70

Suppose I have the following plot in ggplot:

ggplot graph

It was generated using the code below:

x <- seq(0, 10, by = 0.2)
y1 <- sin(x)
y2 <- cos(x)
y3 <- cos(x + pi / 4)
y4 <- sin(x + pi / 4)
df1 <- data.frame(x, y = y1, Type = as.factor("sin"), Method = as.factor("method1"))
df2 <- data.frame(x, y = y2, Type = as.factor("cos"), Method = as.factor("method1"))
df3 <- data.frame(x, y = y3, Type = as.factor("cos"), Method = as.factor("method2"))
df4 <- data.frame(x, y = y4, Type = as.factor("sin"), Method = as.factor("method2"))

df.merged <- rbind(df1, df2, df3, df4)

ggplot(df.merged, aes(x, y, colour = interaction(Type, Method), linetype = Method, shape = Type)) + geom_line() + geom_point()

I would like to have only one legend that correctly displays the shapes, the colors and the line types (the interaction(Type, Method) legends is the closest to what I would like, but it does not have the correct shapes/line types).

I know that if I use scale_xxx_manual and I specify the same labels for all legends they will be merged, but I don't want to have to set the labels manually: if there are new Methods or Types, I don't want to have to modify my code: a want something generic.

Edit

As pointed in answers below, there are several ways to get the job done in this particular case. All proposed solutions require to manually set the legend line types and shapes, either by using scale_xxx_manual functions or with guides function.

However, the proposed solutions still don't work in the general case: for instance, if I add a new data frame to the data set with a new "method3" Method, it does not work anymore, we have to manually add the new legend shapes and line types:

y5 <- sin(x - pi / 4)
df5 <- data.frame(x, y = y5, Type = as.factor("sin"), Method = as.factor("method3"))
df.merged <- rbind(df1, df2, df3, df4, df5)
override.shape <- c(16, 17, 16, 17, 16)
override.linetype <- c(1, 1, 3, 3, 4)

g <- ggplot(df.merged, aes(x, y, colour = interaction(Type, Method), linetype = Method, shape = Type)) + geom_line() + geom_point()
g <- g + guides(colour = guide_legend(override.aes = list(shape = override.shape, linetype = override.linetype)))
g <- g + scale_shape(guide = FALSE)
g <- g + scale_linetype(guide = FALSE)
print(g)

This gives:

5 curves

Now the question is: how to automatically generate the override.shape and override.linetype vectors?

Note that the vector size is 5 because we have 5 curves, while the interaction(Type, Method) factor has size 6 (I don't have data for the cos/method3 combination)

5
  • 1
    Your color scale is redundant to the combined shape and linetype scales. You should use only one of these.
    – Roland
    May 10, 2016 at 14:02
  • Yes, its redundant. At first, I had colors mapped to Type and linetype mapped to Method. But then, when curves were too close to each other, it was hard to tell them apart. Thus the redundancy
    – Ben
    May 10, 2016 at 14:05
  • 7
    It is often appropriate to have redundant shape/color group definitions. In many scientific publications, color is the most visually effective way to distinguish groups, but you also know that a large fraction of readers will be printing black and white copies of the paper, and so you also want to include a visual cue that isn't dependent on color.
    – neuropsych
    Apr 1, 2017 at 21:30
  • Dear @Ben I know this question is old, but did you get any new answers on your GENERAL question, here? Aug 2, 2019 at 15:38
  • I believe my answer was as close as it gets to the general answer... I didn't look further anyway
    – Ben
    Aug 2, 2019 at 15:39

5 Answers 5

39

Use labs() and set the same value for all aesthetics defining the appearance of geoms.

library('ggplot2')
ggplot(iris) + 
  aes(x = Sepal.Length, y = Sepal.Width, 
      color = Species, linetype = Species, shape = Species) +
  geom_line() +
  geom_point() +
  labs(color  = "Guide name", linetype = "Guide name", shape = "Guide name")

4
  • 1
    This is by far the simplest option which allows merging of legend types.
    – RoB
    Nov 4, 2019 at 16:08
  • 6
    This only works if the same variable is used for each aesthetic, unlike OP's question?
    – Matifou
    Jun 8, 2020 at 1:40
  • 1
    Nice easy solution, but how to change the label of the items? Dec 16, 2020 at 22:03
  • Easiest solution as compared to the others.
    – Usama Moin
    May 12, 2021 at 1:20
31

The R Cookbook section on Legends explains:

If you use both colour and shape, they both need to be given scale specifications. Otherwise there will be two two separate legends.

In your case you need specifications for shape and linetype.

Edit

It was important to have the same data creating the shapes colors and lines, I combined your interaction phase by defining the column directly. Instead of scale_linetype_discrete to create the legend, I used scale_linetype_manual to specify the values since they will take on four different values by default.

