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The official awful.systems Advent of Code 2023 thread
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21 Step Counter
Starting this thread having only solved a.
A
Pretty straightforward. Could probably be done in a few lines with the right syntactic sugar.B
This is some game of life thing that I've never implemented or seen an implementation of, so I am altogether lost.My current code (https://github.com/Fluxward/aoc2023/blob/main/21.dart) has a memoisation based approach but my current ailments are preventing me from really thinking about this properly so I am bowing out until I have the wherewithal.
This is the hardest problem of the year so far, based on leaderboard completion times. I'm busy wrapping up work for this year, and looking for a new job, so this will have to be put on the TODO pile
At this point I have officially given up and started looking at other people’s code. I’ll work on it after Imm fully better, it’s too much for me right now.
Only solved by receving heavy hints from other's solution, and it still took me forever. By far the hardest this year.
Update on B:
still no solve, however
Through glancing at someone else's code, I was inspired to just try simulating the A problem beyond 64 steps and seeing the result.Essentially it reaches a (bi stable?) steady state between two numbers, which makes sense- if you can only make single rook steps, then the reachable squares will alternate every cycle.
Don't know if I'll try solve this again tonight but mentally I have now understood the solution.
Update to the update: now fully recovered, I am now trying to finish the last problems.
Solved 21 B!
I spent way too much time on this but it’s fine
So my approach to AOC has always been to write a pure coding solution, which finally broke down here.First, the solve:
I call the unrepeated garden map the “plot”. Each repetition of the plot I call a “grid”. Hope that isn’t confusing.
To see why that last point is true, consider that in order for another grid A to influence an adjacent grid B beyond the moment the adjacent grid is entered, there must be a reachable point further from the midpoint of the edge on the edge of A. However, because the middle row and column are free from rocks, this is never the case. Any influence from A reaches B too late, i.e. reachable squares on B from A will be reachable sooner from just travelling from the entry point on B.
So putting all this together, the way I got the answer was like this:
So I guess the answer I arrived at was what I’d been thinking I should be doing this whole time: a mix of simulating some of the problem and a decent amount of pen and paper work to get the solution out, rather than just pure coding. Fun!