knitr::opts_chunk$set( collapse = TRUE, comment = "#>", fig.show = "hold", fig.width = 3.2, fig.aling = "center" )

Venn diagrams are specialized Euler diagrams. Unlike Euler diagrams,
they require that all intersections are represented. In most
implementations---including **eulerr**'s---they are also not
area-proportional.

The first requirement is often prohibitive in terms of interpretability since we often waste a considerable amount of space on the diagram's canvas with intersections that just as well might be represented by their absence. An area-proportional Euler diagram is often much more intuitive and, for relatively sparse inputs, much easier to interpret. The property of being area-proportional may sometimes, however, be treacherous, at least if the viewer isn't advised of the diagram's faults.

In such instances, it is often better to give up on area-proportionality and use a Venn diagram. It might not be as easy on the eye, but at least will be interpreted correctly.

**eulerr** only supports diagrams for up to 5 sets. Part of the reason is
practical. **eulerr** is built around ellipses and ellipses are only
good for Venn diagrams with at most 5 sets. The other part of the
reason has to do with usability. A five-set diagram is already
stretching it in terms of what we can reasonably expect the viewer to
be able to decipher. And despite the hilarity of banana-shaped six-set Venn diagrams, monstrosities like that are better left in the dark.

We will now look at some Venn diagrams and their respective Euler diagrams.

library(eulerr) set.seed(1) s2 <- c(A = 1, B = 2) plot(venn(s2)) plot(euler(s2), quantities = TRUE)

plot(venn(fruits[, 1:3])) plot(euler(fruits[, 1:3], shape = "ellipse"), quantities = TRUE)

s4 <- list(a = c(1, 2, 3), b = c(1, 2), c = c(1, 4), e = c(5)) plot(venn(s4)) plot(euler(s4, shape = "ellipse"), quantities = TRUE)

plot(venn(organisms)) plot(euler(organisms, shape = "ellipse"), quantities = TRUE)

As you can see in the last plot, there are cases where Euler diagrams can be misleading. Despite the algorithm attempting its best to make the diagram area-proportional, the constraints imposed by the geometry of the ellipses prevent a perfect fit. This is probably a case where a Venn diagram makes for a good alternative. In the author's opinion, the opposite is true for the rest.

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