For a real-time interactive Mandelbrot viewer I was making in R & Rcpp+OpenMP & Shiny I am on the lookout for a performant way to display 1920x1080 matrices as raster images in the hope of being able to achieve ca. 5-10 fps (calculating the Mandelbrot images themselves now achieves ca. 20-30 fps at moderate zooms, and certainly scrolling around should go fast). Using image() with option useRaster=TRUE, plot.raster or even grid.raster() still doesn't quite cut it, so I am on the lookout for a more performant option, ideally using OpenGL acceleration.

I noticed that there are qt wrapper packages qtutils and qtpaint http://finzi.psych.upenn.edu/R/library/qtutils/html/sceneDevice.html where you can set argument opengl=TRUE and http://finzi.psych.upenn.edu/R/library/qtpaint/html/qplotView.html again with argument opengl=TRUE and http://finzi.psych.upenn.edu/R/library/qtpaint/html/painting.html.

And I also noticed that one should be able to call SDL and GL/OpenGL functions using the rdyncall package (install from https://cran.r-project.org/src/contrib/Archive/rdyncall/ and SDL from https://www.libsdl.org/download-1.2.php)`, demos available at http://hg.dyncall.org/pub/dyncall/bindings/file/87fd9f34eaa0/R/rdyncall/demo/00Index, e.g. http://hg.dyncall.org/pub/dyncall/bindings/file/87fd9f34eaa0/R/rdyncall/demo/randomfield.R).

Am I correct that with these packages one should be able to display a 2D image raster using opengl acceleration? If so, has anyone any thoughts how to do this (I'm asking because I'm not an expert in either qt or SDL/OpenGL)?

Some timings of non-OpenGL options which are too slow for my application:

# some example data & desired colour mapping of [0-1] ranged data matrix
cols=colorRampPalette(RColorBrewer::brewer.pal(11, "RdYlBu"))(ncol)
colfun=colorRamp(RColorBrewer::brewer.pal(11, "RdYlBu"))
col = rgb(colfun(seq(0,1, length.out = ncol)), max = 255)
mat2rast = function(mat, col) {
  idx = findInterval(mat, seq(0, 1, length.out = length(col)))
  colors = col[idx]
  rastmat = t(matrix(colors, ncol = ncol(mat), nrow = nrow(mat), byrow = TRUE))
  class(rastmat) = "raster"
system.time(mat2rast(mat, col)) # 0.24s

# plot.raster method - one of the best?
par(mar=c(0, 0, 0, 0))
system.time(plot(mat2rast(mat, col), asp=NA)) # 0.26s

# grid graphics - tie with plot.raster?
system.time(grid.raster(mat2rast(mat, col),interpolate=FALSE)) # 0.28s

# base R image()
par(mar=c(0, 0, 0, 0))
system.time(image(mat,axes=FALSE,useRaster=TRUE,col=cols)) # 0.74s # note Y is flipped to compared to 2 options above - but not so important as I can fill matrix the way I want

# magick - browser viewer, so no good....
# library(magick)
# image_read(mat2rast(mat, col))

# imager - doesn't plot in base R graphics device, so this one won't work together with Shiny
# If you wouldn't have to press ESC to return control to R this
# might have some potential though...
display(as.cimg(mat2rast(mat, col)))

# ggplot2 - just for the record...
system.time({q <- qplot(data=df,x=x,y=y,fill=z,geom="raster") + 
                scale_x_continuous(expand = c(0,0)) + 
                scale_y_continuous(expand = c(0,0)) +
                scale_fill_gradientn(colours = cols) + 
                theme_void() + theme(legend.position="none"); print(q)}) # 11s 
  • Try quadmesh package for conversion of raster to efficient rgl form.
    – mdsumner
    Jan 6, 2018 at 3:57
  • Well that doesn't solve my problem I reckon - I don't want to get a 3D height map of my matrix, but just a 2D colour-mapped levelplot/heatmap/raster. Jan 6, 2018 at 4:06
  • 1
    You can set z = 0. I'm not suggesting it solves your problem! I don't know the solution and am keen to find one too. Using raster or GDAL to provide level-of-detail specific to the current window is about the best I've seen, but it's hard to string the pieces together
    – mdsumner
    Jan 6, 2018 at 4:34
  • btw, I don't think you are driving magick here, there's no conversion to that format (surely plot doesn't do that implicitly??)
    – mdsumner
    Jan 6, 2018 at 4:38
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    No I had been kind of hoping for an answer here, but unfortunately I didn't get one so far... Nov 19, 2018 at 8:45

1 Answer 1


According to the RGL package introduction, it is :

a visualization device system for R, using OpenGL as the rendering backend. An rgl device at its core is a real-time 3D engine written in C++. It provides an interactive viewpoint navigation facility (mouse + wheel support) and an R programming interface.

As RGL is a real time 3D engine, I expect that using RGL for 2D will give you a fast display.

Please note that this is an old project so I am not sure that it fit your requirement.

You can take a look on this paper and see some result images in this gallery

  • I tried the RGL library, but it's only for 3D OpenGL, not 2D, which I would need here... So I'm afraid this will not work (I tried that option before)... Apr 17, 2018 at 12:26
  • That rdyncall package I think would be the way to go, but I'm afraid I would need some help to use it, as I'm not an OpenGL expert... Apr 17, 2018 at 12:27
  • Do you try to plot data in 3D on a (XY) plan/grid and fix the camera (position and direction) on the Z axe toward the XY grid ?
    Apr 17, 2018 at 12:38
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    Yes that's what I tried, but my data is not 3D so this is not efficient - there are very efficient OpenGL methods for pure 2D graphics which should be used here... Apr 17, 2018 at 12:54
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    @derhass Well at least the small subset of OpenGL that's used in the RGL package wasn't sufficient for what I wanted to do, but feel free to prove me wrong... Using SDL and OpenGL directly using rdyncall on the other hand should work (looking at the demo of the random field linked above), but I haven't figured out how to get it to work for my specific problem... Apr 18, 2018 at 8:05

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