# Plot 3D prisms using ggplot2 and plotly

I have a list `a` with three matrices and a vector `h` with three heights (any positive real number). These matrices form triangles, that is, the base of the prism. I want to add the information of vector `h` to construct prisms.

I've created a function to plot graphics in 2D (`pplot`). How can I plot the prisms as in the figure below?

Let `pplot` and a toy problem be an example:

``````library(ggplot2)
pplot <- function(polygon){
polygon <- lapply(polygon, function(x) {colnames(x) <- NULL; x})
vertex_number = nrow(polygon[[1]])
g = ggplot2::ggplot()
names(polygon) = 1:length(polygon)
k <- plyr::ldply(polygon, function(x) data.frame(x))
g <- ggplot2::ggplot(k, ggplot2::aes(x = X1, y = X2, group = .id)) + ggplot2::geom_polygon(colour = "black", fill = NA)
return(g)
}

a <- list()
b1 <- matrix(rnorm(6), ncol = 2)
b2 <- matrix(rnorm(6), ncol = 2)
b3 <- matrix(rnorm(6), ncol = 2)

a[[1]] <- b1
a[[2]] <- b2
a[[3]] <- b3

h <- c(.3, .5, .1)
#pplot function example
pplot(a)
``````

Graphic desired

Where the coordinate `a = d`, `b = f`, `c = e` are vertices and all information is in `a`.

Observation 1: The data must a list.

Observation 2: I've created a post in portuguese, but nobody answered. Can I do this or it is cheating? (I'm new here) https://pt.stackoverflow.com/questions/165538/plotar-figuras-3d-para-dados-em-lista

• I thought ggplot didn't do 3D. Can you point us to an example where that supposition is proven incorrect? Nov 15, 2016 at 16:33
• An example can be seen in: r-bloggers.com/3d-plots-with-ggplot2-and-plotly Nov 15, 2016 at 16:39
• As I read that blog, it is plotly that is doing the 3D razzmatazz. Nov 15, 2016 at 16:43
• Yes, I modefied the title. Nov 15, 2016 at 16:46
• You need to explain what is desired. Perhaps the matrices are the coordinates of the bases of the polygonal pyramids and the "frequencies" are the heights? This would be a rather poorly designed graphic. This sort of graphic is typical of Excel and generally deprecated by the graphics experts who use R because the human perception of heights will not be accurate. Nov 15, 2016 at 17:05

I'm not 100% sure I understood the task correctly. Nevertheless here's a draft for a solution with the package `rgl`. In my opinion it's still the best 3D plotting framework for R, because it's much faster and scales better than the javascript APIs (plotly, rthreejs etc.).

``````#### load package rgl ####
library(rgl)

set.seed(1232)

#### construct test list with coordinate matrices ####
a <- list()
b1 <- matrix(rnorm(6), ncol = 2)
b2 <- matrix(rnorm(6), ncol = 2)
b3 <- matrix(rnorm(6), ncol = 2)

a[[1]] <- b1
a[[2]] <- b2
a[[3]] <- b3

#### define test height vector ####
h <- c(.3, .5, .1)

#### simple plot prism function ####
# a: list with coordinate matrices
# h: height vector
plotprism <- function(a, h){
# general loop to plot every prism
for(i in 1:length(h)){
# transform matrizes to data.frames and add height column
# -> separation of top and bottom triangle
top <- data.frame(a[[i]], h[i])
bottom <- data.frame(a[[i]], 0)
# adjust colnames to axis names
colnames(top) <- c("x", "y", "z")
colnames(bottom) <- c("x", "y", "z")
# plot triangles (as wireframes)
triangles3d(bottom, front = "line", back = "line")
triangles3d(top, front = "line", back = "line")
# plot vertical lines to connect the triangles
for(i in 0:2){
segments3d(
x = c(bottom\$x[1+i], top\$x[1+i]),
y = c(bottom\$y[1+i], top\$y[1+i]),
z = c(bottom\$z[1+i], top\$z[1+i])
)
}
}