Day 12: Garden Groups

Megathread guidelines

  • Keep top level comments as only solutions, if you want to say something other than a solution put it in a new post. (replies to comments can be whatever)
  • You can send code in code blocks by using three backticks, the code, and then three backticks or use something such as https://topaz.github.io/paste/ if you prefer sending it through a URL

FAQ

  • mykl@lemmy.world
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    9 days ago

    Uiua

    Takes about 3 seconds to solve both parts for live data, caused primarily by my terrible fill function in FieldCoords which repeatedly refills and dedups already discovered cells. I promised myself when I wrote it that I would revisit it, but I really can’t be bothered right now. Sorry Kai.

    LATE EDIT: Thanks to Quant for the inspiration to revisit this. With his code snippet and the realisation that I should normalise all fields to remove wasted space, runtime is now down to 55ms.

    Data ← ⊜∘⊸≠@\n "AAAA\nBBCD\nBBCC\nEEEC"
    N₄     ← [¯1_0 1_0 01 0_1]               # Four orthogonal neighbours.
    Fences ← /+/+=0(0⊡+N₄¤)⊙¤⊚.°⊚            # Fences for a field, by looking for edges.
    Cs     ← [0 1 1 0 1 0 2 1 1 2 0 1 0 1 1 0] # Number of corners keyed by bitarray of 2x2 grid.
    Sides  ← /+♭⬚0(:Cs°⋯♭)2_2°⊚              # Add border, look for corners in 2x2 windows.
    
    # Use `classify` to find fields, then normalise to 0_0.
    Fields ← ≡⍚(-¤⊸/↧)⊜□:⇡△.+1⍜♭⊛Data # Thanks to Quant!
    
    /+×≡◇⊃⧻Fences Fields
    /+×≡◇⊃⧻Sides Fields
    
    • Quant@programming.dev
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      10 days ago

      I found multidimensional markers for partition to work really well for finding the fields: Areas ← ⊜□:⇡△.+1⍜♭⊛ It just groups the other array’s contents according to adjacent markers, horizontally and vertically. Took me quite a bit to figure out what’s actually happening in the example in the documentation ^^’

      • mykl@lemmy.world
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        10 days ago

        Ooh, interesting, I’ll have to give that a try. Thanks!

        (edit) Wow, that replaced my three lines of overly complex code without a hitch. classify is an operator I never really got the point of before. Beautiful.

        Data ← ⊜∘⊸≠@\n "AAAA\nBBCD\nBBCC\nEEEC"
        N₄     ← [¯1_0 1_0 01 0_1]               # Four orthogonal neighbours.
        Fences ← /+≡(/+=00⊡+N₄¤)⊙¤⊚.°⊚            # Fences for a field, by looking for edges.
        Cs     ← [0 1 1 0 1 0 2 1 1 2 0 1 0 1 1 0] # Number of corners keyed by bitarray of 2x2 grid.
        Sides  ← /+/+⧈(:Cs°⋯♭)2_2⌝↘¯11⌝↘1_1°⊚   # Add border, look for corners in 2x2 windows.
        
        Fields ← ⊜□:⇡△.+1⍜♭⊛Data
        
        /+×≡◇⊃⧻Fences Fields
        /+×≡◇⊃⧻Sides Fields
        
          • mykl@lemmy.world
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            9 days ago

            1.8s now. 99% of that in Sides. I’ve just had an idea though… maybe too late for today though!

            edit: prepending ≡⍚(-¤⊸/↧) toFields spared me from manipulating hundreds of irrelevant 0’s, so time is very good now at 55ms.

            • Quant@programming.dev
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              8 days ago

              Damn that’s a lot time saved. I love how unassuming the addition looks for how great an effect it has

              • mykl@lemmy.world
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                8 days ago

                It was a real D’oh! moment when I visualised the data I was generating and saw all the zeros stretching across the page.