Concerning this matter, the organizers definitely intended that people have to reverse-engineer the alien genome and solve their little puzzles; earlier I'd wondered if they'd deliberately designed the problem to make the image-processing approach feasible, but this appears not to have been the case.
Now, that kind of strategy had certainly occurred to them, and indeed they deliberately did not outright forbid it, but they did seek to make it highly challenging at best. And they tested all this on two separate batches of undergrad guinea pigs.
Clearly, then, my relative success is a sign that something went horribly wrong.
My theory: the organizers were thinking of the DNA as just a platform on which to build some kind of sequential random-access machine, on which conventional algorithms could then be run; and the RNA as a mostly opaque means to an end. (In fact, now that the official report has been released, evidence of this worldview can be seen.)
But in fact the RNA is all but opaque: where the DNA can use all manner of obfuscation and even outright encryption to hide its secrets, the RNA has no control flow, and is limited in what it can do with the graphics context.
Then, the genome's output RNA almost invites editing — pretty much everything in the image, including the “anticompressant” moiré pattern applied at the very end, is drawn in its own canvas and composed down, recursively where appropriate. Deleting or extracting items is thus relatively easy; and there's no need to guess at what each piece does, because it's immediately visible. (Okay, maybe not the anticompressant so much, but once you know it's there....)
As for the DNA, certainly it would be difficult indeed to outdo the organizers at creating an operating system and libraries for such a strange substrate in the time provided, let alone port a useful image decompressor to it, and then you're still stuck with an image that's 240kB in PNG. So went the organizers' reasoning, anyway. Thus, surely teams would abandon such foolish ideas for the simpler alternative of dealing with the existing genome, puzzles and encryption and damaged bits and all. Right?
But what if I don't want general computation? Let's say I want a very specific computation: Given a dictionary (list of words) and a list of numeric indices into the dictionary, return the concatenation of the corresponding words. The DNA machine can execute this operation directly: just put the dictionary words into the data section, capture them with sub-patterned skips, and encode the list of indices as a template. Or, in other words: copy and paste.
And that is data compression. Mostly because it can be iterated; I've prepared a DNA sequence that may be instructive. Obviously not every piece of DNA will be quite that repetitive, but it can get pretty good results, especially for something so simplistic — 90:1 for my winning prefix — and I didn't have to do anything remotely like building an entire computational world to get there.
Once practical inexpensive compression becomes available, the picture changes a bit (so to speak). No longer does it matter that the RNA commands are so long — a deliberate countermeasure to image reconstruction — nor that lengthy runs of IIIPIIIIIP are needed to move the point around, and similarly for color. Nor even is subtlety in the use of flood-fill and such to keep the RNA size down necessarily still a win; it may even be a net loss compared to, say, just drawing lots of identical 3x3 boxes.
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Congratulations Jed on being officially designated as "an extremely cool hacker". Double coolness for also doing it as a "team" of one, although I expect there is some correlation in that respect! I (for one) will remember your name for a long time into the future. :-)
I'm curious as to how many of the top teams used some variation of "draw it from scratch" rather than the reverse engineering/solving of puzzles approach. The judges report doesn't seem to provide this information. Was any further detail of that kind released during the presentation, and do you know what approach the winning team used?
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