# Is there a built-in way to do a logarithmic color scale in ggplot2?

Here's an example of a binned density plot:

``````require(ggplot2)
n <- 1e5
df <- data.frame(x = rexp(n), y = rexp(n))
p <- ggplot(df, aes(x = x, y = y)) + stat_binhex()
print(p)
`````` It would be nice to adjust the color scale so that the breaks are log-spaced, but a try

``````my_breaks <- round_any(exp(seq(log(10), log(5000), length = 5)), 10)
p + scale_fill_hue(breaks = as.factor(my_breaks), labels = as.character(my_breaks))
``````

Results in an `Error: Continuous variable () supplied to discrete scale_hue.` It seems breaks is expecting a factor (maybe?) and designed with categorical variables in mind?

There's a not built-in work-around I'll post as an answer, but I think I might just be lost in my use of `scale_fill_hue`, and I'd like to know if there's anything obvious I'm missing.

• What is the color scheme you are using? It really looks nice! Maybe the default ggplot colors have changed since 2011? I simply get shades of blue. – asachet Oct 24 '16 at 11:15
• It was the default at the time. – Gregor Thomas Oct 24 '16 at 16:43

Yes! There is a `trans` argument to `scale_fill_gradient`, which I had missed before. With that we can get a solution with appropriate legend and color scale, and nice concise syntax. Using `p` from the question and `my_breaks = c(2, 10, 50, 250, 1250, 6000)`:

``````p + scale_fill_gradient(name = "count", trans = "log",
breaks = my_breaks, labels = my_breaks)
`````` My other answer is best used for more complicated functions of the data. Hadley's comment encouraged me to find this answer in the examples at the bottom of `?scale_gradient`.

• Man, you have two "best" answers for the same question :-). Awesome! – Eduardo Aug 8 '14 at 12:59
• @Eduardo... well the question is mine too. Glad you're finding it useful! – Gregor Thomas Aug 8 '14 at 15:09
• well, `log` or `log10` or `sqrt` is bulit_in function, now I want to transform by dividing 1000, so I use `trans_new` function in package `scales` and write my own func `sci_trans <- function(){ trans_new('sci', function(x) x/1000, function(x) x*1000)} p + scale_fill_gradient(trans='sci')`, but it does not work, what should I do? Thank you – Ling Zhang Dec 1 '16 at 8:19
• i notice this works for all scale functions that use `continuous_scale` (e.g. `scale_fill_continuous`), not just `scale_fill_gradient` – arvi1000 May 20 '19 at 20:53

Another way, using a custom function in `stat_summary_hex`:

``````ggplot(cbind(df, z = 1), aes(x = x, y = y, z = z)) +
stat_summary_hex(function(z){log(sum(z))})
``````

This is now part of `ggplot`, but was originally inspired by the wonderful code by by @kohske in this answer, which provided a custom `stat_aggrhex`. In versions of ggplot > 2.0, use the above code (or the other answer)

``````ggplot(cbind(df, z = 1), aes(x = x, y = y, z = z)) +
stat_aggrhex(fun = function(z) log(sum(z))) +
labs(fill = "Log counts")
``````

To generate this plot. • The aesthetic is `fill`, not `colour`, probably. – joran Nov 9 '11 at 18:51
• @Andrie, thanks! It seems much more natural to me than messing with a color palette to get colors that are evenly spaced on the log scale. – Gregor Thomas Nov 9 '11 at 19:00
• Seems a lot less natural to me. But it's always possible to transform the data or the scale. Transforming the scale will give you a sensible legend. – hadley Nov 13 '11 at 5:51
• @hadley, well, now that I found the `trans` argument to `scale\_gradient` I agree. "Natural" was probably a poor word choice in the first place too, I think what I was looking for "syntactically simple" and was under the false impression that the (now accepted) answer would be more complicated. That's what I get for not reading all the examples in the help file! – Gregor Thomas Nov 15 '11 at 19:22
• @LingZhang As @kohske has written in his answer this can be now archived by `ggplot(cbind(df, z = 1), aes(x = x, y = y, z = z)) + stat_summary_hex(function(z){log(sum(z))})` Hope it helps – bluefish Jan 23 '17 at 22:39