I am trying to create an Euler diagram with the R package eulerr. I am using the following code:

vd <- euler(c(A = 54, B = 22, C = 53, D= 26 ,"A&B" = 20, "A&C" = 29, "A&D"=10, "B&C" = 16, "B&D"=5, "C&D"=7,"A&B&C" = 14, "A&B&D"=5, "A&C&D"=4, "B&C&D"=3,"A&B&C&D"=3),input = c("union"), shape="ellipse")

plot(vd, labels = c("A", "B", "C","D"), main = "Databases",Count=TRUE, quantities = TRUE)

I am getting the following result: enter image description here But the resulting Euler-plot is wrong:

  • Not all of B should bei included in A
  • B should be 22 in total ( in the picture it only shows a total count of 20)
  • C should be 53 in total (not 51)

How can I fix this or is this a package error?

The error_plot is shows the following: Region error: Region error Residuals:

Residuals Unfortunately the Residual-plot doesn't show the residuals. Nonetheless the missing cases are shown in the "normal" residual statistic below.

        original fitted residuals regionError
A             15     15         0       0.004
B              0      0         0       0.000
C             19     19         0       0.005
D             13     13         0       0.003
A&B            4      4         0       0.001
A&C           14     14         0       0.003
A&D            4      4         0       0.001
B&C            2      0         2       0.022
B&D            0      0         0       0.000
C&D            3      3         0       0.001
A&B&C         11     11         0       0.003
A&B&D          2      2         0       0.000
A&C&D          1      1         0       0.000
B&C&D          0      0         0       0.000
A&B&C&D        3      3         0       0.001

diagError: 0.022 
stress:    0.004 
  • 4
    The documentation says that "with three or more sets intersecting, exact Euler diagrams are often impossible. For such cases eulerr attempts to provide a good approximation by numerically tuning the parameters of the ellipses or circles to minimize the error in the resulting diagram." Perhaps this is one of those impossible cases. The documentation also says that "Residuals and goodness of fit statistics are provided to assess whether the resulting diagram can be trusted" -- did you check those? – John Coleman Jan 12 at 20:04
  • Thank you! This seems to be one of the imbossible cases. The Residuals and goodness of fit statistics shows the results displayed in my first post. – herbertus Jan 12 at 22:18

Regarding how to fix the issue, it depends on the level of precission you want. From the nVenn algorithm, I authored the nVennR package to create quasi-proportional Euler diagrams. With the caveats mentioned in the link, you can represent larger numbers of sets and show the relative size of each region. In your example,

myV <- createVennObj(nSets = 4, sNames = c('A', 'B', 'C', 'D'), sSizes = c(0, 26, 53, 7, 22, 5, 16, 3, 54, 10, 29, 4, 20, 5, 14, 3))
myV <- plotVenn(nVennObj = myV)

And the result would be: Euler diagram

Depending on your requirements, this may not be satisfactory. The proportionality is in the area of the circles, not the regions (you can see that the region 1, 2, 3, 4 - A&B&C&D - has empty space. However, this strategy overcomes the limitations of regular shapes in these representations mentioned by Johan Larsson. If you are interested, there are more details in the vignette.


The reason why some areas are left out is simple: the diagram is inexact and is missing some areas. There is no place to put the label for B&C so that's why B and C are missing 2 units. There likely isn't any way (or at least eulerr cannot find it) to perfectly represent your combination with an Euler diagram using ellipses. You either have to accept that it is inexact or try another solution.

Similarly, the residual plot cannot show the missing residuals graphically because there is no area representing them. I am, by the way, the author of this package and I do have something better in mind for the residual plot which would display missing areas as well, but I haven't had time to implement it yet.

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