_ax2) # plot some function xvals = arange(0,4,0.1) ax1.plot(xvals, exp(xvals), '-') plt.show()
The resulting picture looks like this:
As you can see, the upper and lower axis limits match on the left and right scale, while the mid point doesn't, since the scaling is different on the right axis. Though I ended up putting the desired ticks manually for my picture, it would be nice if there was a simple solution for this problem. The conversion function is just
y is the tick on the left axis.