I know that adding a second axis to a ggplot2 plot is actually not welcome, but in my case it does make sense, at least for me. I try to show the development of an aggregate variable for a certain industry, let's say turnover, and I would like to also show the number of companies, which were part of that industry at each point in time. So that you could see that the increase in aggregate turnover is not fully driven by the number of companies, but rather by the increase in turnover at the companies. I could calculate the average of course, but then again I could not really show, what is actually driving the increase/decrease.

 dt.company.data <- data.table(year = 2000:2015, Num.Companies = c(385, 374, 
                                           365, 390, 410, 425, 429, 427, 410, 407, 434, 444, 519, 506, 463, 
                                           388), Value = c(3155.69125, 4086.579, 7553.78425, 7515.07275, 
                                                           7571.95025, 6884.45075, 20009.79475, 15886.1025, 9813.0265, 11232.50775, 
                                                           11323.67375, 19137.25225, 21569.86375, 20616.758, 20030.20875, 

Obviously the following code does not work, since the scales are so different for both variables.

ggplot(dt.company.data) +
    geom_bar(aes(x = year , weight = Num.Companies)) +
    geom_line(aes(x = year, y = Value))
  • 1
    have you tried scaling the Value to the the scale of num.companies with something like geom_line(aes(x = year, y = Value/10)) and adding a hint to the legend? – loki Sep 16 '16 at 10:17
up vote 1 down vote accepted

by scaling the Value to the range of num.companies you can achieve this. I added a dummy id to generate the legend.

dt.company.data$id <- factor(1)

ggplot(dt.company.data) +
  geom_bar(aes(x = year , weight = Num.Companies), fill = "grey70") +
  geom_line(aes(x = year, y = Value/100, colour = id)) + 
  scale_colour_manual(name = "Legend", labels = c("Value in 100"), values = c("black"))

the outcome looks like this: enter image description here

  • Ok, that seems to be a nice and clean solution, although a more generic approach, without manually defining the scaling factor would be nice. – hannes101 Sep 16 '16 at 11:40
  • 1
    you could think of a function that finds the best scaling factor as an exponent of 10 automatically. – loki Sep 16 '16 at 11:43

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