263 lines
6.8 KiB
Markdown
263 lines
6.8 KiB
Markdown
---
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permalink: "/{{ year }}/{{ month }}/{{ day }}/a-lil-advent-of-code"
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title: "A Lil Advent of Code"
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published_date: "2024-12-20 20:00:00 +0100"
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layout: post.liquid
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data:
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route: blog
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excerpt: |
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I solved the first 3 days worth of puzzles of this year's Advent of Code in Lil,
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a tiny programming language, part of the Decker project.
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These are my solutions and brief thoughts on Lil.
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---
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_This post won't include too much explanation. I wanted a place to at least put my code and that's what I have a blog for._
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It's December, so everyone is doing [Advent of Code](https://adventofcode.com/).
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I'm not. Or so I told myself.
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This week, while on vacation, I had some downtime and played around with [Decker][][^1] and its accompanying programming language [Lil].
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Armed with the [tutorial][liltutorial], the [reference card][lilquickref] and the [Lil Terminal][lilt] installed, I set out to learn it and solved three days worth of puzzles from the ongoing Advent of Code 2024[^2].
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[Decker]: https://beyondloom.com/decker/
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[Lil]: https://beyondloom.com/decker/lil.html
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[liltutorial]: https://beyondloom.com/decker/learnlil.html
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[lilquickref]: https://beyondloom.com/decker/lilquickref.html
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[lilt]: https://beyondloom.com/decker/lilt.html
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Want to jump ahead? [Day 1](#day1) | [Day 2](#day2) | [Day 3](#day3) | [Thoughts](#thoughts)
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## <a name="day1"></a> Day 1
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On Day 1 you get two lists side-by-side, need to order each one individually, then take the absolute differences and add them up.
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Part 2 requires you to find the number of times an element shows up in the other list.
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That can be done in Lil like this:
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```
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example:"%i %i" parse "\n" split "
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3 4
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4 3
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2 5
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1 3
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3 9
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3 3
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"
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on sort l do
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extract value orderby value asc from l
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end
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on reverse l do
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extract value orderby index desc from l
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end
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on part1 input do
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sorted:sort @ flip input
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result:sum each x in (sorted[0] - sorted[1]) mag x end
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print[result]
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end
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on dump name x do
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print[name]
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print["," fuse (list "%J") format x]
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end
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on part2 input do
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lists:flip input
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left:extract value where value > 0 from lists[0]
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right:extract value where value > 0 from lists[1]
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counts:each elem in left
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sum right=elem
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end
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result:sum left*counts
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print[result]
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end
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part1[example]
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part2[example]
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```
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Example:
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```
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; lilt aoc1.lil
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11
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31
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```
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## <a name="day2"></a> Day 2
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On Day 2 you have to determine which reports are safe.
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A report is a line of numbers and if they match some rules it is considered safe.
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Count those safe ones.
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And part 2 allows you to make some reports safe by ignoring some results.
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```
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example:"7 6 4 2 1
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1 2 7 8 9
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9 7 6 2 1
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1 3 2 4 5
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8 6 4 4 1
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1 3 6 7 9"
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on spreadcheck elems do
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prod each elem in -2 window elems
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diff:mag elem[0]-elem[1]
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(diff-1) > 0 and (diff-1) < 3
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end
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end
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on allincr elems do
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prod each elem in -2 window elems elem[0] < elem[1] end
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end
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on alldecr elems do
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prod each elem in -2 window elems elem[0] > elem[1] end
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end
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on reportcheck report do
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report:on _ elem do "%i" parse elem end @ report
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(max allincr[report],alldecr[report]) * spreadcheck[report]
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end
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on part1 input do
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reports:on _ line do " " split line end @ "\n" split input
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result:sum reportcheck @ reports
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show[result]
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end
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on part2 input do
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reports:on _ line do " " split line end @ "\n" split input
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result:each report in reports
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report:on _ elem do "%i" parse elem end @ report
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valid:(max allincr[report],alldecr[report]) & spreadcheck[report]
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if valid
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1
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else
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max each i in range count report
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newreport:extract value where !(index=i) from report
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(max allincr[newreport],alldecr[newreport]) & spreadcheck[newreport]
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end
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end
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end
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show[sum result]
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end
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part1[example]
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part2[example]
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```
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Example:
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```
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; lilt aoc2.lil
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2
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4
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```
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## <a name="day3"></a> Day 3
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I couldn't stop, so I also solved day 3.
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Day 3 has a garbled string containing some instructions to multiply some numbers.
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Part 2 has additional instructions that turns on or off those instructions.
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I opted to iterate the string input and match for the expected patterns.
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```
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example:"xmul(2,4)%&mul[3,7]!@^do_not_mul(5,5)+mul(32,64]then(mul(11,8)mul(8,5))"
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example2:"xmul(2,4)&mul[3,7]!^don't()_mul(5,5)+mul(32,64](mul(11,8)undo()?mul(8,5))"
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on part1 input do
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f:"mul(%i,%i)"
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result:sum each i in range count input
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curinp:i drop input
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ab:f parse i drop input
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offset:(count "mul(")+(count "," fuse ab)
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if curinp[offset]=")"
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prod ab
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end
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end
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show[result]
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end
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on part2 input do
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f:"mul(%i,%i)"
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do_:"do()"
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dont:"don't()"
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enabled:1
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result:sum each i in range count input
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curinp:i drop input
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if ((count do_) limit curinp)=do_
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enabled:1
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end
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if ((count dont) limit curinp)=dont
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enabled:0
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end
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if (4 limit curinp)="mul("
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ab:f parse curinp
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offset:(count "mul(")+(count "," fuse ab)
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if enabled & curinp[offset]=")"
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prod ab
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end
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end
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end
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show[result]
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end
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part1[example]
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part2[example2]
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```
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Run it:
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```
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; lilt aoc3.lil
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159892596
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92626942
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```
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## <a name="thoughts"></a> Thoughts
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I like Lil.
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It's small, it's simple and it's surprisingly fast.
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It also gets the job done.
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These `name:data` variable assignments threw me off a bit, but I got over that hump.
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[jq](https://jqlang.github.io/jq/) is a powerful tool to work with JSON, but for the sake of it I can't remember any more of its syntax than the basic `.[]`.
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Reading and transforming a JSON file using Lil instead felt very intuitive.
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I opted to write a script I needed to transform some JSON into some other output it was intuitive.
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This is how you read and parse a JSON file[^3]:
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```
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json:"%j" parse read["droids.json"]
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```
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And then you can access the data:
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```
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extract n:name d:description where name like "Astro.*" from table json.data
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{"n":("Astromech Droid"),"d":("Astromech droids are a series of versatile utility robots generally used for the maintenance and repair of starships and related technology. These small droids are often equipped with a variety of tool-tipped appendages that are stowed in recessed compartments. The R2 unit is a popular example of an astromech droid.")}
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```
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Not needing to deal with missing fields or inconsistencies in the format
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makes it easy to ignore the error cases,
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something that comes in handy for one-off scripts.
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Now I need to take a closer look at Decker and how this powerful language can be used with it.
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---
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_Footnotes:_
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[^1]: Decker is a "multimedia platform for creating and sharing interactive documents". I have yet to actually do something cool with Decker itself.
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[^2]: I didn't _know_ I would be doing 3. But I finished Day 1 quickly, Day 2 not long after and Day 3 was done an hour later. I looked at Day 4 and how to solve it was not immediately clear, so I stopped.
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[^3]: Data from the [`droids` endpoint of the Star Wars Databank](https://starwars-databank-server.vercel.app/api/v1/droids/)
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