Here's an example of a binned density plot:

n <- 1e5
df <- data.frame(x = rexp(n), y = rexp(n))
p <- ggplot(df, aes(x = x, y = y)) + stat_binhex()

enter image description here

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.

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    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)

enter image description here

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.

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  • Man, you have two "best" answers for the same question :-). Awesome! – Eduardo Aug 8 '14 at 12:59
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    @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)) + 

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.

enter image description here

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    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
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    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
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    @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

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