I have data that looks like:

Scaffold        Position    FST         FSTweighted
scaffold_0      3661    0.892846        0.942443
scaffold_0      3753    0.744999        0.852019
scaffold_0      3944    0.701541        0.811277
scaffold_0      5154    0.791776        0.882565
scaffold_0      5828    0.855855        0.920420
scaffold_0      7267    0.781189        0.880121
scaffold_0      8758    0.697221        0.838060
scaffold_0      8775    0.677975        0.826714

scaffold_34     3661    0.924131        0.959825
scaffold_34     3753    0.781721        0.880779
scaffold_34     3944    0.936296        0.966685
scaffold_34     5154    0.649778        0.811332
scaffold_34     5828    0.677881        0.835190
scaffold_34     7267    0.651654        0.809437
scaffold_34     8758    0.654892        0.811430
scaffold_34     8775    0.656732        0.812575

Where a Position can repeat for each scaffold. I have a total of 857,731,628 lines like this and have to generate some sort of visualization of it (a scatterplot, heatmap, ...).

I have tried:

fst = fread("beng_wbm_par15_angsdfst_9.txt")

colnames(fst) = c("Scaffold", "Position", "FST", "FSTweighted")

ggplot(fst, aes(y=FSTweighted, x=Pos)) + geom_point()

ggplot(fst, aes(y=FSTweighted, x=Pos, fill=FSTweighted, colour=FSTweighted)) +
  geom_point() +
  scale_color_gradient(low="lightblue", high = "red") +
  scale_fill_gradient(low="lightblue", high = "red")

ggplot(fst, aes(y=FSTweighted, x=Pos)) +
  stat_bin2d(bins=100) +
  scale_color_gradient(low="red", high = "lightblue") +
  scale_fill_gradient(low="red", high = "lightblue")

But they are all very slow.

I only found very old responses to this question here and with a data structure different from mine (which I failed to adapt to mine).

I'm new to Big Data and have no idea what's out there to handle this kind of stuff in R.

  • 1
    You're currently using base::pdf() to save the output generated from all your ggplot() calls. I would recommend you use ggplot2::ggsave(). – Cristian E. Nuno Oct 10 at 0:25
  • Are they (1) slow to produce, likely a factor of the size of data vice the mechanism to save to file; or (2) slow to show in the PDF viewer, indicating that a vector-based plotting solution will always suffer when you have millions of data points on a page? – r2evans Oct 10 at 1:10
  • Slow to produce. – Madza Yasodara Farias Virgens Oct 10 at 1:16
  • 1
    The first two solutions will be very slow b/c ggplot is typically used for perhaps up to a few 100k points, not 857 million. Vector-based solutions will be very slow to show in the PDF viewer, because each element will need to be rendered afresh. Better to use binning (especially since a letter-size page can only display <30 megapixels at 600 dpi, so your data is literally beyond recognition) to reduce the data density to something perceivable. Binning beforehand with data.table will likely speed things up. – Jon Spring Oct 10 at 4:26
  • 1
    An alternative to binning is provided in an old answer of mine: stackoverflow.com/questions/21489385/… Briefly, the idea is (1) use png file format so that the large number of points doesn't impact file size much. (2) plot all the points but make each point transparent -- the right transparency value can really make interesting patterns appear. (3) add a summary line (running mean, such as loess regression line) to cut through all the clutter of the millions of points. – bdemarest Oct 10 at 4:55

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