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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

An example 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

9
  • I thought ggplot didn't do 3D. Can you point us to an example where that supposition is proven incorrect?
    – IRTFM
    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.
    – IRTFM
    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.
    – IRTFM
    Nov 15, 2016 at 17:05

1 Answer 1

4
+50

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])
      )
    }
  }
  #### add coordinate system ####
  axes3d()
}

#### call plot function for test data ####
plotprism(a, h)

The results: enter image description here

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