If you would like a detailed layout of all possible shapes and line types, check this R Graphics site to see all of the number identifiers:

df.merged$int <- paste(df.merged$Type, df.merged$Method, sep=".")

ggplot(df.merged, aes(x, y, colour = int, linetype=int, shape=int)) +
  geom_line() +
  geom_point() +
  scale_colour_discrete("") +
  scale_linetype_manual("", values=c(1,2,1,2)) +
  scale_shape_manual("", values=c(17,17,16,16))

enter image description here

4
  • 2
    Well this would be the same as diasbling legends for linetype and shape but I think the OP wants 4 legend symbols with different colour/linetype/shape combined in each
    – erc
    May 10, 2016 at 14:14
  • 1
    Well, that's almost what I'm looking for: you have one legend, true. But I could get the same result with scale_shape(guide = FALSE) and scale_linetype(guide = FALSE). And with your solution, I don't have the solid/dashed lines in the legend, nor the shape.
    – Ben
    May 10, 2016 at 14:16
  • I see. It's very similar to my solution and the one proposed by @eipi10. In your case however, the shape and linetype scale values are set manually.
    – Ben
    May 10, 2016 at 16:02
  • Yes I think that we all reached the right conclusion. The line types and shapes must be picked specifically since they do not take on a unique value for each.
    – Pierre L
    May 10, 2016 at 16:08
13

Here is the solution in the general case:

# Create the data frames
x <- seq(0, 10, by = 0.2)
y1 <- sin(x)
y2 <- cos(x)
y3 <- cos(x + pi / 4)
y4 <- sin(x + pi / 4)
y5 <- sin(x - pi / 4)
df1 <- data.frame(x, y = y1, Type = as.factor("sin"), Method = as.factor("method1"))
df2 <- data.frame(x, y = y2, Type = as.factor("cos"), Method = as.factor("method1"))
df3 <- data.frame(x, y = y3, Type = as.factor("cos"), Method = as.factor("method2"))
df4 <- data.frame(x, y = y4, Type = as.factor("sin"), Method = as.factor("method2"))
df5 <- data.frame(x, y = y5, Type = as.factor("sin"), Method = as.factor("method3"))

# Merge the data frames
df.merged <- rbind(df1, df2, df3, df4, df5)

# Create the interaction
type.method.interaction <- interaction(df.merged$Type, df.merged$Method)

# Compute the number of types and methods
nb.types <- nlevels(df.merged$Type)
nb.methods <- nlevels(df.merged$Method)

# Set the legend title
legend.title <- "My title"

# Initialize the plot
g <- ggplot(df.merged, aes(x,
                           y,
                           colour = type.method.interaction,
                           linetype = type.method.interaction,
                           shape = type.method.interaction)) + geom_line() + geom_point()
# Here is the magic
g <- g + scale_color_discrete(legend.title)
g <- g + scale_linetype_manual(legend.title,
                               values = rep(1:nb.types, nb.methods))
g <- g + scale_shape_manual(legend.title,
                            values = 15 + rep(1:nb.methods, each = nb.types))
# Display the plot
print(g)

The result is the following:

The solution

  • Sinus curves are drawn as solid lines and cosinus curves as dashed lines.
  • "method1" data use filled circles for the shape.
  • "method2" data use filled triangle for the shape.
  • "method3" data use filled diamonds for the shape.
  • The legend matches the curve

To summarize, the tricks are :

  • Use the Type/Method interaction for all data representations (colour, shape, linetype, etc.)
  • Then manually set both the curve styles and the legends styles with scale_xxx_manual.
  • scale_xxx_manual allows you to provide a values vector that is longer than the actual number of curves, so it's easy to compute the style vector values from the sizes of the Type and Method factors
12

One just need to name both guides the same. For example:

g+ scale_linetype_manual(name="Guide1",values= c('solid', 'solid', 'dotdash'))+
   scale_colour_manual(name="Guide1", values = c("blue", "green","red"))
0
10

The code below results in the desired legend, if I understand your question, but I'm not sure I understand the label issue, so let me know if this isn't what you were looking for.

p = ggplot(df.merged, aes(x, y, colour=interaction(Type, Method), 
                          linetype=interaction(Type, Method), 
                          shape=interaction(Type, Method))) + 
  geom_line() + 
  geom_point()

p + scale_shape_manual(values=rep(16:17, 2)) +
  scale_linetype_manual(values=rep(c(1,3),each=2))

enter image description here

1
  • This is one way of doing it indeed. I'll post another solution I found. IMHO, both are not very simple and I wished there was a better way to handle this case.
    – Ben
    May 10, 2016 at 15:48

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