To get ggplot to plot minor breaks correctly on a logarithmic scale, I had to do this thing:

faceplant1 <- function(x) {
    return (c(x[1]*10^.25, x[2]/10^.25))
faceplant2 <- function(x) {
    return (rep(seq(1,9),5)*rep(10^seq(-6,-2), each=9))
ggplot(mydata, aes(x=myseries)) +
    geom_density() +
    scale_x_log10(limits=c(1e-6, 1e-1),
                  minor_breaks=trans_breaks(faceplant1, faceplant2, n=45))

Is there a simpler way to achieve this?

The end result should look like:

Plot with log minor breaks

  • Not clear, you want the minor breaks also on log scale as per major, or you want the minor breaks on 'linear' scale within log scale major breaks?
    – Scransom
    May 12, 2015 at 5:39
  • The latter, I think; as that's what's depicted in the graph.
    – Reinderien
    May 12, 2015 at 5:40
  • 4
    I love your function-naming convention ;o)
    – Emmet
    Sep 29, 2015 at 22:53

3 Answers 3


Here's my solution to that problem:


log10_minor_break = function (...){
  function(x) {
    minx         = floor(min(log10(x), na.rm=T))-1;
    maxx         = ceiling(max(log10(x), na.rm=T))+1;
    n_major      = maxx-minx+1;
    major_breaks = seq(minx, maxx, by=1)
    minor_breaks = 
      rep(log10(seq(1, 9, by=1)), times = n_major)+
      rep(major_breaks, each = 9)

mydata = data.frame(myseries = 10^(rnorm(1e4, mean=0, sd=0.5)))

myplot = 
  ggplot(mydata, aes(x=myseries))+
  theme(panel.grid.major.x = element_line(size=1.0),
        panel.grid.minor.x = element_line(size=2))


It is very similar to what you've already done but applies generally. And a minor improvement: it would expand the minor breaks below 1e-6 and above1e-1 in your example.

I have started from looking at the function trans_break and reduced it to its most fundamental element.

It is also worth considering the annotation_logticks() function:

  • This does not seem to have every major tick labeled (e.g. 0.01 - 100). How do you get every major tick labeled?
    – David S
    Sep 6, 2016 at 19:55
  • I'd think that making sure all major ticks are labeled would involve the breaks parameter in the scale_x_log10 function. Perhaps writing a function to ensure that all major breaks are included...
    – W7GVR
    Dec 14, 2016 at 23:51
  • Please see my adaptation in a separate answer, if you have any suggestions.
    – Reinderien
    Oct 9, 2017 at 15:43
  • This all seems overly complicated to get some minor scale log grid lines - in Excel, you just tick a box to show the minor log grid! I would have thought by now the function 'scale_y_log10' options would just have something like minor gird = TRUE and options to control its appearance?
    – Markm0705
    Jun 2 at 0:08

Years later: I have adapted @gvrocha's answer to be (even more) generic.

log_breaks = function(maj, radix=10) {
  function(x) {
    minx         = floor(min(logb(x,radix), na.rm=T)) - 1
    maxx         = ceiling(max(logb(x,radix), na.rm=T)) + 1
    n_major      = maxx - minx + 1
    major_breaks = seq(minx, maxx, by=1)
    if (maj) {
      breaks = major_breaks
    } else {
      steps = logb(1:(radix-1),radix)
      breaks = rep(steps, times=n_major) +
               rep(major_breaks, each=radix-1)
scale_x_log_eng = function(..., radix=10) {
                     breaks=log_breaks(TRUE, radix),
                     minor_breaks=log_breaks(FALSE, radix))
scale_y_log_eng = function(..., radix=10) {
                     breaks=log_breaks(TRUE, radix),
                     minor_breaks=log_breaks(FALSE, radix))

Then usage is more elegant:

ggplot(...) +
   geom_line() +
   scale_x_log_eng() +
  • One note for anyone who uses these functions: scales package also has log_breaks function. So to avoid conflicts, it's probably a good idea to name custom function differently
    – Tung
    Jun 10 at 18:25

I'd say the simplest solution is to use annotation_logticks() and arrange the short, mid and long arguments to mimic grid lines, then remove grid lines and use appropriate scales to plot the data. For example,

annotation_logticks(short = unit(1, "npc"), mid = unit(1, "npc"), long = unit(1,"npc"), ...) + 
theme(panel.grid = element_blank()) +
scale_x_log10(breaks = 10^(seq(-6,-1,1)), limits = c(10^-6, 0.1),...)

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