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I am trying to plot two variables where N=700K. The problem is that there is too much overlap, so that the plot becomes mostly a solid block of black. Is there any way of having a grayscale "cloud" where the darkness of the plot is a function of the number of points in an region? In other words, instead of showing individual points, I want the plot to be a "cloud", with the more the number of points in a region, the darker that region.

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It sounds like you're looking for a heatmap:… – Jack Maney Oct 10 '11 at 15:01
up vote 86 down vote accepted

One way to deal with this is with alpha blending, which makes each point slightly transparent. So regions appear darker that have more point plotted on them.

This is easy to do in ggplot2:

df <- data.frame(x = rnorm(5000),y=rnorm(5000))
ggplot(df,aes(x=x,y=y)) + geom_point(alpha = 0.3)

enter image description here

Another convenient way to deal with this is (and probably more appropriate for the number of points you have) is hexagonal binning:

ggplot(df,aes(x=x,y=y)) + stat_binhex()

enter image description here

And there is also regular old rectangular binning (image omitted), which is more like your traditional heatmap:

ggplot(df,aes(x=x,y=y)) + geom_bin2d()
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Perfect! Thanks, Joran. – user702432 Oct 10 '11 at 15:16
How can i change the colours? I am now getting blue to black scale, whereas i would like to get reg, green blue scale. – user1007742 Aug 12 '14 at 13:44
@user1007742 Use scale_fill_gradient() and specify your own low and high colors, or use scale_fill_brewer() and choose from one of the sequential palettes. – joran Aug 12 '14 at 14:04
@joran thanks, that is working now. How about changing the the type/shape of the points? I get either hexagon or square. I just want simple dots. When i use geom_point(), it gives me error. – user1007742 Aug 12 '14 at 14:09
@user1007742 Well, it's called "hexagonal binning" for a reason! ;) It isn't plotting "points" it is dividing the entire region into hexagonal (or rectangular) bins and then simply coloring the bins based upon how many points are in that bin. So the short answer is "you can't". If you want different shapes, you have to use geom_point() and plot each individual point. – joran Aug 12 '14 at 14:18

You can also have a look at the ggsubplot package. This package implements features which were presented by Hadley Wickham back in 2011 (

(In the following, I include the "points"-layer for illustration purposes.)


# Make up some data
dat <- data.frame(cond = rep(c("A", "B"), each=5000),
                  xvar = c(rep(1:20,250) + rnorm(5000,sd=5),rep(16:35,250) + rnorm(5000,sd=5)),
                  yvar = c(rep(1:20,250) + rnorm(5000,sd=5),rep(16:35,250) + rnorm(5000,sd=5)))

# Scatterplot with subplots (simple)
ggplot(dat, aes(x=xvar, y=yvar)) +
  geom_point(shape=1) +
  geom_subplot2d(aes(xvar, yvar,
                     subplot = geom_bar(aes(rep("dummy", length(xvar)), ..count..))), bins = c(15,15), ref = NULL, width = rel(0.8), ply.aes = FALSE)

enter image description here

However, this features rocks if you have a third variable to control for.

# Scatterplot with subplots (including a third variable) 

ggplot(dat, aes(x=xvar, y=yvar)) +
  geom_point(shape=1, aes(color = factor(cond))) +
  geom_subplot2d(aes(xvar, yvar,
                     subplot = geom_bar(aes(cond, ..count.., fill = cond))),
                 bins = c(15,15), ref = NULL, width = rel(0.8), ply.aes = FALSE)  

enter image description here

Or another approach would be to use smoothScatter():


enter image description here

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that second plot is great! – Ricardo Saporta May 1 '13 at 16:42
What if I have 3D data? – skan Feb 16 at 15:03
@ skan: You can open a new question for that. – majom Feb 16 at 19:41

You can also use density contour lines (ggplot2):

df <- data.frame(x = rnorm(15000),y=rnorm(15000))
ggplot(df,aes(x=x,y=y)) + geom_point() + geom_density2d()

enter image description here

Or combine density contours with alpha blending:

ggplot(df,aes(x=x,y=y)) + 
    geom_point(colour="blue", alpha=0.2) + 

enter image description here

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Alpha blending is easy to do with base graphics as well.

df <- data.frame(x = rnorm(5000),y=rnorm(5000))
with(df, plot(x, y, col="#00000033"))

enter image description here

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Just to add a bit of context, "#000000" is the color black and the "33" added to the end of the color is the degree of opacity---here, 33%. – Charlie Oct 11 '11 at 16:25
Thanks for the added explanation. – Aaron Oct 11 '11 at 16:48
Makes perfect sense. Thanks, both Aaron and Charlie. – user702432 Oct 12 '11 at 3:58
Minor note; the numbers are in hex so 33 is actually 3/16th opaque. – Aaron Dec 13 '11 at 14:50

You may find useful the hexbin package. From the help page of hexbinplot:

mixdata <- data.frame(x = c(rnorm(5000),rnorm(5000,4,1.5)),
                      y = c(rnorm(5000),rnorm(5000,2,3)),
                      a = gl(2, 5000))
hexbinplot(y ~ x | a, mixdata)


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+1 hexbin is my preferred solution - it can take a large # of points and then safely create a plot. I'm not sure that the others won't try to produce a plot, but simply shade things differently ex post. – Iterator Oct 15 '11 at 16:59
Anything like hexbin for 3D data? – skan Feb 16 at 15:04

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