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I am plotting data on a log-transformed axis, and the default in ggplot is to use the exponent for the tick labels. However, I would like to include the base e so that tick labels appear as "e^n". Does anyone know how I can do this? I can find solutions for base 10 exponents (e.g. Pretty axis labels for log scale in ggplot), but not for base e. I've tried modifying the base 10 solution to get base e exponents, but it's not working for me.

This example shows the default behavior:

library(ggplot2)
df <- data.frame(x=c(10, 100), y=c(400, 23000))
ggplot(df, aes(x=x, y=log(y)))+geom_line()

I can express the tick labels in scientific format using

ggplot(df, aes(x=x, y=log(y)))+geom_line()+scale_y_continuous(label=scientific)

but I instead want these labels to appear as e^n. Can anyone point me in the right direction here?

EDIT: Didzis's solution worked perfectly, but when using a smaller y-range such as this

df <- data.frame(x=c(10, 100), y=c(400, 3000))

the ticks are coming up as decimals (e.g. e^6.5) instead of integers (e.g. e^6, e^7). How can I force ggplot to use just integers? I've tried

ggplot(df, aes(x=x, y=y))+geom_line()+
+     scale_y_continuous(trans="log",breaks = trans_breaks("log", function(x) exp(x), by=1),
+                        labels = trans_format("log", math_format(e^.x)))

but that did not work.

EDIT2: I was able to solve this by setting the number of breaks using:

ggplot(df, aes(x=x, y=y))+geom_line()+
scale_y_continuous(trans="log",breaks = trans_breaks("log", function(x) exp(x), n=3),
                   labels = trans_format("log", math_format(e^.x)))
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1 Answer 1

up vote 1 down vote accepted

To get e^n as labels used scale_y_continuos() and then use trans_breaks() and trans_format() from library scales to get desired labels. Also to get log scale use argument trans="log" inside the scales_... function (do not take log() of data inside the aes()).

library(scales)
ggplot(df, aes(x=x, y=y))+geom_line()+
  scale_y_continuous(trans="log",breaks = trans_breaks("log", function(x) exp(x)),
                labels = trans_format("log", math_format(e^.x)))

enter image description here

share|improve this answer
    
Thanks Didzis! This is a big step forward, but is there some minor problem with the solution? For example, the lowest y-value is e^1.8, but this should be e^6. It appears as though your solution is taking natural log of the values, which are already logged. Instead of "log" should I use another transformation? I tried "continuous" but it errored. Thanks! –  Thomas Jan 11 at 17:18
    
Problem was in your example where you took log() of y inside the aes() so range of y values was changed before the plotting. Removing log() from aes() get minumim value as you expect –  Didzis Elferts Jan 11 at 17:26
    
Thanks Didzis - OK I see my error. Your solution works perfectly! However, when using a smaller y-range, the exponents are appearing as decimals. I need to reduce the precision - is there a way to do this? I've updated my original post with an example. Thanks! –  Thomas Jan 11 at 17:43
    
Dear Didzis - I was able to solve the problem by setting the number of breaks using parameter n in trans_breaks. Thanks again for your help! –  Thomas Jan 11 at 17:56

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