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Suppose I'm plotting a dense scatter plot in ggplot2 in R where each point might be labeled by a different color:

df <- data.frame(x=rnorm(500))
df$y = rnorm(500)*0.1 + df$x
df$label <- c("a")
df$label[50] <- "point"
df$size <- 2
ggplot(df) + geom_point(aes(x=x, y=y, color=label, size=size))

When I do this, the scatter point labeled "point" (green) is plotted on top of the red points which have the label "a". What controls this z ordering in ggplot, i.e. what controls which point is on top of which? For example, what if I wanted all the "a" points to be on top of all the points labeled "point" (meaning they would sometimes partially or fully hide that point)? Does this depend on alphanumerical ordering of labels? I'd like to find a solution that can be translated easily to rpy2. thanks

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4 Answers 4

ggplot2 will create plots layer-by-layer and within each layer, the plotting order is defined by the geom type. The default is to plot in the order that they appear in the data.

Where this is different, it is noted. For example


Connect observations, ordered by x value.



Connect observations in data order

There are also known issues regarding the ordering of factors, and it is interesting to note the response of the package author Hadley

The display of a plot should be invariant to the order of the data frame - anything else is a bug.

This quote in mind, a layer is drawn in the specified order, so overplotting can be an issue, especially when creating dense scatter plots. So if you want a consistent plot (and not one that relies on the order in the data frame) you need to think a bit more.

Create a second layer

If you want certain values to appear above other values, you can use the subset argument to create a second layer to definitely be drawn afterwards. You will need to explicitly load the plyr package so .() will work.

df <- data.frame(x=rnorm(500))
df$y = rnorm(500)*0.1 + df$x
df$label <- c("a")
df$label[50] <- "point"
df$size <- 2
ggplot(df) + geom_point(aes(x = x, y = y, color = label, size = size)) +
  geom_point(aes(x = x, y = y, color = label, size = size), 
             subset = .(label == 'point'))

enter image description here

Or use alpha

Another approach to avoid the problem of overplotting would be to set the alpha (transparancy) of the points. This will not be as effective as the explicit second layer approach above, however, with judicious use of scale_alpha_manual you should be able to get something to work.


# set alpha = 1 (no transparency) for your point(s) of interest
# and a low value otherwise
ggplot(df) + geom_point(aes(x=x, y=y, color=label, size=size,alpha = label)) + 
  scale_alpha_manual(guide='none', values = list(a = 0.2, point = 1))

enter image description here

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Wow. geom_path is super valuable here... this post is interesting as well: groups.google.com/forum/#!topic/ggplot2/OuuYottSVwQ –  Matt Bannert Sep 20 '14 at 21:37

The fundamental question here can be rephrased like this:

How do I control the layers of my plot?

In the 'ggplot2' package, you can do this quickly by splitting each different layer into a different command. Thinking in terms of layers takes a little bit of practice, but it essentially comes down to what you want plotted on top of other things. You build from the background upwards.

Prep: Prepare the sample data. This step is only necessary for this example, because we don't have real data to work with.

# Establish random seed to make data reproducible.

# Generate sample data.
df <- data.frame(x=rnorm(500))
df$y = rnorm(500)*0.1 + df$x

# Initialize 'label' and 'size' default values.
df$label <- "a"
df$size <- 2

# Label and size our "special" point.
df$label[50] <- "point"
df$size[50] <- 4

You may notice that I've added a different size to the example just to make the layer difference clearer.

Step 1: Separate your data into layers. Always do this BEFORE you use the 'ggplot' function. Too many people get stuck by trying to do data manipulation from with the 'ggplot' functions. Here, we want to create two layers: one with the "a" labels and one with the "point" labels.

df_layer_1 <- df[df$label=="a",]
df_layer_2 <- df[df$label=="point",]

You could do this with other functions, but I'm just quickly using the data frame matching logic to pull the data.

Step 2: Plot the data as layers. We want to plot all of the "a" data first and then plot all the "point" data.

ggplot() + 
        aes(x=x, y=y), 
        size=df_layer_1$size) +
        aes(x=x, y=y), 

demo chart

Notice that the base plot layer ggplot() has no data assigned. This is important, because we are going to override the data for each layer. Then, we have two separate point geometry layers geom_point(...) that use their own specifications. The x and y axis will be shared, but we will use different data, colors, and sizes.

It is important to move the colour and size specifications outside of the aes(...) function, so we can specify these values literally. Otherwise, the 'ggplot' function will usually assign colors and sizes according to the levels found in the data. For instance, if you have size values of 2 and 5 in the data, it will assign a default size to any occurrences of the value 2 and will assign some larger size to any occurrences of the value 5. An 'aes' function specification will not use the values 2 and 5 for the sizes. The same goes for colors. I have exact sizes and colors that I want to use, so I move those arguments into the 'geom_plot' function itself. Also, any specifications in the 'aes' function will be put into the legend, which can be really useless.

Final note: In this example, you could achieve the wanted result in many ways, but it is important to understand how 'ggplot2' layers work in order to get the most out of your 'ggplot' charts. As long as you separate your data into different layers before you call the 'ggplot' functions, you have a lot of control over how things will be graphed on the screen.

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your second solution with layers is nice but there is no legend unfortunately for the colored points –  user248237dfsf Jun 2 '13 at 6:36

It's plotted in order of the rows in the data.frame. Try this:

df2 <- rbind(df[-50,],df[50,])
ggplot(df2) + geom_point(aes(x=x, y=y, color=label, size=size))

As you see the green point is drawn last, since it represents the last row of the data.frame.

Here is a way to order the data.frame to have the green point drawn first:

df2 <- df[order(-as.numeric(factor(df$label))),]
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When I try your code, the green point is still on top of all the red. Is there a way to just change the z order without altering the dataframe? I just want certain points to be on top of others in a very dense scatter –  user248237dfsf Mar 29 '13 at 15:41
You should have set the random seed to make your question reproducible. Just order the data.frame by label before passing it to ggplot. If you want the green point drawn first, order the data.frame so that rows with label point are on top of the data.frame. –  Roland Mar 29 '13 at 15:44
unfortunately I don't know how to translate this df[order(-as.numeric(factor(df$label))),] into Rpy2 syntax (I am using rpy2, not R directly). –  user248237dfsf Mar 29 '13 at 18:40
Sorry, I know nothing about rpy2. You could use df[order(df$label,decreasing=TRUE),], which should do the same. –  Roland Mar 30 '13 at 12:42

In ggplot2, you can use the order aesthetic to specify the order in which points are plotted. The last ones plotted will appear on top. To apply this, you can create a variable holding the order in which you'd like points to be drawn.

To put the green dot on top by plotting it after the others:

df$order <- ifelse(df$label=="a", 1, 2)
ggplot(df) + geom_point(aes(x=x, y=y, color=label, size=size, order=order))

Or to plot the green dot first and bury it, plot the points in the opposite order:

ggplot(df) + geom_point(aes(x=x, y=y, color=label, size=size, order=-order))

For this simple example, you can skip creating a new sorting variable and just coerce the label variable to a factor and then a numeric:

ggplot(df) +
  geom_point(aes(x=x, y=y, color=label, size=size, order=as.numeric(factor(df$label))))
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