AdventOfCode/2017/21/21.md

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## \-\-- Day 21: Fractal Art \-\--
You find a program trying to generate some art. It uses a strange
process that involves [repeatedly
enhancing]{title="This technique is also often used on TV."} the detail
of an image through a set of rules.
The image consists of a two-dimensional square grid of pixels that are
either on (`#`) or off (`.`). The program always begins with this
pattern:
.#.
..#
###
Because the pattern is both `3` pixels wide and `3` pixels tall, it is
said to have a *size* of `3`.
Then, the program repeats the following process:
- If the size is evenly divisible by `2`, break the pixels up into
`2x2` squares, and convert each `2x2` square into a `3x3` square by
following the corresponding *enhancement rule*.
- Otherwise, the size is evenly divisible by `3`; break the pixels up
into `3x3` squares, and convert each `3x3` square into a `4x4`
square by following the corresponding *enhancement rule*.
Because each square of pixels is replaced by a larger one, the image
gains pixels and so its *size* increases.
The artist\'s book of enhancement rules is nearby (your puzzle input);
however, it seems to be missing rules. The artist explains that
sometimes, one must *rotate* or *flip* the input pattern to find a
match. (Never rotate or flip the output pattern, though.) Each pattern
is written concisely: rows are listed as single units, ordered top-down,
and separated by slashes. For example, the following rules correspond to
the adjacent patterns:
../.# = ..
.#
.#.
.#./..#/### = ..#
###
#..#
#..#/..../#..#/.##. = ....
#..#
.##.
When searching for a rule to use, rotate and flip the pattern as
necessary. For example, all of the following patterns match the same
rule:
.#. .#. #.. ###
..# #.. #.# ..#
### ### ##. .#.
Suppose the book contained the following two rules:
../.# => ##./#../...
.#./..#/### => #..#/..../..../#..#
As before, the program begins with this pattern:
.#.
..#
###
The size of the grid (`3`) is not divisible by `2`, but it is divisible
by `3`. It divides evenly into a single square; the square matches the
second rule, which produces:
#..#
....
....
#..#
The size of this enhanced grid (`4`) is evenly divisible by `2`, so that
rule is used. It divides evenly into four squares:
#.|.#
..|..
--+--
..|..
#.|.#
Each of these squares matches the same rule (`../.# => ##./#../...`),
three of which require some flipping and rotation to line up with the
rule. The output for the rule is the same in all four cases:
##.|##.
#..|#..
...|...
---+---
##.|##.
#..|#..
...|...
Finally, the squares are joined into a new grid:
##.##.
#..#..
......
##.##.
#..#..
......
Thus, after `2` iterations, the grid contains `12` pixels that are *on*.
*How many pixels stay on* after `5` iterations?
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Your puzzle answer was `162`.
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## \-\-- Part Two \-\-- {#part2}
*How many pixels stay on* after `18` iterations?
Your puzzle answer was `2264586`.
Both parts of this puzzle are complete! They provide two gold stars:
\*\*
At this point, you should [return to your Advent calendar](/2017) and
try another puzzle.
If you still want to see it, you can [get your puzzle
input](21/input).
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