An R package implementing the efficient marching cubes algorithm written by Thomas Lewiner. Minor changes have been made to the code in order to work with the armadillo C++ library.
install.packages("rmarchingcubes")The key and only function exported in this package is contour3d(), taking a 3-dimensional array of values and returning the calculated 3d mesh object fit to this data. A similar function with more flexibility for different inputs and outputs is provided in the misc3d package. The implementation here has two key advantages, firstly since the implementation is based on compiled C++ code the result should be considerably quicker, perhaps by orders of magnitude, secondly normals are additionally calculated and returned for each vertex making up the 3d contour.
# Function to generate values decreasing in a sphere-like way
f <- function(coords) coords[1]^2 + coords[2]^2 + coords[3]^2
# Set grid coordinates at which to calculate values
x <- seq(-2,2,len = 20)
y <- seq(-2,2,len = 20)
z <- seq(-2,2,len = 20)
# Calculate values across grid coordinates
grid_coords <- expand.grid(x, y, z)
grid_values <- apply(grid_coords, 1, f)
# Convert to a 3d array
grid_array <- array(grid_values, dim = c(length(x), length(y), length(z)))
# Calculate 3d contour from the grid data at a contour level of value 4
contour_shape <- contour3d(
griddata = grid_array,
level = 4,
x = x,
y = y,
z = z
)
# Optionally view the output using the r3js package
# devtools::install_github("shwilks/r3js")
# Setup plot object
data3js <- r3js::plot3js(
x = x,
y = y,
z = z,
type = "n"
)
# Add shape according to the calculated contours
data3js <- r3js::shape3js(
data3js,
vertices = contour_shape$vertices,
faces = contour_shape$triangles,
normals = contour_shape$normals,
col = "red"
)
# View the plot
r3js::r3js(data3js)